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HomeMy WebLinkAbout2615 CANNON RD; ; FPR2018-0169; PermitE1 1 1JiTI F1 El 2e] Ti tcity of Carlsbad Print Date: 02/23/2021 Job Address: 2615 CANNON RD, CARLSBAD, CA 92010 Permit Type: FIRE-Construction Residential Work Class: Parcel #: 1683601600 Track #: Valuation: $8,149,184.31 Lot #: Occupancy Group: Project #: #of Dwelling Units: Plan #: Bedrooms: Construction Type: Bathrooms: Orig. Plan Check #: Plan Check #: Permit No: FPR2018-0169 Status: Closed - Finaled Single Family Fire Sprinkl Applied: 10/05/2018 Issued: 12/24/2018 DEV09003 Finaled Close Out: 02/23/2021 Inspector: Final Inspection: Project Title: ROBERTSON RANCH PA 22 Description: CASA ALDEA BLDG 1 -.NEW NFPA 13 SPRINKLER SYSTEM (939 HEADS) 36 UNIT SENIOR APARTMENT Applicant: FPContractor: SYMONS FIRE PROTECTION SYMONS FIRE PROTECTION INC ANGELA ZUMAVA 12155 PAINE PL 12155 PAINE P1 POWAY, CA 92064-7154 POWAY, CA 92064-7154 (619) 588-6364 (619) 588-6364 FEE AMOUNT FIRE NFPA 13 System> 100 heads (includes 1 riser) $858.00 FIRE Reinspection (per inspection) $193.00 Fire Use Fee Manual $474.00 Total Fees: $1,525.00 Total Payments To Date: $1,525.00 Balance Due: $0.00 Fire Department Page 1 of 1 1635 Faraday Avenue, Carlsbad CA 92008-7314 1 760-602-4665 1 760-602-8561 f I www.carlsbadca.gov SYMONS FIRE PROTECTION INC. 12155 PAINE PLACE POWAY, CA 92064 HYDRAULIC CALCULATIONS FOR Ri.2o 9 _O1c ôV1-o CASA ALDEA APTS CANNON ROAD CARLSBAD CA. 92010 DRAWING NUMBER: FS-10 DATE: NOV 21, 2018 -DESIGN DATA- REMOTE AREA NUMBER: #3 REMOTE AREA LOCATION: BLDG 2 LIVING UNIT OCCUPANCY CLASSIFICATION: LIVING SPACE DENSITY: .10 gpm/sq. ft. AREA OF APPLICATION: 8-HEADS COVERAGE PER SPRINKLER: 200 S.F. TYPE OF SPRINKLERS CALCULATED: 4.9k & 3.0k RES PENDENT NUMBER OF SPRINKLERS CALCULATED: 8 HOSE-STREAM DEMAND: 100 gpm TOTAL WATER REQUIRED @ SRC (INCLUDING HOSE): 254.9 gpm FLOW AND PRESSURE (AT BASE OF FLOOR RISER): 154.9 gpm 8 67.5 psi TYPE OF SYSTEM: WET WATER SUPPLY Source: CITY OF CARLSBAD Test Date: 08/2018 Test By: J. MAEL Location: EXISTING SITE HYDRANT Static: 136.0 psi Residual: 96.0 psi Flow: 3500 gpm Source Elevation Relative to Finished Flow Level: 3 ft. INSTALLING CONTRACTOR Name: SYMONS FIRE PROTECTION INC. Address: 12155 PAINE PLACE, POWAY, CA 92064 Phone: 619-588-6364 Certification number: C-16 682025 NAME OF DESIGNER: DEGEORGE AUTHORITY HAVING CITY OF CARLSBAD NOTES: ALL CPVC FITTINGS HAVE BEEN INCORPORATED INTO TOTAL PIPE LENGHTS (Notes continue after pipe calculations results.) SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 2 DATE: 11/21/2018HRS SYSTEMS\HASS85\CASA ALDEA BLDG 2 - 8HEAD RES CALC.SDF JOB TITLE: CASA ALDEA BLDG. 1 RES 8-HEAD CALC f WATER SUPPLY ANALYSIS Static: 122.40 psi Resid: 86.40 psi Flow: 3500.0 gpm 140.0 LEGEND 1 Available pressure 112.0 122.12 psi 8 254.9 gpm G A U G 2 E 84.0 P R E S S 56.0 U R E 611, k,411 Required pressure 94.03 psi 8 254.9 gpm Source Supply Curve System Demand Curve P 28.0 S i -14.7 80C12001600 2000 2400 2800 3200 3600 4000 FLOW (GPM) Note: (1) Dashed Lines indicate extrapolated values from Test Results SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 3 DATE: 11/21/2018HRS SYSTEMS\HASS85\CASA ALDEA BLDG 2 - 8HEAD RES CALC.SDF JOB TITLE: CASA ALDEA BLDG. 1 RES 8-HEAD CALC NFPA WATER SUPPLY DATA SOURCE STATIC RESID. FLOW AVAIL. TOTAL REQ'D NODE PRESS. PRESS. @ PRESS. 8 DEMAND PRESS. TAG (PSI) (PSI) (GPM) (PSI) (GPM) (PSI) SRC 122.4 86.4 3500.0 122.1 254.9 94.0 AGGREGATE PLOW ANALYSIS: TOTAL FLOW AT SOURCE 254.9 GPM TOTAL HOSE STREAM ALLOWANCE AT SOURCE 0.0 GPM OTHER HOSE STREAM ALLOWANCES 100.0 GPM TOTAL DISCHARGE FROM ACTIVE SPRINKLERS 154.9 GPM NODE ANALYSIS DATA NODE TAG ELEVATION NODE TYPE PRESSURE DISCHARGE NOTES (PT) (PSI) (GPM) Hi 28.5 K= 4.90 16.7 20.0 H2 28.5 K= 4.90 17.2 20.3 H3 27.5 K= 4.90 17.2 20.3 H4 28.5 K= 3.00 17.4 12.5 H5 27.5 K= 3.00 18.5 12.9 H6 27.5 K= 4.90 20.8 22.4 H7 28.5 K= 3.00 26.8 15.5 H8 28.5 K= 4.90 39.7 30.9 Li 29.5 - - - - 16.6 - - - L2 29.5 - - - - 17.2 - - - L3 29.5 - - - - 17.1 - - - L4 29.5 - - - - 18.0 - - - L5 29.5 - - - - 20.5 - - - L6 29.5 - - - - 26.6 - - - L7 29.5 - - - - 41.1 - - - Mi 28.5 - - - - 44.7 - - - M2 28.5 - - - - 44.9 - - - M3 28.5 - - - - 49.7 - - - TR3 28.5 - - - - 62.6 - - - BR3 23.5 - - - - 67.5 - - - TOR 8.0 - - - - 75.2 - - - POC 0.5 - - - - 78.7 - - - PIV -3.0 - - - - 81.2 - - - UG2 -3.0 HOSE STREAM 81.4 100.0 BFi 3.0 - - - - 78.9 - - - BF2 3.0 - - - - 93.9 - - - SRC 3.0 SOURCE 94.0 254.9 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 4 DATE: 11/21/2018HRS SYSTEMS\HASS85\CASA ALDEA BLDG 2 - 8HEAD RES CALC.SDF JOB TITLE: CASA ALDEA BLDG. 1 RES 8-HEAD CALC NFPA PIPE DATA Pipe Tag K-fac Add Fl Fl To Vel Fit: L C (Pt) Frm Node El (ft) PT (q) Node/ Nom ID Eq.Ln. F (Pe) To Node El (ft) PT Tot. (Q) Disch Act ID (ft.) T Pf/ft. (Pf) Pipe: 1 4.90 20.0 Disch 6.7 6.00 150 0.0 Li 29.5 16.6 0.0 1.000 ---- 0.00 -0.4 Hi 28.5 16.7 20.0 1.101 6.00 0.068 0.4 Pipe: 2 4.90 20.3 Disch 6.8 6.00 150 0.0 L2 29.5 17.2 0.0 1.000 ---- 0.00 -0.4 H2 28.5 17.2 20.3 1.101 6.00 0.070 0.4 Pipe: 3 0.0 0.0 6.7 8.00 150 0.5 L2 29.5 17.2 20.0 1.000 ---- 0.00 0.0 Ll 29.5 16.6 20.0 1.101 8.00 0.068 0.5 Pipe: 4 4.90 20.3 Disch 6.9 10.50 150 -0.1 L3 29.5 17.1 0.0 1.000 ---- 0.00 -0.9 H3 27.5 17.2 20.3 1.101 10.50 0.070 0.7 Pipe: 5 3.00 12.5 Disch 4.2 6.00 150 -0.3 L3 29.5 17.1 0.0 1.000 ---- 0.00 -0.4 H4 28.5 17.4 12.5 1.101 6.00 0.029 0.2 Pipe: 6 0.0 0.0 11.1 5.50 150 0.9 L4 29.5 18.0 32.9 1.000 ---- 0.00 0.0 L3 29.5 17.1 32.9 1.101 5.50 0.170 0.9 Pipe: 7 3.00 12.9 Disch 4.3 14.00 150 -0.4 L4 29.5 18.0 0.0 1.000 ---- 0.00 -0.9 H5 27.5 18.5 12.9 1.101 14.00 0.030 0.4 Pipe: 8 0.0 20.0 Ll 13.6 3.50 150 0.9 L4 29.5 18.0 20.3 H2 1.000 ---- 0.00 0.0 L2 29.5 17.2 40.3 1.101 3.50 0.249 0.9 Pipe: 9 4.90 22.4 Disch 7.5 7.00 150 -0.3 L5 29.5 20.5 0.0 1.000 ---- 0.00 -0.9 H6 27.5 20.8 22.4 1.101 7.00 0.084 0.6 Pipe: 10 0.0 40.3 L2 18.1 7.75 150 2.5 L5 29.5 20.5 32.9 L3 1.250 ---- 0.00 0.0 L4 29.5 18.0 86.1 1.394 7.75 0.321 2.5 Pipe: ii 3.00 15.5 Disch 5.2 6.00 150 -0.2 L6 29.5 26.6 0.0 1.000 ---- 0.00 -0.4 H7 28.5 26.8 15.5 1.101 6.00 0.043 0.3 Pipe: 12 0.0 86.1 L4 22.8 12.33 150 6.1 L6 29.5 26.6 22.4 H6 1.250 ---- 0.00 0.0 L5 29.5 20.5 108.4 1.394 12.33 0.492 6.1 Notes (Pt) (Pe) (Pf) 18.1 0.4 17.6 3.8 0.4 3.3 0.2 0.0 0.2 II 12.9 0.0 12.9 4.9 2.2 2.7 7.7 6.7 0.9 3.5 3.2 0.3 2.5 1.5 1.0 0.2 0.0 0.2 -2.5 -2.6 0.1 Notes SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 5 DATE: 11/21/2018HRS SYSTEMS\HASS85\CASA ALDEA BLDG 2 - 8HEAD RES CALC.SDF JOB TITLE: CASA ALDEA BLDG. 1 RES 8-HEAD CALC Pipe Tag K-fac Add Fl Fl To Vel Fit: L C Frm Node El (ft) PT (q) Node! Nom ID Eq.Ln. F To Node El (ft) PT Tot. (Q) Disch Act ID (ft.) T Pf!ft. Pipe: 13 0.0 108.4 L5 26.1 28.00 150 Ml 28.5 44.7 15.5 H7 1.250 ---- 0.00 L6 29.5 26.6 124.0 1.394 28.00 0.630 Pipe: 14 4.90 30.9 Disch 10.4 12.00 150 L7 29.5 41.1 0.0 1.000 ---- 0.00 H8 28.5 39.7 30.9 1.101 12.00 0.152 Pipe: 15 0.0 0.0 10.4 22.00 150 M2 28.5 44.9 30.9 1.000 ---- 0.00 L7 29.5 41.1 30.9 1.101 22.00 0.152 Pipe: 16 0.0 0.0 8.6 5.75 150 M2 28.5 44.9 124.0 L6 2.500 ---- 0.00 Ml 28.5 44.7 124.0 2.423 5.75 0.043 Pipe: 17 0.0 124.0 Ml 10.8 75.00 150 M3 28.5 49.7 30.9 L7 2.500 ---- 0.00 M2 28.5 44.9 154.8 2.423 75.00 0.064 Pipe: 18 0.0 0.0 10.8 200.00 150 , TR3 28.5 62.6 154.8 M2 2.500 ---- 0.00 M3 28.5 49.7 154.8 2.423 200.00 0.064 Pipe: 19 0.0 0.0 9.1 E: 8.0 5.00 120 BR3 23.5 67.5 154.8 M3 2.500 C:19.0 37.00 TR3 28.5 62.6 154.8 2.635 3:10.0 42.00 0.065 Pipe: 20 0.0 0.0 3.5 100.00 120 TOR 8.0 75.2 154.8 TR3 4.000 4E:52.0 52.00 BR3 23.5 67.5 154.8 4.260 152.00 0.006 Pipe: 21 0.0 0.0 3.5 7.50 120 POC 0.5 78.7 154.8 BR3 4.000 E:13.0 39.00 TOR 8.0 75.2 154.8 4.260 T:26.0 46.50 0.006 Pipe: 22 0.0 0.0 3.5 5E100.0 80.00 150 Ply -3.0 81.2 154.8 TOR 4.000 C:43.0 147.00 POC 0.5 78.7 154.8 4.240 G: 4.0 227.00 0.004 Pipe: 23 0.0 0.0 3.5 10.00 150 UG2 -3.0 81.4 154.8 POC 4.000 T:39.0 39.00 PIV -3.0 81.2 154.8 4.240 49.00 0.004 Pipe: 24 H.S. 100.0 Disch 1.6 180.00 150 BF1 3.0 78.9 154.8 PIV 8.000 2E:54.0 107.00 UG2 -3.0 81.4 254.8 7.980 T:53.0 287.00 0.000 Pipe: 25 0.0 Fixed Pressure Loss Device BF2 3.0 93.9 254.8 UG2 15.0 psi, 254.8 gpm BF1 3.0 78.9 254.8 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 6 DATE: 11/21/2018HRS SYSTEMS\HASS85\CASA ALDEA BLDG 2 - 8HEAD RES CALC.SDF JOB TITLE: CASA ALDEA BLDG. 1 RES 8-HEAD CALC f Pipe Tag K-fac Add Fl Fl To Vel Fit: L C (Pt) Frm Node El (ft) PT (q) Node! Nom ID Eq.Ln. F (Pe) To Node El )ft) PT Tot. (Q) Disch Act ID (ft.) T Pf!ft. (Pf) Pipe: 26 Source 0.0 1.6 3E:81.0 80.00 150 0.1 SRC 3.0 94.0 254.9 BFI 8.000 T:53.0 140.00 0.0 BF2 3.0 93.9 254.9 7.980 G: 6.0 220.00 0.000 0.1 NOTES (HASS) Calculations were performed by the HASS 8.8 computer program in accordance with NFPA13 (2016) under license no. 50111768 granted by HRS Systems, Inc. 208 Southside Square Petersburg, TN 37144 (931) 659-9760 The system has been calculated to provide an average imbalance at each node of 0.005 gpm and a maximum imbalance at any node of 0.125 gpm. Total pressure at each node is used in balancing the system. Maximum water velocity is 26.1 ft/sec at pipe 13. Items listed in bold print on the cover sheet are automatically transferred from the calculation report. Available pressure at source node SRC under full flow conditions is 122.05 psi with a flow of 285.63 gpm. PIPE FITTINGS TABLE HASS Pipe Table Name: standard.pip PAGE: B MATERIAL: THNWL HMC: 120 Diameter Equivalent Fitting Lengths in Feet (in) E T L C B G A D N Ell Tee LngEll ChkVlv BfyVlv GatVlv AlmChk DPVlv NPTee 2.635 8.00 17.00 6.00 19.00 10.00 1.00 14.00 14.00 17.00 4.260 13.00 26.00 8.00 29.00 16.00 3.00 26.00 26.00 26.00 Notes SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 7 DATE: 11/21/2018HRS SYSTEMS\HASS85\CASA ALDEA BLDG 2 - 8HEAD RES CALC.SDF JOB TITLE: CASA ALDEA BLDG. 1 RES 8-HEAD CALC PAGE: E MATERIAL: PVC150 HWC: 150 Diameter Equivalent Fitting Lengths in Feet (in) E T L C B G N Ell Tee LngEii ChkVlv BfyVlv GatVlv NPTee 4.240 20.00 39.00 12.00 43.00 23.00 4.00 39.00 7.980 27.00 53.00 20.00 68.00 18.00 6.00 53.00 PAGE: F MATERIAL: CPVC HWC: 150 Diameter Equivalent Fitting Lengths in Feet (in) F E T R K C G F45 Eli Tee RunT Kplg ChkViv Gate 1.101 1.40 2.50 6.00 1.70 1.00 8.00 0.40 1.394 1.80 3.80 7.30 2.30 1.00 11.00 0.80 2.423 3.10 6.90 14.70 4.90 2.00 21.00 2.00 SYMONS FIRE PROTECTION INC. 12155 PAINE PLACE POWAY, CA 92064 HYDRAULIC CALCULATIONS FOR CASA ALDEA APTS CANNON ROAD CARLSBAD CA. 92010 DRAWING NUMBER: FS-11 DATE: NOV 21, 2018 -DESIGN DATA- REMOTE AREA NUMBER: #4 REMOTE AREA LOCATION: BLDG 2 ATTIC OCCUPANCY CLASSIFICATION: ATTIC DENSITY: .10 gpm/sq. ft. AREA OF APPLICATION: 5-HEADS COVERAGE PER SPRINKLER: <40' TYPE OF SPRINKLERS CALCULATED: 5.6 BB1 ATTIC NUMBER OF SPRINKLERS CALCULATED: 5 HOSE-STREAM DEMAND: 100 gpm TOTAL WATER REQUIRED @ SRC (INCLUDING HOSE) : 228.1 gpm FLOW AND PRESSURE (AT BASE OF FLOOR RISER) : 128.1 gpm 0 70.3 psi TYPE OF SYSTEM: WET WATER SUPPLY Source: CITY OF CARLSBAD Test Date: 08/2018 Test By: J. MAEL Location: EXISTING SITE HYDRANT Static: 136.0 psi Residual: 96.0 psi Flow: 3500 gpm Source Elevation Relative to Finished Flow Level: 3 ft. INSTALLING CONTRACTOR Name: SYMONS FIRE PROTECTION INC. Address: 12155 PAINE PLACE, POWAY, CA 92064 Phone: 619-588-6364 Certification number: C-16 682025 NAME OF DESIGNER: DEGEORGE AUTHORITY HAVING: CITY OF CARLSBAD NOTES: ALL CPVC FITTINGS HAVE BEEN INCORPORATED INTO TOTAL PIPE LENGHTS (Notes continue after pipe calculations results.) SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 2 DATE: 11/21/20181GN CALCS\HRS SYSTEMS\HASS85\CASA ALDEA BLDG. 2 ATTIC.SDF JOB TITLE: CASA ALDEA BLDG. 2 ATTIC WATER SUPPLY ANALYSIS Static: 122.40 psi Resid: 86.40 psi Flow: 3500.0 gpm 140.0 LEGEND 1 Available pressure 112.0 122.17 psi @ 228.1 gpm G A 2 G E 84.0 P R E S 56.0 U R E Required pressure 96.02 psi 8 228.1 gpm Source Supply Curve System Demand Curve P 28.0 S i I, -14.7 80C12001600 2000 2400 2800 3200 3600 4000 FLOW (GPM) Note: (1) Dashed Lines indicate extrapolated values from Test Results SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 3 DATE: 11/21/20181GN CALCS\HRS SYSTEMS\HASS85\CASA ALDEA BLDG. 2 ATTIC.SDF JOB TITLE: CASA ALDEA BLDG. 2 ATTIC NFPA WATER SUPPLY DATA SOURCE STATIC RESID. FLOW AVAIL. TOTAL REQ'D NODE PRESS. PRESS. 8 PRESS. 8 DEMAND PRESS. TAG (PSI) (PSI) (GPM) (PSI) (GPM) (PSI) SRC 122.4 86.4 3500.0 122.2 228.1 96.0 AGGREGATE FLOW ANALYSIS: TOTAL FLOW AT SOURCE 228.1 GPM TOTAL HOSE STREAM ALLOWANCE AT SOURCE 0.0 GPM OTHER HOSE STREAM ALLOWANCES 100.0 GPM TOTAL DISCHARGE FROM ACTIVE SPRINKLERS 128.1 GPM NODE ANALYSIS DATA NODE TAG ELEVATION NODE TYPE (FT) SD1 31.0 K= 5.60 BB2 34.0 K= 5.60 BB3 34.0 K= 5.60 BB4 34.0 K= 5.60 BB5 34.0 K= 5.60 SD 28.5 - - - - M3 28.5 - - - - BB 28.5 TR3 28.5 - - - - BR3 23.5 - - - - TOR 8.0 POC 0.5 PIV -3.0 UG2 -3.0 HOSE STREAM BF1 3.0 3F2 3.0 SRC 3.0 SOURCE PRESSURE DISCHARGE NOTES (PSI) (GPM) 24.7 27.8 20.0 25.1 19.9 25.0 20.0 25.0 20.3 25.2 58.2 - - - 59.4 - - - 60.4 - - - 66.2 - - - 70.2 - - - 77.6 - - - 81.1 - - - 83.3 - - - 83.4 100.0 80.9 - - - 95.9 - - - 96.0 228.1 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 4 DATE: 11/21/2018IGN CALCS\HRS SYSTEMS\HASS85\CASA ALDEA BLDG. 2 ATTIC.SDF JOB TITLE: CASA ALDEA BLDG. 2 ATTIC NFPA PIPE DATA Pipe Tag K-fac Add Fl Fl To Vel Fit: L C (Pt) Frm Node El (ft) PT (q) Node! Nom ID Eq.Ln. F (Pe) To Node El (ft) PT Tot. (Q) Disch Act ID (ft.) T Pf!ft. (Pf) Pipe: 1 5.60 27.8 Disch 14.6 150.00 150 33.5 SD 28.5 58.2 41.8 BB2 1.250 ---- 0.00 1.1 SD1 31.0 24.7 69.6 1.394 150.00 0.216 32.5 Pipe: 2 5.60 25.1 Disch 8.8 40.00 150 4.7 SD1 31.0 24.7 16.7 BB3 1.250 ---- 0.00 1.3 BB2 34.0 20.0 41.8 1.394 40.00 0.084 3.4 Pipe: 3 5.60 25.0 Disch 3.5 6.00 150 0.1 BB2 34.0 20.0 -8.3 BB4 1.250 ---- 0.00 0.0 BB3 34.0 19.9 16.7 1.394 6.00 0.015 0.1 Pipe: 4 5.60 25.0 Disch 1.7 6.00 150 0.0 BB4 34.0 20.0 -16.7 BB2 1.250 ---- 0.00 0.0 BB3 34.0 19.9 8.3 1.394 6.00 0.004 0.0 Pipe: 5 5.60 25.0 Disch 7.0 6.00 150 0.3 BB5 34.0 20.3 8.3 BB3 1.250 ---- 0.00 0.0 BB4 34.0 20.0 33.3 1.394 6.00 0.055 0.3 Pipe: 6 5.60 25.2 Disch 12.3 240.00 150 40.1 BB 28.5 60.4 33.3 BB4 1.250 ---- 0.00 2.4 BB5 34.0 20.3 58.5 1.394 240.00 0.157 37.7 Pipe: 7 0.0 0.0 4.8 82.00 150 1.2 M3 28.5 59.4 69.6 SD1 2.500 ---- 0.00 0.0 SD 28.5 58.2 69.6 2.423 82.00 0.015 1.2 Pipe: 8 0.0 0.0 4.8 66.00 150 1.0 BB 28.5 60.4 69.6 SD 2.500 ---- 0.00 0.0 M3 28.5 59.4 69.6 2.423 66.00 0.015 1.0 Pipe: 9 0.0 69.6 513 8.9 127.00 150 5.8 TR3 28.5 66.2 58.5 BB5 2.500 ---- 0.00 0.0 BB 28.5 60.4 128.1 2.423 127.00 0.045 5.8 Pipe: 10 0.0 0.0 7.5 E: 8.0 5.00 120 4.1 BR3 23.5 70.2 128.1 BB 2.500 C:19.0 37.00 2.2 TR3 28.5 66.2 128.1 2.635 B:10.0 42.00 0.046 1.9 Pipe: 11 0.0 0.0 2.9 100.00 120 7.4 TOR 8.0 77.6 128.1 TR3 4.000 4E:52.0 52.00 6.7 BR3 23.5 70.2 128.1 4.260 152.00 0.004 0.7 Pipe: 12 0.0 0.0 2.9 7.50 120 3.5 POC 0.5 81.1 128.1 BR3 4.000 E:13.0 39.00 3.2 TOR 8.0 77.6 128.1 4.260 T:26.0 46.50 0.004 0.2 Notes SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 5 DATE: 11/21/20181GN CALCS\HRS SYSTEMS\HASS85\CASA ALDEA BLDG. 2 ATTIC.SDF JOB TITLE: CASA ALDEA BLDG. 2 ATTIC Pipe Tag K-fac Add Fl Fl To Vel Fit: L C (Pt) Frm Node El (ft) PT (q) Node/ Nom ID Eq.Ln. F (Pe) To Node El (ft) PT Tot. (Q) Disch Act ID (ft.) T Pf/ft. (Pf) Pipe: 13 0.0 0.0 2.9 5E100.0 80.00 150 2.2 PIV -3.0 83.3 128.1 TOR 4.000 C:43.0 147.00 1.5 POC 0.5 81.1 128.1 4.240 G: 4.0 227.00 0.003 0.7 Pipe: 14 0.0 0.0 2.9 10.00 150 0.1 UG2 -3.0 83.4 128.1 POC 4.000 T:39.0 39.00 0.0 PIV -3.0 83.3 128.1 4.240 49.00 0.003 0.1 Pipe: 15 H.S. 100.0 Disch 1.5 180.00 150 -2.5 BF1 3.0 80.9 128.1 PIV 8.000 2E:54.0 107.00 -2.6 UG2 -3.0 83.4 228.1 7.980 T:53.0 287.00 0.000 0.1 Pipe: 16 0.0 Fixed Pressure Loss Device BF2 3.0 95.9 228.1 UG2 15.0 psi, 228.1 gpm BF1 3.0 80.9 228.1 Pipe: 17 Source 0.0 1.5 3E:81.0 80.00 150 0.1 SRC 3.0 96.0 228.1 BF1 8.000 T:53.0 140.00 0.0 BF2 3.0 95.9 228.1 7.980 G: 6.0 220.00 0.000 0.1 NOTES (BASS) Calculations were performed by the HASS 8.8 computer program in accordance with NFPA13 (2016) under license no. 50111768 granted by HRS Systems, Inc. 208 Southside Square Petersburg, TN 37144 (931) 659-9760 The system has been calculated to provide an average imbalance at each node of 0.005 gpm and a maximum imbalance at any node of 0.087 gpm. Total pressure at each node is used in balancing the system. Maximum water velocity is 14.6 ft/sec at pipe 1. Items listed in bold print on the cover sheet are automatically transferred from the calculation report. Available pressure at source node SRC under full flow conditions is 122.12 psi with a flow of 252.13 gpm. Notes SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 6 DATE: 11/21/20181GN CALCS\HRS SYSTEMS\HASS85\CASA ALDEA BLDG. 2 ATTIC.SDF JOB TITLE: CASA ALDEA BLDG. 2 ATTIC (6) PIPE FITTINGS TABLE HASS Pipe Table Name: standard.pip PAGE: B MATERIAL: THNWL HWC: 120 Diameter Equivalent Fitting Lengths in Feet (in) E T L C B G A D N Ell Tee LngEll ChkVlv BfyVlv GatVlv AlmChk DPVlv NPTee 2.635 8.00 17.00 6.00 19.00 10.00 1.00 14.00 14.00 17.00 4.260 13.00 26.00 8.00 29.00 16.00 3.00 26.00 26.00 26.00 PAGE: E MATERIAL: PVC150 HWC: 150 Diameter Equivalent Fitting Lengths in Feet (in) E T L C B G N Ell Tee LngEll ChkVlv BfyVlv GatVlv NPTee 4.240 20.00 39.00 12.00 43.00 23.00 4.00 39.00 7.980 27.00 53.00 20.00 68.00 18.00 6.00 53.00 PAGE: F MATERIAL: CPVC HWC: 150 Diameter Equivalent Fitting Lengths in Feet (in) F E T R K C G F45 Ell Tee RunT Kplg ChkVlv Gate 1.394 1.80 3.80 7.30 2.30 1.00 11.00 0.80 2.423 3.10 6.90 14.70 4.90 2.00 21.00 2.00 SYMONS FIRE PROTECTION INC. 12155 PAINE PLACE POWAY, CA 92064 HYDRAULIC CALCULATIONS FOR CASA ALDEA APTS CANNON ROAD CARLSBAD CA. 92010 DRAWING NUMBER: FS-07 DATE: NOV 21, 2018 -DESIGN DATA- REMOTE AREA NUMBER: #5 REMOTE AREA LOCATION: BLDG 1 ATTIC OCCUPANCY CLASSIFICATION: ATTIC DENSITY: .10 gpm/sq. ft. AREA OF APPLICATION: 5-HEADS COVERAGE PER SPRINKLER: <30' TYPE OF SPRINKLERS CALCULATED: 5.6 SD1 ATTIC NUMBER OF SPRINKLERS CALCULATED: 5 HOSE-STREAM DEMAND: 100 gpm TOTAL WATER REQUIRED @ SRC (INCLUDING HOSE) : 228.2 gpm FLOW AND PRESSURE (AT BASE OF FLOOR RISER) : 1282 gpm 8 53.3 psi TYPE OF SYSTEM: WET WATER SUPPLY Source: CITY OF CARLSBAD Test Date: 08/2018 Test By: J. MAEL Location: EXISTING SITE HYDRANT Static: 136.0 psi Residual: 96.0 psi Flow: 3500 gpm Source Elevation Relative to Finished Flow Level: 3 ft. INSTALLING CONTRACTOR Name: SYMONS FIRE PROTECTION INC. Address: 12155 PAINE PLACE, POWAY, CA 92064 Phone: 619-588-6364 Certification number: C-16 682025 NAME OF DESIGNER: DEGEORGE AUTHORITY HAVING: CITY OF CARLSBAD NOTES: ALL CPVC FITTINGS HAVE BEEN INCORPORATED INTO TOTAL PIPE LENGHTS (Notes continue after pipe calculations results.) SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 2 DATE: 11/21/2018SIGN CALCS\HRS SYSTEMS\HASS85\CASA ALDEA BLDG 1 ATTIC.SDF JOB TITLE: CASA ALDEA BLDG 1 ATTIC CALC WATER SUPPLY ANALYSIS Static: 122.40 psi Resid: 86.40 psi Flow: 3500.0 gpm 140.0 LEGEND 1 Available pressure 112.0 122.17 psi 8 228.2 gpm 0 A • Required pressure U 79.56 psi @ 228.2 gpm G E 84.0 P 2 R E S 56.0 U R E Source Supply Curve System Demand Curve P 28.0 S i Mul -14.7 80C12001600 2000 2400 2800 3200 3600 4000 FLOW (GPM) Note: (1) Dashed Lines indicate extrapolated values from Test Results SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 3 DATE: 11/21/2018SIGN CALCS\HRS SYSTEMS\HASS85\CASA ALDEA BLDG 1 ATTIC.SDF JOB TITLE: CASA ALDEA BLDG 1 ATTIC CALC NFPA WATER SUPPLY DATA SOURCE STATIC RESID. FLOW AVAIL. TOTAL REQ'D NODE PRESS. PRESS. 8 PRESS. 8 DEMAND PRESS. TAG (PSI) (PSI) (GPM) (PSI) (GPM) (PSI) SRC 122.4 86.4 3500.0 122.2 228.2 79.6 AGGREGATE FLOW ANALYSIS: TOTAL FLOW AT SOURCE 228.2 GPM TOTAL HOSE STREAM ALLOWANCE AT SOURCE 0.0 GPM OTHER HOSE STREAM ALLOWANCES 100.0 GPM TOTAL DISCHARGE FROM ACTIVE SPRINKLERS 128.2 GPM NODE ANALYSIS DATA NODE TAG ELEVATION NODE TYPE PRESSURE DISCHARGE NOTES (FT) (PSI) (GPM) SD1 32.0 K= 5.60 19.9 25.0 SD2 32.0 K= 5.60 20.1 25.1 SD3 32.0 K= 5.60 20.8 25.6 SD4 32.0 K= 5.60 22.1 26.3 SD5 32.0 K= 5.60 21.9 26.2 SD 32.0 - - - - 23.4 - - - mio 28.5 - - - - 36.9 - - - TR3 28.5 - - - - 49.2 - - - BR3 23.5 - - - - 53.3 - - - TOR 8.2 - - - - 61.0 - - - POC 0.5 - - - - 64.5 PIV -3.0 - - - - 66.8 - - - UG1 -3.0 HOSE STREAM 66.9 100.0 BF1 3.0 - - - - 64.5 - - - BF2 3.0 - - - - 79.5 - - - SRC 3.0 SOURCE 79.6 228.2 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 4 DATE: 11/21/201851GN CALCS\HRS SYSTEMS\HASS85\CASA ALDEA BLDG 1 ATTIC.SDF JOB TITLE: CASA ALDEA BLDG 1 ATTIC CALC Pipe Tag K-fac Add Fl Fl To Vel Fit: L C (Pt) Frm Node El (ft) PT (q) Node/ Nom ID Eq.Ln. F (Pe) To Node El (ft) PT Tot. (Q) Disch Act ID (ft.) T Pf/ft. (Pf) Pipe: 1 5.60 25.0 Disch 5.3 6.00 150 0.2 SD2 32.0 20.1 0.0 1.250 ---- 0.00 0.0 5D1 32.0 19.9 25.0 1.394 6.00 0.033 0.2 Pipe: 2 5.60 25.1 Disch 10.5 6.00 150 0.7 SD3 32.0 20.8 25.0 SD1 1.250 ---- 0.00 0.0 SD2 32.0 20.1 50.1 1.396 6.00 0.117 0.7 Pipe: 3 5.60 25.6 Disch 15.9 10.00 150 2.5 SD 32.0 23.4 50.1 SD2 1.250 ---- 0.00 0.0 SD3 32.0 20.8 75.7 1.394 10.00 0.253 2.5 Pipe: 4 5.60 26.2 Disch 5.5 6.00 150 0.2 SD4 32.0 22.1 0.0 1.250 ---- 0.00 0.0 SD5 32.0 21.9 26.2 1.394 6.00 0.035 0.2 Pipe: 5 5.60 26.3 Disch 11.0 10.00 150 1.3 SD 32.0 23.4 26.2 SD5 1.250 ---- 0.00 0.0 SD4 32.0 22.1 52.5 1.394 10.00 0.128 1.3 Pipe: 6 0.0 52.5 SD4 26.9 18.00 150 13.6 £410 28.5 36.9 75.7 SD3 1.250 ---- 0.00 1.5 SD 32.0 23.4 128.2 1.394 18.00 0.670 12.1 Pipe: 7 0.0 0.0 8.9 270.00 150 12.3 TR3 28.5 49.2 128.2 SD 2.500 0.00 0.0 £410 28.5 36.9 128.2 2.423 270.00 0.045 12.3 Pipe: 8 0.0 0.0 7.5 E: 8.0 5.00 120 4.1 BR3 23.5 53.3 128.2 £410 2.500 C:19.0 37.00 2.2 TR3 28.5 49.2 128.2 2.635 B:10.0 42.00 0.046 1.9 Pipe: 9 0.0 0.0 2.9 185.00 120 7.7 TOR 8.2 61.0 128.2 TR3 4.000 5E:65.0 65.00 6.6 BR3 23.5 53.3 128.2 4.260 250.00 0.004 1.1 Pipe: 10 0.0 0.0 2.9 8.00 120 3.6 POC 0.5 64.5 128.2 BR3 4.000 E:13.0 39.00 3.4 TOR 8.2 61.0 128.2 4.260 T:26.0 47.00 0.004 0.2 Pipe: 11 0.0 0.0 2.9 7E140.0 50.00 150 2.2 PIV -3.0 66.8 128.2 TOR 4.000 C:43.0 187.00 1.5 POC 0.5 64.5 128.2 4.240 G: 4.0 237.00 0.003 0.7 Pipe: 12 0.0 0.0 2.9 9.00 150 0.1 UG1 -3.0 66.9 128.2 POC 4.000 T:39.0 39.00 0.0 PIV -3.0 66.8 128.2 4.240 48.00 0.003 0.1 Notes SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 5 DATE: 11/21/2018SIGN CALCS\HRS SYSTEMS\HASS85\CASA ALDEA BLDG 1 ATTIC.SDF JOB TITLE: CASA ALDEA BLDG 1 ATTIC CALC Pipe Tag K-fac Add Fl Fl To Vel Fit: L C (Pt) Frm Node El (ft) PT (q) Node/ Nom ID Eq.Ln. F (Pe) To Node El (ft) PT Tot. (Q) Disch Act ID (ft.) T Pf/ft. (Pf) Pipe: 13 H.S. 100.0 Disch 1.5 260.00 150 -2.4 BF1 3.0 64.5 128.2 PIV 8.000 6E162.0 168.00 -2.6 tJG1 -3.0 66.9 228.2 7.980 G: 6.0 428.00 0.000 0.2 Pipe: 14 0.0 Fixed Pressure Loss Device BF2 3.0 79.5 228.2 UG1 15.0 psi, 228.2 gpm BF1 3.0 64.5 228.2 Pipe: 15 Source 0.0 1.5 3E:81.0 80.00 150 0.1 SRC 3.0 79.6 228.2 BF1 8.000 T:53.0 140.00 0.0 BF2 3.0 79.5 228.2 7.980 G: 6.0 220.00 0.000 0.1 NOTES (HASS) Calculations were performed by the HASS 8.8 computer program in accordance with NFPA13 (2016) under license no. 50111768 granted by HRS Systems, Inc. 208 Southside Square Petersburg, TN 37144 (931) 659-9760 The system has been calculated to provide an average imbalance at each node of 0.004 gpm and a maximum imbalance at any node of 0.058 gpm. Total pressure at each node is used in balancing the system. Maximum water velocity is 26.9 ft/sec at pipe 6. Items listed in bold print on the cover sheet are automatically transferred from the calculation report. Available pressure at source node SRC under full flow conditions is 122.07 psi with a flow of 275.30 gpm. PIPE FITTINGS TABLE HASS Pipe Table Name: standard.pip Notes SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 6 DATE: 11/21/2018SIGN CALCS\HRS SYSTEMS\HASS85\CASA ALDEA BLDG 1 ATTIC.SDF JOB TITLE: CASA ALDEA BLDG 1 ATTIC CALC PAGE: * MATERIAL: S40 HWC: 120 Diameter Equivalent Fitting Lengths in Feet (in) K T L C B G A D N Eli Tee LngEll ChkVlv BfyVlv GatVlv AlmChk DPViv NPTee 1.396 3.17 6.35 2.12 7.40 6.35 1.06 10.58 10.58 6.35 PAGE: B MATERIAL: THNWL HWC: 120 Diameter Equivalent Fitting Lengths in Feet (in) E T L C B G A D N Eli Tee LngEll ChkVlv BfyVlv GatVlv AlmChk DPVlv NPTee 2.635 8.00 17.00 6.00 19.00 10.00 1.00 14.00 14.00 17.00 4.260 13.00 26.00 8.00 29.00 16.00 3.00 26.00 26.00 26.00 PAGE: E MATERIAL: PVC150 HWC: 150 Diameter Equivalent Fitting Lengths in Feet (in) E T L C B G N Eli Tee LngEll ChkVlv BfyVlv GatVlv NPTee 4.240 20.00 39.00 12.00 43.00 23.00 4.00 39.00 7.980 27.00 53.00 20.00 68.00 18.00 6.00 53.00 PAGE: F MATERIAL: CPVC HWC: 150 Diameter Equivalent Fitting Lengths in Feet (in) F K T R K C G F45 Eli Tee RunT Kplg ChkVlv Gate 1.394 1.80 3.80 7.30 2.30 1.00 11.00 0.80 2.423 3.10 6.90 14.70 4.90 2.00 21.00 2.00 SYMONS FIRE PROTECTION INC. 12155 PAINE PLACE POWAY, CA 92064 HYDRAULIC CALCULATIONS FOR CASA ALDEA APTS CANNON ROAD CARLSBAD CA. 92010 DRAWING NUMBER: FS-04 DATE: NOV 21, 2018 -DESIGN DATA- REMOTE AREA NUMBER: 41 REMOTE AREA LOCATION: BLDG 1 GARAGE OCCUPANCY CLASSIFICATION: S-3 GARAGE DENSITY: .15 gpm/sq. ft. AREA OF APPLICATION: 1500 S.F. COVERAGE PER SPRINKLER: 130 S.F. TYPE OF SPRINKLERS CALCULATED: 5.6 Q.R. PENDENT NUMBER OF SPRINKLERS CALCULATED: 20 HOSE-STREAM DEMAND: 250 gpm TOTAL WATER REQUIRED 8 SRC (INCLUDING HOSE) : 686.3 gpm FLOW AND PRESSURE (AT BASE OF FLOOR RISER): 436.3 gpm 8 54.1 psi TYPE OF SYSTEM: WET WATER SUPPLY Source: CITY OF CARLSBAD Test Date: 08/2018 Test By: J. MAEL Location: EXISTING SITE HYDRANT Static: 136.0 psi Residual: 96.0 psi Flow: 3500 gpm Source Elevation Relative to Finished Flow Level: 3 ft. INSTALLING CONTRACTOR Name: SYMONS FIRE PROTECTION INC. Address: 12155 PAINE PLACE, POWAY, CA 92064 Phone: 619-588-6364 Certification number: C-16 682025 NAME OF DESIGNER: DEGEORGE AUTHORITY HAVING CITY OF CARLSBAD NOTES: (Notes continue after pipe calculations results.) SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 2 DATE: 11/21/2018ALCS\HRS SYSTEMS\HASS85\CASA ALDEA BLDG 1 GARAGE CALC.SDF JOB TITLE: CASA ALDEA BLDG 1 GARAGE CALC WATER SUPPLY ANALYSIS Static: 122.40 psi Resid: 86.40 psi Flow: 3500.0 gpm 140.0 LEGEND ii Available pressure 112.0 120.63 psi @ 686.3 gpm G A • Required pressure U 78.12 psi @ 686.3 gpm G E 84.0 A. Source Supply Curve P 11 B. System Demand Curve R E S 56.0 U R E P 28.0 S i BE -14.7 80(12001600 2000 2400 2800 3200 3600 4000 FLOW (GPM) Note: (1) Dashed Lines indicate extrapolated values from Test Results SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 3 DATE: 11/21/2018ALCS\HRS SYSTEMS\HASS85\CASA ALDEA BLDG 1 GARAGE CALC.SDF JOB TITLE: CASA ALDEA BLDG 1 GARAGE CALC NFPA WATER SUPPLY DATA SOURCE STATIC RESID. FLOW AVAIL. TOTAL REQ'D NODE PRESS. PRESS. S PRESS. S DEMAND PRESS. TAG (PSI) (PSI) (GPM) (PSI) (GPM) (PSI) SRC 122.4 86.4 3500.0 120.6 686.3 78.1 AGGREGATE FLOW ANALYSIS: TOTAL FLOW AT SOURCE 686.3 GPM TOTAL HOSE STREAM ALLOWANCE AT SOURCE 0.0 GPM OTHER HOSE STREAM ALLOWANCES 250.0 GPM TOTAL DISCHARGE FROM ACTIVE SPRINKLERS 436.3 GPM NODE ANALYSIS DATA NODE TAG ELEVATION NODE TYPE PRESSURE DISCHARGE (FT) (PSI) (GPM) Hi 8.2 K= 5.60 13.2 20.3 H2 8.2 K= 5.43 15.1 21.1 H3 8.2 K= 5.60 17.0 23.1 H4 8.2 K= 5.60 12.1 19.5 H5 8.2 K= 5.60 13.5 20.6 H6 8.2 K= 5.60 13.3 20.4 H7 8.2 K= 5.43 15.2 21.1 H8 8.2 K= 5.60 17.1 23.2 H9 8.2 K= 5.60 13.4 20.5 H10 8.2 K= 5.43 15.3 21.2 H11 8.2 K= 5.60 17.2 23.2 H12 8.2 K= 5.60 12.6 19.8 H13 8.2 K= 5.60 14.0 20.9 H14 8.2 K= 5.60 15.2 21.9 H15 8.2 K= 5.43 17.4 22.6 H16 8.2 K= 5.60 18.0 23.7 H17 8.2 K= 5.60 14.5 21.3 H18 8.2 K= 5.43 16.5 22.1 H19 8.2 K= 5.60 18.6 24.1 H20 8.2 K= 5.60 20.9 25.6 Mi 8.2 - - - - 20.8 - - - M2 8.2 - - - - 20.8 - - - M3 8.2 - - - - 20.9 - - - M4 8.2 - - - - 21.1 - - - M5 8.2 - - - - 21.5 - - - M6 8.2 - - - - 22.2 - - - M7 8.2 - - - - 22.7 - - - M8 8.2 - - - - 24.0 - - - TOR 8.2 - - - - 43.8 - - - POC 0.5 - - - - 54.1 PIV -3.0 - - - - 62.4 - - - UG1 -3.0 HOSE STREAM 63.8 250.0 BF1 0.0 - - - - 63.8 - - - BF2 0.0 - - - - 78.8 - - - NOTES SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 4 DATE: 11/21/2018ALCS\HRS SYSTEMS\HASS85\CASA ALDEA BLDG 1 GARAGE CALC.SDF JOB TITLE: CASA ALDEA BLDG 1 GARAGE CALC NODE ANALYSIS DATA NODE TAG ELEVATION NODE TYPE PRESSURE DISCHARGE NOTES (PT) (PSI) (GPM) SRC 3.0 SOURCE 78.1 686.3 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 5 DATE: 11/21/2018ALC5\HRS SYSTEMS\HASS85\CASA ALDEA BLDG 1 GARAGE CALC.SDF JOB TITLE: CASA ALDEA BLDG 1 GARAGE CALC NFPA PIPE DATA Pipe Tag K-fac Add Fl Fl To Vel Fit: L C (Pt) Frm Node El (ft) PT (q) Node/ Nom ID Eq.Ln. F (Pe) To Node El (ft) PT Tot. (Q) Disch Act ID (ft.) T Pf/ft. (Pf) Pipe: 1 5.60 20.3 Disch 7.5 12.00 120 1.9 H2 8.2 15.1 0.0 1.000 K: 2.0 2.00 0.0 Hi 8.2 13.2 20.3 1.049 14.00 0.134 1.9 Pipe: 2 5.43 21.1 Disch 15.4 3.83 120 1.9 H3 8.2 17.0 20.3 Hl 1.000 --- 0.00 0.0 H2 8.2 15.1 41.4 1.049 3.83 0.500 1.9 Pipe: 3 5.60 23.1 Disch 13.8 6.75 120 3.8 Ml 8.2 20.8 41.4 H2 1.250 T: 6.0 6.00 0.0 H3 8.2 17.0 64.5 1.380 12.75 0.298 3.8 Pipe: 4 5.60 19.5 Disch 7.2 11.00 120 1.4 H5 8.2 13.5 0.0 1.000 ---- 0.00 0.0 H4 8.2 12.1 19.5 1.049 11.00 0.124 1.4 Pipe: 5 5.60 20.6 Disch 14.9 10.58 120 7.3 M2 8.2 20.8 19.5 H4 1.000 T: 5.0 5.00 0.0 H5 8.2 13.5 40.1 1.049 15.58 0.471 7.3 Pipe: 6 5.60 20.4 Disch 7.6 12.00 120 1.9 H7 8.2 15.2 0.0 1.000 E: 2.0 2.00 0.0 H6 8.2 13.3 20.4 1.049 14.00 0.135 1.9 Pipe: 7 5.43 21.1 Disch 15.4 3.83 120 1.9 H8 8.2 17.1 20.4 H6 1.000 ---- 0.00 0.0 H7 8.2 15.2 41.6 1.049 3.83 0.503 1.9 Pipe: 8 5.60 23.2 Disch 13.9 6.75 120 3.8 M3 8.2 20.9 41.6 H7 1.250 T: 6.0 6.00 0.0 H8 8.2 17.1 64.7 1.380 12.75 0.300 3.8 Pipe: 9 5.60 20.5 Disch 7.6 12.00 120 1.9 H10 8.2 15.3 0.0 1.000 E: 2.0 2.00 0.0 H9 8.2 13.4 20.5 1.049 14.00 0.136 1.9 Pipe: 10 5.43 21.2 Disch 15.5 3.83 120 1.9 Hil 8.2 17.2 20.5 H9 1.000 ---- 0.00 0.0 H10 8.2 15.3 41.7 1.049 3.83 0.507 1.9 Pipe: 11 5.60 23.2 Disch 13.9 6.75 120 3.9 M4 8.2 21.1 41.7 H10 1.250 T: 6.0 6.00 0.0 Hii 8.2 17.2 64.9 1.380 12.75 0.302 3.9 Pipe: 12 5.60 19.8 Disch 7.4 11.00 120 1.4 H13 8.2 14.0 0.0 1.000 ---- 0.00 0.0 H12 8.2 12.6 19.8 1.049 11.00 0.128 1.4 Notes SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 6 DATE: 11/21/2018ALCS\HRS SYSTEMS\HASS85\CASA ALDEA BLDG 1 GARAGE CALC.SDF JOB TITLE: CASA ALDEA BLDG 1 GARAGE CALC Pipe Tag K-fac Add Fl Fl To Vel Fit: L C (Pt) Frm Node El (ft) PT (q) Node! Nom ID Eq.Ln. F (Pe) To Node El (ft) PT Tot. (Q) Disch Act ID (ft.) T Pf!ft. (Pf) Pipe: 13 5.60 20.9 Disch 15.1 10.58 120 7.6 M5 8.2 21.5 19.8 H12 1.000 T: 5.0 5.00 0.0 H13 8.2 14.0 40.8 1.049 15.58 0.486 7.6 Pipe: 14 5.60 21.9 Disch 8.1 12.00 120 2.1 H15 8.2 17.4 0.0 1.000 5: 2.0 2.00 0.0 H14 8.2 15.2 21.9 1.049 14.00 0.153 2.1 Pipe: 15 5.43 22.6 Disch 9.5 3.83 120 0.6 H16 8.2 18.0 21.9 H14 1.250 ---- 0.00 0.0 H15 8.2 17.4 44.5 1.380 3.83 0.150 0.6 Pipe: 16 5.60 23.7 Disch 14.6 6.75 120 4.2 M6 8.2 22.2 44.5 H15 1.250 T: 6.0 6.00 0.0 H16 8.2 18.0 68.2 1.380 12.75 0.331 4.2 Pipe: 17 5.60 21.3 Disch 7.9 12.00 120 2.0 H18 8.2 16.5 0.0 1.000 E: 2.0 2.00 0.0 H17 8.2 14.5 21.3 1.049 14.00 0.146 2.0 Pipe: 18 5.43 22.1 Disch 16.1 3.83 120 2.1 H19 8.2 18.6 21.3 H17 1.000 ---- 0.00 0.0 H18 8.2 16.5 43.3 1.049 3.83 0.544 2.1 Pipe: 19 5.60 24.1 Disch 14.5 6.75 120 4.1 M7 8.2 22.7 43.3 H18 1.250 T: 6.0 6.00 0.0 H19 8.2 18.6 67.5 1.380 12.75 0.325 4.1 Pipe: 20 5.60 25.6 Disch 9.5 10.58 120 3.2 M8 8.2 24.0 0.0 1.000 T: 5.0 5.00 0.0 H20 8.2 20.9 25.6 1.049 15.58 0.205 3.2 Pipe: 21 0.0 0.0 2.5 9.50 120 0.0 M2 8.2 20.8 64.5 H3 3.000 ---- 0.00 0.0 Ml 8.2 20.8 64.5 3.260 9.50 0.005 0.0 Pipe: 22 0.0 64.5 Ml 4.0 9.50 120 0.1 M3 8.2 20.9 40.1 H5 3.000 ---- 0.00 0.0 M2 8.2 20.8 104.5 3.260 9.50 0.011 0.1 Pipe: 23 0.0 104.5 M2 6.5 5.50 120 0.1 M4 8.2 21.1 64.7 H8 3.000 ---- 0.00 0.0 M3 8.2 20.9 169.3 3.260 5.50 0.027 0.1 Pipe: 24 0.0 169.3 M3 9.0 9.50 120 0.5 M5 8.2 21.5 64.9 H11 3.000 ---- 0.00 0.0 M4 8.2 21.1 234.2 3.260 9.50 0.049 0.5 Pipe: 25 0.0 234.2 M4 10.6 9.50 120 0.6 M6 8.2 22.2 40.8 H13 3.000 ---- 0.00 0.0 MS 8.2 21.5 275.0 3.260 9.50 0.066 0.6 Notes SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 7 DATE: 11/21/2018ALCS\HRS SYSTEMS\HASS85\CASA ALDEA BLDG 1 GARAGE CALC.SDF JOB TITLE: CASA ALDEA BLDG 1 GARAGE CALC Pipe Tag K-fac Add Fl Fl To Vel Fit: L C (Pt) Frm Node El (ft) PT (q) Node! Nom ID Eq.Ln. F (Pe) To Node El (ft) PT Tot. (Q) Disch Act ID (ft.) T Pf/'ft. (Pf) Pipe: 26 0.0 275.0 M5 13.2 5.50 120 0.5 M7 8.2 22.7 68.2 H16 3.000 ---- 0.00 0.0 M6 8.2 22.2 343.2 3.260 5.50 0.100 0.5 Pipe: 27 0.0 343.2 M6 15.8 9.50 120 1.3 £18 8.2 24.0 67.5 H19 3.000 ---- 0.00 0.0 £17 8.2 22.7 410.7 3.260 9.50 0.139 1.3 Pipe: 28 0.0 410.7 £17 16.8 107.00 120 19.8 TOR 8.2 43.8 25.6 H20 3.000 2E:20.0 20.00 0.0 M8 8.2 24.0 436.3 3.260 127.00 0.156 19.8 Pipe: 29 0.0 0.0 16.8 8.00 120 10.2 POC 0.5 54.1 436.3 £18 3.000 C:22.0 36.00 3.4 TOR 8.2 43.8 436.3 3.260 B:14.0 44.00 0.156 6.9 Pipe: 30 0.0 0.0 9.9 7E140.0 50.00 150 8.3 Ply -3.0 62.4 436.3 TOR 4.000 C:43.0 187.00 1.5 POC 0.5 54.1 436.3 4.240 G: 4.0 237.00 0.029 6.8 Pipe: 31 0.0 0.0 9.9 9.00 150 1.4 UG1 -3.0 63.8 436.3 POC 4.000 T:39.0 39.00 0.0 Ply -3.0 62.4 436.3 4.240 48.00 0.029 1.4 Pipe: 32 H.S. 250.0 Disch 4.4 260.00 150 0.0 BF1 0.0 63.8 436.3 PIV 8.000 6E162.0 168.00 -1.3 UG1 -3.0 63.8 686.3 7.980 G: 6.0 428.00 0.003 1.3 Pipe: 33 0.0 Fixed Pressure Loss Device BF2 0.0 78.8 686.3 UG1 15.0 psi, 686.3 gpm BF1 0.0 63.8 686.3 Pipe: 34 Source 0.0 4.4 3E:81.0 80.00 150 -0.6 SRC 3.0 78.1 686.3 BF1 8.000 T:53.0 140.00 -1.3 BF2 0.0 78.8 686.3 7.980 G: 6.0 220.00 0.003 0.7 NOTES (HASS) Calculations were performed by the HASS 8.8 computer program in accordance with NFPA13 (2016) under license no. 50111768 granted by HRS Systems, Inc. 208 Southside Square Petersburg, TN 37144 (931) 659-9760 The system has been calculated to provide an average imbalance at each node of 0.002 gpm and a maximum imbalance at any node of 0.080 gpm. Notes SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 8 DATE: 11/21/2018ALC5\HRS SYSTEMS\HASS85\CASA ALDEA BLDG 1 GARAGE CALC.SDF JOB TITLE: CASA ALDEA BLDG 1 GARAGE CALC Total pressure at each node is used in balancing the system. Maximum water velocity is 16.8 ft/sec at pipe 28. Items listed in bold print on the cover sheet are automatically transferred from the calculation report. Available pressure at source node SRC under full flow conditions is 119.91 psi with a flow of 826.88 gpm. PIPE FITTINGS TABLE User Pipe Table Name: CUSTOM.PIP PAGE: A MATERIAL: 540-TW HWC: 120 Diameter Equivalent Fitting Lengths in Feet (in) E T L C B 0 A Eli Tee LngEll ChkVlv BfyViv GatVlv AimChk 1.049 2.00 5.00 2.00 5.00 6.00 1.00 10.00 1.380 3.00 6.00 2.00 7.00 6.00 1.00 10.00 3.260 10.00 20.00 7.00 22.00 14.00 1.00 18.00 PAGE: E MATERIAL: PVC150 HWC: 150 Diameter Equivalent Fitting Lengths in Feet (in) E T L C B G N Eli Tee LngEli ChkViv BfyVlv GatViv NPTee 4.240 20.00 39.00 12.00 43.00 23.00 4.00 39.00 7.980 27.00 53.00 20.00 68.00 18.00 6.00 53.00 D N DPViv NPTee 10.00 5.00 10.00 6.00 18.00 20.00 Utility Report: Equivalent K-Factor Calculator Node Sprinkler Pres. Dia. Pipe Ftgs. Total H-N Equivalent Name K-Factor (psi) (in) Len. (ft) Len. (ft) coef. K-factor ----------------------------------------------------------------------- ARMOVER 5.60 7.00 1.049 1.00 T 6.00 120.00 5.43 SYMONS FIRE PROTECTION INC. 12155 PAINE PLACE POWAY, CA 92064 HYDRAULIC CALCULATIONS FOR CASA ALDEA APTS CANNON ROAD CARLSBAD CA. 92010 DRAWING NUMBER: FS-06 DATE: NOV 21, 2018 -DESIGN DATA- REMOTE AREA NUMBER: #6 REMOTE AREA LOCATION: BLDG 1 LIVING UNIT OCCUPANCY CLASSIFICATION: LIVING SPACE DENSITY: .10 gpm/sq. ft. AREA OF APPLICATION: 8-HEADS COVERAGE PER SPRINKLER: 200 S.F. TYPE OF SPRINKLERS CALCULATED: 4.9k & 3.0k RES PENDENT NUMBER OF SPRINKLERS CALCULATED: 8 HOSE-STREAM DEMAND: 100 gpm TOTAL WATER REQUIRED @ SRC (INCLUDING HOSE): 278.7 gpm FLOW AND PRESSURE (AT BASE OF FLOOR RISER): 178.7 gpm 8 76.2 psi TYPE OF SYSTEM: WET WATER SUPPLY Source: CITY OF CARLSBAD Test Date: 08/2018 Test By: J. MAEL Location: EXISTING SITE HYDRANT Static: 136.0 psi Residual: 96.0 psi Flow: 3500 gpm Source Elevation Relative to Finished Flow Level: 3 ft. INSTALLING CONTRACTOR Name: SYMONS FIRE PROTECTION INC. Address: 12155 PAINE PLACE, POWAY, CA 92064 Phone: 619-588-6364 Certification number: C-16 682025 NAME OF DESIGNER: DEGEORGE AUTHORITY HAVING CITY OF CARLSBAD NOTES: ALL CPVC FITTINGS HAVE BEEN INCORPORATED INTO TOTAL PIPE LENGHTS (Notes continue after pipe calculations results.) SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 2 DATE: 11/21/2018CALCS\HRS SYSTEMS\HASS85\CASA ALDEA BLDG 1 RES 8-HEAD.SDF JOB TITLE: CASA ALDEA BLDG 1 8-HEAD CALC WATER SUPPLY ANALYSIS Static: 122.40 psi Resid: 86.40 psi Flow: 3500.0 gpm 140.0 LEGEND 1 Available pressure 112.0 122.07 psi @ 278.7 gpm G 2 A U G E 84.0 P R E S 56.0 U R E Required pressure 104.46 psi 8 278.7 gpm Source Supply Curve System Demand Curve P 28.0 S i -14.7 80C12001600 2000 2400 2800 3200 3600 4000 FLOW (GPM) Note: (1) Dashed Lines indicate extrapolated values from Test Results SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 3 DATE: 11/21/2018CALC5\HRS SYSTEMS\HASS85\CASA ALDEA BLDG 1 RES 8-HEAD.SDF JOB TITLE: CASA ALDEA BLDG 1 8-HEAD CALC NFPA WATER SUPPLY DATA SOURCE STATIC RESID. FLOW AVAIL. TOTAL REQ'D NODE PRESS. PRESS. 8 PRESS. 8 DEMAND PRESS. TAG (PSI) (PSI) (GPM) (PSI) (GPM) (PSI) SRC 122.4 86.4 3500.0 122.1 278.7 104.5 AGGREGATE FLOW ANALYSIS: TOTAL FLOW AT SOURCE 278.7 GPM TOTAL HOSE STREAM ALLOWANCE AT SOURCE 0.0 GPM OTHER HOSE STREAM ALLOWANCES 100.0 GPM TOTAL DISCHARGE FROM ACTIVE SPRINKLERS 178.7 GPM NODE ANALYSIS DATA NODE TAG ELEVATION NODE TYPE PRESSURE DISCHARGE NOTES (FT) (PSI) (GPM) Hi 28.5 K= 4.90 16.7 20.0 H2 28.5 K= 4.90 17.7 20.6 H3 28.5 K= 4.90 19.0 21.4 H4 28.5 K= 4.90 27.0 25.5 H5 28.5 K= 4.90 22.7 23.3 H6 28.5 K= 3.00 24.7 14.9 H7 27.5 K= 4.90 28.8 26.3 H8 28.5 K= 4.90 29.7 26.7 Li 29.5 - - - - 16.6 - - L2 29.5 - - - - 17.7 - - - L3 29.5 - - - - 19.7 - - L4 29.5 - - - - 27.8 - - - L5 29.0 - - - - 24.7 - - - L6 29.5 - - - - 28.2 - - - L7 29.5 - - - - 28.6 - - - L8 29.5 - - - - 30.0 - - - L9 28.5 - - - - 31.6 - - - Mi 28.5 - - - - 38.2 - - - mio 28.5 - - - - 47.9 - - - TR3 28.5 - - - - 70.5 - - - BR3 23.5 - - - - 76.2 - - - TOR 8.2 - - - - 84.9 - - - POC 0.5 - - - - 88.6 - - - Ply -3.0 - - - - 91.4 - - - UG1 -3.0 HOSE STREAM 91.7 100.0 SF1 3.0 - - - - 89.3 - - - BF2 3.0 - - - - 104.3 - - - SRC 3.0 SOURCE 104.5 278.7 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 4 DATE: 11/21/2018CALC5\HRS SYSTEMS\HASS85\CASA ALDEA BLDG 1 RES 8-HEAD.SDF JOB TITLE: CASA ALDEA BLDG 1 8-HEAD CALC NFPA PIPE DATA Pipe Tag K-fac Add Fl Fl To Vel Fit: L C (Pt) Frm Node El (ft) PT (q) Node! Nom ID Eq.Ln. F (Pe) To Node El (ft) PT Tot. (Q) Disch Act ID (ft.) T Pf!ft. (Pf) Pipe: 1 4.90 20.0 Disch 6.7 6.00 150 0.0 Li 29.5 16.6 0.0 1.000 ---- 0.00 -0.4 Hi 28.5 16.7 20.0 1.101 6.00 0.068 0.4 Pipe: 2 4.90 20.6 Disch 6.9 6.00 150 0.0 L2 29.5 17.7 0.0 1.000 ---- 0.00 -0.4 H2 28.5 17.7 20.6 1.101 6.00 0.072 0.4 Pipe: 3 4.90 21.4 Disch 7.2 14.50 150 0.7 L3 29.5 19.7 0.0 1.000 ---- 0.00 -0.4 H3 28.5 19.0 21.4 1.101 14.50 0.077 1.1 Pipe: 4 4.90 25.5 Disch 8.6 12.00 150 0.8 L4 29.5 27.8 0.0 1.000 ---- 0.00 -0.4 H4 28.5 27.0 25.5 1.101 12.00 0.106 1.3 Pipe: 5 4.90 23.3 Disch 7.9 25.00 150 2.0 L5 29.0 24.7 0.0 1.000 ---- 0.00 -0.2 H5 28.5 22.7 23.3 1.101 25.00 0.090 2.3 Pipe: 6 3.00 14.9 Disch 5.0 5.50 150 0.0 L5 29.0 24.7 0.0 1.000 ---- 0.00 -0.2 H6 28.5 24.7 14.9 1.101 5.50 0.040 0.2 Pipe: 7 4.90 26.3 Disch 8.9 6.00 150 -0.2 L7 29.5 28.6 0.0 1.000 ---- 0.00 -0.9 H7 27.5 28.8 26.3 1.101 6.00 0.113 0.7 Pipe: 8 4.90 26.7 Disch 9.0 6.00 150 0.3 L8 29.5 30.0 0.0 1.000 ---- 0.00 -0.4 H8 28.5 29.7 26.7 1.101 6.00 0.116 0.7 Pipe: 9 0.0 0.0 6.7 15.50 150 1.1 L2 29.5 17.7 20.0 1.000 ---- 0.00 0.0 Li 29.5 16.6 20.0 1.101 15.50 0.068 1.1 Pipe: 10 0.0 20.0 Li 13.7 8.00 150 2.0 L3 29.5 19.7 20.6 H2 1.000 ---- 0.00 0.0 L2 29.5 17.7 40.6 1.101 8.00 0.252 2.0 Pipe: 11 0.0 40.6 L2 20.9 14.75 150 8.1 L4 29.5 27.8 21.4 H3 1.000 ---- 0.00 0.0 L3 29.5 19.7 62.0 1.101 14.75 0.551 8.1 Pipe: 12 0.0 62.0 L3 8.9 7.00 150 0.4 L6 29.5 28.2 25.5 H4 2.000 ---- 0.00 0.0 L4 29.5 27.8 87.4 2.003 7.00 0.057 0.4 Notes SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 5 DATE: 11/21/2018CALCS\HRS SYSTEMS\HASS85\CASA ALDEA BLDG 1 RES 8-HEAD.SDF JOB TITLE: CASA ALDEA BLDG 1 8-HEAD CALC Pipe Tag K-fac Add Fl Fl To Vel Fit: L C (Pt) Frm Node El (ft) PT (q) Node! Nom ID Eq.Ln. F (Pe) To Node El (ft) PT Tot. (Q) Disch Act ID (ft.) T Pf!ft. (Pf) Pipe: 13 0.0 0.0 12.9 16.50 150 3.5 L6 29.5 28.2 38.3 1.000 ---- 0.00 -0.2 L5 29.0 24.7 38.3 1.101 16.50 0.226 3.7 Pipe: 14 0.0 38.3 L5 12.8 3.00 150 0.3 L7 29.5 28.6 87.4 L4 2.000 ---- 0.00 0.0 L6 29.5 28.2 125.7 2.003 3.00 0.111 0.3 Pipe: 15 0.0 125.7 L6 15.5 9.00 150 1.4 L8 29.5 30.0 26.3 H7 2.000 ---- 0.00 0.0 L7 29.5 28.6 152.0 2.003 9.00 0.157 1.4 Pipe: 16 0.0 152.0 L7 18.2 5.75 150 1.7 L9 28.5 31.6 26.7 H8 2.000 ---- 0.00 0.4 L8 29.5 30.0 178.7 2.003 5.75 0.212 1.2 Pipe: 17 0.0 0.0 18.2 31.00 150 6.6 Ml 28.5 38.2 178.7 L8 2.000 ---- 0.00 0.0 L9 28.5 31.6 178.7 2.003 31.00 0.212 6.6 Pipe: 18 0.0 0.0 12.4 115.00 150 9.7 M10 28.5 47.9 178.7 L9 2.500 ---- 0.00 0.0 Ml 28.5 38.2 178.7 2.423 115.00 0.084 9.7 Pipe: 19 0.0 0.0 12.4 270.00 150 22.7 TR3 28.5 70.5 178.7 Ml 2.500 ---- 0.00 0.0 M10 28.5 47.9 178.7 2.423 270.00 0.084 22.7 Pipe: 20 0.0 0.0 10.5 E: 8.0 5.00 120 5.7 BR3 23.5 76.2 178.7 MiD 2.500 C:19.0 37.00 2.2 TR3 28.5 70.5 178.7 2.635 B:10.0 42.00 0.084 3.5 Pipe: 21 0.0 0.0 4.0 185.00 120 8.6 TOR 8.2 84.9 178.7 TR3 4.000 5E:65.0 65.00 6.6 BR3 23.5 76.2 178.7 4.260 250.00 0.008 2.0 Pipe: 22 0.0 0.0 4.0 8.00 120 3.7 POC 0.5 88.6 178.7 BR3 4.000 E:13.0 39.00 3.4 TOR 8.2 84.9 178.7 4.260 T:26.0 47.00 0.008 0.4 Pipe: 23 0.0 0.0 4.1 7E140.0 50.00 150 2.8 PIV -3.0 91.4 178.7 TOR 4.000 C:43.0 187.00 1.5 POC 0.5 88.6 178.7 4.240 G: 4.0 237.00 0.005 1.3 Pipe: 24 0.0 0.0 4.1 9.00 150 0.3 UG1 -3.0 91.7 178.7 POC 4.000 T:39.0 39.00 0.0 Ply -3.0 91.4 178.7 4.240 48.00 0.005 0.3 Pipe: 25 H.S. 100.0 Disch 1.8 260.00 150 -2.4 BF1 3.0 89.3 178.7 PIV 8.000 6E162.0 168.00 -2.6 UG1 -3.0 91.7 278.7 7.980 G: 6.0 428.00 0.001 0.2 Notes SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 6 DATE: 11/21/2018CALCS\HRS SYSTEMS\HASS85\CASA ALDEA BLDG 1 RES 8-HEAD.SDF JOB TITLE: CASA ALDEA BLDG 1 8-HEAD CALC Pipe Tag K-fac Add Fl Fl To Vel Fit: L C (Pt) Frm Node El (ft) PT (q) Node/ Nom ID Eq.Ln. F (Pe) Notes To Node El (ft) PT Tot. (Q) Disch Act ID (ft.) T Pf/ft. (Pf) Pipe: 26 0.0 Fixed Pressure Loss Device BF2 3.0 104.3 278.7 UG1 15.0 psi, 278.7 gpm BFl 3.0 89.3 278.7 Pipe: 27 Source 0.0 1.8 3E:81.0 80.00 150 0.1 SRC 3.0 104.5 278.7 BF1 8.000 T:53.0 140.00 0.0 BF2 3.0 104.3 278.7 7.980 G: 6.0 220.00 0.001 0.1 NOTES (HASS) Calculations were performed by the HASS 8.8 computer program in accordance with NFPA13 (2016) under license no. 50111768 granted by HRS Systems, Inc. 208 Southside Square Petersburg, TN 37144 (931) 659-9760 The system has been calculated to provide an average imbalance at each node of 0.002 gpm and a maximum imbalance at any node of 0.056 gpm. Total pressure at each node is used in balancing the system. Maximum water velocity is 20.9 ft/sec at pipe 11. Items listed in bold print on the cover sheet are automatically transferred from the calculation report. Available pressure at source node SRC under full flow conditions is 122.02 psi with a flow of 298.81 gpm. PIPE FITTINGS TABLE HASS Pipe Table Name: standard.pip PAGE: B MATERIAL: THNWL HWC: 120 Diameter Equivalent Fitting Lengths in Feet (in) E T L C B G A D N Ell Tee LngEll ChkVlv BfyVlv GatVlv AlmChk DPVlv NPTee 2.635 8.00 17.00 6.00 19.00 10.00 1.00 14.00 14.00 17.00 4.260 13.00 26.00 8.00 29.00 16.00 3.00 26.00 26.00 26.00 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 7 DATE: 11/21/2018CALCS\HRS SYSTEMS\HASS85\CASA ALDEA BLDG 1 RES 8-HEAD.SDF JOB TITLE: CASA ALDEA BLDG 1 8-HEAD CALC PAGE: B MATERIAL: PVC150 HWC: 150 Diameter Equivalent Fitting Lengths in Feet (in) E T L C B G N Eli Tee LngEll ChkVlv BfyViv GatVlv NPTee 4.240 20.00 39.00 12.00 43.00 23.00 4.00 39.00 7.980 27.00 53.00 20.00 68.00 18.00 6.00 53.00 PAGE: F MATERIAL: CPVC HWC: 150 Diameter Equivalent Fitting Lengths in Feet (in) F E T R K C G F45 Eli Tee RunT Kplg ChkVlv Gate 1.101 1.40 2.50 6.00 1.70 1.00 8.00 0.40 2.003 2.60 5.70 12.00 4.00 1.00 17.00 1.50 2.423 3.10 6.90 14.70 4.90 2.00 21.00 2.00 SYMONS FIRE PROTECTION INC. 12155 PAINE PLACE POWAY, CA 92064 HYDRAULIC CALCULATIONS FOR CASA ALDEA APTS CANNON ROAD CARLSBAD CA. 92010 DRAWING NUMBER: FS-05 DATE: NOV 21, 2018 -DESIGN DATA- REMOTE AREA NUMBER: #2 REMOTE AREA LOCATION: BLDG 1 2ND FL STORAGE OCCUPANCY CLASSIFICATION: STORAGE (UNDER 8') DENSITY: .15 gpm/sq. ft. AREA OF APPLICATION: TOTAL AREA COVERAGE PER SPRINKLER: 130 S.F. TYPE OF SPRINKLERS CALCULATED: 5.6 Q.R. PENDENT NUMBER OF SPRINKLERS CALCULATED: 13 HOSE-STREAM DEMAND: 250 gpm TOTAL WATER REQUIRED 8 SRC (INCLUDING HOSE) : 577.4 gpm FLOW AND PRESSURE (AT BASE OF FLOOR RISER): 327.4 gpm 8 77.6 psi TYPE OF SYSTEM: WET WATER SUPPLY Source: CITY OF CARLSBAD Test Date: 08/2018 Test By: J. MAEL Location: EXISTING SITE HYDRANT Static: 136.0 psi Residual: 96.0 psi Flow: 3500 gpm Source Elevation Relative to Finished Flow Level: 3 ft. INSTALLING CONTRACTOR Name: SYMONS FIRE PROTECTION INC. Address: 12155 PAINE PLACE, POWAY, CA 92064 Phone: 619-588-6364 Certification number: C-16 682025 NAME OF DESIGNER: DEGEORGE AUTHORITY HAVING CITY OF CARLSBAD NOTES: ALL CPVC FITTINGS HAVE BEEN INCORPORATED INTO TOTAL PIPE LENGHTS (Notes continue after pipe calculations results.) SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 2 DATE: 11/21/2018CALCS\HRS SYSTEMS\HASS85\CASA ALDEA BLDG 1 STORAGE RM.SDF JOB TITLE: CASA ALDEA BLDG 1 STORAGE RH WATER SUPPLY ANALYSIS Static: 122.40 psi Resid: 86.40 psi Flow: 3500.0 gpm 140.0 LEGEND Available pressure 112.0 G A U G E 84.0 P R E S 56.0 U R E 121.12 psi @ 577.4 gpm Required pressure 109.51 psi 8 577.4 gpm Source Supply Curve System Demand Curve P 28.0 5 i -14.7 80(12001600 2000 2400 2800 3200 3600 4000 FLOW (GPM) Note: (1) Dashed Lines indicate extrapolated values from Test Results SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 3 DATE: 11/21/2018CALCS\HRS SYSTEMS\HASS85\CASA ALDEA BLDG 1 STORAGE RM.SDF JOB TITLE: CASA ALDEA BLDG 1 STORAGE RM NFPA WATER SUPPLY DATA SOURCE STATIC RESID. FLOW AVAIL. TOTAL REQ'D NODE PRESS. PRESS. 8 PRESS. 8 DEMAND PRESS. TAG (PSI) (PSI) (GPM) (PSI) (GPM) (PSI) SRC 122.4 86.4 3500.0 121.1 577.4 109.5 AGGREGATE FLOW ANALYSIS: TOTAL FLOW AT SOURCE 577.4 GPM TOTAL HOSE STREAM ALLOWANCE AT SOURCE 0.0 GPM OTHER HOSE STREAM ALLOWANCES 250.0 GPM TOTAL DISCHARGE FROM ACTIVE SPRINKLERS 327.4 GPM NODE ANALYSIS DATA NODE TAG ELEVATION NODE TYPE PRESSURE DISCHARGE NOTES (FT) (PSI) (GPM) Hi 18.0 K= 5.60 11.1 18.6 H2 18.5 K= 5.38 13.1 19.5 H3 18.0 K= 5.60 13.6 20.7 H4 18.5 K= 5.38 17.5 22.5 H5 18.0 K= 5.60 17.1 23.2 H6 18.5 K= 5.38 22.9 25.8 H7 18.5 K= 5.60 29.6 30.5 H8 18.5 K= 5.47 29.0 29.5 H9 18.5 K= 5.38 28.8 28.9 H10 18.5 K= 5.38 30.4 29.6 H1i 18.5 K= 5.47 19.8 24.4 H12 18.5 K= 5.38 22.1 25.3 H13 18.5 K= 5.38 29.1 29.0 Li 18.5 - - - - 16.5 - - - L2 18.5 - - - - 20.8 - - - Ml 18.5 - - - - 31.7 - - - M2 18.5 - - - - 31.7 - - - £43 18.5 - - - - 31.9 - - - £44 18.5 - - - - 32.0 - - - M5 18.5 - - - - 32.5 - - - £46 18.5 - - - - 35.2 - - - £47 18.5 - - - - 49.2 - - - TR2 18.5 - - - - 69.0 - - - BR2 13.5 - - - - 77.6 - - - TOR 8.2 - - - - 85.9 - - - POC 0.5 - - - - 89.5 - - - Ply -3.0 - - - - 94.9 - - - UG1 -3.0 HOSE STREAM 95.7 250.0 BF1 3.0 - - - - 94.0 - - - BF2 3.0 - - - - 109.0 - - - SRC 3.0 SOURCE 109.5 577.4 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 4 DATE: 11/21/2018CALC5\HRS SYSTEMS\HASS85\CASA ALDEA BLDG 1 STORAGE RM.SDF JOB TITLE: CASA ALDEA BLDG 1 STORAGE RM Pipe Tag K-fac Add Fl Fl To Vel Fit: L C (Pt) Frm Node El (ft) PT (q) Node! Nom ID Eq.Ln. F (Pe) To Node El (ft) PT Tot. (Q) Disch Act ID (ft.) T Pf!ft. (Pf) Pipe: 1 5.60 18.6 Disch 6.9 14.00 120 2.1 H2 18.5 13.1 0.0 1.000 3E: 6.0 6.00 -0.2 Hi 18.0 11.1 18.6 1.049 20.00 0.114 2.3 Pipe: 2 5.60 20.7 Disch 7.7 13.50 120 2.9 Li 18.5 16.5 0.0 1.000 2E: 4.0 9.00 -0.2 H3 18.0 13.6 20.7 1.049 T: 5.0 22.50 0.138 3.1 Pipe: 3 5.60 23.2 Disch 8.6 13.50 120 3.6 L2 18.5 20.8 0.0 1.000 2E: 4.0 9.00 -0.2 H5 18.0 17.1 23.2 1.049 T: 5.0 22.50 0.171 3.8 Pipe: 4 5.38 19.5 Disch 14.2 7.83 120 3.4 Li 18.5 16.5 18.6 Hi 1.000 ---- 0.00 0.0 H2 18.5 13.1 38.1 1.049 7.83 0.429 3.4 Pipe: 5 0.0 38.1 H2 12.6 4.17 120 1.0 H4 18.5 17.5 20.7 H3 1.250 ---- 0.00 0.0 Li 18.5 16.5 58.8 1.380 4.17 0.252 1.0 Pipe: 6 5.38 22.5 Disch 17.4 7.00 120 3.2 L2 18.5 20.8 58.8 Li 1.250 ---- 0.00 0.0 H4 18.5 17.5 81.3 1.380 7.00 0.458 3.2 Pipe: 7 0.0 81.3 H4 22.4 3.00 120 2.2 H6 18.5 22.9 23.2 H5 1.250 ---- 0.00 0.0 L2 18.5 20.8 104.5 1.380 3.00 0.729 2.2 Pipe: 8 5.38 25.8 Disch 27.9 2.00 120 8.8 M2 18.5 31.7 104.5 L2 1.250 T: 6.0 6.00 0.0 H6 18.5 22.9 130.3 1.380 8.00 1.096 8.8 Pipe: 9 5.60 30.5 Disch 11.3 2.33 120 2.1 Ml 18.5 31.7 0.0 1.000 T: 5.0 5.00 0.0 H7 18.5 29.6 30.5 1.049 7.33 0.284 2.1 Pipe: 10 5.38 28.9 Disch 2.6 12.00 120 0.2 H8 18.5 29.0 -22.0 HiD 1.000 ---- 0.00 0.0 H9 18.5 28.8 6.9 1.049 12.00 0.018 0.2 Pipe: ii 5.38 28.9 Disch 8.2 10.00 120 1.6 H10 18.5 30.4 -6.9 H8 1.000 ---- 0.00 0.0 H9 18.5 28.8 22.0 1.049 10.00 0.155 1.6 Pipe: 12 5.38 29.6 Disch 11.1 2.00 120 1.6 M4 18.5 32.0 22.0 H9 1.250 T: 6.0 6.00 0.0 HiD 18.5 30.4 51.6 1.380 8.00 0.198 1.6 Notes SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 5 DATE: 11/21/2018CALCS\HRS SYSTEMS\HASS85\CASA ALDEA BLDG 1 STORAGE RM.SDF JOB TITLE: CASA ALDEA BLDG 1 STORAGE RM Pipe Tag K-fac Add Fl Fl To Vel Fit: L C (Pt) Frm Node El (ft) PT (q) Node/ Nom ID Eq.Ln. F (Pe) To Node El (ft) PT Tot. (Q) Disch Act ID (ft.) T Pf/ft. (Pf) Pipe: 13 5.47 29.5 Disch 13.5 2.33 120 2.9 M3 18.5 31.9 6.9 H9 1.000 T: 5.0 5.00 0.0 H8 18.5 29.0 36.4 1.049 7.33 0.393 2.9 Pipe: 14 5.47 24.4 Disch 9.0 12.00 120 2.2 H12 18.5 22.1 0.0 1.000 ---- 0.00 0.0 Hil 18.5 19.8 24.4 1.049 12.00 0.187 2.2 Pipe: 15 5.38 25.3 Disch 18.4 10.00 120 7.0 H13 18.5 29.1 24.4 Hil 1.000 ---- 0.00 0.0 H12 18.5 22.1 49.6 1.049 10.00 0.699 7.0 Pipe: 16 5.38 29.0 Disch 16.9 2.00 120 3.4 M5 18.5 32.5 49.6 H12 1.250 T: 6.0 6.00 0.0 H13 18.5 29.1 78.6 1.380 8.00 0.431 3.4 Pipe: 17 0.0 0.0 1.2 0.67 120 0.0 M2 18.5 31.7 30.5 3.000 ---- 0.00 0.0 Ml 18.5 31.7 30.5 3.260 0.67 0.001 0.0 Pipe: 18 0.0 30.5 Ml 6.2 8.33 120 0.2 M3 18.5 31.9 130.3 H6 3.000 ---- 0.00 0.0 M2 18.5 31.7 160.8 3.260 8.33 0.025 0.2 Pipe: 19 0.0 160.8 M2 7.6 1.00 120 0.0 M4 18.5 32.0 36.4 H8 3.000 ---- 0.00 0.0 M3 18.5 31.9 197.1 3.260 1.00 0.036 0.0 Pipe: 20 0.0 197.1 M3 9.6 10.00 120 0.6 M5 18.5 32.5 51.6 RiO 3.000 ---- 0.00 0.0 M4 18.5 32.0 248.8 3.260 10.00 0.055 0.6 Pipe: 21 0.0 248.8 M4 12.6 9.00 120 2.7 M6 18.5 35.2 78.6 H13 3.000 2E:20.0 20.00 0.0 M5 18.5 32.5 327.4 3.260 29.00 0.092 2.7 Pipe: 22 0.0 0.0 12.6 143.00 120 14.0 M7 18.5 49.2 327.4 M5 3.000 E:10.0 10.00 0.0 M6 18.5 35.2 327.4 3.260 153.00 0.092 14.0 Pipe: 23 0.0 0.0 12.6 156.00 120 19.8 TR2 18.5 69.0 327.4 M6 3.000 4E:40.0 60.00 0.0 M7 18.5 49.2 327.4 3.260 T:20.0 216.00 0.092 19.8 Pipe: 24 0.0 0.0 12.6 ETCB 5.00 120 8.7 BR2 13.5 77.6 327.4 M7 3.000 66.00 2.2 TR2 18.5 69.0 327.4 3.260 71.00 0.092 6.5 Pipe: 25 0.0 0.0 7.4 176.00 120 8.3 TOR 8.2 85.9 327.4 TR2 4.000 5E:65.0 65.00 2.3 BR2 13.5 77.6 327.4 4.260 241.00 0.025 6.0 Notes SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 6 DATE: 11/21/2018CALCS\HRS SYSTEMS\HASS85\CASA ALDEA BLDG 1 STORAGE RM.SDF JOB TITLE: CASA ALDEA BLDG 1 STORAGE RN Pipe Tag K-fac Add Fl Fl To Vel Fit: L C (Pt) Frm Node El (ft) PT (q) Model Mom ID Eq.Ln. F (Pe) To Node El (ft) PT Tot. (Q) Disch Act ID (ft.) T Pf/ft. (Pf) Pipe: 26 0.0 0.0 7.4 8.00 120 3.6 POC 0.5 89.5 327.4 BR2 4.000 ---- 0.00 3.4 TOR 8.2 85.9 327.4 4.260 8.00 0.025 0.2 Pipe: 27 0.0 0.0 7.4 7E137.5 50.00 150 5.4 Ply -3.0 94.9 327.4 TOR 4.000 C:43.8 185.86 1.5 POC 0.5 89.5 327.4 4.260 G: 4.5 235.86 0.016 3.9 Pipe: 28 0.0 0.0 7.4 9.00 150 0.8 UG1 -3.0 95.7 327.4 POC 4.000 T:39.3 39.29 0.0 Ply -3.0 94.9 327.4 4.260 48.29 0.016 0.8 Pipe: 29 H.S. 250.0 Disch 3.7 260.00 150 -1.7 BF1 3.0 94.0 327.4 Ply 8.000 6E162.0 168.00 -2.6 UG1 -3.0 95.7 577.4 7.980 G: 6.0 428.00 0.002 0.9 Pipe: 30 0.0 Fixed Pressure Loss Device 3F2 3.0 109.0 577.4 UG1 15.0 psi, 577.4 gpm BF1 3.0 94.0 577.4 Pipe: 31 Source 0.0 3.7 3E:81.0 80.00 150 0.5 SRC 3.0 109.5 577.4 BF1 8.000 T:53.0 140.00 0.0 BF2 3.0 109.0 577.4 7.980 G: 6.0 220.00 0.002 0.5 NOTES (HASS) Calculations were performed by the HASS 8.8 computer program in accordance with NFPA13 (2016) under license no. 50111768 granted by HRS Systems, Inc. 208 Southside Square Petersburg, TN 37144 (931) 659-9760 The system has been calculated to provide an average imbalance at each node of 0.003 gpm and a maximum imbalance at any node of 0.085 gpm. Total pressure at each node is used in balancing the system. Maximum water velocity is 27.9 ft/sec at pipe 8. Items listed in bold print on the cover sheet are automatically transferred from the calculation report. Available pressure at source node SRC under full flow conditions is 121.02 psi with a flow of 599.59 gpm. Notes SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 7 DATE: 11/21/2018CALCS\HRS SYSTEMS\HASS85\CASA ALDEA BLDG 1 STORAGE RM.SDF JOB TITLE: CASA ALDEA BLDG 1 STORAGE RM (6) PIPE FITTINGS TABLE User Pipe Table Name: CUSTOM.PIP PAGE: A MATERIAL: 540-TM HWC: 120 Diameter Equivalent Fitting Lengths in Feet (in) E T L C B G A Eli Tee LngE1l ChkVlv BfyViv GatVlv AlmChk 1.049 2.00 5.00 2.00 5.00 6.00 1.00 10.00 1.380 3.00 6.00 2.00 7.00 6.00 1.00 10.00 3.260 10.00 20.00 7.00 22.00 14.00 1.00 18.00 4.260 13.00 26.00 8.00 29.00 16.00 3.00 26.00 PAGE: E MATERIAL: PVC150 HWC: 150 Diameter Equivalent Fitting Lengths in Feet (in) E T L C B G N Eli Tee LngEli ChkVlv BfyVlv GatViv NPTee 7.980 27.00 53.00 20.00 68.00 18.00 6.00 53.00 D N DPVlv NPTee 10.00 5.00 10.00 6.00 18.00 20.00 26.00 26.00 Utility Report: £quivlent K-Factor Calculator Node Sprinkler Pres. Dia. Pipe Ftgs. Total H-N Equivalent Name K-Factor (psi) (in) Len. (ft) Len. (ft) coef. K-factor ----------------------------------------------------------------------- 1' ARM 5.60 7.00 1.049 1.00 ET 8.00 120.00 5.38 Equivalent K-Factor Calculator Node Sprinkler Pres. Dia. Pipe Ftgs. Total H-N Equivalent Name K-Factor (psi) (in) Len. (ft) Len. (ft) coef. K-factor ----------------------------------------------------------------------- .5 E 5.60 7.00 1.049 0.50 2E 4.50 120.00 5.47 Equivalent K-Factor Calculator Node Sprinkler Pres. Dia. Pipe Ftgs. Total H-N Equivalent Name K-Factor (psi) (in) Len. (ft) Len. (ft) coef. K-factor ----------------------------------------------------------------------- .5 ET 5.60 7.00 1.049 1.00 ET 8.00 120.00 5.38 CONTRACTOR'S MATERIAL & TEST CERTIFICATE FOR A BOVEGROUND PIPING 'ROCEDURE Jpon completion of work, inspection and tests shall be made by the contractor's representative and witnessed by an owner's representative. All defects shall be :orrected and system left in service before contractor's personnel finally leave the job. certificate shall be filled out and signed by both representatives. Copies shall be prepared for approving authorities, owners, and contractor. It is understood the wner's representative's signature in no way prejudices any claim against contractor for faulty material, poor workmanship, or failure to comply with approving authority': equirements or local ordinances. 'ROPE RTY Date CASA ALDEA AT CARLSBAD 02-19-21 'ROPERTY ADDRESS CANNON ROAD, CARLSBAD, CA 92010 PLANS ACCEPTED BY APPROVING AUTHORITY(S) NAMES ADDRESS INSTALLATION CONFORMS TO ACCEPTED PLANS U YES EQUIPMENT USED IS APPROVED •YES IF NO, EXPLAIN DEVIATIONS El NO El NO INSTRUCTIONS HAS PERSON IN CHARGE OF FIRE EQUIPMENT BEEN INSTRUCTED AS TO LOCATION OF CONTROL VALVES AND CARE AND MAINTENANCE OF THIS NEW EQUIPMENT? IF NO, EXPLAIN I YES El NO HAVE COPIES OF THE FOLLOWING BEEN LEFT ON THE PREMISES: SYSTEM COMPONENTS INSTRUCTIONS • YES CARE AND MAINTENANCE INSTRUCTIONS I YES 3.NFPA25 EYES 0 NO 0 NO 0 NO LOCATION SUPPLIES BUILDING: OF SYSTEM SPRINKLERS - MAKE MODEL YEAR OF MANUFACTURE ORIFICE SIZE QUANTITY TEMPERATURE RATING _TYCO LFII - TY3596 2020 1/2" 909 1550 _TYCO LFII -TY1234 2020 1/2" 213 155° .rYco LFII - TY1234 2020 1/211 101 200° TYCO TV-FRB - TY323 2020 1/2" 400 155° TYCO TV-FRB - TY323 2020 1/2" 076 2000 TYCO TV-FRB-TY323 2020 1/2" 298 200° TYCO TY-FRB - TY3331 2020 1/2" 003 200° TYCO SD1 - TY3182 2020 1/2" 075 200° TYCO BB1-1Y3180 2020 1/2" 230 200° PIPE AND FITTINGS Type of Pipe: SCH 10, SCH 40, CPVC Type of Fittings: THREADED FITTING, GROOVED FITTING, CPVC FITTING ALARM VALVE OR FLOW INDICATOR ALARM DEVICE MAXIMUM TIME TO OPERATE THRU TEST CONNECTION TYPE MAKE MODEL MIN. SEC. DRY PIPE OPERATING TEST N/A DRY VALVE Q.O.D. KE MODEL SERIAL NO. MAKE MODEL NO. TIME TO TRIP THRU TEST CONNECTION' WATERSURE AIR PRESSURE TRIP POINT PR8 WATER ACHED TEST OUTLET* ALARM OPERATED PROPERLY MIN. SEC. PSI PSI - PSI MIN. SEC. YEc NO Without Q.O.D. - El El With El U IF NO, EX PLAIN: TION U PNEUMATIC U ELECTRIC U HYDRAULIC PIPING SUPEtSED U YES U NO I DETECTING MEDIA SUPERVISED U YES I DOES VALVE OPERATETNW THE MANUAL TRIP AND/OR REMOTE CONTROL STATIONS U 8 U NO IS THERE AN ACCESSIBLE FACICITKJ4 EACH CIRCUIT FOR TESTING IF NO, EXPLAIN DELUGE & YES PREACTION VALVES DOES EACH CIRCUIT OPE J-OES EACH CIRCUIT OPERATE MAXIMUM TIME TO MAKE MODEL SUPERVISION LOSS ALAR VALVE RELEASE? OPERATE RELEASE N/A YES —1-110 MIN. SEC. f El El HYDROSTATIC: Hydrostatic tests shal ade at not less than 200 psi (13.6 bars) for two hours or 50 psi (3.4 bars ye static pressure in excess of 150 TEST psi (10.2 bars) for two hours. D ntial dry-pipe valve clappers shall be left open during test to prevent damage. All aboveg iping leakage shall be DESCRIPTION stopped. PNEU : Establish 40 psi (2.7 bars) air pressure and measure drop which shall not exceed 1-1/2 psi (0.1 bars) in 24 hours. Test pressure tanks rmal level and air pressure and measure air pressure drop which shall not exceed 1-1/2 psi (0.1 bars) in 24 hours. ALL PIPING HYDROSTATICALLY TESTED AT 200 PSI FOR 2 HRS. IF NO, STATE REASON: DRY PIPING PNEUMATICALLY TESTED N/A 0 YES 0 NO EQUIPMENT OPERATES PROPERLY U YES 0 NO DO YOU CERTIFY AS THE SPRINKLER CONTRACTOR THAT ADDITIVES AND CORROSIVE CHEMICALS, SODIUM SILICATE OR DERIVATIVES OF SODIUM SILICATE, BRINE, OR OTHER CORROSIVE CHEMICALS WERE NOT USED FOR TESTING SYSTEMS OR STOPPING LEAKS? TESTS UYES 0 NO DRAIN READING OF GAGE LOCATED NEAR WATER SUPPLY TEST RESIDUAL PRESSURE WITH VALVE IN TEST TEST I CONNECTION: /'fO PSI I CONNECTION OPEN WIDE I3Q PSI UNDERGROUND MAIN AND LEAD IN CONNECTIONS TO SYSTEM RISERS FLUSHED BEFORE CONNECTION MADE TO SPRINKLER PIPING OTHER EXPLAIN VERIFIED BY COPY OF THE U FORM NO. 85B U YES U NO FLUSHED BY INSTALLER OF UNDER- GROUND SPRINKLER PIPING •YES 0 NO BLANK NUMBER USED LOCATIONS: NUMBER REMOVED TESTING 1 AT RISER GASKETS WELDED PIPING • YES 0 NO IF YES. DO YOU CERTIFY AS THE SPRINKLER CONTRACTOR THAT WELDING PROCEDURES COMPLY WITH THE REQUIREMENTS OF AT LEAST AWS D10.9, LEVEL AR-3? U YES U NO DO YOU CERTIFY THAT THE WELDING WAS PERFORMED BY WELDERS QUALIFIED IN COMPLIANCE WITH THE REQUIREMENTS OF AT LEAST AWS D10.9, LEVEL AR-3? U YES U NO WELDING DO YOU CERTIFY THAT WELDING WAS CARRIED OUT IN COMPLIANCE WITH A DOCUMENTED QUALITY CONTROL PROCEDURE TO INSURE THAT ALL DISCS ARE RETRIEVED, THAT OPENINGS IN PIPING ARE SMOOTH, THAT SLAG AND OTHER WELDING RESIDUE ARE REMOVED, AND THAT THE INTERNAL DIAMETERS OF PIPING ARE NOT PENETRATED? UYES U NO CUTOUTS DO YOU CERTIFY THAT YOU HAVE A CONTROL FEATURE TO ENSURE THAT ALL (DISCS) CUTOUTS (DISCS) ARE RETRIEVED? U YES U NO HYDRAULIC NAME PLATE PROVIDED IF NO, EXPLAIN: DATA YES U NO NAMEPLATE DATE LEFT IN SERVICE WITH ALL CONTROL VALVES OPEN: 02-22-2021 REMARKS NAME OF SPRINKLER CONTRACTOR: SYMONS FIRE PROTECTION, INC. TESTS WITNESSED BY FOR P OWN ED) TITLE DATE SIGNATURES I I FOR SP7LEj CON2!TO:~nD) DE/ TITLE :5,,, - jJ i ADDITIONAL EXPLANATION AND NOTES (BACK) CONTRACTOR'S MATERIAL & TEST CERTIFICATE FOR A BOVEGROUND PIPING f:??f&:2OU ,O F7- ROCEDURE Jpon completion of work, inspection and tests shall be made by the contractor's representative and witnessed by an owner's representative. All defects shall be :orrected and system left in service before contractor's personnel finally leave the job. certificate shall be filled out and signed by both representatives. Copies shall be prepared for approving authorities, owners, and contractor. It is understood the )wner's representative's signature in no way prejudices any claim against contractor for faulty material, poor workmanship, or failure to comply with approving authority' equirements or local ordinances. 'ROPERTY NAME Date CASA ALDEA AT CARLSBAD 02-19-21 'ROPERTY ADDRESS CANNON ROAD, CARLSBAD, CA 92010 ACCEPTED BY APPROVING AUTHORITY(S) NAMES ADDRESS PLANS INSTALLATION CONFORMS TO ACCEPTED PLANS U YES El NO EQUIPMENT USED IS APPROVED • YES El NO IF NO, EXPLAIN DEVIATIONS INSTRUCTIONS HAS PERSON IN CHARGE OF FIRE EQUIPMENT BEEN INSTRUCTED AS TO LOCATION OF CONTROL VALVES AND CARE AND MAINTENANCE OF THIS NEW EQUIPMENT? IF NO, EXPLAIN U YES 0 NO HAVE COPIES OF THE FOLLOWING BEEN LEFT ON THE PREMISES: SYSTEM COMPONENTS INSTRUCTIONS CARE AND MAINTENANCE INSTRUCTIONS 3.NFPA25 YES 0 NO E YES 0 NO YES 0 NO LOCATION SUPPLIES BUILDING: OF SYSTEM SPRINKLERS MAKE MODEL YEAR OF MANUFACTURE ORIFICE SIZE QUANTITY TEMPERATURE RATING TYCO LFII -TY3596 2020 j/2" 909 155° TYCO LFII -TY1234 2020 _'112" 213 155° TYCO LFII -TY1234 2020 1/2" 101 2000 TYCO TY-FRB - Y323 2020 1/2" 400 155° TYCO TY-FRB - TY323 2020 1/2" 076 200° TYCO TY-FRB - Y323 2020 1/2" 298 200° TYCO TY-FRB - TY3331 2020 1/2" 003 200° TYCO SD1 - Y3182 2020 1/2" 075 200° TYCO B131 - TY3 180 2020 1/2" 230 200° PIPE AND FITTINGS Type of Pipe: SCH 10, SCH 40, CPVC Type of Fittings: THREADED FITTING, GROOVED FITTING, CPVC FITTING ALARM VALVE OR FLOW INDICATOR ALARM DEVICE MAXIMUM TIME TO OPERATE THRU TEST CONNECTION TYPE MAKE MODEL MIN. SEC. DRY PIPE OPERATING TEST N/A DRY VALVE Q.O.D. ---44A_KE MODEL SERIAL NO. MAKE MODEL TIME TO TRIP THRU TEST CONNECTION* SUR AIR PRESSURE TRIP POINT AIR WATER REACHED TEST OUTLET ALARM OPERATED PROPERLY MIN. SEC. PSI PSI - PSI MIN. SEC. YEc NO Without Q.O.D. - 0 0 With 0 0 EXPLAIN: I HYDRAULIC I PIPING SUPERtSD U YES U NO I DETECTING MEDIA SUPERVISED U YES NO DOES VALVE OPERAT6RQM THE MANUAL TRIP AND/OR REMOTE CONTROL STATIONS U )€ U NO IS THERE AN ACCESSIBLE FACIrtT44 EACH CIRCUITTESTING FOR TESTING DELUGE & YES PREACTION VALVES DOES EACH CIRCUIT OPE OES EACH CIRCUIT OPERATE MAXIMUM TIME TO MAKE MODEL SUPERVISION LOSS ALAR VALVE RELEASE? OPERATE RELEASE N/A YES MIN. SEC. El HYDROSTATIC: Hydrostatic tests shal ade at not less than 200 psi (13.6 bars) for two hours or 50 psi (3.4 bars ye static pressure in excess of 150 TEST psi (10.2 bars) for two hours. D ntial dry-pipe valve clappers shall be left open during test to prevent damage. All aboveg iping leakage shall be DESCRIPTION stopped. PNEU : Establish 40 psi (2.7 bars) air pressure and measure drop which shall not exceed 1-1/2 psi (0.1 bars) in 24 hours. Test pressure tanks rmal tieveI and air pressure and measure air pressure drop which shall not exceed 1-1/2 psi (0.1 bars) in 24 hours. ALL PIPING HYDROSTATICALLY TESTED AT 200 PSI FOR 2 HRS. IF NO, STATE REASON: DRY PIPING PNEUMATICALLY TESTED N/A El YES El NO EQUIPMENT OPERATES PROPERLY U YES El NO DO YOU CERTIFY AS THE SPRINKLER CONTRACTOR THAT ADDITIVES AND CORROSIVE CHEMICALS, SODIUM SILICATE OR DERIVATIVES OF SODIUM SILICATE, BRINE, OR OTHER CORROSIVE CHEMICALS WERE NOT USED FOR TESTING SYSTEMS OR STOPPING LEAKS? TESTS UYES El NO DRAIN READING OF GAGE QCATED NEAR WATER SUPPLY TEST RESIDUAL PRESSURE WITH VALVE IN TEST TEST I CONNECTION: PSI I CONNECTION OPEN WIDE J3 PSI UNDERGROUND MAIN AND LEAD IN CONNECTIONS TO SYSTEM RISERS FLUSHED BEFORE CONNECTION MADE TO SPRINKLER PIPING OTHER EXPLAIN VERIFIED BY COPY OF THE U FORM NO. 85B U YES El NO FLUSHED BY INSTALLER OF UNDER- GROUND SPRINKLER PIPING •YES El NO BLANK NUMBER USED LOCATIONS: NUMBER REMOVED TESTING AT RISER GASKETS WELDED PIPING U YES E NO IF YES. DO YOU CERTIFY AS THE SPRINKLER CONTRACTOR THAT WELDING PROCEDURES COMPLY WITH THE REQUIREMENTS OF AT LEAST AWS D10.9, LEVEL AR-3? •YES El NO DO YOU CERTIFY THAT THE WELDING WAS PERFORMED BY WELDERS QUALIFIED IN COMPLIANCE WITH THE REQUIREMENTS OF AT LEAST AWS D10.9, LEVEL AR-3? • YES El NO WELDING DO YOU CERTIFY THAT WELDING WAS CARRIED OUT IN COMPLIANCE WITH A DOCUMENTED QUALITY CONTROL PROCEDURE TO INSURE THAT ALL DISCS ARE RETRIEVED, THAT OPENINGS IN PIPING ARE SMOOTH, THAT SLAG AND OTHER WELDING RESIDUE ARE REMOVED, AND THAT THE OF PIPING ARE NOT PENETRATED? UYES NO _INTERNAL _DIAMETERS CUTOUTS DO YOU CERTIFY THAT YOU HAVE A CONTROL FEATURE TO ENSURE THAT ALL (DISCS) CUTOUTS (DISCS) ARE RETRIEVED? U YES El NO HYDRAULIC NAME PLATE PROVIDED IF NO, EXPLAIN: DATA YES 0 NO NAMEPLATE DATE LEFT IN SERVICE WITH ALL CONTROL VALVES OPEN: 02-22-2021 REMARKS NAME OF SPRINKLER CONTRACTOR: SYMONS FIRE PROTECTION, INC. TESTS WITNESSED BY FO _______ ___ ER (SIGNED TITLE DATE SIGNATURES S)GNED) TITL DATE// I ADDITIONAL EXPLANATION AND NOTES (BACK) CONTRACTOR'S MATERIAL & TEST CERTIFICATE FOR A BOVEGROUND PIPING r12c c ç ROCEDURE Jpon completion of work, inspection and tests shall be made by the contractor's representative and witnessed by an owner's representative. All defects shall be :orrected and system left in service before contractor's personnel finally leave the job. certificate shall be filled out and signed by both representatives. Copies shall be prepared for approving authorities, owners, and contractor. It is understood the )wner's representative's signature in no way prejudices any claim against contractor for faulty material, poor workmanship, or failure to comply with approving authority' equirements or local ordinances. 'ROPERTY NAME Date CASA ALDEA AT CARLSBAD 02-19-21 CANNON ROAD, CARLSBAD, CA 92010 PLANS ACCEPTED BY APPROVING AUTHORITY(S) NAMES ADDRESS INSTALLATION CONFORMS TO ACCEPTED PLANS U YES EQUIPMENT USED IS APPROVED I YES IF NO, EXPLAIN DEVIATIONS LI NO El NO INSTRUCTIONS HAS PERSON IN CHARGE OF FIRE EQUIPMENT BEEN INSTRUCTED AS TO LOCATION OF CONTROL VALVES AND CARE AND MAINTENANCE OF THIS NEW EQUIPMENT? IF NO, EXPLAIN E YES LI NO HAVE COPIES OF THE FOLLOWING BEEN LEFT ON THE PREMISES: SYSTEM COMPONENTS INSTRUCTIONS I YES CARE AND MAINTENANCE INSTRUCTIONS E YES NFPA 25 E YES LI NO El NO 0 NO LOCATION OF SYSTEM SUPPLIES BUILDING: 13 SPRINKLERS MAKE MODEL YEAR OF MANUFACTURE ORIFICE SIZE - QUANTITY TEMPERATURE RATING TYCO LFII -TY3596 2020 _Jj2" 909 155° TYCO LFII -TY1234 2020 _1j2" 213 155° TYCO LFII -TY1234 2020 1/2" 101 200° TYCO TY-FRB - TY323 2020 1/2" 400 155° TYCO TY-FRB-TY323 2020 1/2" 076 200° TYCO TY-FRB - TY323 2020 1/2" 298 200° TYCO TY-FRB - TY3331 2020 1/2" 003 200° TYCO SDI - TY3 182 2020 1/2" 075 200° TYCO BB1 - TY3180 2020 1 1/2" 230 200° PIPE AND FITTINGS Type of Pipe: SCH 10, SCH 40, CPVC Type of Fittings: THREADED FITTING, GROOVED FITTING, CPVC FITTING ALARM VALVE OR FLOW INDICATOR ALARM DEVICE MAXIMUM TIME TO OPERATE THRU TEST CONNECTION TYPE MAKE MODEL MIN. SEC. DRY PIPE OPERATING TEST N/A DRY VALVE KE MODEL SERIAL NO. MAKE MODEL TIME TO TRIP THRU TEST CONNECTION* WATERSURE . AIR PRESSURE 4 PR TRIP POINT E E WATER ACHED TEST OUTLET* ALARM OPERATED PROPERLY MIN.S C. PSI PSI - PSI MIN. SEC.YEc NO Without Q.O.D. U LI With El LI EXPLAIN IS THERE AN ACCESSIBLE FACIErrY44 EACH CIRCUIT FOR TESTING IF NO, EXPLAIN DELUGE & YES PREACTION VALVES DOES EACH CIRCUIT OPE OES EACH CIRCUIT OPERATE MAXIMUM TIME TO MAKE MODEL SUPERVISION LOSS ALAR VALVE RELEASE? OPERATE RELEASE N/A YES NO MIN. SEC. HYDROSTATIC: Hydrostatic tests shal ade at not less than 200 psi (13.6 bars) for two hours or 50 psi (3.4 bars ye static pressure in excess of 150 TEST psi (10.2 bars) for two hours. D ntial dry-pipe valve clappers shall be left open during test to prevent damage. All aboveg iping leakage shall be DESCRIPTION stopped. PNEU : Establish 40 psi (2.7 bars) air pressure and measure drop which shall not exceed 1-1/2 psi (0.1 bars) in 24 hours. Test pressur~tank wti'evel and air pressure and measure air pressure drop which shall not exceed 1-1/2 psi (0.1 bars) in 24 hours. ALL PIPING HYDROSTATICALLY TESTED AT 200 PSI FOR 2 HRS. IF NO, STATE REASON: DRY PIPING PNEUMATICALLY TESTED N/A 0 YES 0 NO EQUIPMENT OPERATES PROPERLY U YES 0 NO DO YOU CERTIFY AS THE SPRINKLER CONTRACTOR THAT ADDITIVES AND CORROSIVE CHEMICALS, SODIUM SILICATE OR DERIVATIVES OF SODIUM SILICATE, BRINE, OR OTHER CORROSIVE CHEMICALS WERE NOT USED FOR TESTING SYSTEMS OR STOPPING LEAKS? TESTS YES U NO DRAIN I READING OF GAGE LOCATED NEAR WATER SUPPLY TEST I RESIDUAL PRESSURE WITH VALVE IN TEST CONNECTION OPEN WIDE /_e' PSI TEST CONNECTION: PSI UNDERGROUND MAIN AND LEAD IN CONNECTIONS TO SYSTEM RISERS FLUSHED BEFORE CONNECTION MADE TO SPRINKLER PIPING OTHER EXPLAIN VERIFIED BY COPY OF THE U FORM NO. 85B U YES 0 NO FLUSHED BY INSTALLER OF UNDER- GROUND SPRINKLER PIPING •YES 0 NO BLANK NUMBER USED LOCATIONS: NUMBER REMOVED TESTING 1 AT RISER GASKETS WELDED PIPING U YES U NO IF YES... DO YOU CERTIFY AS THE SPRINKLER CONTRACTOR THAT WELDING PROCEDURES COMPLY WITH THE REQUIREMENTS OF AT LEAST AWS DI0.9, LEVEL AR-3? U YES U NO DO YOU CERTIFY THAT THE WELDING WAS PERFORMED BY WELDERS QUALIFIED IN COMPLIANCE WITH THE REQUIREMENTS OF AT LEAST AWS D10.9, LEVEL AR-3? •YES 0 NO WELDING DO YOU CERTIFY THAT WELDING WAS CARRIED OUT IN COMPLIANCE WITH A DOCUMENTED QUALITY CONTROL PROCEDURE TO INSURE THAT ALL DISCS ARE RETRIEVED, THAT OPENINGS IN PIPING ARE SMOOTH, THAT SLAG AND OTHER WELDING RESIDUE ARE REMOVED, AND THAT THE INTERNAL DIAMETERS OF PIPING ARE NOT PENETRATED? • YES U NO CUTOUTS DO YOU CERTIFY THAT YOU HAVE A CONTROL FEATURE TO ENSURE THAT ALL (DISCS) CUTOUTS (DISCS) ARE RETRIEVED? •YES U NO HYDRAULIC NAME PLATE PROVIDED IF NO, EXPLAIN: DATA YES 0 NO NAMEPLATE DATE LEFT IN SERVICE WITH ALL CONTROL VALVES OPEN: 02-22-2021 REMARKS NAME OF SPRINKLER CONTRACTOR: SYMONS FIRE PROTECTION, INC. TESTS WITNESSED BY F NE I4NED) TITLE DATE SIGNATURES 's I I I FOR SPRINKLER 2CTO GD) ITlTLE ,JJ ADDITIONAL EXPLANATION AND NOTES (BACK) 2o3 -ô(G tw9o) Worldwide Fire Protection Contacts www.tyco-fire.com Products RAPID RESPONSE Series LFII Residential Sprinklers 30 K-factor Pendent Wet Pipe Systems General Description The TYCO RAPID RESPONSE Series LFII Residential Pendent Sprinklers (TY1234) are decorative, fast response, frangible bulb sprinklers designed for use in residential occupancies such as homes, apartments, dormitories, and hotels. When aesthetics and optimized flow characteristics are key consider- ations, the Series LFII (TY1234) should be the first choice. The 3.0 K-factor of the Series LFII Residential Pendent Sprinkler has been designed to optimize flows (that is, to avoid over discharging) specifi- cally for small coverage areas up to 14 ft. x 14 ft. (4,3 m x 4,3 m). The required residential flow rates can then be delivered with the use of smaller pipe sizes and reduced water supply requirements. The Series LFII Residential Sprinklers are intended for use in the following scenarios: wet pipe residential sprinkler systems for one-and two-family dwellings and mobile homes per NFPA 13D wet pipe residential sprinkler systems for residential occupan- cies up to and including four stories in height per NFPA 13R wet pipe sprinkler systems for the residential portions of any occupancy per NFPA 13 The recessed version of the Series LFII Residential Pendent Sprinkler is intended for use in areas with finished ceilings. It employs a two-piece Style 20 Recessed Escutcheon. The Recessed Escutcheon provides 1/4 inch (6,4 mm) of recessed adjust- ment or up to 1/2 inch (12,7 mm) of total adjustment from the flush ceiling position. The adjustment provided by the Recessed Escutcheon reduces the accuracy to which the pipe drops to the sprinklers must be cut. The Series LFII Residential Pendent Sprinkler has been designed with heat sensitivity and water distribution char- acteristics proven to help in the control of residential fires and to improve the chance for occupants to escape or be evacuated. NOTICE The Series LFlI Residential Pendent Sprinklers (TY1234) described herein must be installed and maintained in compliance with this document and with the applicable standards of the National Fire Protection Association, in addition to the standards of any author- ities having jurisdiction. Failure to do so may impair the performance of these devices. The owner is responsible for main tam- ing their fire protection system and devices in proper operating condition. The installing contractor or sprinkler manufacturer should be contacted with any questions. Sprinkler Identification Number (SIN) TY1234 Technical Data Approvals UL Listed (for use with wet pipe and dry pipe systems) C-UL Listed (for use only with wet pipe systems) Certified to all requirements of NSF/ANSI 61 (Refer to the Design Criteria section for details on these approvals.) Maximum Working Pressure 175 psi (12,1 bar) Discharge Coefficient K=3.0 GPM/p51112 (43,2 LPM/bar1/2) Temperature Rating 155°F (68°C) or 175°F (79°C) Finishes Natural Brass, Signal White, or Chrome Plated Physical Characteristics Frame .............................Brass Button ...........................Copper Sealing Assembly. . Beryllium Nickel w/TEFLON Bulb .......................... 3mm Glass Compression Screw .................Bronze Deflector ..........................Bronze Page lot 4 JUNE 2017 TFP402 TFP4O2 Page 2of4 7/16 (11,1 mm) 1/2" ESCUTCHEON Components: NOMINAL NPT PLATE SEATING 27/8* DIA. 1-Frame 7 MAKE-IN SURFACE (73,0 mm) 2 - Button 4 - Bulb IF 5 - Compression 2 2-3/16 6- Deflector 3 - Sealing Assembly 1 _________ ESCUTCHEON Screw (55,6 mm) 7 - Insert -9/ RENCH RENCH STYLE 20 RECESSED (39,7mm) w Temperature rating is 6* indicated on Deflector. CROSS SECTION PENDENT RECESSED PENDENT FIGURE 1 RAPID RESPONSE SERIES LFII RESIDENTIAL PENDENT AND RECESSED PENDENT SPRINKLERS (TY1234) 2-7/8 DIA. 7/16±1/8 (73,0 mm) 1/2(12,7mm) (11,1±3,2 mm) 2-1/4 DIA. 1/4" (6,4 mm) FACE OF mm) SPRINKLER T57'2 MOUNTING FITTING ( - PLATE MOUNTING 1/8' SURFACE / /// (3,2 mm) 1-3/8' (34,9 mm) - CLOSURE TY1234 1-1/8' (28,6 mm) FIGURE 2 STYLE 20 RECESSED ESCUTCHEON FOR USE WITH THE RAPID RESPONSE SERIES LFII RESIDENTIAL PENDENT SPRINKLER (TY1234) Residential Sprinkler Design Guide When conditions exist that are outside the scope of the provided criteria, refer to the Residential Pendent Sprinkler Design Guide TFP490 for the manufac- turer's recommendations that may be acceptable to the local authority having jurisdiction. System Type Only wet pipe systems may be utilized. Ceiling Types Smooth flat horizontal, or beamed, or sloped, in accordance with the 2013 Edition of NFPA 13D, 13R, or 13 as applicable. Operation The glass bulb contains a fluid that expands when exposed to heat. When the rated temperature is reached, the fluid expands sufficiently to shatter the glass bulb, allowing the sprinkler to activate and flow water. Design Criteria The TYCO RAPID RESPONSE Series LFII Residential Pendent Sprinklers (TY1234) are UL and C-UL Listed for installation in accordance with the fol- lowing criteria. WR ENCH RECESS (END 'A USED FOR TY1234) FIGURE 3 W-TYPE 6 SPRINKLER WRENCH WRENCH RECESS PUSH WRENCH INTO ENSURE ENGAGEMENT WITH SPRINKLER WRENCHING AREA FIGURE 4 W-TYPE 7 RECESSED SPRINKLER WRENCH Hydraulic Design (NFPA 13D and 13R) The minimum required sprinkler flow rate for systems designed to NFPA 13D or NFPA 13R are given in Table A as a function of temperature rating and the maximum allowable cov- erage areas. The sprinkler flow rate is the minimum required discharge from each of the total number of design sprinklers as specified in NFPA 13D or NFPA 13R. TFP4O2 Page 3 of 4 WET PIPE SYSTEM Minimum Flow and Residual Pressure (b, C) Max. Ordinary Temp. Rating Intermediate Temp. Rating Coverage Area (a) 155°F (68°C) 175°F (79°C) Minimum Ft. x Ft. Deflector to Installation Spacing (mxm) Flow Pressure Flow Pressure Ceiling Type Ft. GPM PSI GPM PSI (m) (L/min) (bar) (L/min) (bar) 12x12 8 7.1 8 7.1 (3,7 X 3,7) (30,3) (0,49) (30,3) (0,49) Smooth Ceilings 14 x 14 11 13.4 11 13,4 1-1/4 to (4,3 x 4,3) (41,6) (0,92) (41,6) (0,92) 4 inches Beamed Recessed using Style 20 Escutcheon or 8 15x15 12 16 12 16 (4,6 x 4,6) (45,4) (1,10) (45,4) (1,10) Ceilings per NFPA 13D non-recessed NFPA 13D, (2,4) per 16 x 16 13 18.8 13 18.8 1-1/4 to 1-3/4 13R, or 13 (4,9 x 4,9) (49,2) (1,29) (49,2) (1,29) inches below bottom of 18x18 17 32,1 18 36.0 beam. (5,5x5,5) (64,3) (2,21) (68,1) (2,48) NOTES For coverage area dimensions less than or between those indicated, use the minimum required flow for the next highest coverage area for which hydraulic design criteria are stated. Requirement is based on minimum flow in GPM (LPM) from each sprinkler. The associated residual pressures are calculated using the nominal K- factor. Refer to Hydraulic Design under the Design criteria section. For NFPA 13 residential applications, the greater of 0.1 gpm/ft2 over the design area or the flow in accordance with the criteria in this table must be used. TABLE A WET PIPE SYSTEM SERIES LFII RESIDENTIAL PENDENT AND RECESSED PENDENT SPRINKLERS (TY1234) NFPA 13D, 13R, AND 13 HYDRAULIC DESIGN CRITERIA Hydraulic Design (NFPA 13) For systems designed to NFPA 13, the number of design sprinklers is to be the four most hydraulically demanding sprinklers. The minimum required dis- charge from each of the four sprinklers is to be the greater of the following: The flow rates given in Table A for NFPA 13D and 13R as a function of TFP402 temperature rating and the maximum allowable coverage area. A minimum discharge of 0.1 gpm/ft.2 over the 'design area" comprised of the four most hydrau- lically demanding sprinklers for actual coverage areas protected by the four sprinklers. Obstruction to Water Distribution Sprinklers are to be located in accor- dance with the obstruction rules of NFPA 13D, 13R, and 13 as applica- ble for residential sprinklers as well as with the obstruction criteria described within the TYCO technical data sheet IF P490. Operational Sensitivity Sprinklers are to be installed with a deflector-to-ceiling distance of 1-1/4 to 4 inches. Sprinkler Spacing The minimum spacing between sprin- klers is 8 feet (2,4 m). The maximum spacing between sprinklers cannot exceed the length of the cover- age area being hydraulically calcu- lated (e.g., a maximum of 12 feet for a 12 ft. x 12 ft. coverage area, or 16 feet for a 16 ft. x 16 ft. coverage area.) Refer to Table A. Installation The TYCO RAPID RESPONSE Series LFII Residential Pendent Sprinklers (1Y1234) must be installed in accor- dance with this section: General Instructions Do not install any bulb-type sprinkler if the bulb is cracked or there is a loss of liquid from the bulb. With the sprin- kler held horizontally, a small air bubble should be present. The diameter of the air bubble is approximately 1/16 inch (1 16 mm). A leak-tight 1/2 inch NPT sprinkler joint should be obtained by applying a min- imum-to-maximum torque of 7 to 14 ft.-lbs. (9,5 to 19,0 Nm). Higher levels of torque can distort the sprinkler inlet with consequent leakage or impairment of the sprinkler. Do not attempt to compensate for insufficient adjustment in an Escutch- eon Plate by under-or over-tightening the Sprinkler. Re-adjust the position of the sprinkler fitting to suit. Series LFII Residential Pendent Sprinklers The Series LFII Residential Pendent Sprinklers must be installed in accor- dance with the following instructions. Step 1. Install pendent sprinklers in the pendent position with the deflector par- allel to the ceiling. Step 2. With pipe-thread sealant applied to the pipe threads, hand- tighten the sprinkler into the sprinkler fitting. Step 3. Wrench-tighten the sprinkler into the sprinkler fitting using only the W-Type 6 Sprinkler Wrench (Figure 3). With reference to Figure 1, apply the W-Type 6 Sprinkler Wrench to the wrench flats. TFP4O2 Page 4of4 Series LFII Residential Recessed Pendent Sprinklers The Series LFII Recessed Pendent Sprinklers must be installed in accor- dance with the following instructions. Step A. Install recessed pendent sprin- klers in the pendent position with the deflector parallel to the ceiling. Step B. After installing the Style 20 Mounting Plate over the sprinkler threads and with pipe thread sealant applied to the pipe threads, hand- tighten the sprinkler into the sprinkler fitting. Step C. Wrench-tighten the sprinkler into the sprinkler fitting using only the W-Type 7 Recessed Sprinkler Wrench (Figure 4). With reference to Figure 1, apply the W-Type 7 Recessed Sprinkler Wrench to the sprinkler wrench flats. Step D. After installing the ceiling applying the finish coat, slide on the Style 20 Closure over the Series LFII Sprinkler and push the Closure over the Mounting Plate until the flange comes in contact with the ceiling. Care and Maintenance The TYCO RAPID RESPONSE Series LFII Residential Pendent Sprinklers (TY1234) must be maintained and ser- viced in accordance with this section: Before closing a fire protection system main control valve for maintenance work on the fire protection system that it controls, obtain permission to shut down the affected fire protection system from the proper authorities and notify all personnel who may be affected by this decision. Absence of the outer piece of an escutcheon,which is used to cover a clearance hole, can delay sprinkler operation in a fire situation. The owner must assure that the sprin- klers are not used for hanging any objects and that the sprinklers are only cleaned by means of gently dusting with a feather-duster. Otherwise, non- operation in the event of a fire or inad- vertent operation may result. Sprinklers which are found to be leaking or exhibiting visible signs of corrosion must be replaced. Automatic sprinklers must never be painted, plated, coated, or other- wise altered after leaving the factory. Modified sprinklers must be replaced. Sprinklers that have been exposed to corrosive products of combustion, but have not operated, should be replaced if they cannot be completely cleaned by wiping the sprinkler with a cloth or by brushing it with a soft bristle brush. Care must be exercised to avoid damage to the sprinklers - before, during, and after installation. Sprin- klers damaged by dropping, striking, wrench twist/slippage, or the like, must be replaced. Also, replace any sprin- kler that has a cracked bulb or that has lost liquid from its bulb. (Ref. Installa- tion Section.) The owner is responsible for the inspection, testing, and maintenance of their fire protection system and devices in compliance with this document, as well as with the applicable standards of the National Fire Protection Asso- ciation (e.g., NFPA 25), in addition to the standards of any other authorities having jurisdiction. Contact the install- ing contractor or sprinkler manufac- turer regarding any questions. Automatic sprinkler systems are rec- ommended to be inspected, tested, and maintained by a qualified Inspec- tion Service in accordance with local requirements and/or national codes. Limited Warranty For warranty terms and conditions, visit www.tyco-fire.com. Ordering Procedure Contact your local distributor for avail- ability. When placing an order, indicate the full product name and Part Number (PIN). Sprinkler Assembly Specify: Series LFII (TY1234), K=3.0, Residential Pendent Sprinkler, (specify) temperature rating, (specify) finish, and P/N (specify): 155F (6&C) Natural Brass .................51-010-1-155 Signal White (RAL 9003) ........51 -010-4-155 Chrome Plated ................51-010-9-155 175-F (79-C) Natural Brass .................51-010-1-175 Signal White (RAL 9003) ........51-010-4-175 Chrome Plated ................51-010-9-175 Recessed Escutcheon Specify: Style 20 Recessed Escutch- eon with (specify*) finish, and P/N (specify*) *Refer to Technical Data Sheet TFP770. Sprinkler Wrench Specify: W-Type 6 Sprinkler Wrench for use with Series LFII Pendent Sprin- klers, P/N 56-000-6-387 Specify: W-Type 7 Sprinkler Wrench for use with Series LFII Recessed Pendent Sprinklers, P/N 56-850-4-001 GLOBAL HEADQUARTERS 11400 Pennbrook Parkway, Lansdale, PA 19446 I Telephone +1-215-362-0700 Copyright © 2017 Tyco Fire Products, LP. All rights reserved. t co TEFLON is a registered trademark of DuPont, LOCTITE is a registered trademark of Henkel Corporation, Protection Products Fire Protection Products Worldwide Contacts I www.tyco-fire.com Models BB, SD, HIP, and AP Specific Application Sprinklers For Protecting Attics General Description The TYCO Models Back to Back Dual Directional (BB), Single Directional (SD), HIP, and Attic Plus (AP) Specific Appli- cation Attic Sprinklers for Protecting Attics are fire sprinklers for combus- tible and non-combustible sloped attic spaces. While Models BB, SD, and HIP are specific application attic sprinklers, the Model AP is a specific application combustible concealed-space sprin- kler with specific application criteria for use with Models BB, SD, and HIP in attic spaces. Specific Application Attic Sprinklers provide superior fire protection in attic spaces. When compared to Stan- dard Spray Sprinklers, cost savings are achieved by eliminating branchline materials and the associated installa- tion labor. Specific Application Attic Sprinklers for Protecting Attics have undergone the most extensive fire testing ever per- formed for sloped attic spaces. They are UL Listed with their specific appli- cation guidelines for use as special sprinklers as defined by the National Fire Protection Association (N FPA). Specific Application Attic Sprinklers provide an extended coverage spacing alternative to the restricted spacing of Standard Spray Sprinklers. IMPORTANT Always refer to Technical Data Sheet TFP700 for the "INSTALLER WARNING" that provides cautions with respect to handling and instal- lation of sprinkler systems and com- ponents. Improper handling and installation can permanently damage a sprinkler system or its compo- nents and cause the sprinkler to fail to operate in a fire situation or cause it to operate prematurely. Page 1 of 28 The Specific Application Attic Sprin- klers are the first sprinklers to be: Listed for extended coverage in com- bustible construction Full-scale fire tested in both wet and dry system scenarios Full-scale tested for use in wood truss construction Listed for specific roof slopes (Ref. Table A) The Specific Application Attic Sprin- klers provide cost control with the best level of protection by eliminat- ing the need for additional sprinklers and branchline piping. In many cases, an attic can be entirely protected with I ust one line of piping located below the peak of the roof using Model BB Sprin- klers. If Model SD Sprinklers or Model HIP Sprinklers are needed, one line of either at each area being covered is sufficient. For example, while using Standard Spray Sprinklers, a system in a 60 ft (18,3 m) wide attic with up to a 12:12 roof pitch designed to NFPA 13, could require seven branchlines to cover the main portion of the attic and several additional branchlines to cover the hip areas. With Specific Application Attic Sprinklers, the required coverage can be obtained with just one branchline running below the peak and one down each slope of the hip beam. This would result in approximately 90% less pipe needed for installation. This reduction in the number of branchlines saves the cost of the pipe, fittings, hangers, and associated labor by eliminating up to five branchlines. Another important aspect of the Spe- cific Application Attic Sprinkler technol- ogy, which also allows for cost savings, is the reduction in system volume. This volume reduction may result in reduc- ing the size of a dry pipe valve and air compressor, and possibly allows for quicker water delivery times, eliminat- ing the need for an accelerator. JUNE 2017 TFP6IO L..__ 1-9/16" r (39,7 mm) 10 11 9 CROSS SECTION TFP6IO Iage2of28 I Components: I I 1- Frame 4-Bulb I I 2 - Button 5 - Compression I I3 - Sealing Screw Assembly 6 - Deflector 2-1/4 ________ 1-5/8 (57,2 mm) (41,3 mm)H 1-1/8 13/16 (28,6 mm) mm \6 FLOW FLOW 2-1 2 (54,0 mm) 3 THREAD RELIEF 1/2"(12,7 mm) J /3/4NPT NOMINAL MAKE-IN WRENCH FRAME CROSS FLATS ARMS SECTION ELEVATION FIGURE A MODELS BB1, BB2, AND BB3 WITH 8.0 K-FACTOR SPECIFIC APPLICATION ATTIC SPRINKLERS I Components: I I 1-Frame 4-Bulb I I 2 - Button 5 - Compression I I3 - Sealing Screw Assembly 6 - Deflector 2-1/4" 1-5/8' _____ 3/16' ______ 1-1/8" I 1 (57,2mm) (41,3 mm) 6mm)b(28,6 mm) T T' 6 2-1/8" FLOW FLOW T 2 (54,0 mm) 3 THREAD RELIEF mL_ /;NPT NOMINAL / 7/16" (11,1 MAKE-IN WRENCH FRAME FLATS ARMS CROSS SECTION ELEVATION FIGURE C MODELS BB1, BB2, AND BB3 WITH 4.2 K-FACTOR SPECIFIC APPLICATION ATTIC SPRINKLERS Components: 1 - Body 5 - Compression 8 - Deflector 2 - Cap Screw 9 - Rivet 3 - Sealing 6 - Lever 10 - Diffuser Assembly 7 - Deflector 11 - Link 4 - Saddle Frame Assembly 2-1/4" (57,2 mm) 1-1/8" (28,6 mm) 7 TFLOW FLOW r' 4= WRENCH 1/2' 7/16' HEX NPT (11,1 mm) NOMINAL MAKE-IN ELEVATION FIGURE B MODELS BB1, BB2, AND BB3 WITH 5.6 K-FACTOR SPECIFIC APPLICATION ATTIC SPRINKLERS Components: I I 1 - Body 5 - Compression 8 - Deflector I 2 - Cap Screw 9 - Rivet I I - Sealing 6 - Lever 10 - Link I I Assembly 7 - Deflector Assembly I 4 - Saddle Frame 1-5/16" 8 (33,3 mm) p 2-1/8" (54,0 mm) 4mm) H 9 I FLOW 1 5/16" 10 : (76,2 mm) r i FRAME ARMS 5 $I 1I 7/16" (11,1 rnm)J WRENCH 1/2" I \ 2 1 NOMINAL HEX NPT CROSS MAKE-IN SECTION ELEVATION FIGURE D MODELS WI, SD2, AND SD3 WITH 5.6 K-FACTOR SPECIFIC APPLICATION ATTIC SPRINKLERS Components: 1 - Frame 4 - Bulb 2 - Button 5 - Compression 3 - Sealing Screw Assembly 6 - Deflector 2-1/8 2" - (54,0 mm) (50,8 mm) 1-1/16" J 1-1/4" (27,0 mm) (31,8 mm) 171 - FLOW 2-1/8' (54,0 mm) kD EF 7/16" (11,1 mm)-1 / 1/2' NPT / NOMINAL MAKE-IN WRENCH FRAME FLATS ARMS CROSS SECTION ELEVATION FIGURE E MODEL HIP WITH 5.6 K-FACTOR SPECIFIC APPLICATION ATTIC SPRINKLERS TFP6IO Page 3 of 28 Components: 1 - Frame 5 - Compression 2 - Sealing Screw Assembly 6 - Deflector 3 - Button 7 - Ejection 4 - Bulb Spring 1-11/16" 6 (42,9 mm) __iiiiJ SPRINKLER - FRAME fl ARMS 2-1/4 (57,2 mm) TS __ WNC 1/2 NPT 7/16" (11,1 mm) NOMINAL MAKE-IN CROSS SECTION ELEVATION FIGURE F MODEL AP WITH 4.2 OR 5.6 K-FACTOR SPECIFIC APPLICATION COMBUSTIBLE CONCEALED SPACE SPRINKLERS Another cost reduction is the Listing of BLAZEMASTER CPVC for use in attic spaces to feed the wet system Specific Application Attic Sprinklers for Protect- ing Attics, as well as to feed the wet system sprinklers below the ceiling. Traditionally, BLAZEMASTER CPVC has been used on the lower floors in the joist space above a ceiling that do not require sprinklers. The cost of using CPVC on those floors can now be translated to the upper floor even if sprinklers are required in the attic. There are four models of the Specific Application Attic Sprinklers used for protecting attics: BB, SD, HIP, and AR The Model BB and Model SD Sprinklers have three separate versions used for different roof pitches. The pitches, as applicable, can vary from a minimum of 3:12 to a maximum of 12:12. For more information, refer to Table A. BB Sprinkler (Back to Back Dual Directional) The Model BB Specific Application Attic Sprinkler, as seen in Figure A, B and C, throws a narrow and long pattern. The narrow spacing along the ridge serves two purposes: the response time is reduced by placing the sprinklers no farther than 6 ft (1,8 m) apart, and the spray can be concentrated in the throw direction to obtain a pattern that will cover up to 30 ft (9,1 m) in each direction when measured horizontally. There are three different models that account for different roof slopes: 131131, BB2, and B133. Each model is provided in one of three different orifice sizes: K=4.2, 5.6, or 8.0. SD Sprinkler (Single Directional) The Model SD Specific Application Attic Sprinkler, as seen in Figure D, throws a narrow but long pattern like the Model BB. However, unlike the Model BB, the Model SD only throws in one direction. Model BB Sprinklers are primarily used where shear walls or draft curtains have been installed within an attic space. Model BB Sprinklers are also used when the framing direction is parallel with the outside wall in the hip area. For more information, refer to Figure 13. In this case, the SD Model Sprinkler would be used on one side of the slope and AP Sprinklers or Standard Spray Sprinklers would be used to protect the other side. The Model SD Sprinklers must be installed in a vertical upright orientation and not angled with the slope. Achiev- ing the vertical upright orientation may require the use of a swing joint if the SD Sprinklers are being fed from a line running along and parallel to the roof hip. There are three different models that account for different roof slopes: SD1, SD2, and SD3. HIP Sprinkler The Model HIP Specific Application Attic Sprinkler, as seen in Figure E, covers the area of the hip in the attic. This is a slightly different concept than the BB Model or SD Model Sprinklers. The HIP Sprinkler is located along the slope running down the hip, and throws a 90° pattern toward the outside eaves. This pattern allows the water to "corner" and control the fire. The HIP does not throw much water directly up or down the hip, but rather it throws most of the pattern out to each side (90°) down the slope of the roof. This sprinkler is typically spaced 6 ft (1,8 m) to 3 ft (0,9 m) on center down the slope. To use the HIP Sprinkler, the framing must be perpendicular to the outside wall (refer to Figure 12) and the maximum throw cannot exceed 28 ft (8,5 m) measured horizontally. The HIP, unlike the BB Model and SD Model, is installed with the deflector parallel with the slope. There is only one model with flows and pressures for two different spacings. TFP6IO Iage4of28 AP Sprinkler (Attic Plus) The AP Specific Application Attic Sprin- kler are to be installed in the upright orientation with their deflector parallel to the roof. The Model AP Sprinklers, as seen in Figure F, are intended to be used to provide protection of attic areas outside the scope of applica- tions for the BB, SD, or HIP Sprinklers. The AP Sprinklers must only be used in conjunction with other Specific Appli- cation Attic Sprinklers (BB, SD, and HIP), or as permitted in other sections of this document. The AP Sprinklers will provide a hydraulic advantage over Standard Spray Sprinklers for the pro- tection of attic areas outside the scope of application for the BB Model, SD Model, or HIP Model Sprinklers. The Specific Application Attic Sprin- klers for Protecting Attics described herein must be installed and maintained in compliance with this document, as well as with the applicable standards of NFPA, in addition to the standards of any other authorities having jurisdiction. Failure to do so may impair the perfor- mance of these devices. The owner is responsible for main- taining their fire protection system and devices in proper operating con- dition. Contact the installing contrac- tor or product manufacturer with any questions. Sprinkler Identification Number (SIN) TY4180* B131 K=8.0 1Y4181* B132 K=8.0 1Y4182* 13133 K=8.0 TY3180* B131 K=5.6 TY3181* 13132 K=5.6 1Y3182* BB3 K=5.6 1Y2180 13131 K=4.2 TY2181 131132 K=4.2 TY2182 13133 K=4.2 1Y3183* SD1 K=5.6 TY3184* SD2 K=5.6 TY3185* SD3 K=5.6 TY3187* HIP K=5.6 TY3190 AP K=5.6 1Y2190 AP K=4.2 * The "TY" prefix is a re-designation of the previous "C" prefix. For example, TY4180 is a re-designation for C4180. Technical Data Approvals UL and C-UL Listed These Approvals only apply to the service conditions indicated in the Design Criteria section on Page 6 and the Design Guidelines section on Page 8. Pipe Thread Connection 1/2 inch NPT for K=4.2 and 5.6 3/4 inch NPT for K=8.0 Discharge Coefficient K = 4.2 GPM/psi", (60,5 LPM/bar½) K = 5.6 GPM/psi½ (80,6 LPM/bar½) K = 8.0 GPM/psi (115,5 LPM/bar) Temperature Rating Intermediate Temperature as follows: -200 °F (93 °C) for BB (K4.2 and K8.0), HIP, AP -212 ¶ (100 °C) for BB (K5.6), SD Finish Natural Brass Physical Characteristics (Figures A, C and E) Frame ............................Bronze Button .....................Bronze/Copper Sealing Assembly. . Beryllium Nickel w/TEFLON Bulb.....................Glass (3 mm dia.) Link .............................MONEL Compression Screw ..................Brass Deflector ....................Brass/Bronze Physical Characteristics (Figures B and D) Body ..............................Brass Cap ..............................Bronze Sealing Assembly. . Beryllium Nickel w/TEFLON Saddle.............................Brass Link Assembly......................Nickel Compression Screw ..................Brass Deflector ....................Brass/Bronze Lever .....................Bronze Deflector Frame ............................Bronze Diffuser ............................Brass Rivet ..............................Brass Physical Characteristics (Figure F) Frame .............................Brass Button ............................Bronze Sealing Assembly. . Beryllium Nickel w/TEFLON Bulb.....................Glass (3 mm dia.) Compression Screw ..................Brass Deflector ..........................Bronze Operation BB (K=8.0 and 4.2), HIP (K=5.6) and AP (5.6 and 4.2) The glass bulb contains a fluid that expands when exposed to heat. When the rated temperature is reached, the fluid expands sufficiently to shatter the glass bulb, allowing the sprinkler to activate and water to flow. BB (K=5.6) and SD (K=5.6) The fusible link assembly is comprised of two link halves which are joined by a thin layer of solder. When the rated temperature is reached, the solder melts and the two link halves separate, allowing the sprinkler to activate and water to flow. TFP6IO Page 5 of 28 Installation The TYCO Specific Application Attic Sprinklers for Protecting Attics must be installed in accordance with this section. LL•)tDI Do not install any bulb-type sprinkler if the bulb is cracked or there is a loss of liquid from the bulb. With the sprin- kler held horizontally, a small air bubble should be present. The diameter of the air bubble is approximately 1/16 inch (1,6 mm) for the 155°F (68°C) and 3/32 inch (2,4 mm) for the 200°F (93°C) tem- perature ratings. A leak-tight 1/2 inch NPT sprinkler joint should be obtained by applying a min- imum-to-maximum torque of 7 to 14 ft-lb (9,5 to 19,0 Nm). Higher levels of torque can distort the sprinkler inlet with consequent leakage or impairment of the sprinkler. To install the Specific Application Attic Sprinklers, complete the following: Step 1. Sprinklers must be oriented correctly as follows: Model BB Sprinklers are to be installed in the upright vertical posi- tion with the flow arrows on the deflector pointing down the two opposing slopes. Model SD Sprinklers are to be installed in the upright vertical posi- tion with the flow direction arrow on the deflector pointing down the slope. The Model HIP Sprinklers are to be installed with the deflector at the top, the sprinkler centerline perpendicular to the ridge of the hip roof, and the flow direction arrows on the deflec- tor pointing down the two oppos- ing slopes. Unlike the Model BB and Model SD, the Model HIP is installed angled so that its deflector is paral- lel with the slope of the hip ridge line. The Model AP Sprinklers are to be installed in the upright position with the deflector parallel to the roof slope. There are no flow arrows on the deflector to consider; however, a good piping practice is to position all the Model AP Sprinklers so that their frame arms are in the same direction. L WRENCH FLATS ENGAGE SPRINKLER THREAD RELIEF WITH WRENCH JAW FLANGES 'N WRENCH JAW FLANGE USEEND MARKED 7"A"ONLY FIGURE H W-TYPE 3 SPRINKLER WRENCH FOR USE WITH BB (K=8.0) SPRINKLERS' WRENCH FLATS ENGAGE SPRINKLER THREAD RELIEF WITH WRENCH JAW FLANGES WRENCH E JAW FLANGE MARKED A ONLY FIGURE J W-TYPE 6 SPRINKLER WRENCH For Use with BB (K=4.2) Sprinklers Step 2. With pipe thread sealant applied to the pipe threads, hand- tighten the sprinkler into the sprinkler fitting. Note: With reference to Figure G, do not grasp the sprinkler by the deflector. Step 3. Wrench-tighten the sprin- kler using only the wrenches shown in Figures H through M. Wrenches are only to be applied to the sprin- kler wrench flats or wrench hex, as applicable. ~=FWRENCH FFLATS ENGAGE SPRINKLER THREAD RELIEF WITH WRENCH N JAW FLANGES 'N WRENCH JAW FLANGE USEEND MARKED A7~0NLY FIGURE K W-TYPE 20 SPRINKLER WRENCH For Use with HIP (K=5.6) Sprinklers WRENCH HEX APPLY WRENCH /4 TO WRENCH HEX ONLY ADJUST \ WRENCH JAW TO FIT WRENCH HEX FIGURE L ADJUSTABLE WRENCH For Use with BB (K=5.6) and SD (K=5.6) Sprinklers WRENCH FLATS ENGAGE SPRINKLER THREAD RELIEF WITH WRENCH JAW FLANGES N WRENCH USE END \ JAW FLANGE MARKED A ONLY FIGURE M W-TYPE 6 SPRINKLER WRENCH For Use with AP (K=4.2 and 5.6) Sprinklers TFP6IO Fage6of28 Design Criteria Area of Use The TYCO Specific Application Attic Sprinklers are designed for use in roof structures and combustible and non-combustible sloped attic spaces, including wood joist/rafters and wood trussed attics with a ceiling below. System Type for BB, SD, HIP, or AP Sprinklers Wet using CPVC pipe Wet or dry using steel pipe Note: Use of the 4.2 K sprinklers in dry pipe systems is permitted by NFPA 13 where piping is corrosion resistant or internally galvanized. Hazard Light Hazard. BB, SD, or HIP Allowable Roof Span (Coverage) and Roof Pitch Refer to Table A for allowable roof spans and roof pitches, and for the associated minimum sprinkler flows and pressures. Figures 1, 2, 11 and 12 illustrate where the roof span is to be measured. Coverage Beyond BB, SD or HIP Allowable Roof Spans Up to 10 ft (3,1 m) of coverage at the eave(s) beyond the allowable roof spans for BB, SD, or HIP Sprinklers may be obtained by using a single row of AP Sprinklers. For more information, refer to Figure 14A, 14B, and 15. BB, SD, HIP, or AP Minimum Distance Between Sprinklers 4 ft (1,2 m) as measured along the branchline for BB and SD. For more information, refer to Figure 3. 3 ft (0,9 m) as measured along the branchline for HIP. For more informa- tion, refer to Figure 12. 7 ft (2,1 m) between AP Sprinklers. BB, SD, HIP, or AP Maximum Distance Between Sprinklers 6 ft (1,8 m) on center along the branch- line for BB, SD, and HIP. For more infor- mation, refer to Figure 3 and 12. For AP, the maximum spacing is 10 ft (3,1 m) perpendicular to slope and 12 ft (3,6 m) parallel to slope. When there is more than one row of AP Sprin- klers, the sprinklers must be staggered as seen in Figure 20-13-3. BB, SD, HIP, or AP Minimum Distance to AP Sprinklers or Standard Spray Sprinklers As measured along the peak/ridge direction, 6 ft (1,8 m) from BB, SD, and HIP to Standard Spray Sprinklers. For more information, refer to Figure 4. As measured along the peak/ridge direction, 7 ft (2,1 m) from AP to Stan- dard Spray Sprinklers. For more infor- mation, refer to Figure 4. In the slope direction, 26 ft (7,9 m) from BB or HIP Sprinklers to AP Sprinklers or Standard Spray Sprinklers. For more information, refer to Figure 6. BB, SD, or HIP Deflector Installation Position Below Peak/Ridge or Deck For roof pitches of 4:12 (33%) to 12:12 (100%), 22 in (558,8 mm) maximum and 16 in (406,4 mm) minimum. For more information, refer to Figure 2 and 5. For roof pitches of 3:12 (25%) up to 4:12 (33%), (only 4.21K Model BB), 12 in (304,8 mm) maximum below the peak and a minimum of 1 in (25,4 mm) below the bottom of the top chord or solid wood rafter. AP Deflector Position and Roof Pitch 1 to 3 in (25,4 to 75,6 mm) below the bottom of the top chord or bottom of solid wood rafter, where the roof pitch is 3:12 to 12:12 and the top chord or solid wood rafter is a nominal 12 in (600 mm) or less. BB or SD Deflector Installation Position Above Scissor Truss 18 in (457,2 mm) minimum. For more information, refer to Figure 5. BB, SD, or HIP Minimum Distance Away from Trusses Attic Sprinklers must be installed 6 in (152,4 mm) away from the face of trusses. For more information, refer to Figure 7. SD Distance from Shear Wall or Draft Curtain 4t06 in (101,6 to 152,4 mm) from face, and a minimum of 8 in (203,2 mm) above the bottom of the draft curtain. For more information, refer to Figure 2. Draft Curtains Draft curtains installed to permit the installation of Attic Sprinklers shall be constructed so as to not allow heat to escape through or above the draft curtain. The draft curtain may be con- structed of 1/2 in (12,7 mm) plywood. BB or HIP Maximum Distance from the Center Line of the Ridge 6 in (152,4 mm) with the deflector located 16 to 22 in (406,4 mm to 558,8 mm) from the peak. For more informa- tion, refer to Figure 8. Use of UL Listed BLAZEMASTER CPVC Piping with Specific Application Attic Sprinklers for Protecting Attics (Wet Systems Only) BLAZEMASTER CPVC piping may be used in a combustible concealed attic space requiring sprinklers when installed in accordance with the follow- ing guidelines: Note: Where the use of non-com- bustible insulation is specified, verify with the insulation manufacturer as to the non-combustibility of the insula- tion. The non-combustible insulation (fiberglass) may be faced or unfaced. Where faced, the facing need not be non-combustible. The insulation is to have a flame spread index of not more than 25. Verify chemical compatibility of the insulation with BLAZEMASTER CPVC by consulting www.lubrizol.com. BLAZEMASTER CPVC may be used to feed the wet system ceiling sprin- klers on the floor below. There must be 6 in (152,4 mm) of non-combus- tible insulation covering the horizon- tal or vertical pipe extending 12 in (304,8 mm) on each side away from the centerline of the pipe. Refer to Figures 9A, 9B, and 9C. The area above the pipe must be protected by BB, SD, HIP, or AP Sprinklers. For more information, refer to Figure 9A. If the pipe is located inside the ceil- ing joist, the joist channel must be covered or filled with 6 in (152,4 mm) of non-combustible insulation on top of the pipe and the area above must be protected by BB, SD, HIP, or AP Sprinklers. For more information, refer to Figure 913. Insulation is for fire protection purposes. It is not freeze protection. BLAZEMASTER CPVC must be installed in accordance with the BLAZEMASTER installation guide instructions. With reference to Figure 19, BLAZE- MASTER CPVC may be used exposed to feed wet system BB, SD, or HIP Sprinklers where: Risers are vertical and protected by BB, SD, or HIP Sprinklers locat- ed at a maximum lateral distance of 12 in (304,8 mm) from the riser centerline. BB, SD, or HIP Sprinklers are di- rectly mounted on the branchline. BB, SD, or HIP Sprinklers are on arm-overs and located at a max- imum lateral distance of 6 in (152,4 mm) from the branchline centerline. BB, SD, or HIP Sprinklers are on vertical sprigs attached to the branchline. TFP6IO Page 7 of 28 MODEL K SIN ALLOWABLE ROOF SPAN 'a' 'b' 'e' ' '' '' ' Feet (m) MINIMUM FLOW, GPM (LPM) MINIMUM PRESSURE, psi (bar) PITCH ' Rise Over Run DRY PIPE SYSTEM MAXIMUM WATER DELIVERY TIME, Seconds BB1 1 8.0 TY4180 !~60 (18,3) 38(144) 22.6 (1,5) 4:12 (33) to less than 7:12 (58) (C) BB2 8.0 TY4181 560 (18,3) 38(144) 22.6 (1,5) 7:12 (58) to less than 10:12 (83) (c) BB3 8.0 TY4182 cg60 (18,3) 40 (152) 25.0(1,7) 10:12 (83) to 12:12 (100) (c) BB1 5.6 TY3180 >40 (12,2) to !960 (18,3) 38 (144) 46.0 (3,2) 4:12 (33) to less than 7:12 (58) (c) BB2 5.6 TY3181 >40 (12,2) to 60 (18,3) 38 (144) 46.0 (3,2) 7:12 (58) to less than 10:12 (83) (c) 13133 5.6 1Y3182 >40 (12,2) to 60(18,3) 38(144) 46.0 (3,2) 10:12 (83) to 12:12 (100) (c) 13131 5.6 TY3180 540 (12,2) 25 (95) 20.0 (1,4) 4:12 (33) to less than 7:12 (58) (c) 13132 5.6 TY3181 540 (12,2) 25 (95) 20.0 (1,4) 7:12 (58) to less than 10:12 (83) (c) BB3 5.6 TY3182 !~40 (12,2) 25 (95) 20.0(1,4) 10:12 (83) to 12:12 (100) (c) 8B1 4.2 TY2180 520 (6,1) 13 (49) 9.6 (0,7) 3:12 (25) to less than 7:12 (58) 45 (d) BB2 4.2 TY2181 1520 (6,1) 13 (49) 9.6 (0,7) 7:12 (58) to less than 10:12 (83) 45 (d) BB3 4.2 TY2182 !~20 (6,1) 13 (49) 9.6 (0,7) 10:12 (83) to 12:12 (100) 45 (d) SD1 5.6 TY3183 >30 (9,1) to !~40 (12,2) 35 (132) 39.0 (2,7) 4:12 (33) to less than 7:12 (58) (c) SD2 5.6 TY3184 >30 (9,1) to 540 (12,2) 35 (132) 39.0 (2,7) 7:12 (58) to less than 10:12 (83) (c) SD3 5.6 TY3185 >30 (9,1) to !~40 (12,2) 35 (132) 39.0 (2,7) 10:12 (83) to 12:12 (100) (C) SD1 5.6 TY3183 >10 (3,0) to :~30 (9,1) 25(95) 20.0 (1,4) 4:12 (33) to less than 7:12 (58) (c) SD2 5.6 TY3184 >10 (3,0) to !~30 (9,1) 25(95) 20.0 (1,4) 7:12 (58) to less than 10:12 (83) (c) SD3 5.6 TY3185 >10 (3,0) to !~30 (9,1) 25(95) 20.0(1,4) 10:12 (83) to 12:12 (100) (c) SD1 5.6 TY3183 !g10 (3,0) 19(72) 11.5 (0,8) 4:12 (33) to less than 7:12 (58) (c) SD2 5.6 TY3184 510 (3,0) 19(72) 11.5 (0,8) 7:12 (58) to less than 10:12 (83) (c) SD3 5.6 TY3185 510 (3,0) 19(72) 11.5 (0,8) 10:12 (83) to 12:12 (100) (c) - HIP 5.6 TY3187 >20 (6,1) to !~28 (8,5) 34 (129) 36.9 (2,5) 4:12 (33) to 12:12 (100) (C) HIP 5.6 TY3187 !~20 (6,1) 25(95) 20.0(1,4) 4:12 (33) to 12:12 (100) (c) AP 5.6 1Y3190 10(3,1)x12(3,6) See note (e) - Minimum 7 psi (0,48 bar) (4,1 mm/mm.) Design Density Minimum 1 2 3:12 (25) to 12:12 (100) 60(d) AP 4.2 1Y2190 3:12 (25) to 12:12 (100) 60 (d) NOTES The BB and SD roof span is measured horizontally (not along the slope) as shown in Figure 1 and Figure 2. The HIP roof spas is measured horizontally as shown in Figure 2. Refer to NFPA 13. Maximum wafer delivery time for all system sizes. The AP roof span is measured along the slope. Maximum 10 ft (3, m) perpendicular to slope by maximum 12 ft (3,6 m) parallel to slope. TABLE A ALLOWABLE ROOF SPAN, FLOW, PRESSURE, AND PITCH FOR SPECIFIC APPLICATION SPRINKLERS FOR PROTECTING ATTICS TFP6IO Rage 8of28 BB, SD, or HIP Sprinklers are on arm-over or angled sprigs, and lo- cated at a maximum lateral dis- tance of 6 in (152,4 mm) from the branchline centerline. A minimum lateral distance of 18 in (450 mm) is maintained be- tween the CPVC pipe and a heat producing device such as heat pumps, fan motors, and heat lamps. BLAZEMASTER CPVC may be used exposed to provide wet system, ver- tical or angled, sprigs to AP Sprin- klers (refer to Figures 17A and 17B) where: The exposed portion of an angled sprig is a maximum length of 3 ft (0,9 m), the sprig is supported ad- jacent to the AP Sprinkler, and ver- tical restraint is provided using the CPVC hanger support for horizon- tal pipe runs. Vertical sprigs have a maximum exposed length of 10 ft (3,05 m), the AP Sprinkler is located at a maximum lateral distance of 12 in (3304,8 mm) from the sprig center- line, and the sprig is supported at the swing joint to the AP Sprinkler. A minimum 6 in (152,4 mm) deep of non-combustible insulation ex- tending 12 in (304,8 mm) on each side away from the centerline of the CPVC branchline feeding the AP sprigs (refer to Figure 17A). If the CPVC branchline is located in- side the ceiling joist, the joist chan- nel must be covered or filled with a minimum of 6 in (152,4 mm) deep of noncombustible insulation on top of the branchline feeding the AP sprigs (refer to Figure 17B). Insula- tion is for fire protection purposes. It is not freeze protection. Addition- al depth of non-combustible insu- lation may be added to reduce the exposed length of the AP sprigs. A minimum lateral distance of 18 in (450 mm) is maintained be- tween the CPVC pipe and a heat producing device such as heat pumps, fan motors, and heat lamps. Mismatched Slopes Refer to Figure 10. Obstructions For BB, SD, and HIP, refer to Figure 16. For AP Sprinklers, refer to Figure 18. BB, SD, HIP, and AP Sprinklers may be installed directly on maximum 2-1/2 inch NPS (DN65) branch lines without the need for sprigs. See NFPA 13 for requirements when installed on pipe greater than 2-1/2 inch NPS (DN65). Hydraulic Requirements Refer to Figure 20. Determine the Correct Flow and Pressure For BB, SD, or HIP Sprinklers, deter- mine the roof span (measured horizon- tally) and the slope of the roof, and then refer to Table A. There is no interpola- tion of the flow and pressure shown. Round all cases to the next higher spacing. For example, a 45 ft (13,7 m) span with the BB1 (K=8.0) would be calculated at the 60 feet (18,3 m) span. For the AP Sprinklers, the minimum design pressure is 7 psi, and the minimum design density is 0.10 gpm/ft2 (4,1 mm/mm). The NFPA 13, 20 psi (1,4 bar) minimum operating pressure for Standard Spray Sprinkler spacings parallel to the ridge that are above 8 ft (2,4 m) does not apply to the AR Coverage Area Coverage area for the BB Sprinklers is determined by twice the distance of the furthest throw measured along the slope multiplied by the distance along the branchline. The maximum distance along branchline is 6 ft (1,8 m) regardless of the length of the throw. Note: The distance along the branch- line may have to be reduced to less than the maximum of 6 ft (1,8 m) to remain under 400 ft2 (37,2 m2) maximum depending on the slope and the span. In no case can the span exceed 60 ft (18,3 m) without additional Standard Spray Sprinklers. Coverage area for the SD (Single Directional) Sprinklers is the distance along the branchline multiplied by the distance of the throw down the slope. Regardless of the throw, the maximum distance along the branch- line is 6 ft (1,8 m), the maximum throw measured horizontally is 40 ft (12,2 m), and the maximum coverage per sprinkler is 400 ft2 (37,2 m2). Coverage area for the HIP Sprinklers is the distance down the larger slope multiplied by two, and multiplied by the distance between the sprinklers as measured along the slope of the hip. Coverage area for the AP (Attic Plus) Sprinklers is the distance along the branchline multiplied by the distance between the branchlines. The max- imum spacing is 10 ft (3,1 m) per- pendicular to the slope and 12 ft (3,6 m) parallel to slope, and as mea- sured on the slope. When there is more than one row of AP Sprinklers, the sprinklers must be staggered per Figure 20-B-3. The maximum spac- ing per sprinkler is 120 ft2 (11,1 m2). Design Guidelines To design a project with the TYCO Spe- cific Application Attic Sprinklers, use these steps as a guideline: Determine if single, dual directional or hip sprinkler is needed. Determine the roof slope is between 3:12 to 12:12. If more than one slope is being used on a project, select the correct sprinkler for each area. Follow the guidelines for each type of sprinkler. Calculate the sprinkler system in accordance with the appropriate flow and pressure information provided in Table A, as well as Figure 20. There is no interpolation of the flows and pressures shown on the chart. For BB Sprinklers (Back to Back Dual Directional) Verify the framing direction is per- pendicular to the outside wall (refer to Figure 12). If not, cover that area with AP Sprinklers or Standard Spray Sprinklers (refer Figure 13). Determine the throw needed. For more information, see the spac- ing requirements in Table A. If over 20 ft (6,1 m) and up to 60 ft (18,3 m) is required, use the 8.0 K-factor, BB Sprinklers to reduce the pressure required. If pressure is not a concern, use the 5.6 K-factor, BB Sprinklers to minimize over discharge. If less than 20 ft (6,1 m) is required, use the 4.2 K-factor, Back to Back Dual Directional to minimize pressure and flow requirements. Determine the distance along the slope. If the distance is not equal, use the longer side. Multiply the lon- ger side by two to determine the spacing down the slope. Four hun- dred divided by this value will deter- mine the maximum spacing along the ridge. The maximum distance is 6 ft (1,8 m). For example, a 12:12 slope at the maximum span of 60 ft (18,3 m) will produce a slope length of approximately 42.5 ft (13,0 m). That number multiplied by two pro- duces an 85 ft (25,9 m) throw. A 400 ft2 maximum divided by an 85 ft (25,9 m) throw only allows a 4 ft 8 in (1,4 m) spacing along the ridge. Using the maximum spacing, space the sprinklers along the ridge. Avoid obstructions as shown in Fig- ure 16. If necessary, add Model AP Sprinklers or Standard Spray Sprin- klers to maintain coverage around obstructions. TFP6IO Page 9 of 28 For SD Sprinklers (Single Directional) Determine the throw needed As the 400 ft2 (37,2 m2) is not a factor with the SD Sprinklers, the maximum spacing is 6 ft (1,8 m) and the mini- mum is 4 ft (1,2 m). For more infor- mation, refer to Figures 2 and 11. The reason 400 ft2 is not an issue with the single directional is because, at its maximum spacing, 6 ft (1,8 m) on center / covering 40 ft (12,2 m) flat / a 12:12 slope / and the throw being 56.5 ft (17,2 m), the 400 ft2 (37,2 m2) maximum would not be exceeded. Avoid obstructions as shown in Fig- ure 16. If necessary, add Model AP Sprinklers or Standard Spray Sprin- klers to maintain coverage around obstructions. For HIP Sprinklers Verify framing direction is perpendic- ular to outside wall (refer to Figure 12). If not, cover that area with AP Sprinklers or Standard Spray Sprin- klers (refer to Figure 13). From the intersection of the top of the hip and the ridge, the maximum distance down the slope of the hip is 3 ft (0,9 m). Start the layout with the first sprinkler as close to that point as possible, but no further, while staying 6 in (152,4 mm) away from the face of the trusses. Remember the slope of the hip is not equal to the slope of the roof from the ridge to the out- side wall. Continue to space sprin- klers down the hip at a maximum of 6 ft (1,8 m) on center as measured along the slope of the hip. When the bottom of the hip is encountered, the last sprinkler must be within 7-1/2 ft (2,3 m) of the outside wall as mea- sured flat (plan view). If this pipe is "cut to fit", remember to account for the different slopes of the hip and the roof, as well as distances measured along the slope verses horizontal in plan view must be accounted for. Avoid obstructions as shown in Fig- ure 16. If necessary, add Model AP Sprinklers or Standard Spray Sprin- klers to maintain coverage around obstructions. Care and Maintenance The TYCO Specific Application Attic Sprinklers for Protecting Attics must be maintained and serviced in accor- dance with this section. Before closing a fire protection system main control valve for maintenance work on the fire protection system that it controls, obtain permission to shut down the affected fire protec- tion system from the proper authorities and notify all personnel who may be affected by this action. The owner is responsible for the inspection, testing, and maintenance of their fire protection system and devices in compliance with this document, as well as with the applicable standards of the NFPA, such as NFPA 25. In addition to the standards of any other authori- ties having jurisdiction. Contact the installing contractor or product manu- facturer with any questions. Automatic sprinkler systems should be inspected, tested, and maintained by a qualified Inspection Service in accor- dance with local requirements and/or national code. Sprinklers that are found to be leaking or exhibiting visible signs of corrosion must be replaced. Automatic sprinklers must never be painted, plated, coated, or otherwise altered after leaving the factory. Modi- fied sprinklers must be replaced. Over-heated solder type sprinklers must be replaced. Bulb-type sprin- klers that have been exposed to cor- rosive products of combustion, but have not operated, should be replaced if they cannot be completely cleaned by wiping the sprinkler with a cloth or by brushing it with a soft bristle brush. Care must be exercised to avoid damage to the sprinklers before, during, and after installation. Sprin- klers damaged by dropping, striking, wrench twist/slippage, or the like, must be replaced. Also, replace any sprinkler that has a cracked bulb or that has lost liquid from its bulb. For more informa- tion, refer to the Installation Section. Limited Warranty For warranty terms and conditions, visit www.tyco-fire.com. Ordering Procedure Contact your local distributor for avail- ability. When placing an order, indicate the full product name and Part Number (P/N). Sprinkler Assemblies with NPT Thread Connections Specify: Model (specify), K-factor (specify), SIN (specify), Specific Appli- cation Attic Sprinkler, P/N (specify): 13131 (K=8.0), TY4180 ..................P/N 51-623-1-200 B62 (K=8.0), TY4181 ...................P/N 51-621-1-200 13133 (K=8.0), TY4182 ..................P/N 51-622-1-200 13131 (K=5.6), TY3180 ..................P/N 50-601-1-212 B132 (K=5.6), 1Y3181 ..................P/N 50-602-1-212 1363 (K=5.6), 1Y3182 ..................P/N 50-603-1-212 13131 (K=4.2), TY2180 ..................P/N 50-620-1-200 BB2 (K=4.2), TY2181 ..................P/N 50-621-1-200 13133 (K=4.2), TY2182 ..................PIN 50-622-1-200 SD1 (K=5.6), TY3183 ...................P/N 50-611-1-212 SD2 (K=5.6), TY3184 ...................P/N 50-612-1-212 SD3 (K=5.6), TY3185 ..................P/N 50-613-1-212 HIP (K=5.6), TY3187 ..................PIN 51-620-1-200 AP (K=5.6), TY3190 ..................P/N 50-625-1-200 AP (K=4.2), TY2190 ..................P/N 50-624-1-200 Sprinkler Wrench Specify: W-Type 3 Sprinkler Wrench, P/N 56-895-1-001 Specify: W-Type 20 Sprinkler Wrench, P/N 56-000-1-106 Specify: W-Type 6 Sprinkler Wrench, P/N 56-000-6-387 16' (406,4 mm) MIN. -or- FOR A ROOF PITCH LESS THAN 4:12 (33%), 12 (304,8 mm) MAXIMUM BELOW PEAK AND 1" (25,4 mm) MINIMUM BELOW BOTTOM OF TOP CHORD OR RAFTER TFP6IO Page 10 of 28 ROOF SPAN (COVERAGE) -f SEE FIG ill BACK TO BACK STANDARD SPRINKLER TRUSS SCISSOR 12 TRUSS 4-12 FIGURE 1 -6'-0" (1,83 m) MAXIMUM________ 4-0" (1,22 m) MINIMUM II II H H —T T7 II BBor SID ATTIC H II H HSPRINKLERSH H RIDGE II II II BRANCH ii II Ii II H LINE ii II II II I II II TRUSS - I I II CEILING II II II II j II II II II II / II II II II II I ii FIGURE 3 H H ( 6" (152,4 mm) MAX. DECK L- ROOF SPAN 4" (101,6 mm) MIN. (COVERAGE) FROM WALL AP or SPRAY SPRINKLER SINGLE DIRECTIONAL SPRINKLERS 22 (55818 mm) MAX. SEE FIG 11 F 16 (406,4 mm) MIN. BOTTOM OF SHEATHING DRAFT 8" M ,, CURTAIN FULL WALL TO DECK TO DECK (203,2 mm FIGURE 2 7-0" (2,1 m) MIN. FOR AP SPRINKLERS -. 6-0 (1,8 m) MINIMUM FOR - STANDARD SPRAY SPRINKLERS II II II II \ II 11 AP0r STANDARD 11 ATTIC II II SPRAY SPRINKLER SPRINKLER -' RIDGE II II II BRANCH II II II II II LINE II II II II II II II II TRUSS . I II II CEILING II II II II II / II II II II II / II II II II II / FIGURE 4 BB, SD or HIP ATTIC SPRINKLER k/ STANDARD TRUSS 18 MIN. (457,2 mm) Y-- " SCISSOR TRUSS FIGURE 5 BB, SD or HIP ATTIC SPRINKLER 26-0' (7,9 AP or MINIMUM STANDARD SPRAY SPRINKLERS FIGURE 6 6" (152,4 mm) H II MINIMUM II II BB, SID orHIP II II IISPRINKLER IT NN RIDGED II II II BRANCH II II II II H LINE II II II II II I II II TRUSS - I I I CEILING II II II II I II II Il II II / II It II II It I ii FIGURE 7 6 (152,4 mm) MAXIMUM 22 (558,8 mm) MAX. 16 (406,4 mm) MIN. BOTTOM OF SHEATHING FIGURE 8 BB or HIP ATTIC SPRINKLER TFP6IO Page 11 of 28 ATTIC I-12 MIN.--I 12 MIN. (304,8 mm) (304,8 mmT SPRINKLER PROTECTED SPACE 6 MIN. (152,4 mm) CEILING / / NON-COMBUSTIBLE INSULATION FOR FIRE JOIST / PROTECTION OF CPVC CPVC PIPE CEILING PIPE, NOT FREEZE & FITTINGS SPRINKLER PROTECTION FIGURE 9A NON-COMBUSTIBLE INSULATION ATTIC FOR FIRE PROTECTION OF CPVC PIPE, SPRINKLER NOT FREEZE PROTECTION PROTECTED OPTION B SPACE 6 MIN. 11)1 (152,4 mm)41 1 CPVC PIPE CEILING JOIST \ & FITTINGS SPRINKLER CEILING FIGURE 9B NON-COMBUSTIBLE INSULATION ATTIC FOR FIRE PROTECTION OF CPVC PIPE, SPRINKLER NOT FREEZE PROTECTION PROTECTED SPACE VERTICAL RISE 7 (152,4 mm) CEILING \JOIST CEILING ELEVATION CPVC PIPE \ & FITtINGS CHANGE CEILING FIGURE 9C FIGURE 9 NON-COMBUSTIBLE INSULATION FOR THE PROTECTION OF CPVC PIPE SINGLE DIRECTIONAL SPRINKLERS AS APPROPRIATE FOR RESPECTIVE SLOPE DRAFT CURTAIN 8" MIN. (SHOWN) 03,2 mm) OR FULL WALL 4t , TO ROOF DECK ii' ZA WHEN ANGLE A' DOES NOT EQUAL ANGLE "B' FIGURE 10 PERMITTED USE OF ATTIC SPRINKLERS FOR MISMATCHED SLOPES AP or STANDARD SPRAY SPRINKLER COVERAGE ON SLOPE BB, SD or HIP \ COVERAGE ON HORIZONTAL (1 / CEILING ROOF JOIST JOIST OR TOP CHORD AP or STANDARD SPRAY SPRINKLER COVERAGE ON SLOPE BB, SD or HIP ).—A,---COVERAGE ON MAXIMUM HORIZONTAL 2" (50 mm) VENT PERMITTED TOP OF INSULATION NONCOMBUSTIBLE ROOF JOIST INSULATION OR TOP CHORD FIGURE 11 COVERAGE STARTING POINT AT EAVE TFP6IO Page 12 of 28 FIGURE 12 HIP ROOF INSTALLATION WITH RAFTERS FRAMED PERPENDICULAR TO OUTSIDE WALL (SHOWN WITH HIP SPRINKLERS PROTECTING HIP SLOPE AND ADJACENT AREAS TO HIP SLOPE) 7-6" (2,3 m) MAX. HORIZONTAL SEE G.11 HIP SPRINKLERS BACK PROTECT AREA ON TO BACK BOTH SIDESOF SPRINKLERS RAFTERS IN HIP SLOPE AREA PERPENDICULAR SLOPE ROOF TO OUTSIDE WALL SLOPE LINE MAXIMUM WALL 28-0 (8,5 m) HORIZONTAL HIP RIDGES 6-0 (1,8 m) MAX. 3-0' (0,9 m) SEE FIG. 11 3-0" (0,9 m) MIN. MAX. ON ON HIP SLOPE HIP SLOPE FIGURE 13A HIP ROOF INSTALLATION WITH TRUSSES FRAMED PARALLEL TO OUTSIDE WALL (SHOWN WITH STANDARD SPRAY OR AP SPRINKLERS IN HIP SLOPE) WHERE AN AREA (SHOWN NON-SHADED) IS PROTECTED WITH AP SPRINKLERS, CPVC MAY BE USED FOR CEILING PROTECTION BELOW (SEE PAGE 6) 3-0"(0,9m) MAX. ON - HIP SLOPE CPVC PIPE MAY BE USED IN SHADED AREA ONLY FOR CEILING PROTECTION BELOW (SEE PAGE 6( FIGURE 13B HIP ROOF INSTALLATION WITH TRUSSES FRAMED PARALLEL TO OUTSIDE WALL (SHOWN WITH STANDARD SPRAY OR AP SPRINKLERS IN HIP SLOPE AND ADJACENT AREAS TO HIP SLOPE) STANDARD SPRAY SPRINKLERS INSTALLED PER NFPA 13 IN HIP SLOPE AREA WHEN TRUSSES ARE FRAMED PARALLEL TO OUTSIDE WALL TRUSSES IN HIP SLOPE AREA PARALLEL TO OUTSIDE WALL OUTSIDE WALL WHERE AN AREA (SHOWN NON-SHADED) IS PROTECTED WITH AP SPRINKLERS, CPVC MAY BE USED FOR CEILING PROTECTION BELOW (SEE PAGE 6) I I I I II II I I I I I I I•I I I I I I I I I IS I I I I I I I I I HIP I I I5LOpEI I ' liii I I IS I I I I I I 1 I I I 1.1 1 I I I I I I I I I I I I ' I I I I I 6-0" (1,8 m) MAX. BACK TO BACK SPRINKLERS ROOF SLOPE \ RIDGE LINE CPVC PIPE MAY BE USED IN SHADED AREA ONLY HIP RIDGES FOR CEILING PROTECTION BELOW (SEE PAGE 6) TFP6IO Page 13 of 28 Attic Spaces Greater Than 60 ft (18,3m) up to 80 ft (24,4m) Wide, (refer to Figures 14 and 15). Only 8.0 K, BB Sprinklers in conjunction with AP Sprinklers or Standard Spray Sprinklers can be used to protect attics up to 80 ft (24,4 m) wide. NOTES: Attics over 80 ft (24,4 m) wide must use Standard Spray Sprinklers throughout because Attic Sprinklers have not been tested in this scenario. For single ridge construction (refer to Figure 14A and 1413), use 8.0K, BB Sprinklers to protect the center portion. AP Sprinklers (refer to Figure 14A) or Standard Spray Sprinklers (refer to Figure 1413) are then used to protect up to 10 ft (3,1 m) of width at the eaves beyond the maximum allowable 60 ft (18,3 m) span of the 8.01K, BB Sprinklers. For hip roof construction (refer to Figure 15), use 8.0K, BB Sprinklers in the center portion and HIP Sprinklers can be located down the entire hip. AP Sprinklers or Standard Spray Sprinklers are then used to protect up to 10 ft (3,1 m) of width at the eaves beyond the maximum allowable 60 ft (18,3 m) span of the 8.0K, BB Sprinklers, and the maximum allowable horizontal coverage of the HIP Sprinklers. -jSEE FIG. 11 ISEE FIG. 11 I SD SPAN (TABLE A) BB SPAN ______ • I I (TABLE A) AP I 10-0 MAX. SPRINKLERS 10-0 MAX. (3,05 m) BB ATTIC SPACED (3,05 m) S TO COVERAGE (1 83 m) SPRINKLER PPJNKLER ( Z l,83m) SPRINKLER 7-0(1,8 m) APSPRINKLER -0" SID ATTIC CA ON CENTER COVERAGE MAX. (1,83 m) SPRINKLERS (1,22 m 701 8 m) ON CENTER FIGURE 14A FIGURE 148 10.41 HIP BACK TO BACK (3,0 m) SPRINKLERS SPRINKLERS HIP RIDGES -JJ !I[J (3,0m) P SPRINKLERS RIDGE AT THE EAVES LINE PERIMETER I! P PE 'LOPE AREA SPAN 4I'_ (TABLE A) _ -___ 101-01, CPVC PIPE MAY BE USED IN SHADED 7-0' to 10-0" AREA FOR CEILING L (2,1 m to 3,0 m) PROTECTION BELOW ON CENTER FOR (SEE PAGE 6) AP SPRINKLERS FIGURE 15 TFP6IO Page 14 of 28 BB ATTIC SPRINKLER 3-1/2 MIN. (88,9 mm) AIR SPACE 36" IN. (914,4 mm) NO 6" MAX. ADDITIONAL (152,4 mm) SPRINKLER A~~ REQUIRED ,> i BB ATTIC ANY SPRINKLER DISTANCE GREATER THAN 6" (152,4 mm) ADDITIONAL AP OR STANDARD SPRAY SPRINKLER REQUIRED (LOCATE PER FIGURE 'j 14A OR 148) ' FIGURE 16A FIGURE 168 There can be a maximum of a 6 in. (152,4 mm) high Horizontal Obstruction as long as it is 36 in. (914,4 mm), measured vertically, below the Attic Sprinkler. If the obstruction is closer or larger, there must be a sprinkler on the other side of the obstruction. Refer to Figures 16A and 16B. This criteria does not limit the top chord of the trusses or the depth of the raf- ter, but does limit the obstructions that run across the trusses or rafters. BB ATTIC SPRINKLER NO 6" (152,4 mm) 36" (914,4 mm) MINIMUM MIN ADDITIONAL SPRINKLER \\ REQUIRED \\/ 4'40" (1,2 12 \MAXIMUM \\ FIGURE 16C LESS THAN BB ATTIC 6" (152,4 mm) SPRINKLER ADDITIONAL AP OR STANDARD SPRAY SPRINKLER(S) REQUIRED (LOCATE PER FIGURE / 14AOR14B)//f GREATER THAN / 4-0" (1,2 m) FIGURE 16D If the Horizontal Obstruction is below the sprinkler, there must be 6 in. (152,4 mm) clearance over the top of the obstruction, and the obstruction must be 4 ft (1,2 m) or less in width to allow water to pass both over and under the obstruction. The clearance is measured perpendicu- lar to and from the bottom of the rafter. If there is not 6 in. must be located on the other side of the obstruc- tion. If the obstruction is greater than 4 ft (1,2 m) in width, a sprinkler must be added below the obstruction. Refer to Figures 160 and 16D, where the maximum spacing for AP Sprinklers is 12 ft (3,7 m) and Standard Spray Sprin- klers is 15 ft (4,6 m). Dimension A Distance B Additional Sprinkler Required Beyond Obstruction Maximum Horizontal Dimension of Obstruction Minimum Horizontal Distance to Obstruction All Vertical Obstructions <6(152,4 mm) YES 1/2-1" (12,7 mm-25,4 mm) 6" (152,4 mm) NO 1-4" (25,4 mm-101,6 mm) 12' (304,8 mm) NO 4-8" (101,4 mm-203,2 mm) 24 (609,6 mm) NO 8-10' (203,2 mm-254,0 mm) 5-0" (1,52 m) NO 10-20 (254,0 mm-508,0 mm) 10-0" (3,05 m) NO 20-30" (508,0 mm-762,0 mm) 15-0' (4,57 m) NO 30-40" (762,0 mm-1016,0 mm) 20-0" (6,10 m) NO 40-48" (1016,0 mm-1219,2 mm) 25-0" (7,62 m) NO >48" (1219,2 mm) Any Distance YES DIMENSION A PER TABLE DIMENSION B PER ADDITIONAL AP X:TABLE OR STANDARD SPRAY SPRINKLER REQUIRED (LOCATE PER FIGURE j 14AOR14B) N" FIGURE 16E For Vertical Obstructions, the maximum dimension of the obstruction is its width and the horizontal distance away from the obstruction is measured horizontally. 36" (914,4 mm) MINIMUM FIGURE 16 (1 0F2) OBSTRUCTIONS TO WATER DISTRIBUTION - BB, SD AND HIP 22' (558,8 mm) MAX. 16' (406,4 mm) MIN. TFP6IO Page 15 of 28 FIGURE 16F AREA OUTSIDE OF MECHANICAL SPACE OR SIMILAR COMPARTMENTAL SPACE When a BB Sprinkler is 36 in. (914,4 mm) or greater above the space, and 36 in. (914,4 mm) or greater clearance above the space is present, additional sprinklers are not needed. When a BB Sprinkler is 36 in. (914,4 mm) or greater above the space, and a 12 to 36 in. (304,8 to 914,4 mm) clear- ance above the space is present, Intermediate Level Stan- dard Sprinklers are to be installed to protect the obstructed area. Otherwise, the area beyond the mechanical space is to be protected as shown by installing Standard Spray Sprinklers as necessary or by constructing a shear wall and installing SD Sprinklers. Note: In all cases, the mechanical space orsimilar compartmented space is to be sprink/ered per its respective hazard rating and sep- arated from the light hazard attic space by construction that has a fire resistance rating based on the water supply duration required for the hazard rating within the mechanical space or similar com- partmented space. BB ATTIC SPRINKLER 36' (914,4 mm) OR GREATER NO 36 (914,4 mm) ADDITIONAL ZX ' SPRINKLERS OR GREATER REQUIRED FIGURE 16G PIGGYBACK TRUSSES When a BB Sprinkler can be installed below or between stiffeners and maintain the 16 to 22 in. (404,4 to 558,8 mm) distance to the peak, as well as the "V" and "H" clearance to the stiffeners, additional sprinklers are not required. When the stiffeners are located a minimum of 12 in. (304,8 mm) below the BB Sprinkler, the stiffeners are 7-1/2 in. (190,5 mm) maximum in width, the openings are 12 in. (304,8 mm) minimum, and there is 70% minimum open area, additional sprinklers are not required. Otherwise, additional sprinklers are required as shown. V H BB1 BB2 BB3 0' 0' 0' 0' V>0' V+15' I V+10' V+8" BOTTOM STIFFENERS "H" STANDARD - 'MECHANICAL' TOP OF BB ATTIC DEFLECTOR SPRINKLER D SPRAY SPRINKLER SPACE BB ATTIC 70% MINIMUM 4" (101,6 mm) TO (152,4 mm) TY 6 SPRINKLER OPEN AREA ' P. -H ' 12" (304,8 mm) TO R GREATER 3-1/2" MIN. 12" MIN. 36" (914,4 mm) STIFFENERS <1 / 36" (914,4 mm) _________________ // / INTERMEDIATE -, (88,9 mm) (304,8 mm) LEVEL BBAUIC AIRSPACE STANDARD SPRAY SPRINKLER I SPRINKLER I 12MIN. STANDARD rMECHACICAL 4" (101,6 mm) TO 7-1/2" MAX. ________ SPRAY SPRINKLER E 6"(152,4 mm) TYP. (190,5 mm) ____ (304,8 mm) BB ATTIC BB ATTIC LESS THAN SPRINKLER STANDARD SPRINKLER OR 70% OPEN AREA, SPRAY SPRINKLER STANDARD SPRAY OPENINGS LESS THAN LESS THAN //' OR STIFFENERS SPRINKLER 12" (304,8 mm) WIDE, 12" (304,8 GREATER THAN 7-1/2" (190,5 mm) LEVEL INTERMEDIATE WIDE STANDARD SPRINKLER -, MECHANICAL SPACE PROTECT WITH ADD SHEAR WALL AND STANDARD SPRAY PROTECT WITH SINGLE SPRINKLERS DIRECTIONAL SPRINKLERS SINGLE INSTALL SINGLE DIRECTIONAL DRAFT CURTAIN DIRECTIONAL SPRINKLER OR FULL WALL SPRINKLER FIGURE 16 (2 0F2) OBSTRUCTIONS TO WATER DISTRIBUTION - BB, SD, AND HIP (Obstructions to Water Distribution for Attic Sprinklers Differ from Standard Sprinklers as Shown) TFP6IO Page 16 of 28 3-0" MAX.- AP AP (0,9 m) SPRINKLER SPRINKLER \ JOIST AP ) AP SPRIG 10-0 MAX. SPRIG 6" MIN. (3,0 m) Li 6" MIN. 1524 mm)JOIST (1 52,4 mm) FIGURE 17A EXPOSED CPVC WITH AP SPRINKLERS AND 12" MIN. /12" MIN. 12" MIN. /12" MIN. BRANCHLINE OVER H304,8 mm) 73048 mm) (304,8 mm) JOISTS (304,8 mm) JOISTS NON-COMBUSTIBLE NON-COMBUSTIBLE INSULATION FOR FIRE INSULATION FOR FIRE PROTECTION OF CPVC CEILING PROTECTION OF CPVC CEILING PIPE, NOT FREEZE PIPE, NOT FREEZE PROTECTION PROTECTION OPTION A OPTION B MAX. SPRINKLER (0,9 m) i- SPRINKLER __- AP 10-0" MAX. AP SPRIG (3,0 m) SPRIG EXPOSED CPVC FIGURE 178 JOIST WITH AP SPRINKLERS AND JOIST BRANCHLINE WITHIN JOISTS 6" MIN NON-COMBUSTIBLE 6" MIN. / NON-COMBUSTIBLE (152,4 mm) / INSULATION FOR FIRE (152,4 mm) / INSULATION FOR FIRE / PROTECTION OF CPVC / PIPE, NOT FREEZE / PROTECTION OF CPVC PIPE, NOT FREEZE CEILING PROTECTION CEILING PROTECTION OPTION A OPTION B OBSTRUCTION OBSTRUCTION AP SPRINKLER a SPRINKLER A2:3Cor3D Ac 24' (609,6 mm) D ~-A~ - D (Use dimension C or D, whichever is greater) ELEVATION VIEW PLAN VIEW Minimum Horizontal Vertical Distance Distance Below Deflector (A) (B) 3" (!~152,4 mm) (76,2 mm) >6 to 9 4' (>152,4mm to 228,6 mm) (101,6 mm) >9"to12" 6' (>228,6 mm to 304,8 mm) (88,9 mm) >12* to 8' (>304,8 mm to 381,0 mm) (203,2 mm) >15"to18" 9-1/2" (>381,0 mm to 457,2 mm) (241,3 mm) >18" to 24" 12-1/2" (>457,2 mm to 609,6 mm) (317,5 mm) >24" to 30 15-1/2" (>609,6 mm to 762,0 mm) (393,7 mm) >30" 18" (>762,0 mm) (457,2 mm) FIGURE 18 OBSTRUCTIONS TO WATER DISTRIBUTION FOR MODEL AP SPRINKLERS B AP SPRINKLER OBSTRUCTION TFP6IO Page 17 of 28 L A=6'(150 mm) MAX. A B = 12 (300 mm) MAX. ANGLE SPRIG ARM VERTICAL SPRIG DIRECT MOUNT VERTICAL RISER VERTICAL RISER FIGURE 19 HYDRAULIC CALCULATIONS Attic sprinklers must be calculated in conformance with these guidelines. In all cases, the design area shall include the most hydraulically demanding sprinklers. More than one set of calculations may be required to prove different situations. For individual areas requiring more than four AP Sprinklers, the maximum area of attic protected by AP Sprinklers is limited to 3000 ft2 (279 m2) in any single area. Areas must be separated by a minimum of 15 ft (4,6 m) by an area protected by BB, SD,or HIP Sprinklers, in order to be considered separate areas. The hydraulic calculations have been divided into three parts as follows: FIGURE 20-A: "Attics Protected Entirely By BB, SD, and HIP Attic Sprinklers". 20-A-1 (Page 18) BB Sprinklers 20-A-2 (Page 18) BB and HIP Sprinklers 20-A-3 (Page 19) BB and SD Sprinklers 20-A-4 (Page 19) SD Sprinklers 20-A-5 (Page 19) SD and HIP Sprinklers 20-A-6 (Page 19) HIP Sprinklers FIGURE 20-B: "Attics Protected With A Mixture Of BB. SD, and HIP Attic Sprinklers And AP Sprinklers". 20-B-1 (Page 20) SD Sprinklers and AP Sprinklers At The Ridge 20-B-2 (Page 20) BB Sprinklers and AP Sprinklers At The Eaves or Beyond An Obstruction 20-B-3 (Page 21) BB Sprinklers and AP Sprinklers At The Hip 20-B-4 (Page 21) BB Sprinklers, SD Sprinklers, HIP Sprinklers, and AP Sprinklers At The Hip 20-B-5 (Page 22) BB, SD, or HIP Sprinklers and AP Sprinklers in a Dormer, at a Cross, or at an Ell 20-B-6 (Page 22) BB,SD, or HIP Sprinklers and AP Sprinklers Separated By Compartmentalization FIGURE 20-C: "Attics Protected With A Mixture Of BB. SD, and HIP Attic Sprinklers And Standard Spray Sprinklers". 20-C-1 (Page 23) SD Sprinklers and Standard Spray Sprinklers At The Ridge 20-C-2 (Page 23) BB Sprinklers and Standard Spray Sprinklers At The Eaves or Beyond An Obstruction 20-0-3 (Page 24) BB Sprinklers and Standard Spray Sprinklers At The Hip 20-C-4 (Page 25) BB Sprinklers, SD Sprinklers, HIP Sprinklers, and Standard Spray Sprinklers At The Hip 20-C-5 (Page 26) BB, SD, or HIP Sprinklers and Standard Spray Sprinklers in a Dormer, at a Cross, or at an Ell 20-C-6 (Page 26) BB, SD, or HIP Sprinklers and Standard Sprinklers Separated By Compartmentalization .MODEL BB MODEL SD MODEL AP MODEL HIP OR STANDARD BACK TO BACK SINGLE DIRECTIONAL SPRAY FIGURE 20 HYDRAULIC CALCULATIONS DRY SYSTEM SHOWN DRY SYSTEM SHOWN TFP6IO Page 18 of 28 FIGURE 20-A-I. BB SPRINKLERS Wet Systems: Calculate the most demanding five sprinklers. Dry Systems: Calculate the most demanding seven sprinklers. See the adjacent figure. FIGURE 20-A-2. BB AND HIP SPRINKLERS Wet Systems: Calculate the most demanding five sprinklers. Dry Systems: Calculate the most demanding seven sprinklers. Then calculate the most demanding contiguous nine sprinklers with a maximum of seven to be BB Sprin- klers. See the adjacent figures. Use the most demanding calculation. TFP6IO Page 19 of 28 FIGURE 20-A-3. BB AND SD SPRINKLERS Wet Systems: Calculate the most demanding five BB Sprinklers plus two SD Sprinklers. Dry Systems: Calculate the most demanding seven BB Sprinklers plus up to two SD Sprinklers. See the adjacent figure. DRY SYSTEM SHOWN FIGURE 20-A-4. SD SPRIN- IDGE FIV *t!uf* * RIDGE 1 1 Wet Systems: Calculate the most demanding five SD Sprinklers. T I I V I I V I I V \1 Dry Systems: Calculate the most WALL OR demanding nine SD Sprinklers. DRAFT CURTAIN See the adjacent figure. AT RIDGE DRY SYSTEM SHOWN FIGURE 20-A-5. SD AND HIP SPRINKLERS Wet Systems: Calculate the most RIDGE demanding five sprinklers. A A A A A A A 1 1 Dry Systems: Calculate the most demanding nine sprinklers with WALL OR a maximum of seven to be SD DRAFT CURTAIN Sprinklers. See the adjacent AT RIDGE figure. DRY SYSTEM SHOWN FIGURE 20-A-6. HIP SPRIN- KLERS Wet Systems: Calculate the most demanding five sprinklers. See the adjacent figure. Dry Systems: Calculate the most demanding nine sprinklers. WET SYSTEM SHOWN DRY SYSTEM SHOWN TION DRY SYSTEM SHOWN .2 a a a a a a DRY SYSTEM SHOWN TFP6IO Page 20 of 28 FIGURE 20-B-I. SD SPRINKLERS AND AP SPRINKLERS AT THE RIDGE Wet Systems: Calculate the most demanding five sprinklers of one type. Use the most demanding calculation. Dry Systems: Calculate the most demanding nine SD Sprinklers, and then calculate the most demanding seven AP Sprinklers. Use the most demanding calcula- tion. See the adjacent figure. FIGURE 20-B-2. BB OR SD SPRINKLERS AND AP SPRIN- KLERS AT THE EAVES OR BE- YOND AN OBSTRUCTION Wet Systems: Calculate the most demanding five BB or SD Sprinklers plus up to two most demanding AP Sprinklers. Dry Systems: Calculate the most demanding seven BB or SD Sprinklers plus up to two most demanding AP Sprinklers. See the adjacent figures. P 11 RIDGE I I I I I I I I I I I I\I WALLS DRAF1 JUfl nil'15 DRY SYSTEM SHOWN AREA AREA 1 AREA 3 - WITH AP I-. WITH BB I WITH AP I---- SPRINKLERS SPRINKLERS SPRINKLERS STAGGERED N. • • SPACING WHEN \ MORE THAN ONE ROW /. MINIMUM SEPARATION 15-0 (4,6 m) WALL OR DRAFT CURTAIN DRY SYSTEM SHOWN AREA AREA AREA 3 WITH AP WITH BB & SD WITH AP SPRINKLERS SPRINKLERS SPRINKLERS 15-0 (4,6 m) TFP6IO Page 21 of 28 FIGURE 20-B-3. BB SPRINKLERS AND AP SPRIN- KLERS AT THE HIP Where the total number of AP Sprinklers at the hip is greater than four: Wet Systems: Calculate the most demanding five BB Sprinklers plus the two most demanding AP Sprinklers. Then calculate the most demanding area up to 1500 ft2 (137 m2) having AP Sprin- klers, for example, Area 2 in the adjacent upper figure. Use the most demanding calculation. Dry Systems: Calculate the most demanding seven BB Sprinklers plus the two most demanding AP Sprinklers. Then calculate the most demanding area up to 1950 ft2 (181 m2) having AP Sprin- klers, for example, Area 2 in the adjacent upper figure. Use the most demanding calculation. FIGURE 20-B-4. BB SPRINKLERS, SD SPRINKLERS, HIP SPRIN- KLERS, AND AP SPRINKLERS AT THE HIP Where the total number of AP Sprinklers at the hip is four or less: Wet Systems: Calculate the most de- manding five BB, SD, or HIP Sprin- klers plus up to two most demanding AP Sprinklers. Dry Systems: Calculate the most demanding nine BB, SD, or HIP Sprinklers plus up to two most demanding AP Sprinklers (Of the nine BB, SD, or HIP Sprinklers, calculate up to a maximum of seven BB Sprinklers, see adjacent upper figure). Where the total number of AP Sprinklers at the hip is greater than four: Wet Systems: Calculate up to the most demanding five BB, SD, or HIP Sprinklers plus the two most demanding AP Sprinklers. Then calculate the most demanding area up to 1500 ft2 (137 m2) having AP Sprinklers, for example, Area 2. Use the most demanding calculation. Dry Systems: Calculate up to the most demanding nine BB, SD, or HIP Sprinklers, plus the two most demanding AP Sprinklers, and then calculate the most demanding area up to 1950 ft2 (181 m2) having AP Sprinklers, for example, Area 2. Use the most demanding calculation. FIGURE 20-B-5. BB, SD, OR HIP SPRINKLERS AND AP SPRIN- KLERS INA DORMER, AT CROSS, AT HIP, OR AT AN ELL Where the quantity of AP Sprinklers in each dormer, cross, or ell is four or less (see the adjacent figure) and all of the dormers, crosses and ells meet the maximum four AP Sprinkler crite- ria, calculate the BB, SD, or HIP Sprin- kler demand as described in Part A-i through A-6 or Part B-i through B-4, plus up to two of the most demanding AP Sprinklers in the dormer, cross, or ell that is adjacent to the BB, SD, or HIP Sprinklers that are being included in the demand calculation. Where the quantity of AP Sprinklers in any dormer, cross, or ell is greater than four, refer to Figure B- 3. SF: (4 AP INKLERS R LESS) ."\ RIDGE .. ./ /• WALL /•• _______ DORMER BUILT ON TOP OF ROOF OR SHEATHING RIDGE •000•••• 0 TFP6IO Page 22 of 28 FIGURE 20-8-6. BB,SD, OR HIP SPRINKLERS AND AP SPRIN- KLERS SEPARATED BY COMPARTMENTALIZATION Wet Systems: Calculate the BB, SD, or HIP Sprinkler demand as described in Part A-i through A-6 or Part B-i through B-4. Then calculate the most demanding area up to 1500 ft2 (137 m2) having AP Sprin- klers. Use the most demanding calculation. See the adjacent figure. Dry Systems: Calculate the BB, SD, or HIP Sprinkler demand as described in Part A-i through A-6 or Part B-i through B-4. Then calculate the most demanding area up to 1950 ft2 (181 m2) having AP Sprin- klers. Use the most demanding calculation. See the adjacent figure. TION DRY SYSTEM SHOWN TFP6IO Page 23 of 28 FIGURE 20-C-I. SD SPRINKLERS AND STANDARD SPRAY SPRIN- KLERS AT THE RIDGE Wet Systems: Calculate the most demanding five sprinklers of one type. Use the most demanding calculation. Dry Systems: Calculate the most demanding nine SD Sprinklers. Then calculate the most demanding seven Standard Spray Sprinklers. Use the most demanding calculation. See the adjacent figures. FIGURE 20-C-2. BB SPRINKLERS AND STANDARD SPRAY SPRIN- KLERS BEYOND AN OBSTRUCTION Wet Systems: Calculate the most demanding five BB Sprinklers plus up to two most demanding Standard Spray Sprinklers. Dry Systems: Calculate the most demanding seven BB Sprinklers plus up to two most demanding Standard Spray Sprinklers. See the adjacent figures. 41 I &L I I I L * a a a IN, RIDGE T ITT T ITT ITT T\TI WALLS OR DRAFT CURTAINS DRY SYSTEM SHOWN FIGURE 20-C-3. BB SPRINKLERS AND STANDARD SPRAY SPRIN- KLERS AT THE HIP Where the total number of standard spray sprinklers at the hip is greater than four: Wet Systems: Calculate the most demanding five BB Sprinklers plus up to two most demanding Standard Spray Sprinklers. Then calculate the most demanding remote design area, including all sprinkler types, as per NFPA 13. That is, area reduction for quick response and 30% increase for sloped ceilings. Use the most demanding calculation. Dry Systems: Calculate the most demanding seven BB Sprinklers plus up to two most demanding Stand Spray Sprinklers. Then calculate the most demanding design area, including all sprinkler types, as per NFPA 13. That is, 30% increase for sloped ceilings and 30% increase for dry systems. Include all sprinkler types within this area. See the adjacent figure. Use the most demanding calculation. FIRST CALCULATION DRY SYSTEM SHOWN SECOND CALCULATION DRY SYSTEM SHOWN NOTE: Dry Pipe = 1500 SQ. FT. (NFPA Light Hazard) x 1.3 x 1.3 = 2535 SO. FT. WALL OR DRAFT CURTAIN DRY SYSTEM SHOWN FIRST CALCULATION DRY SYSTEM SHOWN SECOND CALCULATION DRY SYSTEM SHOWN NOTE: Dry Pipe = 1500S0. FT. (NFPA Light Hazard) xl .3 x 1.3 = 2535 SQ. FL TFP6IO Iage 24 of 28 FIGURE 20-C-4. BB SPRINKLERS, SD SPRINKLERS, HIP SPRIN- KLERS, AND STANDARD SPRAY SPRINKLERS AT THE HIP Where the total number of Standard Spray Sprinklers at the hip is four or less: Wet Systems: Calculate the most demanding five BB, SD, or HIP Sprin- klers plus up to two most demanding Standard Spray Sprinklers. Dry Systems: Calculate the most demanding nine BB, SD, or HIP Sprin- klers plus up to two most demand- ing Standard Spray Sprinklers . Of the nine BB,SD, or HIP Sprinklers, calcu- late up to a maximum of seven BB Sprinklers. See the adjacent upper figure. Where the total number of standard spray sprinklers at the hip is greater than four: Wet Systems: Calculate the most demanding five BB, SD, or HIP Sprin- klers plus up to two most demand- ing Standard Spray Sprinklers. Then calculate the most demanding remote design area, including all sprinklers types, as per NFPA 13. That is, area reduction for quick response and 30% increase for sloped ceilings. Use the most demanding calculation. Dry Systems: Calculate the most demanding nine BB, SD, or HIP Sprin- klers plus up to two most demand- ing Standard Spray Sprinklers. Of the nine BB,SD, or HIP Sprinklers, cal- culate up to a maximum of seven BB Sprinklers. See the adjacent upper fig- ure. Then calculate the most demand- ing design area, including all sprinkler types, as per NFPA 13. That is, 30% increase for sloped ceilings and 30% increase for dry systems. Include all sprinkler types within this area. See the adjacent figure. TFP6IO Page 25 of 28 FIGURE 20-C-5. BB, SD, OR HIP SPRINKLERS AND STANDARD SPRAY SPRINKLERS IN A DOR- MER, AT CROSS, AT HIP, OR ATAN ELL Where the quantity of standard spray sprinklers in each dormer, cross, or ell is four or less (see the adjacent figure) and all of the dormers, crosses and ells meet the maximum four standard sprin- kler criteria, calculate the Attic Sprin- kler demand as described in Part A-i through A-6 or Part B-i through B-4, plus up to two of the most demanding standard spray sprinklers in the dormer, cross, or ell that is adjacent to the Attic Sprinklers that are being included in the demand calculation. Where the quantity of standard spray sprinklers in any dormer, cross, or ell is greater than four, refer to Figure C-3. STANDARD SPRAY SPRINKLERS (4 OR LESS) 40 40 STANDARD SPRAY SPRINKLERS (4 OR LESS) STANDARD SPRAY SPRINKLERS (4 OR LESS) I I N. STANDARD SPRAY SPRINKLERS (4 OR LESS) .\ RIDGE a.\ • , WALL DORMER BUILT ON TOP OF ROOF OR SHEATHING RIDGE •000•••• 0 FIGURE 20-C-6. BB, SD, OR HIP SPRINKLERS AND STANDARD SPRINKLERS SEPARATED BY COMPARTMENTALIZATION Calculate the Attic Sprinkler demand as described in Part A-i through A-6 or Part C-i through C-4, and then calcu- late the Standard Spray Sprinklers per NFPA 13. Use the most demanding cal- culation. See the adjacent figure. TFP6IO Page 26 of 28 MODEL AP SPRINKLERS WET PIPE SYSTEM (Refer to Figure 20-13-3) Calculation 1: Calculate the most demanding five BB Sprinklers plus the two most demand- ing AP Sprinklers. Calculation 2: Calculate the most demanding area up to 1500 ft2 having AP Sprinklers. In this case the design area will be 800 ft2 (40 ft. x 20 ft.) Use the most demanding calculation to prove the adequacy of the water supply. Where AP Sprinklers are utilized, CPVC pipe may be used to supply the AP Sprinklers, as well as the ceiling sprin- klers below the AP Sprinklers. For more information, see Page 6. STANDARD SPRAY SPRINKLERS WET PIPE SYSTEM (Ref. Figure 20-C-3) Calculation 1: Calculate the most demanding five BB Sprinklers plus the two most demand- ing Standard Spray Sprinklers. Calculation 2: Calculate the most demanding remote design area, including all sprinklers types, per NFPA 13 (i.e., area reduction for quick response and 30% increase for sloped ceilings). In this case the theoretical design area is 1463 ft2 (1500 ft2 x 0.75* x 1.3). The actual design area, however, will need to be 1520 ft2 to pick up the entire coverage area of the last BB Sprinkler. Use the most demanding calculation to prove the adequacy of the water supply. Where Standard Sprinklers are utilized, CPVC pipe CANNOT be used to supply the Standard Spray Sprinklers or the ceiling sprinklers below the Standard Spray Sprinklers. * A 25% reduction for 20 ft. ceiling. 12 12 100' (25,4 m) (1 5,2 m) I,:>k FOX (10,2 m) 1'" •••II • Calculation 1 I- 100'(25,4m) H (5rn) 60' (15,2 m) (5,1 M) (10,2 m) '_•_'_I_I_I_I_I_I_• • Calculation 2 . • • 12 12 100' (25,4 m) H ( 20. 5rn) 60' (15,2 m) (5,1 M) Ij_>2• (10,2m) II_I_I_I Calculation 1 I -.. 100' (25,4 m) H 5Th • 60' (15,2 m) (5rn) TIIT (102 m)Li _ II_I_I_I Calculation 2 FIGURE 21 EXAMPLE FOR A WET PIPE SYSTEM HYDRAULIC DESIGN AREA COMPARISON OF MODEL AP SPRINKLERS VERSES STANDARD SPRAY SPRINKLERS WHERE MODEL AP OR STANDARD SPRAY SPRINKLERS ARE USED IN HIP AREAS OUTSIDE THE SCOPE OF APPLICATION FOR MODEL BB BACK-TO-BACK SPRINKLERS TFP6IO Page 27 of 28 12 12 MODEL AP SPRINKLERS DRY PIPE SYSTEM (Ref. Figure 20-B-3) Calculation 1: Calculate the most demanding seven BB Sprinklers plus the two most demanding AP Sprinklers. Calculation 2: Calculate the most demanding area up to 1950 ft2 having AP Sprinklers. In this case the design area will be 800 ft2 (40 ft. x 20 ft.) Use the most demanding calculation to prove the adequacy of the water supply. 100' (25,4 m) (5rn) 20- 60'(15,2 m) - (5Th) 20- 40. r (1 0,2 m) Calculation 1 100' (25,4 m) H (5rn) 60' (15,2 m) (511 M) (10,2 in) $ • I I I I I I I I Calculation 2 12 12 STANDARD SPRAY SPRINKLERS DRY PIPE SYSTEM (Ref. Figure 20-C-3) Calculation 1: Calculate the most demanding seven BB Sprinklers plus the two most demanding Standard Spray Sprinklers. Calculation 2: Calculate the most demanding remote design area, including all sprinklers types, as per NFPA 13. That is, 30% increase for sloped ceilings and 30% increase for dry systems. In this case the theoretical design area will be 2535 ft2 (1500 ft2 x 1.3 x 1.3). The actual design area, however, will need to be 2720 ft2 to pick up the entire coverage area of the last BB Sprinkler. Use the most demanding calculation to prove the adequacy of the water supply. FIGURE 22 EXAMPLE FOR A DRY PIPE SYSTEM HYDRAULIC DESIGN AREA COMPARISON OF MODEL AP SPRINKLERS VERSES STANDARD SPRAY SPRINKLERS WHERE MODEL AP OR STANDARD SPRAY SPRINKLERS ARE USED IN HIP AREAS OUTSIDE THE SCOPE OF APPLICATION FOR MODEL BB BACK-TO-BACK SPRINKLERS TFP6IO Page 28 of 28 GLOBAL HEADQUARTERS 1 1400 Pennbrook Parkway, Lansdale, PA 194461 Telephone +1 -215-362-0700 Copyright © 2017 Tyco Fire Products, LP. All rights reserved. ti1co TEFLON is a registered trademark of DuPont, MONEL is a registered trademark of Special metals Corporation BLAZEMASTER is a registered trademark of The Lubrizol Corporation Fire Protection Products qc MW w Worldwide Contacts Series TY-FRB, 56 K-factor Upright, Pendent, and Recessed Pendent Sprinklers Quick Response, Standard Coverage General Description The TYCO Series TY-FRB, 5.6 K-factor, Upright (TY313) and Pendent (TY323) Sprinklers described in this data sheet are quick response, standard coverage, decorative 3 mm glass bulb-type spray sprinklers designed for use in light or ordinary hazard, commercial occupan- cies such as banks, hotels, and shop- ping malls. The recessed version of the Series TY- FRB Pendent Sprinkler, where applica- ble, is intended for use in areas with a finished ceiling. This recessed pendent sprinkler uses one of the following: A two-piece Style 15 Recessed Escutcheon with recessed adjust- ment up to 5/8 inch (15,9 mm) from the flush pendent position. A two-piece Style 20 Recessed Escutcheon with recessed adjust- ment up to 1/2 inch (12,7 mm) from the flush pendent position. The adjustment provided by the Recessed Escutcheon reduces the accuracy to which the fixed pipe drops to the sprinklers must be cut. Intermediate level versions of Series TY-FRB Sprinklers are described in Technical Data Sheet TFP357. Sprin- kler guards and shields are described in Technical Data Sheet TFP780. IMPORTANT Always refer to Technical Data Sheet TFP 700 for the "INSTALLER WARNING" that provides cautions with respect to handling and installation of sprinkler systems and components. Improper handling and installation can permanently damage a sprinkler system or its components and cause the sprinkler to fail to operate in a fire situation or cause it to operate prematurely. Page 1 of 4 The TYCO Series TY-FRB Sprinklers described herein must be installed and maintained in compliance with this doc- ument, as well as with the applicable standards of the National Fire Protec- tion Association, in addition to the stan- dards of any other authorities having jurisdiction. Failure to do so may impair the performance of these devices. The owner is responsible for maintain- ing their fire protection system and devices in proper operating condition. The installing contractor or sprinkler manufacturer should be contacted with any questions. Sprinkler Identification Number (SIN) TY313 .......Upright 5.6K, 1/2" NPT 1Y323 ......Pendent 5.6K, 1/2" NPT Technical Data Approvals UL and C-UL Listed FM and VdS Approved CE Certified Maximum Working Pressure 175 psi (12.1 bar) 250 psi (17.2 bar)* *The maximum working pressure of 250 psi (17.2 bar) only applies to the listing by Un- derwriters Laboratories, Inc. (UL). Discharge Coefficient K=5.6 GPM/psi112 (80,6 LPM/bar1/2) Temperature Rating 135°F (57°C) 155°F (68°C) 175°F (79°C) 200°F (93°C) 286°F (141°C) JANUARY 2013 Finishes Sprinkler: Natural Brass, Chrome Plated, Pure White (RAL 9010) and Signal White (RAL 9003). Recessed Escutcheon: White Coated, Chrome Plated, or Brass Plated Physical Characteristics Frame ...................Bronze Button..............Brass/Copper Sealing Assembly.........Stainless Steel w/TEFLON Bulb ......................Glass Compression Screw........Bronze Deflector.................Bronze TFPI72 2-7/8' (73,0 mm) DIA. TFPI72 Page 2 of 4 Components: * Temperature rating is ** Pipe thread connections per ISO 7-1 1 - Frame 4 - Bulb indicated on Deflector, can be provided on special request. 2 - Button 5 - Compression STYLE 15 or 20 3 - Sealing Screw ESCUTCHEON PLATE 1/2 7/16 (11,1 mm) RECESSED Assembly 6 - Deflector* DEFLECTOR* SEATING SURFACE NPT** NOMINAL MAKE-IN ESCUTCHEON CROSS SECTION 1 7/16 (11,1 mm) NOMINAL MAKE-IN 2 (50,8 mm) 1/2 NPT** UPRIGHT 2 (50,8 mm) 13 (34$ mm) W Fl DEFLECTOR* PENDENT RECESSED PENDENT FIGURE 1 SERIES TV-FRB UPRIGHT (TY313) AND PENDENT (TY323) SPRINKLERS 5.6 K-FACTOR, 1/2 INCH NPT, QUICK RESPONSE Operation The glass bulb contains a fluid which expands when exposed to heat. When the rated temperature is reached, the fluid expands sufficiently to shatter the glass bulb, allowing the sprinkler to activate and water to flow. Design Criteria The TYCO Series TY-FRB, 5.6 K-factor, Upright (TY313) and Pendent (TY323) Sprinklers are intended for fire protec- tion systems designed in accordance with the standard installation rules rec- ognized by the applicable Listing or Approval agency (such as, UL Listing is based on the requirements of NFPA 13, and FM Approval is based on the requirements of FM's Loss Prevention Data Sheets). Only the Style 15 or Style 20 Recessed Escutcheon is to be used for recessed pendent installations. Installation The TYCO Series TY-FRB, 5.6 K-factor, Upright (1Y313) and Pendent (TY323) Sprinklers must be installed in accor- dance with this section. General Instructions Do not install any bulb-type sprinkler if the bulb is cracked or there is a loss of liquid from the bulb. With the sprin- kler held horizontally, a small air bub- ble should be present. The diameter of the air bubble is approximately 1/16 inch (1,6 mm) for the 135°F (57°C) and 3/32 inch (2,4 mm) for the 286°F (141°C) temperature ratings. A leak-tight 1/2 inch NPT sprinkler joint should be obtained by applying a min- imum to maximum torque of 7 to 14 ft.-Ibs. (9,5 to 19,0 Nm). Higher levels of torque can distort the sprinkler Inlet with consequent leakage or impairment of the sprinkler. Do not attempt to compensate for insufficient adjustment in the Escutch- eon Plate by under- or over-tightening the sprinkler. Re-adjust the position of the sprinkler fitting to suit. Upright and Pendent Sprinklers The Series TY-FRB Upright and Pen- dent Sprinklers must be installed in accordance with the following instructions. Step 1. Install Pendent sprinklers in the pendent position. Install upright sprin- klers in the upright position. Step 2. With pipe-thread sealant applied to the pipe threads, hand- tighten the sprinkler into the sprinkler fitting. / WRENCH RECESS / (USE ONLY FIGURE 2 W- TYPE 6 SPRINKLER WRENCH WRENCH RECESS PUSH WRENCH IN TO ENSURE ENGAGEMENT WITH SPRINKLER WRENCHING AREA FIGURE 3 W-TYPE 7 RECESSED SPRINKLER WRENCH TFPI72 Page 3 of 4 Step 3. Tighten the sprinkler into the sprinkler fitting using only the W-Type 6 Sprinkler Wrench (Figure 2). With ref- erence to Figure 1, apply the W-Type 6 Sprinkler Wrench to the wrench flats. Torque sprinklers 7 to 14 ft.-lbs. (9,5 to 19,0 Nm). Recessed Pendent Sprinklers The Series TY-FRB Recessed Pendent Sprinklers must be installed in accor- dance with the following instructions. Step A. After installing the Style 15 or Style 20 Mounting Plate over the sprin- kler threads, and with pipe-thread sealant applied to the pipe threads, hand-tighten the sprinkler into the sprinkler fitting. Step B. Tighten the sprinkler into the sprinkler fitting using only the W-Type 7 Recessed Sprinkler Wrench (Figure 3). With reference to Figure 1, apply the W-Type 7 Recessed Sprinkler Wrench to the sprinkler wrench flats. Torque sprinklers 7 to 14 ft.-lbs. (9,5 to 19,0 Nm). Step C. After ceiling installation and fin- ishing, slide on the Style 15 or Style 20 Closure over the Series TY-FRB Sprin- kler and push the Closure over the Mounting Plate until its flange comes in contact with the ceiling. Care and Maintenance The TYCO Series TY-FRB, 5.6 K-factor, Upright (TY313) and Pendent (TY323) Sprinklers must be maintained and ser- viced in accordance with this section. Before closing a fire protection system main control valve for maintenance work on the fire protection system that it controls, obtain permission to shut down the affected fire protection systems from the proper authorities and notify all personnel who may be affected by this action. Absence of the outer piece of an escutcheon, which is used to cover a clearance hole, can delay sprinkler operation in a fire situation. The owner must assure that the sprin- klers are not used for hanging any objects and that the sprinklers are only cleaned by means of gently dusting with a feather duster; otherwise, non- operation in the event of a fire or inad- vertent operation may result. Sprinklers which are found to be leak- ing or exhibiting visible signs of corro- sion must be replaced. Automatic sprinklers must never be painted, plated, coated, or other- wise altered after leaving the factory. Modified sprinklers must be replaced. Sprinklers that have been exposed to corrosive products of combustion, but have not operated, should be replaced if they cannot be completely cleaned by wiping the sprinkler with a cloth or by brushing it with a soft bristle brush. Care must be exercised to avoid dam- age to the sprinklers - before, during, and after installation. Sprinklers dam- aged by dropping, striking, wrench twist/slippage, or the like, must be replaced. Also, replace any sprinkler that has a cracked bulb or that has lost liquid from its bulb. (Ref. Installation Section.) The owner is responsible for the inspection, testing, and maintenance of their fire protection system and devices in compliance with this document, as well as with the applicable standards of the National Fire Protection Associa- tion (e.g., NFPA 25), in addition to the standards of any other authorities hav- ing jurisdiction. Contact the installing contractor or sprinkler manufacturer regarding any questions. Automatic sprinkler systems are rec- ommended to be inspected, tested, and maintained by a qualified Inspec- tion Service in accordance with local requirements and/or national codes. 2-7/8' DIA. - (73,0 mm) 2-1/4 DIA. SPRINKLER FITTING FACE OF (57,2 mm) \ 1 5/8 (15,9 mm) FLUSH 3/8±5/16' (9,5±7,9 mm) MOUNTING /8' J SURFACE mm) CLOSURE SERIES MOUNTING 1-3/8' (34,9 mm) TY-FRB PLATE 3/4" (19,1 mm) FIGURE 4 SERIES TY-FRB RECESSED PENDENT SPRINKLER ASSEMBLY (TY323) WITH TWO PIECE 5/8 INCH TOTAL ADJUSTMENT STYLE 15 RECESSED ESCUTCHEON 2-7/8 DIA. (73,0 mm) FACE OF SPRINKLER - 2-1/4' DIA. FITTING (57,2 mm) (7,9±6,4 mm ) ' #(3,2 mrn) 1/2' (12,7 mm) FLUSH \!1/ MOUNTING ' SURFACE / CLOSURE SERIES MOUNTING 1-3/8 (34,9 mm) TYFRB PLATE 7/8' (22,2 mm) FIGURE 5 SERIES TY-FRB RECESSED PENDENT SPRINKLER ASSEMBLY 'TY323) WITH TWO PIECE 1/2 INCH TOTAL ADJUSTMENT STYLE 20 RECESSED ESCUTCHEON TFPI72 Page 4 of 4 P/N* 77 - XXX - X - XXX I SPRINKLER TEMPERATURE FINISH RATINGS SIN 1 NATURAL BRASS 370 5.6K UPRIGHT (1/2" NPT) TY313 4 SIGNAL WHITE (RAL 9003) 371 5.6K PENDENT (1/2" NPT) TY323 3 PURE WHITE (RAL 9010)** Use suffix "I" for ISO 7-1 connection; 9 CHROME PLATED for example, 77-370-4-175-I - ____ Eastern Hemisphere sales only 286 286°F TABLE A SERIES TY-FRB UPRIGHT AND PENDENT SPRINKLERS - PART NUMBER SELECTION - Ordering Procedure Contact your local distributor for avail- ability. When placing an order, indicate the full product name and Part Num- ber (P/N). Sprinkler Assemblies with NPT Thread Connections Specify: Series TY-FRB (SIN), K=5.6, (Upright or Pendent) Sprinkler Quick Response, (specify) temperature rat- ing, (specify) finish, P/N (Table A). Recessed Escutcheon Specify: Style 15 Recessed Escutcheon with (specify*) finish, P/N (specify*) Specify: Style 20 Recessed Escutch- eon with (specify*) finish, P/N (specify*) * Refer to Technical Data Sheet TFP770. Sprinkler Wrench Specify: W-Type 6 Sprinkler Wrench, P/N 56-000-6-387 Specify: W-Type 7 Sprinkler Wrench, P/N 56-850-4-001 135 135°F (57°C) 155 155°F (68°C) 175 175°F(79°C) 200 200°F (93°C) (141°C) GLOBAL HEADQUARTERS 1 1400 Pennbrook Parkway, Lansdale, PA 19446 I Telephone +1-215-362-0700 Copyright © 2013 Tyco Fire Products, LP. All rights reserved. tqco TEFLON is trademark of The DuPont Corporation. Fire Protection Products Worldwide Contacts I www.tyco-fire.com RAPID RESPONSE Series LFII Residential 49 K-factor Concealed Pendent Sprinkler Flat Plate, Wet Pipe and Dry Pipe Systems General Description TYCO RAPID RESPONSE Series LFll Residential 4.9K Concealed Pendent Sprinklers (TY3596) are decorative, fast response, fusible solder sprinklers designed for use in residential occu- pancies such as homes, apartments, dormitories, and hotels. The cover plate assembly conceals the sprinkler operating components above the ceiling. The flat profile of the cover plate provides the optimum aes- thetically appealing sprinkler design. In addition, the concealed design of the Series LFll Residential Concealed Pendent Sprinklers (TY3596) provides 1/2 inch (12,7 mm) vertical adjustment. This adjustment provides a measure of flexibility when cutting fixed sprinkler drops. The Series LFII Residential Concealed Sprinklers are intended for use in the following scenarios: wet and dry pipe residential sprin- kler systems for one- and two-fam- ily dwellings and mobile homes per NFPA 13D wet and dry pipe residential sprinkler systems for residential occupancies up to and including four stories in height per NFPA 13R wet and dry pipe sprinkler systems for the residential portions of any occupancy per NFPA 13 IMPORTANT Always refer to Technical Data Sheet TFP700 for the "INSTALLER WARNING" that provides cautions with respect to handling and instal- lation of sprinkler systems and com- ponents. Improper handling and installation can permanently damage a sprinkler system or its compo- nents and cause the sprinkler to fail to operate in a fire situation or cause it to operate prematurely. Page 1 of 6 The Series LFII Residential Concealed Pendent Sprinklers (TY3596) has been designed with heat sensitivity and water distribution characteristics proven to help in the control of residen- tial fires and to improve the chance for occupants to escape or be evacuated. The Series LFII Residential Con- cealed Pendent Sprinklers (1Y3596) are shipped with a Disposable Pro- tective Cap. The Protective Cap is temporarily removed for installation, and then it can be replaced to help protect the sprinkler while the ceiling is being installed or finished. The tip of the Protective Cap can also be used to mark the center of the ceiling hole into plaster board, ceiling tiles, etc. by gently pushing the ceiling product against the Protective Cap. When the ceiling installation is complete the Pro- tective Cap is removed and the Cover Plate Assembly installed. Dry Pipe System Application The Series LFII Residential Concealed Pendent Sprinklers offers a laboratory approved option for designing dry pipe residential sprinkler systems, whereas, most residential sprinklers are labora- tory approved for wet systems only. Through extensive testing, it has been determined that the number of design sprinklers (hydraulic design area) for the Series LFII Residential Concealed Pendent Sprinklers (TY3596) need not be increased over the number of design sprinklers (hydraulic design area) as specified for wet pipe sprinkler systems, as is accustomed for density/ area sprinkler systems designed per NFPA 13. Consequently, the Series LFII Residen- tial Concealed Pendent Sprinklers offer the features of non-water filled pipe in addition to not having to increase the number of design sprinklers (hydraulic design area) for systems designed to NFPA 13,13D, or 13R. FEBRUARY 2015 The Series LFII Residential Concealed Pendent Sprinklers (TY3596) described herein must be installed and main- tained in compliance with this docu- ment and with the applicable standards of the National Fire Protection Associa- tion (NFPA), in addition to the standards of any authorities having jurisdiction. Failure to do so may impair the perfor- mance of these devices. The owner is responsible for main- taining their fire protection system and devices in proper operating con- dition. Contact the installing contrac- tor or product manufacturer with any questions. Sprinkler Identification Number (SIN) TY3596 TFP442 s,s,r i_n ri_nfl i_i ni_ mill_n ASSEMBLY FIGURE 1 RAPID RESPONSE SERIES LFII RESIDENTIAL CONCEALED PENDENT SPRINKLER (TY3596) TFP442 Page 2 of 6 BODY SEALING (1/2 NPT) - ASSEMBLY 124TMT SPRINKLER WRENCHING SADDLE SUPPORT COMPRESSION CUP WITH N SCREW ROLL FORMED THREADS GUIDE LEVER PIN SOLDER LINK ELEMENT GUIDE PIN HOUSING DEFLECTOR I DEFLECTOR I (OPERATED I POSITION) I I SPRINKLER/SUPPORT CUP ASSEMBLY WRENCH RECESS PUSH WRENCH IN TO ENSURE ENGAGEMENT WITH SPRINKLER WRENCHING AREA FIGURE 2 W-TYPE 18 SPRINKLER WRENCH THREAD INTO SUPPOR CUP UNTI MOUNTIN SURFACE FLUSH wr CEILING SOLDER TAB 2-1/2 DIA. (63,5 mm) 1/2 (12,7 mm) FACE OF THREADED SPRINKLER ADJUSTMENT FITTING I 1 1-7/8±1/4 (47,6 mm 1/8 GAP ±6,4 mm) ,-,----- (3,2 mm) COVER- SPRINKLER- I MOUNTING RETAINER SUPPORT CUP 3/16 J SURFACE ASSEMBLY ASSEMBLY (4,8 mm) 3:3/16 DIA. RETAINER WITH THREAD - DIMPLES EJECTION SPRING COVER PLATE SPRINKLER- SUPPORT CUP / ASSEMBLY OPERATED SPRINKLER COVER PLATE RETAINER L1 7/8 (22,2 mm) \ 1-1/8(28,6mm) DISPOSABLE DEFLECTOR IN (81,0 mm) TIP PROTECTIVE CAP OPERATED POSITION FIGURE 3 RAPID RESPONSE SERIES LFII RESIDENTIAL CONCEALED PENDENT SPRINKLER (TY3596) INSTALLATION DIMENSIONS/PROTECTIVE CAP/ACTIVATED DEFLECTOR TFP442 Page 3 of 6 Technical Data Approvals UL and C-UL Listed NYC Approved under MEA 44-03-E-2NSF Certified to NSF/ANSI 61 The TYCO RAPID RESPONSE Series LFII Residential Concealed Pendent Sprinklers are only Listed with the Series LFII Con- cealed Cover Plates having a factory-ap- plied finish. Cover Plates can be ordered by following the instructions in the Ordering Procedure section. Maximum Working Pressure 175 psi (12,1 bar) Discharge Cfficient 1/2 K=4.9 gpm/psi (70,6 1pm/bar Temperature Rating 160°F (71°C) Sprinkler with 139°F (59°C) Cover Plate Vertical Adjustment 1/2 inch (12,7 mm) Finishes Refer to Ordering Procedure section. Physical Characteristics Body.........................Brass Cap.........................Bronze Saddle .......................Brass Sealing Assembly.......Beryllium Nickel w/TEFLON Soldered Link Halves............Nickel Lever........................Bronze Compression Screw.............Brass Deflector ................... Copper or Brass Guide Pin Housing .............Bronze Guide Pins .............Stainless Steel or Bronze Support Cup ...................Steel Cover Plate ..................Copper Retainer ......................Brass Cover Plate Ejection Spring..........Stainless Steel Operation When exposed to heat from a fire, the Cover Plate, which is normally soldered to the Support Cup at three points, falls away to expose the sprinkler assembly. At this point the Deflector supported by the Arms drops down to its operated position. The fusible link of the sprin- kler assembly is comprised of two link halves that are soldered together with a thin layer of solder. When the rated temperature is reached, the solder melts and the two link halves separate allowing the sprinkler to activate and flow water. Design Criteria TYCO RAPID RESPONSE Series LFII Residential Concealed Pendent Sprin- klers (1Y3596) are UL and C-UL Listed for installation in accordance with this section. Note: When conditions exist that are outside the scope of the provided cri- teria, refer to the Residential Sprinkler Design Guide TFP490 for the manu- facturer's recommendations that may be acceptable to the authority having jurisdiction. System Types Per the UL Listing, wet pipe and dry pipe systems may be utilized. Per the C-UL Listing, only wet pipe systems may be utilized. Refer to Technical Data Sheet TFP485 about the use of residential sprinklers in residential dry pipe systems. Ceiling Types Smooth flat horizontal, or beamed, or sloped, in accordance with the 2013 Edition of NFPA 13D, 13R, or 13 as applicable. Hydraulic Design (NFPA 13D and 13R) For systems designed to NFPA 13D or NFPA 13R, the minimum required sprinkler flow rates are given in Tables A and B as a function of tem- perature rating and the maximum allowable coverage areas. The sprinkler flow rate is the minimum required discharge from each of the total number of "design sprinklers" as specified in NFPA 13D or NFPA 13R. The number of "design sprinklers" specified in NFPA 13D and 13R for wet pipe systems is to be applied when designing dry pipe systems. Hydraulic Design (NFPA 13) For systems designed to NFPA 13, the number of design sprinklers is to be the four most hydraulically demanding sprinklers. The minimum required dis- charge from each of the four sprinklers is to be the greater of the following: the flow rates given in Tables A and B as a function of temperature rat- ing and the maximum allowable cov- erage area a minimum discharge of 0.1 gpm/ft.2 over the design area comprised of the four (4) most hydraulically demanding sprinklers for actual coverage areas protected by the four (4) sprinklers The number of design sprinklers speci- fied in NFPA 13 for wet pipe systems is to be applied when designing dry pipe systems. Dry Pipe System Water Delivery When using the Series LFII Residen- tial Concealed Pendent Sprinklers (1Y3596) in dry pipe sprinkler systems, the time for water delivery must not exceed 15 seconds for the most remote operating sprinkler. Obstruction to Water Distribution Sprinklers are to be located in accor- dance with the obstruction rules of NFPA 13D, 13R, and 13 as applicable for residential sprinklers as well as with the obstruction criteria described within the Technical Data Sheet TFP490. Operational Sensitivity The sprinklers are to be installed rela- tive to the ceiling mounting surface as shown in Figure 3. Sprinkler Spacing The minimum spacing between sprin- klers is 8 feet (2,4 m). The maximum spacing between sprinklers cannot exceed the length of the coverage area (Ref. Table A or B) being hydraulically calculated (e.g., maximum 12 feet for a 12 ft. x 12 ft. coverage area, or 20 feet for a 20 ft. x 20 ft. coverage area). The Series LFII must not be used in applications where the air pres- sure above the ceiling is greater than that below. Down drafts through the Support Cup could delay sprinkler operation in a fire situation. TFP442 Page 4 of 6 WET PIPE SYSTEM Maximum Minimum Flow and Residual Pressure 2.3 Ordinary Temp. Rating Minimum Coverage Area Maximum Spacing Ft. x Ft. Ft. 160°F (71°C) Deflector to Installation Spacing Flow Pressure (mxm) (m) Ceiling Type Ft. gpm 35i (m) (1pm) (bar) 12 X 12 12 13 7.0 Smooth (3,7 X 3,7) (3,7) (49,2) (0,48) Ceilings 7/8 to 1-1/8 14x14 14 13 7.0 inches (4,3x4,3) (4,3) (49,2) (0,48) Beamed Ceilings per NFPA 13D or Concealed 13R, 8 (2,4) 16 x 16 (4,9x4,9) 16 (4,9) 13 (49,2) 7.0 (0,48) or 13. Installed in 18x18 18 17 12.0 beam (5,5x5,5) (5,5) (64,3) (0,83) 7/8to1-1/8 inches below 20 x 20 20 20 16.7 bottom of (6,1 x6,1) (6,1) (75,7) (1,15) beam Notes: For coverage area dimensions less than or between those indicated, use the minimum required flow for the next highest coverage area for which hydraulic design criteria are stated. Requirement is based on minimum flow in gpm (1pm) from each sprinkler. The associated residual pressures are calculated using the nominal K-factor. Refer to Hydraulic Design under the Design Criteria section. For NFPA 13 residential applications, the greater of 0.1 gpm/ft.2 over the design area or the flow in accordance with the criteria in this table must be used. TABLE A WET PIPE SYSTEM SERIES LFII RESIDENTIAL 4.9 K-FACTOR FLAT PLATE CONCEALED PENDENT SPRINKLER (TY3596) NFPA 13D, 13R, AND 13 HYDRAULIC DESIGN CRITERIA DRY PIPE SYSTEM Minimum Flowand Residual Pressure 2,3 Maximum Maximum Coverage Area Spacing Ordinary Temp. Rating 160°F (71°C) Minimum Ft. x Ft. Ft. Deflector to Installation Spacing Flow Pressure (m x m) (m) Ceiling Type Ft. gpm psi (m) (1pm) (bar) 12x12 12 13 7.0 Smooth (3,7 X 3,7) (3,7) (49,2) (0,48) Ceilings 7/8 to 1-1/8 14 x 14 14 14 8.2 inches (4,3 x 4,3) (4,3) (53,0) (0,57) Beamed Ceilings per 8 16 x 16 16 15 9.4 (4,9 x 4,9) (4,9) (56,8) (0,65) NFPA 13D or Concealed 13R, (2,4) or 13. Installed in 18x18 18 18 13.5 beam (5,5 x 5,5) (5,5) (68,1) (0,93) 7/8 to 1-1/8 inches below 20 x 20 20 21 18.4 bottom of (6,1 x 6,1) (6,1) (79,5) (1,27) beam Notes: For coverage area dimensions less than or between those indicated, use the minimum required flow for the next highest coverage area for which hydraulic design criteria are stated. Requirement is based on minimum flow in gpm (1pm) from each sprinkler. The associated residual pressures are calculated using the nominal K-factor. Refer to Hydraulic Design under the Design Criteria section. For NFPA 13 residential applications, the greater of 0.1 gpm/ftY over the design area or the flow in accordance with the criteria in this table must be used. TABLE B DRY PIPE SYSTEM RAPID RESPONSE SERIES LFII RESIDENTIAL 4.9 K-FACTOR FLAT PLATE CONCEALED PENDENT (TY3596) NFPA 13D, 13R, AND 13 HYDRAULIC DESIGN CRITERIA TFP442 Page 5 of 6 Installation TYCO RAPID RESPONSE Series LFII Residential Concealed Pendent Sprin- klers (1Y3596) must be installed in accordance with this section. General Instructions Damage to the fusible Link Assembly during installation can be avoided by handling the sprinkler by the support cup only (i.e., do not apply pressure to the fusible Link Assembly). A 1/2 inch NPT sprinkler joint should be obtained with a minimum to maximum torque of 7 to 14 lbs.-ft. (9,5 to 19,0 Nm). Higher levels of torque may distort the sprinkler inlet with consequent leakage or impairment of the sprinkler. Do not attempt to compensate for insufficient adjustment in the Cover Plate / Retainer Assembly by under- or over-tightening the Sprinkler. Read- just the position of the sprinkler fitting to suit. Step 1. The sprinkler must only be installed in the pendent position and with the centerline of the sprinkler per- pendicular to the mounting surface. Step 2. Remove the Protective Cap. Step 3. With pipe thread sealant applied to the pipe threads, and using the W-Type 18 Wrench shown in Figure 2, install and tighten the Sprinkler / Support Cup Assembly into the fitting. The W-Type 18 Wrench will accept a 1/2 inch ratchet drive. Step 4. Replace the Protective Cap by pushing it upwards until it bottoms out against the Support Cup. The Protec- tive Cap helps prevent damage to the Deflector and Guide Pins during ceiling installation and/or during application of the finish coating of the ceiling. It may also be used to locate the center of the clearance hole by gently pushing the ceiling material against the center point of the Cap. Note: As long as the protective Cap remains in place, the system is consid- ered to be "Out Of Service." Step 5. After the ceiling has been completed with the 2-1/2 inch (63 mm) diameter clearance hole and in prep- aration for installing the Cover Plate Assembly, remove and discard the Pro- tective Cap, and verify that the Deflec- tor moves up and down freely. If the sprinkler has been damaged and the Deflector does not move up and down freely, replace the entire sprinkler assembly. Do not attempt to modify or repair a damaged sprinkler. Step 6. Screw on the Cover Plate Assembly until its flange comes in contact with the ceiling. Do not continue to screw on the Cover Plate Assembly such that it lifts a ceiling panel out of its normal position. If the Cover Plate Assembly cannot be engaged with the Mounting Cup or the Cover Plate Assembly cannot be engaged sufficiently to contact the ceiling, the Sprinkler Fitting must be repositioned. Care and Maintenance TYCO RAPID RESPONSE Series LFII Residential Concealed Pendent Sprin- klers (1Y3596) must be maintained and serviced in accordance with this section. Before closing a fire protection system main control valve for maintenance work on the fire protection system which it controls, permission to shut down the affected fire protection system must be obtained from the proper authorities and all personnel who may be affected by this action must be notified. Absence of a Cover Plate may delay the sprinkler operation in a fire situation. When properly installed, there is a nominal 1/8 inch (3,2 mm) air gap between the lip of the Cover Plate and the ceiling, as shown in Figure 3. This air gap is necessary for proper opera- tion of the sprinkler by allowing heat flow from a fire to pass below and above the Cover Plate to help assure appropriate release of the Cover Plate in a fire situation. If the ceiling is to be repainted after the installation of the Sprinkler, care must be exercised to ensure that the new paint does not seal off any of the air gap. Factory painted Cover Plates must not be repainted. They should be replaced, if necessary, by factory painted units. Non-factory applied paint may adversely delay or prevent sprinkler operation in the event of a fire. Do not pull the Cover Plate relative to the Enclosure. Separation may result. Sprinklers which are found to be leaking or exhibiting visible signs of corrosion must be replaced. Automatic sprinklers must never be painted, plated, coated, or otherwise altered after leaving the factory. Modi- fied or over heated sprinklers must be replaced. Care must be exercised to avoid damage before, during, and after instal- lation. Sprinklers damaged by drop- ping, striking, wrench twist/slippage, or the like, must be replaced. The owner is responsible for the inspection, testing, and maintenance of their fire protection system and devices in compliance with this document, as well as with the applicable standards of the National Fire Protection Asso- ciation (e.g., NFPA 25), in addition to the standards of any other authorities having jurisdiction. Contact the install- ing contractor or product manufacturer with any questions. The owner must assure that the sprin- klers are not used for hanging any objects and that the sprinklers are only cleaned by means of gently dusting with a feather duster; otherwise, non- operation in the event of a fire or inad- vertent operation may result. Automatic sprinkler systems should be inspected, tested, and maintained by a qualified Inspection Service in accor- dance with local requirements and/or national codes. TFP442 Page 6 of 6 Limited Warranty For warranty terms and conditions, visit www.tyco-fire.com. Ordering Procedure Contact your local distributor for availability. When placing an order, indicate the full product name and part number (P/N). Sprinkler Assemblies Specify: Series LFII (TY3596) 4.9K Residential Concealed Pendent Sprin- kler without Cover Plate Assembly, P/N 51-112-1-160 Cover Plate Assemblies Specify: Cover Plate Assembly with (specify) finish for the Series LFll (TY3596) 4.91K Residential Concealed Pendent Sprinkler, P/N (specify): Ivory (RAL1 015) ...........P/N 56-202-0-135 Beige (RAL1001)...........P/N 56-202-2-135 Pure White * (RAL9010) .....P/N 56-202-3-135 Signal White ** (RAL9003) ... P/N 56-202-4-135 Grey White (RAL9002) ......P/N 56-202-5-135 Brown (RAL8028)..........P/N 56-202-6-135 Black (RAL9005) ..........P/N 56-202-7-135 Brushed Brass ............P/N 56-202-8-135 Brushed Chrome ..........P/N 56-202-9-135 Custom Paint .............P/N 56-202-X-135 * Eastern Hemisphere sales only Previously known as Bright White Note: All Custom Cover Plates are painted using Sherwin Williams Interior Latex Paint. Contact Tyco Customer Service with any questions related to custom orders. Sprinkler Wrench Specify: W-Type 18 Sprinkler Wrench, PIN 56-000-1-265 GLOBAL HEADQUARTERS 11400 Pennbrook Parkway, Lansdale, PA 19446 I Telephone +1-215-362-0700 Copyright © 2015 Tyco Fire Products, LP. All rights reserved. tuco TEFLON is trademark of The DuPont corporation. M Fire Protection Products Fire Protection Products Worldwide Contacts www.tyco-fire.com I Series TYFRB - 5.6 K-factor Horizontal and Vertical Sidewall Sprinklers Quick Response, Standard Coverage General Description The Series TY-FRB, 5.6 K-factor, Hor- izontal and Vertical Sidewall Sprin- klers described in this data sheet are quick response -standard cover- age, decorative 3 mm glass bulb type spray sprinklers designed for use in light and ordinary hazard, commer- cial occupancies such as banks, ho- tels, shopping malls, etc. They are de- signed for installation along a wall or the side of a beam and just beneath a smooth ceiling. Sidewall sprinklers are commonly used instead of pendent or upright sprinklers due to aesthetics or building construction considerations, where piping across the ceiling is not desirable. The recessed version of the Series TY-FRB Horizontal Sidewall Sprin- kler is intended for use in areas with a finished wall. It uses a two-piece Style 10 Recessed Escutcheon with 1/2 inch (12,7 mm) of recessed adjust- ment or up to 3/4 inch (19,1 mm) of to- tal adjustment from the flush sidewall position, or a two-piece Style 20 Re- cessed Escutcheon with 1/4 inch (6,4 mm) of recessed adjustment or up to 1/2 inch (12,7 mm) of total adjustment from the flush sidewall position. The adjustment provided by the Recessed Escutcheon reduces the accuracy to which the fixed pipe nipples to the sprinklers must be cut. Corrosion resistant coatings, where applicable, are utilized to extend the life of copper alloy sprinklers beyond that which would otherwise be ob- IMPORTANT Always refer to Technical Data Sheet TFP700 for the "INSTALLER WARNING" that provides cau- tions with respect to handling and installation of sprinkler sys- tems and components. Improp- er handling and installation can permanently damage a sprin- kler system or its components and cause the sprinkler to fail to operate in a fire situation or cause it to operate prematurely. Page 1 of 6 tamed when exposed to corrosive at- mospheres. Although corrosion resis- tant coated sprinklers have passed the standard corrosion tests of the appli- cable approval agencies, the testing is not representative of all possible cor- rosive atmospheres. Consequently, it is recommended that the end user be consulted with respect to the suitabil- ity of these coatings for any given cor- rosive environment. The effects of am- bient temperature, concentration of chemicals, and gas/chemical velocity, should be considered, as a minimum, along with the corrosive nature of the chemical to which the sprinklers will be exposed. FIRM The Series TY-FRB Sprinklers de- scribed herein must be installed and maintained in compliance with this document, as well as with the appli- cable standards of the National Fire Protection Association, in addition to the standards of any other authorities having jurisdiction. Failure to do so may impair the performance of these devices. The owner is responsible for main- taining their fire protection system and devices in proper operating con- dition. Contact the installing contrac- tor or sprinkler manufacturer with any questions. Sprinkler Identification Numbers TY3331 ...............Horizontal TY3431 ..................Vertical FEBRUARY 2014 Technical Data Approvals UL and C-UL Listed. FM, LPCB, and NYC Approved. (Refer to Table A for complete approv- al information including corrosion re- sistant status.) Maximum Working Pressure Refer to Table B. Discharge Coefficient K=5.6 GPM/psi112 (80,6 LPM/barl/2) Temperature Ratings Refer to Table A. Finishes Sprinkler: Refer to Table C. Recessed Escutcheon: Signal or Pure White, Jet Black, Chrome Plated, or Brass Plated. TFPI76 DEFLECT( HAT 0- 9/16 WRENCH 1/2 ** (14,3 mm) FLATS NPT 7/16 (11,1 mm) I NOMINAL __I MAKE-IN 1-1/2' (38,1 mmi 2-3/16' (55,6 mm) STYLE Pipe thread 10 or 20 connections per RECESSED ** ISO 7-1 can be p ESCUTCHEON provided on special request. 2-7/8" DIA. (73,0 mm) 1-13/16 (46,0 mm) CENTERLINE OF SPRINKLER WATERWAY * Temperature rating is indicated on Deflector. ESCUTCHEON PLATE SEATING SURFACE FIGURE 1 5.6 K-FACTOR QUICK RESPONSE SERIES TY-FRB HORIZONTAL SIDEWALL (TY3331) SPRINKLERS TFPI76 Page 2 of 6 1 - Frame 2 - Button 3 - Sealing Assembly 4 - Bulb 5 - Compression Screw 6 - Deflector* Physical Characteristics Frame............................Bronze Button......................Brass/Copper Sealing Assembly ........Beryllium Nickel w/ TEFLON Bulb ..............................Glass Compression Screw ................Bronze HSW Deflector.....................Bronze VSW Deflector .....................Copper Operation The glass bulb contains a fluid which expands when exposed to heat. When the rated temperature is reached, the fluid expands sufficiently to shatter the glass bulb, allowing the sprinkler to activate and water to flow. Design Criteria The Series TY-FRB, 5.6 K-factor, Hori- zontal and Vertical Sidewall Sprinklers are intended for fire protection sys- tems designed in accordance with the standard installation rules recognized by the applicable Listing or Approval agency (e.g., UL Listing is based on the requirements of NFPA 13, and FM Approval is based on the requirements of FM's Loss Prevention Data Sheets). Only the Style 10 or 20 Recessed Es- cutcheon, as applicable, is to be used for recessed horizontal installations. Installation The Series TY-FRB, 5.6 K-factor, Hori- zontal and Vertical Sidewall Sprinklers must be installed in accordance with this section. General Instructions Do not install any bulb type sprin- kler if the bulb is cracked or there is a loss of liquid from the bulb. With the sprinkler held horizontally, a small air bubble should be present. The diam- eter of the air bubble is approximately 1/16 inch (1,6 mm) for the 135°F (57°C) to 3/32 inch (2,4 mm) for the 286°F (141°C) temperature ratings. A leak tight 1/2 inch NPT sprinkler joint should be obtained with a torque of 7 to 14 ft.-lbs. (9,5 to 19,0 Nm). Higher levels of torque may distort the sprin- kler and cause leakage or impairment of the sprinkler. Do not attempt to make-up for insuf- ficient adjustment in the escutcheon plate by under-or over-tightening the sprinkler. Readjust the position of the sprinkler fitting to suit. Series TY-FRB Horizontal and Vertical Sidewall Sprinkler Installation The Series TY-FRB Horizontal and Vertical Sidewall Sprinklers must be installed in accordance with the fol- lowing instructions. Step 1. Horizontal sidewall sprinklers are to be installed in the horizontal po- sition with their centerline of waterway perpendicular to the back wall and parallel to the ceiling. The word 'TOP" on the Deflector is to face towards the ceiling. Vertical sidewall sprinklers are to be installed in the pendent or upright po- sition with the arrow on the Deflector pointing away from the wall. Step 2. With pipe thread sealant ap- plied to the pipe threads, hand tighten the sprinkler into the sprinkler fitting. Step 3. Tighten the sprinkler into the sprinkler fitting using only the W-Type 6 Sprinkler Wrench (Ref. Figure 5), With reference to Figure 1 or 2, the W- Type 6 Sprinkler Wrench is to be ap- plied to the wrench flats. TFPI76 Page 3 of 6 Series TY-FRB Recessed Horizontal Sidewall Sprinkler Installation The Series TY-FRB Recessed Hori- zontal Sidewall Sprinklers must be installed in accordance with this section. Step A. Recessed horizontal sidewall sprinklers are to be installed in the horizontal position with their center- line of waterway perpendicular to the back wall and parallel to the ceiling. The word 'TOP" on the Deflector is to face towards the ceiling. Step B. After installing the Style 10 or 20 Mounting Plate over the sprinkler threads, hand tighten the sprinkler into the sprinkler fitting. Step C. Tighten the sprinkler into the sprinkler fitting using only the W-Type 7 Recessed Sprinkler Wrench (Ref. Figure 6). With reference to Figure 1, the W-Type 7 Recessed Sprinkler Wrench is to be applied to the sprin- kler wrench flats. Step D. After the ceiling has been in- stalled or the finish coat has been ap- plied, slide on the Style 10 or 20 Clo- sure over the Series TY-FRB Sprinkler and push the Closure over the Mount- ing Plate until its flange comes in con- tact with the ceiling. Care and Maintenance The Series TY-FRB, 5.6 K-factor, Hori- zontal and Vertical Sidewall Sprinklers must be maintained and serviced in accordance with this section. Before closing a fire protection sys- tem main control valve for mainte- nance work on the fire protection sys- tem that it controls, permission to shut down the affected fire protection sys- tem must be obtained from the prop- er authorities and all personnel who may be affected by this action must be notified. Absence of an escutcheon, which is used to cover a clearance hole, may delay the time to sprinkler operation in a fire situation. Sprinklers that are found to be leaking or exhibiting visible signs of corrosion must be replaced. Automatic sprinklers must never be painted, plated, coated or other- wise altered after leaving the factory. Modified sprinklers must be replaced. Sprinklers that have been exposed to corrosive products of combustion, but have not operated, should be replaced * Temperature ** Pipe thread rating is connections indicated on per ISO 7-1 can Deflector, be provided on special request. if they cannot be completely cleaned by wiping the sprinkler with a cloth or by brushing it with a soft bristle brush. Care must be exercised to avoid dam- age to the sprinklers before, during, and after installation. Sprinklers dam- aged by dropping, striking, wrench twist/slippage, or the like, must be replaced. Also, replace any sprinkler that has a cracked bulb or that has lost liquid from its bulb. (Ref. Installa- tion Section). The owner must assure that the sprin- klers are not used for hanging any ob- jects and that the sprinklers are only cleaned by means of gently dusting with a feather duster; otherwise, non- operation in the event of a fire or inad- vertent operation may result. Frequent visual inspections are rec- ommended to be initially performed for corrosion resistant coated sprin- klers, after the installation has been completed, to verify the integrity of the corrosion resistant coating. Thereaf- ter, annual inspections per NFPA 25 should suffice; however, instead of in- specting from the floor level, a random sampling of close-up visual inspec- tions should be made, so as to better determine the exact sprinkler condi- tion and the long term integrity of the corrosion resistant coating, as it may be affected by the corrosive condi- tions present. 1 - Frame 4 - Bulb 7 - Ejection 2 - Button 5 - Compression Spring 3 - Sealing Screw Assembly 6 - Deflector* The owner is responsible for the in- spection, testing, and maintenance of their fire protection system and de- vices in compliance with this docu- ment, as well as with the applicable standards of the National Fire Pro- tection Association (e.g., NFPA 25), in addition to the standards of any oth- er authorities having jurisdiction. The installing contractor or sprinkler man- ufacturer should be contacted relative to any questions. It is recommended that automatic sprinkler systems be inspected, test- ed, and maintained by a qualified In- spection Service in accordance with local requirements and/or national codes. ARROW MUST POINT AWAY 7/16 FROM AND BE ESCUTCHEON (11,1 mm) PERPENDICULAR PLATE SEATING NOMINAL TO THE BACK SURFACE 1/2 ** MAKE-IN WALL SURFACE NPT 6* 2-J16 \ \ M2-i FLOW 5 16 4 (55,6 mm) (381 mmi N(55,6 mm) 1-1/2 WRENCH FLATS 3 SHOWN SHOWN CROSS PENDENT UPRIGHT SECTION FIGURE 2 5.6 K-FACTOR QUICK RESPONSE SERIES TY-FRB VERTICAL SIDEWALL (TY3431) SPRINKLERS TFPI76 page 4 of 6 5/8±1/4 (15,9±6,4 mm) MOUNTING FACE OF SURFACE ____ SPRINKLER FITTING CLOSURE 27/8i' SERIES (73,0 mm) TY-FRB 2-1/4" DIA (57,2 mm) MOUNTING PLATE 1/8' H (3,2 mm) 1-1/4' (31,8 mm) 3/4" (19,1 mm) 3/4" (19,1 mm) 1/4" (6,4 mm) FIGURE 3 SERIES TY-FRB RECESSED HORIZONTAL SIDEWALL SPRINKLER WITH TWO-PIECE 3/4 INCH TOTAL ADJUSTMENT STYLE 10 RECESSED ESCUTCHEON - 1/2±1/8" (12,7±3,2 mm) MOUNTING FACE OF SURFACE SPRINKLER FITTING A CLOSURE 2-7/8" DIA. (73,0 mm) SERIES TY-FRB 2-1/4" DIA. (5 7,2mm) MOUNTING PLATE 1/8" I (3,2 mm) 1-1/4" (31,8 mm) 1/2" (12,7 mm) 1" (25,4 mm) 1/4" (6,4 mm) FIGURE 4 SERIES TY-FRB RECESSED HORIZONTAL SIDEWALL SPRINKLER WITH TWO-PIECE 1/2 INCH TOTAL ADJUSTMENT STYLE 20 RECESSED ESCUTCHEON / WRENCH RECESS / (END "A" USED FOR 1/2" NPT MODELS) FIGURE 5 W-TYPE 6 SPRINKLER WRENCH WRENCH RECESS V PUSH WRENCH IN TO ENSURE ENGAGEMENT WITH SPRINKLER WRENCHING AREA FIGURE 6 W-TYPE 7 RECESSED SPRINKLER WRENCH TFPI76 Page 5 of 6 SPRINKLER FINISH (See Note 11) K TYPE TEMP. BULB LIQUID NATURAL BRASS PLATED POLYESTER*** LEAD COATED 135°F (57°C) Orange 155°F (68°C) Red HORIZ. 175°F (79°C) Yellow SIDEWALL 1, 2, 3,4,9, 10 1, 2, 3, 9 1,2,3, 9 (TY3331) 200°F (93°C) Green 286°F (141°C) Blue 5.6 RECESSED 135°F (57°C) Orange 155°F (68°C) Red 1/2" NPT HORIZ. SIDEWALL (TY3331)* 1, 2, 4, 9, 10 1, 2, 9 N/A 175°F (79°C) Yellow Figure 3 200°F (93°C) Green RECESSED 135°F (57°C) Orange 155°F (68°C) Red HORIZ. SIDEWALL (TY3331)** 1, 2, 3, 4, 9 N/A 175°F (79°C) Yellow Figure 4 200°F (93°C) Green VERTICAL 135°F (57°C) Orange 155°F (68°C) Red 5.6 SIDEWALL 175°F (79°C) Yellow 1/2" Installed 5, 6, 7, 8, 9 5, 6, 7, 9 NPT Pendent or Upright 200°F (93°C) Green 286°F (141°C) Blue NOTES: Listed by Underwriters Laboratories, Inc. (UL) as Quick Response Sprinklers for use in Light and Ordinary Hazard Occupancies at a 4 to 12 inch (100 to 300 mm) top of deflector to ceiling distance. Listed by Underwriters Laboratories Inc. for use in Canada (C-UL) as Quick Response Sprinklers for use in Light and Ordinary Hazard Occupancies at a 4 to 12 inch(100 to 300 mm) top of deflector to ceiling distance. Approved by Factory Mutual Research Corporation (FM) as Quick Response Sprinklers for use in Light Hazard Occupancies at a 4 to 12 inch (100 to 300 mm) top of deflector to ceiling distance. Approved by the Loss Prevention Certification Board (LPCB Ref. No. 007a/04) at a 4 to 6 inch (100 to 150 mm) top of deflector to ceiling distance. The LPC does not rate the thermal sensitivity of horizontal sidewall sprinklers. Listed by Underwriters Laboratories, Inc. as Quick Response Sprinklers for use in Light and Ordinary Hazard Occupancies. Listed by Underwriters Laboratories for use in Canada (C-UL) as Quick Response Sprinklers for use in Light and Ordinary Hazard Occupancies. Approved by Factory Mutual Research Corporation (FM) as Quick Response Sprinklers for use in Light Hazard Occupancies. Approved by the Loss Prevention Certification Board (LPCB Ref. No. 094a/06 & 007a/04) as Quick Response Sprinklers. Approved by the City of New York under MEA 354-01-E. Approved by the Loss Prevention Certification Board (LPCB Ref. No. 094a/06) at a 4 to 6 inch (100 to 150 mm) top of deflector to ceiling distance. The LPC does not rate the thermal sensitivity of horizontal sidewall sprinklers. Where Polyester Coated and Lead Coated Sprinklers are noted to be UL and C-UL Listed, the sprinklers are UL and C-UL Listed as Corrosion Resis- tant Sprinklers. Where Lead Coated Sprinklers are noted to be FM Approved, the sprinklers are FM Approved as Corrosion Resistant Sprinklers. * Installed with Style 10 (1/2" NPT) 3/4" Total Adjustment Recessed Escutcheon. ** Installed with Style 20 (1/2" NPT) 1/2" Total Adjustment Recessed Escutcheon. Frame and deflector only. TABLE A LABORATORY LISTINGS AND APPROVALS TFPI76 age 6of6 SPRINKLER FINISH K TYPE NATURAL BRASS CHROME PLATED I POLYESTER LEAD COATED HORIZONTAL SIDEWALL 250 PSI (17,2 BAR) (1Y3331) or 175PSl (12,1 BAR) RECESSED HORIZ. 5.6 NPT SIDEWALL (TY3331) (SEE NOTE 1) L: VERTICAL SIDEWALL 175 PSI (12,1 BAR (TY3431) NOTES: 1. The maximum working pressure of 250 psi (17,2 bar) only applies to the Listing by Underwriters Laboratories, Inc. (UL); the Listing by Underwriters Laboratories, Inc. for use in Canada (C-UL); and, the Approval by the City of New York. TABLE B MAXIMUM WORKING PRESSURE P/N 57-XXX-X-XXX SIN SPRINKLER TEMPERATURE FINISH RATINGS 378 HORIZONTAL SIDEWALL TY3331 1 NATURAL BRASS 375 VERTICAL SIDEWALL TY3431 3 PURE WHITE(RAL9O1O)° POLYESTER SIGNAL WHITE (RAL9003) POLYESTER JET BLACK (RAL9005)°° POLYESTER 7 LEAD COATED 286 286°F 9 CHROME PLATED * Eastern Hemisphere sales only. Available in 155°F (68°C) or 200°F (93°C) temperature rating only. TABLE C PART NUMBER SELECTION SERIES TY-FRB HORIZONTAL AND VERTICAL SIDEWALL SPRINKLERS 135 135-F (57-C) 155 155°F (68°C) 175 175°F(79°C) 200 200°F(93°C) (141°C) Ordering Procedure Contact your local distributor for avail- ability. When placing an order, indi- cate the full product name and Part Number (P/N). Sprinkler Assemblies with NPT Thread Connections: Specify: Series TY-FRB (specify SIN), (specify K-factor), (specify) Horizontal Sidewall or Vertical Sidewall Sprinkler, Standard Response, Standard Cov- erage, (specify) temperature rating, (specify) finish or coating, P/N (spec- ify from Table C) Recessed Escutcheon Specify: Style (10 or 20) Recessed Es- cutcheon with (specify*) finish, P/N (specify*). Refer to Technical Data Sheet 1FP770 Sprinkler Wrench Specify: W-Type 6 Sprinkler Wrench, P/N 56-000-6-387 Specify: W-Type 7 Sprinkler Wrench, P/N 56-850-4-001 GLOBAL HEADQUARTERS 1 1400 Pennbrook Parkway, Lansdale, PA 19446 1 Telephone +1-216-362-0700 Copyright © 2013 Tyco Fire Products, LP. All rights reserved. tqco TEFLON is trademark of The DuPont Corporation. Fire Protection Products - I. i-rt_O(c1 o( tq 17 Fire Protection Products Worldwide Contacts Series TYIFRB - 5.6 K-factor Horizontal and Vertical Sidewall Sprinklers Quick Response, Standard Coverage General Description The Series TY-FRB, 5.6 K-factor, Hor- izontal and Vertical Sidewall Sprin- klers described in this data sheet are quick response -standard cover- age, decorative 3 mm glass bulb type spray sprinklers designed for use in light and ordinary hazard, commer- cial occupancies such as banks, ho- tels, shopping malls, etc. They are de- signed for installation along a wall or the side of a beam and just beneath a smooth ceiling. Sidewall sprinklers are commonly used instead of pendent or upright sprinklers due to aesthetics or building construction considerations, where piping across the ceiling is not desirable. The recessed version of the Series TY-FRB Horizontal Sidewall Sprin- kler is intended for use in areas with a finished wall. It uses a two-piece Style 10 Recessed Escutcheon with 1/2 inch (12,7 mm) of recessed adjust- ment or up to 3/4 inch (19,1 mm) of to- tal adjustment from the flush sidewall position, or a two-piece Style 20 Re- cessed Escutcheon with 1/4 inch (6,4 mm) of recessed adjustment or up to 1/2 inch (12,7 mm) of total adjustment from the flush sidewall position. The adjustment provided by the Recessed Escutcheon reduces the accuracy to which the fixed pipe nipples to the sprinklers must be cut. Corrosion resistant coatings, where applicable, are utilized to extend the life of copper alloy sprinklers beyond that which would otherwise be ob- IMPORTANT Always refer to Technical Data Sheet TFP700 for the "INSTALLER WARNING" that provides cau- tions with respect to handling and installation of sprinkler sys- tems and components. Improp- er handling and installation can permanently damage a sprin- kler system or its components and cause the sprinkler to fail to operate ma fire situation or cause it to operate prematurely. Page 1 of 6 tamed when exposed to corrosive at- mospheres. Although corrosion resis- tant coated sprinklers have passed the standard corrosion tests of the appli- cable approval agencies, the testing is not representative of all possible cor- rosive atmospheres. Consequently, it is recommended that the end user be consulted with respect to the suitabil- ity of these coatings for any given cor- rosive environment. The effects of am- bient temperature, concentration of chemicals, and gas/chemical velocity, should be considered, as a minimum, along with the corrosive nature of the chemical to which the sprinklers will be exposed. IAf•JtL$ The Series TY-FRB Sprinklers de- scribed herein must be installed and maintained in compliance with this document, as well as with the appli- cable standards of the National Fire Protection Association, in addition to the standards of any other authorities having jurisdiction. Failure to do so may impair the performance of these devices. The owner is responsible for main- taining their fire protection system and devices in proper operating con- dition. Contact the installing contrac- tor or sprinkler manufacturer with any questions. Sprinkler Identification Numbers TY3331 ...............Horizontal TY3431 ..................Vertical FEBRUARY 2014 Technical Data Approvals UL and C-UL Listed. FM, LPCB, and NYC Approved. (Refer to Table A for complete approv- al information including corrosion re- sistant status.) Maximum Working Pressure Refer to Table B. Discharge Coefficient K=5.6 GPM/psi112 (80,6 LPM/bar1/2) Temperature Ratings Refer to Table A. Finishes Sprinkler: Refer to Table C. Recessed Escutcheon: Signal or Pure White, Jet Black, Chrome Plated, or Brass Plated. TFPI76 TFPI76 Page 2 of 6 Physical Characteristics Frame ............................Bronze Button......................Brass/Copper Sealing Assembly ........Beryllium Nickel WI TEFLON Bulb ..............................Glass Compression Screw ................Bronze HSW Deflector .....................Bronze VSW Deflector .....................Copper Operation The glass bulb contains a fluid which expands when exposed to heat. When the rated temperature is reached, the fluid expands sufficiently to shatter the glass bulb, allowing the sprinkler to activate and water to flow. Design Criteria The Series TY-FRB, 5.6 K-factor, Hori- zontal and Vertical Sidewall Sprinklers are intended for fire protection sys- tems designed in accordance with the standard installation rules recognized by the applicable Listing or Approval agency (e.g., UL Listing is based on the requirements of NFPA 13, and FM Approval is based on the requirements of FM's Loss Prevention Data Sheets). Only the Style 10 or 20 Recessed Es- cutcheon, as applicable, is to be used for recessed horizontal installations. Installation The Series TY-FRB, 5.6 K-factor, Hori- zontal and Vertical Sidewall Sprinklers must be installed in accordance with this section. General Instructions Do not install any bulb type sprin- kler if the bulb is cracked or there is a loss of liquid from the bulb. With the sprinkler held horizontally, a small air bubble should be present. The diam- eter of the air bubble is approximately 1/16 inch (1,6 mm) for the 135°F (57°C) to 3/32 inch (2,4 mm) for the 286°F (141°C) temperature ratings. A leak tight 1/2 inch NPT sprinkler joint should be obtained with a torque of 7 to 14 ft.-lbs. (9,5 to 19,0 Nm). Higher levels of torque may distort the sprin- kler and cause leakage or impairment of the sprinkler. Do not attempt to make-up for insuf- ficient adjustment in the escutcheon plate by under-or over-tightening the sprinkler. Readjust the position of the sprinkler fitting to suit. Series TY-FRB Horizontal and Vertical Sidewall Sprinkler Installation The Series TY-FRB Horizontal and Vertical Sidewall Sprinklers must be installed in accordance with the fol- lowing instructions. Step 1. Horizontal sidewall sprinklers are to be installed in the horizontal po- sition with their centerline of waterway perpendicular to the back wall and parallel to the ceiling. The word "TOP" on the Deflector is to face towards the ceiling. Vertical sidewall sprinklers are to be installed in the pendent or upright po- sition with the arrow on the Deflector pointing away from the wall. Step 2. With pipe thread sealant ap- plied to the pipe threads, hand tighten the sprinkler into the sprinkler fitting. Step 3. Tighten the sprinkler into the sprinkler fitting using only the W-Type 6 Sprinkler Wrench (Ref. Figure 5), With reference to Figure 1 or 2, the W- Type 6 Sprinkler Wrench is to be ap- plied to the wrench flats. 1 - Frame DEFLECTOR 2 - Button HAT /5 3 - Sealing Assembly 4 - Bulb 5 - Compression Screw 6 - Deflector* / 6* 4 2 3 9/16 WRENCH 1/2** (14,3 mm) FLATS NPT ' 1- 7/16 13/16" 46,0 mm) ______ (11,1 mm) CENTERLINE NOMINAL OF SPRINKLER MAKE-IN WATERWAY L 1-1/2" * (38,1 mm) Temperature rating is indicated on ________ 2-3/16" Deflector. (55,6 mm) STYLE I ESCUTCHEON ** Pipe thread 7110 or 20 PLATE SEATING connections per I RECESSED SURFACE ISO 7-1 can be I ESCUTCHEON provided on special request. 2-7/8" DIA. (73,0 mm) FIGURE 1 5.6 K-FACTOR QUICK RESPONSE SERIES TY-FRB HORIZONTAL SIDEWALL (TY3331) SPRINKLERS TFP176 Page 3 of 6 Series TY-FRB Recessed Horizontal Sidewall Sprinkler Installation The Series TY-FRB Recessed Hori- zontal Sidewall Sprinklers must be installed in accordance with this section. Step A. Recessed horizontal sidewall sprinklers are to be installed in the horizontal position with their center- line of waterway perpendicular to the back wall and parallel to the ceiling. The word "TOP" on the Deflector is to face towards the ceiling. Step B. After installing the Style 10 or 20 Mounting Plate over the sprinkler threads, hand tighten the sprinkler into the sprinkler fitting. Step C. Tighten the sprinkler into the sprinkler fitting using only the W-Type 7 Recessed Sprinkler Wrench (Ref. Figure 6). With reference to Figure 1, the W-Type 7 Recessed Sprinkler Wrench is to be applied to the sprin- kler wrench flats. Step D. After the ceiling has been in- stalled or the finish coat has been ap- plied, slide on the Style 10 or 20 Clo- sure over the Series TY-FRB Sprinkler and push the Closure over the Mount- ing Plate until its flange comes in con- tact with the ceiling. Care and Maintenance The Series TY-FRB, 5.6 K-factor, Hori- zontal and Vertical Sidewall Sprinklers must be maintained and serviced in accordance with this section. Before closing a fire protection sys- tem main control valve for mainte- nance work on the fire protection sys- tem that it controls, permission to shut down the affected fire protection sys- tem must be obtained from the prop- er authorities and all personnel who may be affected by this action must be notified. Absence of an escutcheon, which is used to cover a clearance hole, may delay the time to sprinkler operation in a fire situation. Sprinklers that are found to be leaking or exhibiting visible signs of corrosion must be replaced. Automatic sprinklers must never be painted, plated, coated or other- wise altered after leaving the factory. Modified sprinklers must be replaced. Sprinklers that have been exposed to corrosive products of combustion, but have not operated, should be replaced * Temperature ** Pipe thread rating is connections indicated on per ISO 7-1 can Deflector. be provided on special request. 7/16 ESCUTCHEON (11,1 mm) PLATE SEATING NOMINAL SURFACE 1/2 ** MAKE-IN NPT if they cannot be completely cleaned by wiping the sprinkler with a cloth or by brushing it with a soft bristle brush. Care must be exercised to avoid dam- age to the sprinklers before, during, and after installation. Sprinklers dam- aged by dropping, striking, wrench twist/slippage, or the like, must be replaced. Also, replace any sprinkler that has a cracked bulb or that has lost liquid from its bulb. (Ref. Installa- tion Section). The owner must assure that the sprin- klers are not used for hanging any ob- jects and that the sprinklers are only cleaned by means of gently dusting with a feather duster; otherwise, non- operation in the event of a fire or inad- vertent operation may result. Frequent visual inspections are rec- ommended to be initially performed for corrosion resistant coated sprin- klers, after the installation has been completed, to verify the integrity of the corrosion resistant coating. Thereaf- ter, annual inspections per NFPA 25 should suffice; however, instead of in- specting from the floor level, a random sampling of close-up visual inspec- tions should be made, so as to better determine the exact sprinkler condi- tion and the long term integrity of the corrosion resistant coating, as it may be affected by the corrosive condi- tions present. 1 - Frame 4 - Bulb 7 - Ejection 2 - Button 5 - Compression Spring 3 - Sealing Screw Assembly 6 - Deflector* The owner is responsible for the in- spection, testing, and maintenance of their fire protection system and de- vices in compliance with this docu- ment, as well as with the applicable standards of the National Fire Pro- tection Association (e.g., NFPA 25), in addition to the standards of any oth- er authorities having jurisdiction. The installing contractor or sprinkler man- ufacturer should be contacted relative to any questions. It is recommended that automatic sprinkler systems be inspected, test- ed, and maintained by a qualified In- spection Service in accordance with local requirements and/or national codes. ARROW MUST POINT AWAY FROM AND BE PERPENDICULAR TO THE BACK WALL SURFACE FLOW 5 I. (55,6 mm) ti\ t 2-3I * 2-3/16' _________ 16 4 (55,6 mm) 1-1 \ it I WRENCH (38,1 mm) SHOWN SHOWN CROSS PENDENT UPRIGHT SECTION FIGURE 2 5.6 K-FACTOR QUICK RESPONSE SERIES TY-FRB VERTICAL SIDEWALL (TY3431) SPRINKLERS ..' TFPI76 Page 4 of 6 5/8±1/4" (15,9±6,4 mm) MOUNTING FACE OF SURFACE SPRINKLER FITTING CLOSURE SERIES (73,0 mm) TY-FRB 2-1/4" DIA - (57,2 mm) MOUNTING PLATE 1/8 H (3,2 mm) 1-1/4 (31,8 mm) 3/4" (19,1 mm) 3/4" (19,1 mm) 1/4' (6,4 mm) FIGURE 3 SERIES TY-FRB RECESSED HORIZONTAL SIDEWALL SPRINKLER WITH TWO-PIECE 3/4 INCH TOTAL ADJUSTMENT STYLE 10 RECESSED ESCUTCHEON 1/2±1/8" (12,7±3,2 mm) MOUNTING FACE OF SURFACE SPRINKLER FITTING CLOSURE 2-7/8' DIA. SERIES (73,0 mm) TY-FRB 2-1/4' DIA. (57,2mm) MOUNTING PLATE 1/8' I (3,2 mm) 1-1/4' (31,8 mm) 1/2' (12,7 mm) 1" (25,4 mm) 1/4(6,4mm) FIGURE 4 SERIES TV-FRB RECESSED HORIZONTAL SIDEWALL SPRINKLER WITH TWO-PIECE 1/2 INCH TOTAL ADJUSTMENT STYLE 20 RECESSED ESCUTCHEON / WRENCH RECESS / (END "A" USED FOR 1/2" NPT MODELS) FIGURE 5 W-TYPE 6 SPRINKLER WRENCH WRENCH RECESS PUSH WRENCH INTO ENSURE ENGAGEMENT WITH SPRINKLER WRENCHING AREA FIGURE 6 W-TYPE 7 RECESSED SPRINKLER WRENCH ,1 TFP176 Page 5 of 6 SPRINKLER FINISH (See Note 11) K TYPE TEMP. BULB NATURAL BRASS I CHROME LIQUID PLATED POLYESTER*** LEAD COATED 135°F (57°C) Orange 155°F (68°C) Red HORIZ. 175-F (79-C) Yellow SIDEWALL 1,2,3,4,9, 10 1,2,3,9 1,2,3,9 (TY3331) 200°F (93°C) Green 286°F (141°C) Blue 5.6 RECESSED 135°F (57°C) Orange 155°F (68°C) Red 1/2" NPT HORIZ. SIDEWALL (TY3331)* 1, 2,4, 9, 10 1, 2, 9 N/A 175° F (79°C) Yellow Figure 3 200°F (93°C) Green RECESSED 135°F (57°C) Orange 155°F (68°C) Red HORIZ. SIDEWALL (TY3331)°° 1, 2, 3, 4, 9 N/A 175°F (79°C) Yellow - Figure 4 200°F (93°C) Green VERTICAL 135°F (57°C) Orange 155°F (68°C) Red 5.6 SIDEWALL 175°F (79°C) Yellow 1/2" Installed 5, 6, 7, 8, 9 5, 6, 7, 9 NPT Pendent or 200°F (93°C) Green Upright 286°F (141°C) Blue NOTES: Listed by Underwriters Laboratories, Inc. (UL) as Quick Response Sprinklers for use in Light and Ordinary Hazard Occupancies at a 4 to 12 inch (100 to 300 mm) top of deflector to ceiling distance. Listed by Underwriters Laboratories Inc. for use in Canada (C-UL) as Quick Response Sprinklers for use in Light and Ordinary Hazard Occupancies at a 4 to 12 inch(100 to 300 mm) top of deflector to ceiling distance. Approved by Factory Mutual Research Corporation (FM) as Quick Response Sprinklers for use in Light Hazard Occupancies at a 4 to 12 inch (100 to 300 mm) top of deflector to ceiling distance. Approved by the Loss Prevention Certification Board (LPCB Ref. No. 007a/04) at a 4 to 6 inch (100 to 150 mm) top of deflector to ceiling distance. The LPC does not rate the thermal sensitivity of horizontal sidewall sprinklers. Listed by Underwriters Laboratories, Inc. as Quick Response Sprinklers for use in Light and Ordinary Hazard Occupancies. Listed by Underwriters Laboratories for use in Canada (C-UL) as Quick Response Sprinklers for use in Light and Ordinary Hazard Occupancies. Approved by Factory Mutual Research Corporation (FM) as Quick Response Sprinklers for use in Light Hazard Occupancies. Approved by the Loss Prevention Certification Board (LPCB Ref. No. 094a/06 & 007a/04) as Quick Response Sprinklers. Approved by the City of New York under MEA 354-01-E. Approved by the Loss Prevention Certification Board (LPCB Ref. No. 094a/06) at a 4 to 6 inch (100 to 150 mm) top of deflector to ceiling distance. The LPC does not rate the thermal sensitivity of horizontal sidewall sprinklers. Where Polyester Coated and Lead Coated Sprinklers are noted to be UL and C-UL Listed, the sprinklers are UL and C-UL Listed as Corrosion Resis- tant Sprinklers. Where Lead Coated Sprinklers are noted to be FM Approved, the sprinklers are FM Approved as Corrosion Resistant Sprinklers. ° Installed with Style 10 (1/2" NPT) 3/4" Total Adjustment Recessed Escutcheon. ** Installed with Style 20(1/2" NPT) 1/2" Total Adjustment Recessed Escutcheon. Frame and deflector only. TABLE A LABORATORY LISTINGS AND APPROVALS ..' TFPI76 Page 6 of 6 SPRINKLER FINISH K TYPE NATURAL BRASS I CHROME PLATED POLYESTER LEAD COATED HORIZONTAL SIDEWALL 250 PSI (17,2 BAR) (TY3331) or 175PS1 (12,1 BAR) RECESSED RECESSED HORIZ. 5.6 NPT SIDEWALL (TY3331) (SEE NOTE 1) VERTICAL SIDEWALL 175 PSI (12,1 BAR (TY3431) NOTES: 1. The maximum working pressure of 250 psi (17,2 bar) Only applies to the Listing by Underwriters Laboratories, Inc. (UL); the Listing by Underwriters Laboratories, Inc. for use in Canada (C-UL); and, the Approval by the City of New York. TABLE B MAXIMUM WORKING PRESSURE PIN 57-XXX-X-XXX I I I I I SPRINKLER I I TEMPERATURE I SIN I I FINISH I I I RATINGS 135 135-F (57-C) 155 155°F(68°C) 175 175-F (79-C) 200 200°F (93°C) 286 286°F (141°C) 378 I HORIZONTAL SIDEWALL I 1Y3331 I I 1 I NATURAL BRASS 375 VERTICAL SIDEWALL TY3431 3 PURE WHITE (RAL9010)° POLYESTER SIGNAL WHITE (RAL9003) POLYESTER JET BLACK (RAL9005)°° POLYESTER 7 I LEAD COATED 9 I CHROME PLATED * Eastern Hemisphere sales only. ** Available in 155°F (68°C) or 200°F (93°C) temperature rating only. TABLE C PART NUMBER SELECTION SERIES TY-FRB HORIZONTAL AND VERTICAL SIDEWALL SPRINKLERS Ordering Procedure Contact your local distributor for avail- ability. When placing an order, indi- cate the full product name and Part Number (P/N). Sprinkler Assemblies with NPT Thread Connections: Specify: Series TY-FRB (specify SIN), (specify K-factor), (specify) Horizontal Sidewall or Vertical Sidewall Sprinkler, Standard Response, Standard Cov- erage, (specify) temperature rating, (specify) finish or coating, P/N (spec- ify from Table C) Recessed Escutcheon Specify: Style (10 or 20) Recessed Es- cutcheon with (specify*) finish, P/N (specify*). Refer to Technical Data Sheet TFP770 Sprinkler Wrench Specify: W-Type 6 Sprinkler Wrench, P/N 56-000-6-387 Specify: W-Type 7 Sprinkler Wrench, P/N 56-850-4-001 GLOBAL HEADQUARTERS 11400 Pennbrook Parkway, Lansdale, PA 19446 I Telephone +1-215-362-0700 Copyright © 2013 Tyco Fire Products, LP. All rights reserved. tqco TEFLON is trademark of The DuPont Corporation. Fire Protection Products kvc17 Fire Protection Products Worldwide Contacts I www.tyco-fire.com RAPID RESPONSE Series LFII Residential 4,9 K-factor Concealed Pendent Sprinkler Flat Plate, Wet Pipe and Dry Pipe Systems General Description TYCO RAPID RESPONSE Series LFII Residential 4.9K Concealed Pendent Sprinklers (TY3596) are decorative, fast response, fusible solder sprinklers designed for use in residential occu- pancies such as homes, apartments, dormitories, and hotels. The cover plate assembly conceals the sprinkler operating components above the ceiling. The flat profile of the cover plate provides the optimum aes- thetically appealing sprinkler design. In addition, the concealed design of the Series LFII Residential Concealed Pendent Sprinklers (1Y3596) provides 1/2 inch (12,7 mm) vertical adjustment. This adjustment provides a measure of flexibility when cutting fixed sprinkler drops. The Series LFII Residential Concealed Sprinklers are intended for use in the following scenarios: wet and dry pipe residential sprin- kler systems for one- and two-fam- ily dwellings and mobile homes per NFPA 13D wet and dry pipe residential sprinkler systems for residential occupancies up to and including four stories in height per NFPA 13R wet and dry pipe sprinkler systems for the residential portions of any occupancy per NFPA 13 IMPORTANT Always refer to Technical Data Sheet TFP700 for the "INSTALLER WARNING" that provides cautions with respect to handling and instal- lation of sprinkler systems and com- ponents. Improper handling and installation can permanently damage a sprinkler system or its compo- nents and cause the sprinkler to fail to operate in a fire situation or cause it to operate prematurely. Page 1 of 6 The Series LFII Residential Concealed Pendent Sprinklers (TY3596) has been designed with heat sensitivity and water distribution characteristics proven to help in the control of residen- tial fires and to improve the chance for occupants to escape or be evacuated. The Series LFII Residential Con- cealed Pendent Sprinklers (TY3596) are shipped with a Disposable Pro- tective Cap. The Protective Cap is temporarily removed for installation, and then it can be replaced to help protect the sprinkler while the ceiling is being installed or finished. The tip of the Protective Cap can also be used to mark the center of the ceiling hole into plaster board, ceiling tiles, etc. by gently pushing the ceiling product against the Protective Cap. When the ceiling installation is complete the Pro- tective Cap is removed and the Cover Plate Assembly installed. Dry Pipe System Application The Series LFII Residential Concealed Pendent Sprinklers offers a laboratory approved option for designing dry pipe residential sprinkler systems, whereas, most residential sprinklers are labora- tory approved for wet systems only. Through extensive testing, it has been determined that the number of design sprinklers (hydraulic design area) for the Series LFII Residential Concealed Pendent Sprinklers (1Y3596) need not be increased over the number of design sprinklers (hydraulic design area) as specified for wet pipe sprinkler systems, as is accustomed for density/ area sprinkler systems designed per NFPA 13. Consequently, the Series LFII Residen- tial Concealed Pendent Sprinklers offer the features of non-water filled pipe in addition to not having to increase the number of design sprinklers (hydraulic design area) for systems designed to NFPA 13,13D, or 13R. FEBRUARY 2015 IL.)ttg The Series LFII Residential Concealed Pendent Sprinklers (TY3596) described herein must be installed and main- tained in compliance with this docu- ment and with the applicable standards of the National Fire Protection Associa- tion (NFPA), in addition to the standards of any authorities having jurisdiction. Failure to do so may impair the perfor- mance of these devices. The owner is responsible for main- taining their fire protection system and devices in proper operating con- dition. Contact the installing contrac- tor or product manufacturer with any questions. Sprinkler Identification Number (SIN) TY3596 TFP442 SPRINKLER- SUPPORT CUP ASSEMBI MOPE RATE SPRINKLE COVER PLATE RETAINE 7/8" (22,2 MOUNTING 1-1/8" 286 SURFACE , / DISPOSABLE DEFLECTOR IN OI,IJ 111111) TIP PROTECTIVE CAP OPERATED POSITION FIGURE 3 RAPID RESPONSE SERIES LFII RESIDENTIAL CONCEALED PENDENT SPRINKLER (TY3596) INSTALLATION DIMENSIONS/PROTECTIVE CAP/ACTIVATED DEFLECTOR 2-1/2' DIA. (63,5 mm 1/2' (12,7 mm) FACE OF 1/2' THREADED SPRINKLER NPT - ADJUSTMENT FITTING 1-7/8±1/4" (47,6 mm ±6,4 mm) - 7 El .' TFP442 Page 2 of 6 BODY (1/2" NP CAP SADDLE - SUPPORT CUP WITH - ROLL FORMED THREADS GUIDE PIN 7 GUIDE PIN HOUSING DEFLECTOR - THREAD INTO SUPPORT CUP UNTIL MOUNTING SURFACE IS FLUSH WITH CEILING SEALING ASSEMBLY SPRINKLER WRENCHING AREA COMPRESSION SCREW LEVER IJ I II I II •I II I II II / SOLDER LINK ELEMENT I I I II I I I I I I DEFLECTOR (OPERATED : POSITION) SPRINKLER/SUPPORT CUP ASSEMBLY RETAINER ii WITH THREAD II - DIMPLES EJECTION SPRING WRENCH RECESS 0 t PUSH WRENCH IN TO ENSURE ENGAGEMENT WITH SPRINKLER WRENCHING AREA FIGURE 2 W-TYPE 18 SPRINKLER WRENCH SOLDER - COVER PLATE/RETAINER TAB ASSEMBLY FIGURE 1 RAPID RESPONSE SERIES LFII RESIDENTIAL CONCEALED PENDENT SPRINKLER (TY3596) COVER PLATE TFP442 Page 3 of 6 Technical Data Approvals UL and C-UL Listed NYC Approved under MEA 44-03-E-2NSF Certified to NSF/ANSI 61 The TYCO RAPID RESPONSE Series LFII Residential Concealed Pendent Sprinklers are only Listed with the Series LFII Con- cealed Cover Plates having a factory-ap- plied finish. Cover Plates can be ordered by following the instructions in the Ordering Procedure section. Maximum Working Pressure 175 psi (12,1 bar) Discharge Cfficient K=4.9 gpm/psi (70,6 1pm/bar112) Temperature Rating 160°F (71°C) Sprinkler with 139°F (59°C) Cover Plate Vertical Adjustment 1/2 inch (12,7 mm) Finishes Refer to Ordering Procedure section. Physical Characteristics Body.........................Brass Cap.........................Bronze Saddle .......................Brass Sealing Assembly.......Beryllium Nickel w/TEFLON Soldered Link Halves............Nickel Lever........................Bronze Compression Screw.............Brass Deflector ................... Copper or Brass Guide Pin Housing .............Bronze Guide Pins .............Stainless Steel or Bronze Support Cup ...................Steel Cover Plate ..................Copper Retainer ......................Brass Cover Plate Ejection Spring..........Stainless Steel Operation When exposed to heat from a fire, the Cover Plate, which is normally soldered to the Support Cup at three points, falls away to expose the sprinkler assembly. At this point the Deflector supported by the Arms drops down to its operated position. The fusible link of the sprin- kler assembly is comprised of two link halves that are soldered together with a thin layer of solder. When the rated temperature is reached, the solder melts and the two link halves separate allowing the sprinkler to activate and flow water. Design Criteria TYCO RAPID RESPONSE Series LFII Residential Concealed Pendent Sprin- klers (TY3596) are UL and C-UL Listed for installation in accordance with this section. Note: When conditions exist that are outside the scope of the provided cri- teria, refer to the Residential Sprinkler Design Guide TFP490 for the manu- facturer's recommendations that may be acceptable to the authority having jurisdiction. System Types Per the UL Listing, wet pipe and dry pipe systems may be utilized. Per the C-UL Listing, only wet pipe systems may be utilized. Refer to Technical Data Sheet TFP485 about the use of residential sprinklers in residential dry pipe systems. Ceiling Types Smooth flat horizontal, or beamed, or sloped, in accordance with the 2013 Edition of NFPA 13D, 13R, or 13 as applicable. Hydraulic Design (NFPA 13D and 13R) For systems designed to NFPA 13D or NFPA 13R, the minimum required sprinkler flow rates are given in Tables A and B as a function of tem- perature rating and the maximum allowable coverage areas. The sprinkler flow rate is the minimum required discharge from each of the total number of "design sprinklers" as specified in NFPA 13D or NFPA 13R. The number of "design sprinklers" specified in NFPA 13D and 13R for wet pipe systems is to be applied when designing dry pipe systems. Hydraulic Design (NFPA 13) For systems designed to NFPA 13, the number of design sprinklers is to be the four most hydraulically demanding sprinklers. The minimum required dis- charge from each of the four sprinklers is to be the greater of the following: the flow rates given in Tables A and B as a function of temperature rat- ing and the maximum allowable cov- erage area a minimum discharge of 0.1 gpm/ft.2 over the design area comprised of the four (4) most hydraulically demanding sprinklers for actual coverage areas protected by the four (4) sprinklers The number of design sprinklers speci- fied in NFPA 13 for wet pipe systems is to be applied when designing dry pipe systems. Dry Pipe System Water Delivery When using the Series LFII Residen- tial Concealed Pendent Sprinklers (TY3596) in dry pipe sprinkler systems, the time for water delivery must not exceed 15 seconds for the most remote operating sprinkler. Obstruction to Water Distribution Sprinklers are to be located in accor- dance with the obstruction rules of NFPA 13D, 13R, and 13 as applicable for residential sprinklers as well as with the obstruction criteria described within the Technical Data Sheet TFP490. Operational Sensitivity The sprinklers are to be installed rela- tive to the ceiling mounting surface as shown in Figure 3. Sprinkler Spacing The minimum spacing between sprin- klers is 8 feet (2,4 m). The maximum spacing between sprinklers cannot exceed the length of the coverage area (Ref. Table A or B) being hydraulically calculated (e.g., maximum 12 feet for a 12 ft. x 12 ft. coverage area, or 20 feet for a 20 ft. x 20 ft. coverage area). The Series LFII must not be used in applications where the air pres- sure above the ceiling is greater than that below. Down drafts through the Support Cup could delay sprinkler operation in a fire situation. .' TFP442 Page 4 of 6 WET PIPE SYSTEM Minimum Flow and Residual Pressure 2,3 Maximum Coverage Maximum Spacing Ordinary Temp. Rating Area 1 160°F (71°C) Minimum Ft. x Ft. Ft. (m) Deflector to Installation Spacing Flow Pressure (mxm) Ceiling Type Ft. gpm PSI (m) (1pm) (bar) 12 X 12 12 13 7.0 Smooth (3,7 x 3,7) (3,7) (49,2) (0,48) Ceilings 7/8 to 1-1/8 14x14 14 13 7.0 inches (4,3 x 4,3) (4,3) (49,2) (0,48) Beamed Ceilings per 8 16 x 16 16 13 7.0 (4,9 x 4,9) (4,9) (49,2) (0,48) NFPA 13D or Concealed 13R, (2,4) or 13. Installed in 18x18 18 17 12.0 beam (5,5x5,5) (5,5) (64,3) (0,83) 7/8to1-1/8 inches below 20 x 20 20 20 16.7 bottom of (6,1 x 6,1) (6,1) (75,7) (1,15) beam Notes: For coverage area dimensions less than or between those indicated, use the minimum required flow for the next highest coverage area for which hydraulic design criteria are stated. Requirement is based on minimum flow is gpm (1pm) from each sprinkler. The associated residual pressures are calculated using the nominal K-factor. Refer to Hydraulic Design under the Design criteria section. For NFPA 13 residential applications, the greater of 0.1 gpm/ft.' over the design area or the flow in accordance with the criteria in this table must be used. TABLE A WET PIPE SYSTEM SERIES LFII RESIDENTIAL 4.9 K-FACTOR FLAT PLATE CONCEALED PENDENT SPRINKLER (TY3596) NFPA 13D, 13R, AND 13 HYDRAULIC DESIGN CRITERIA DRY PIPE SYSTEM Minimum Flowand Residual Pressure 2,3 Maximum Coverage Maximum Spacing Ordinary Temp. Rating Area 160°F (71°C) Minimum Ft. x Ft. Ft. Deflector to Installation Spacing Flow Pressure (m x m) (m) Ceiling Type Ft. gpm psi (m) (1pm) (bar) 12x12 12 13 7.0 Smooth (3,7 x 3,7) (3,7) (49,2) (0,48) Ceilings 7/8 to 1-1/8 14 x 14 14 14 8.2 inches (4,3 x 4,3) (4,3) (53,0) (0,57) Beamed Ceilings per NFPA 13D or Concealed 8 16 x 16 16 15 9.4 (4,9 x 4,9) (4,9) (56,8) (0,65) 13R, or 13. Installed in (2,4) 18x18 18 18 13.5 beam (5,5x5,5) (5,5) (68,1) (0,93) 7/8to1-1/8 inches below 20 x 20 20 21 18.4 bottom of (6,1 x 6,1) (6,1) (79,5) (1,27) beam Notes: For coverage area dimensions less than or between those indicated, use she minimum required flow for the next highest coverage area for which hydraulic design criteria are stated, Requirement is based on minimum flow in gpm (1pm) from each sprinkler. The associated residual pressures are calculated using the nominal K-factor. Refer to Hydraulic Design under the Design Criteria section. For NFPA 13 residential applications, the greater of 0.1 gpm/ftY over the design area or the flow is accordance with the criteria is this table must be used. TABLE B DRY PIPE SYSTEM RAPID RESPONSE SERIES LFII RESIDENTIAL 4.9 K-FACTOR FLAT PLATE CONCEALED PENDENT (TY3596) NFPA 13D, 13R, AND 13 HYDRAULIC DESIGN CRITERIA TFP442 Page 5 of 6 Installation TYCO RAPID RESPONSE Series LFII Residential Concealed Pendent Sprin- klers (TY3596) must be installed in accordance with this section. General Instructions Damage to the fusible Link Assembly during installation can be avoided by handling the sprinkler by the support cup only (i.e., do not apply pressure to the fusible Link Assembly). A 1/2 inch NPT sprinkler joint should be obtained with a minimum to maximum torque of 7 to 14 lbs.-ft. (9,5 to 19,0 Nm). Higher levels of torque may distort the sprinkler inlet with consequent leakage or impairment of the sprinkler. Do not attempt to compensate for insufficient adjustment in the Cover Plate / Retainer Assembly by under- or over-tightening the Sprinkler. Read- just the position of the sprinkler fitting to suit. Step 1. The sprinkler must only be installed in the pendent position and with the centerline of the sprinkler per- pendicular to the mounting surface. Step 2. Remove the Protective Cap. Step 3. With pipe thread sealant applied to the pipe threads, and using the W-Type 18 Wrench shown in Figure 2, install and tighten the Sprinkler / Support Cup Assembly into the fitting. The W-Type 18 Wrench will accept a 1/2 inch ratchet drive. Step 4. Replace the Protective Cap by pushing it upwards until it bottoms out against the Support Cup. The Protec- tive Cap helps prevent damage to the Deflector and Guide Pins during ceiling installation and/or during application of the finish coating of the ceiling. It may also be used to locate the center of the clearance hole by gently pushing the ceiling material against the center point of the Cap. Note: As long as the protective Cap remains in place, the system is consid- ered to be "Out Of Service." Step 5. After the ceiling has been completed with the 2-1/2 inch (63 mm) diameter clearance hole and in prep- aration for installing the Cover Plate Assembly, remove and discard the Pro- tective Cap, and verify that the Deflec- tor moves up and down freely. If the sprinkler has been damaged and the Deflector does not move up and down freely, replace the entire sprinkler assembly. Do not attempt to modify or repair a damaged sprinkler. Step 6. Screw on the Cover Plate Assembly until its flange comes in contact with the ceiling. Do not continue to screw on the Cover Plate Assembly such that it lifts a ceiling panel out of its normal position. If the Cover Plate Assembly cannot be engaged with the Mounting Cup or the Cover Plate Assembly cannot be engaged sufficiently to contact the ceiling, the Sprinkler Fitting must be repositioned. Care and Maintenance TYCO RAPID RESPONSE Series LFII Residential Concealed Pendent Sprin- klers (TY3596) must be maintained and serviced in accordance with this section. Before closing a fire protection system main control valve for maintenance work on the fire protection system which it controls, permission to shut down the affected fire protection system must be obtained from the proper authorities and all personnel who may be affected by this action must be notified. Absence of a Cover Plate may delay the sprinkler operation in a fire situation. When properly installed, there is a nominal 1/8 inch (3,2 mm) air gap between the lip of the Cover Plate and the ceiling, as shown in Figure 3. This air gap is necessary for proper opera- tion of the sprinkler by allowing heat flow from a fire to pass below and above the Cover Plate to help assure appropriate release of the Cover Plate in a fire situation. If the ceiling is to be repainted after the installation of the Sprinkler, care must be exercised to ensure that the new paint does not seal off any of the air gap. Factory painted Cover Plates must not be repainted. They should be replaced, if necessary, by factory painted units. Non-factory applied paint may adversely delay or prevent sprinkler operation in the event of a fire. Do not pull the Cover Plate relative to the Enclosure. Separation may result. Sprinklers which are found to be leaking or exhibiting visible signs of corrosion must be replaced. Automatic sprinklers must never be painted, plated, coated, or otherwise altered after leaving the factory. Modi- fied or over heated sprinklers must be replaced. Care must be exercised to avoid damage before, during, and after instal- lation. Sprinklers damaged by drop- ping, striking, wrench twist/slippage, or the like, must be replaced. The owner is responsible for the inspection, testing, and maintenance of their fire protection system and devices in compliance with this document, as well as with the applicable standards of the National Fire Protection Asso- ciation (e.g., NFPA 25), in addition to the standards of any other authorities having jurisdiction. Contact the install- ing contractor or product manufacturer with any questions. The owner must assure that the sprin- klers are not used for hanging any objects and that the sprinklers are only cleaned by means of gently dusting with a feather duster; otherwise, non- operation in the event of a fire or inad- vertent operation may result. Automatic sprinkler systems should be inspected, tested, and maintained by a qualified Inspection Service in accor- dance with local requirements and/or national codes. .' TFP442 Page 6 of 6 Limited Warranty For warranty terms and conditions, visit www.tyco-fire.com. Ordering Procedure Contact your local distributor for availability. When placing an order, indicate the full product name and part number (P/N). Sprinkler Assemblies Specify: Series LFll (TY3596) 4.9K Residential Concealed Pendent Sprin- kler without Cover Plate Assembly, P/N 51-112-1-160 Cover Plate Assemblies Specify: Cover Plate Assembly with (specify) finish for the Series LFll (TY3596) 4.9K Residential Concealed Pendent Sprinkler, P/N (specify): Ivory (RAL1015) ...........P/N 56-202-0-135 Beige (RAL1001)...........P/N 56-202-2-135 Pure White * (RAL9010) .....P/N 56-202-3-135 Signal White ** (RAL9003) ... P/N 56-202-4-135 Grey White (RAL9002) ......P/N 56-202-5-135 Brown (RAL8028)..........P/N 56-202-6-135 Black (RAL9005) ..........P/N 56-202-7-135 Brushed Brass ............P/N 56-202-8-135 Brushed Chrome ..........P/N 56-202-9-135 Custom Paint .............P/N 56-202-X-135 * Eastern Hemisphere sales only Previously known as Bright White Note: All Custom Cover Plates are painted using Sherwin Williams Interior Latex Paint. Contact Tyco Customer Service with any questions related to custom orders. Sprinkler Wrench Specify: W-Type 18 Sprinkler Wrench, PIN 56-000-1-265 GLOBAL HEADQUARTERS 1 1400 Pennbrook Parkway, Lansdale, PA 19446 I Telephone +1-215-362-0700 Copyright © 2015 Tyco Fire Products, LP. All rights reserved. tqcn TEFLON is trademark of The DuPont Corporation. Fire Protection Products Fire Protection Products Worldwide www.tyco-fire.com Contacts I RAPID RESPONSE Series LFII Residential Sprinklers 30 K-factor Pendent Wet Pipe Systems General Description The TYCO RAPID RESPONSE Series LFII Residential Pendent Sprinklers (TY1234) are decorative, fast response, frangible bulb sprinklers designed for use in residential occupancies such as homes, apartments, dormitories, and hotels. When aesthetics and optimized flow characteristics are key consider- ations, the Series LFII (TY1234) should be the first choice. The 3.0 K-factor of the Series LFII Residential Pendent Sprinkler has been designed to optimize flows (that is, to avoid over discharging) specifi- cally for small coverage areas up to 14 ft. x 14 ft. (4,3 m x 4,3 m). The required residential flow rates can then be delivered with the use of smaller pipe sizes and reduced water supply requirements. The Series LFII Residential Sprinklers are intended for use in the following scenarios: wet pipe residential sprinkler systems for one-and two-family dwellings and mobile homes per NFPA 13D wet pipe residential sprinkler systems for residential occupan- cies up to and including four stories in height per NFPA 13R wet pipe sprinkler systems for the residential portions of any occupancy per NFPA 13 The recessed version of the Series LFII Residential Pendent Sprinkler is intended for use in areas with finished ceilings. It employs a two-piece Style 20 Recessed Escutcheon. The Recessed Escutcheon provides 1/4 inch (6,4 mm) of recessed adjust- ment or up to 1/2 inch (12,7 mm) of total adjustment from the flush ceiling position. The adjustment provided by the Recessed Escutcheon reduces the accuracy to which the pipe drops to the sprinklers must be cut. The Series LFII Residential Pendent Sprinkler has been designed with heat sensitivity and water distribution char- acteristics proven to help in the control of residential fires and to improve the chance for occupants to escape or be evacuated. NOTICE The Series LFII Residential Pendent Sprinklers (TY1234) described herein must be installed and maintained in compliance with this document and with the applicable standards of the National Fire Protection Association, in addition to the standards of any author- ities having jurisdiction. Failure to do so may impair the performance of these devices. The owner is responsible for maintain- ing their fire protection system and devices in proper operating condition. The installing contractor or sprinkler manufacturer should be contacted with any questions. Sprinkler Identification Number (SIN) TY1234 Technical Data Approvals UL Listed (for use with wet pipe and dry pipe systems) C-UL Listed (for use only with wet pipe systems) Certified to all requirements of NSF/ANSI 61 (Refer to the Design Criteria section for details on these approvals.) Maximum Working Pressure 175 psi (12,1 bar) Discharge Coefficient K=3.0 GPM/p5i1/2 (43,2 LPM/barl'2) Temperature Rating 155°F (68°C) or 175°F (79°C) Finishes Natural Brass, Signal White, or Chrome Plated Physical Characteristics Frame .............................Brass Button ...........................Copper Sealing Assembly. . Beryllium Nickel w/TEFLON Bulb .......................... 3mm Glass Compression Screw .................Bronze Deflector ..........................Bronze Page 1 of 4 JUNE 2017 TFP402 2-7/8' DIA. 7/16±1/8' (73,0 mm) 1/2' (12,7 mm) - (11,1±3,2 mm) 2-1/4 DIA. 1/4' (6,4 mm) (57,2 mm) FACE OF SPRINKLER MOUNTING FITTING PLATE \ MOUNTING / !,/ll 1/8" SURFACE/ (3,2 mm) 1-3/8' (34,9 mm) CLOSURE TY1234 1-1/8 (28,6 mm) FIGURE 2 STYLE 20 RECESSED ESCUTCHEON FOR USE WITH THE RAPID RESPONSE SERIES LFII RESIDENTIAL PENDENT SPRINKLER (TY1234) •.. TFP402 Page 2 of 4 7/16 (11,1 mm) 1/2' ESCUTCHEON Components: NOMINAL NPT PLATE SEATING 27/8* DIA._________ 1-Frame 7 MAKE-IN SURFACE (73,0 mm) 2 - Button 3 - Sealing Assembly 4 - Bulb 5 - Compression 2 Screw 2-3/16 6 - Deflector (55,6 mm) 7- Insert \ ' 1-9/16 (39,7 mm) w STYLE 20 RECESSED * Temperature indicated on 6* FLATS ESCUTCHEON rating is 1 0 3 Deflector. CROSS SECTION PENDENT RECESSED PENDENT FIGURE 1 RAPID RESPONSE SERIES LFII RESIDENTIAL PENDENT AND RECESSED PENDENT SPRINKLERS (TY1234) Operation The glass bulb contains a fluid that expands when exposed to heat. When the rated temperature is reached, the fluid expands sufficiently to shatter the glass bulb, allowing the sprinkler to activate and flow water. Design Criteria The TYCO RAPID RESPONSE Series LFII Residential Pendent Sprinklers (TY1234) are UL and C-UL Listed for installation in accordance with the fol- lowing criteria. Residential Sprinkler Design Guide When conditions exist that are outside the scope of the provided criteria, refer to the Residential Pendent Sprinkler Design Guide TFP490 for the manufac- turer's recommendations that may be acceptable to the local authority having jurisdiction. System Type Only wet pipe systems may be utilized. Ceiling Types Smooth flat horizontal, or beamed, or sloped, in accordance with the 2013 Edition of NFPA 13D, 13R, or 13 as applicable. / WREN RECESS , ~CH (END "A" USED FOR TY1234) FIGURE 3 W-TYPE 6 SPRINKLER WRENCH WRENCH RECESS PUSH WRENCH IN TO ENSURE ENGAGEMENT WITH SPRINKLER WRENCHING AREA FIGURE 4 W-TYPE 7RECESSED SPRINKLER WRENCH Hydraulic Design (NFPA 13D and 13R) The minimum required sprinkler flow rate for systems designed to NFPA 13D or NFPA 13R are given in Table A as a function of temperature rating and the maximum allowable cov- erage areas. The sprinkler flow rate is the minimum required discharge from each of the total number of design sprinklers as specified in NFPA 13D or NFPA 13R. TFP4O2 Page 3 of 4 WET PIPE SYSTEM Minimum Flow and Residual Pressure (b, c) Max. Ordinary Temp. Rating Intermediate Temp. Rating Coverage Area (a) 155°F (68°C) 175°F (79°C) Minimum Ft. x Ft. Deflector to Installation Spacing (mxm) Flow Pressure Flow Pressure Ceiling Type Ft. GPM PSI GPM PSI (m) (L/min) (bar) (L/min) (bar) 12x12 8 7.1 8 7.1 (3,7 X 3,7) (30,3) (0,49) (30,3) (0,49) Smooth Ceilings 14x14 11 13.4 11 13,4 1-1/4t0 (4,3 x 4,3) (41,6) (0,92) (41,6) (0,92) 4 inches Beamed Recessed using Style 20 15x15 12 16 12 16 Ceilings per 8 Escutcheon or (4,6 x 4,6) _______ (45,4) _________ (1,10) _________ (45,4) _________ (1,10) _________ NFPA 13D or 13R non-recessed per NFPA 13D, (2,4) 16 x 16 13 18.8 13 18.8 1-1/4 to 1-3/4 13R, or 13 (4,9 x 4,9) (49,2) (1,29) (49,2) (1,29) inches below bottom of 18x18 17 32,1 18 36.0 beam. (5,5x5,5) (64,3) (2,21) (68,1) (2,48) NOTES For coverage area dimensions less than or between those indicated, use the minimum required flow for the next highest coverage area for which hydraulic design criteria are stated. Requirement is based on minimum flow in GPM (LPM) from each sprinkler. The associated residual pressures are calculated using the nominal K- factor. Refer to Hydraulic Design under the Design Criteria section. For NFPA 13 residential applications, the greater of 0.1 gpm1ft2 over the design area or the flow in accordance with the criteria in this table must be used. TABLE A WET PIPE SYSTEM SERIES LFII RESIDENTIAL PENDENT AND RECESSED PENDENT SPRINKLERS (TY1234) NFPA 13D, 13R, AND 13 HYDRAULIC DESIGN CRITERIA Hydraulic Design (NFPA 13) For systems designed to NFPA 13, the number of design sprinklers is to be the four most hydraulically demanding sprinklers. The minimum required dis- charge from each of the four sprinklers is to be the greater of the following: The flow rates given in Table A for NFPA 13D and 13R as a function of TFP402 temperature rating and the maximum allowable coverage area. A minimum discharge of 0.1 gpm/ft.2 over the "design area" comprised of the four most hydrau- lically demanding sprinklers for actual coverage areas protected by the four sprinklers. Obstruction to Water Distribution Sprinklers are to be located in accor- dance with the obstruction rules of NFPA 13D, 13R, and 13 as applica- ble for residential sprinklers as well as with the obstruction criteria described within the TYCO technical data sheet TFP49O. Operational Sensitivity Sprinklers are to be installed with a deflector-to-ceiling distance of 1-1/4 to 4 inches. Sprinkler Spacing The minimum spacing between sprin- klers is 8 feet (2,4 m). The maximum spacing between sprinklers cannot exceed the length of the cover- age area being hydraulically calcu- lated (e.g., a maximum of 12 feet for a 12 ft. x 12 ft. coverage area, or 16 feet for a 16 ft. x 16 ft. coverage area.) Refer to Table A. Installation The TYCO RAPID RESPONSE Series LFII Residential Pendent Sprinklers (TY1234) must be installed in accor- dance with this section: General Instructions Do not install any bulb-type sprinkler if the bulb is cracked or there is a loss of liquid from the bulb. With the sprin- kler held horizontally, a small air bubble should be present. The diameter of the air bubble is approximately 1/16 inch (1,6 mm). A leak-tight 1/2 inch NPT sprinkler joint should be obtained by applying a min- imum-to-maximum torque of 7 to 14 ft.-lbs. (9,5 to 19,0 Nm). Higher levels of torque can distort the sprinkler inlet with consequent leakage or impairment of the sprinkler. Do not attempt to compensate for insufficient adjustment in an Escutch- eon Plate by under-or over-tightening the Sprinkler. Re-adjust the position of the sprinkler fitting to suit. Series LFII Residential Pendent Sprinklers The Series LFII Residential Pendent Sprinklers must be installed in accor- dance with the following instructions. Step 1. Install pendent sprinklers in the pendent position with the deflector par- allel to the ceiling. Step 2. With pipe-thread sealant applied to the pipe threads, hand- tighten the sprinkler into the sprinkler fitting. Step 3. Wrench-tighten the sprinkler into the sprinkler fitting using only the W-Type 6 Sprinkler Wrench (Figure 3). With reference to Figure 1, apply the W-Type 6 Sprinkler Wrench to the wrench flats. . TFP4O2 Page 4 of 4 Series LFII Residential Recessed Pendent Sprinklers The Series LFII Recessed Pendent Sprinklers must be installed in accor- dance with the following instructions. Step A. Install recessed pendent sprin- klers in the pendent position with the deflector parallel to the ceiling. Step B. After installing the Style 20 Mounting Plate over the sprinkler threads and with pipe thread sealant applied to the pipe threads, hand- tighten the sprinkler into the sprinkler fitting. Step C. Wrench-tighten the sprinkler into the sprinkler fitting using only the W-Type 7 Recessed Sprinkler Wrench (Figure 4). With reference to Figure 1, apply the W-Type 7 Recessed Sprinkler Wrench to the sprinkler wrench flats. Step D. After installing the ceiling applying the finish coat, slide on the Style 20 Closure over the Series LFII Sprinkler and push the Closure over the Mounting Plate until the flange comes in contact with the ceiling. Care and Maintenance The TYCO RAPID RESPONSE Series LFII Residential Pendent Sprinklers (TY1234) must be maintained and ser- viced in accordance with this section: Before closing a fire protection system main control valve for maintenance work on the fire protection system that it controls, obtain permission to shut down the affected fire protection system from the proper authorities and notify all personnel who may be affected by this decision. Absence of the outer piece of an escutcheon,which is used to cover a clearance hole, can delay sprinkler operation in a fire situation. The owner must assure that the sprin- klers are not used for hanging any objects and that the sprinklers are only cleaned by means of gently dusting with a feather-duster. Otherwise, non- operation in the event of a fire or inad- vertent operation may result. Sprinklers which are found to be leaking or exhibiting visible signs of corrosion must be replaced. Automatic sprinklers must never be painted, plated, coated, or other- wise altered after leaving the factory. Modified sprinklers must be replaced. Sprinklers that have been exposed to corrosive products of combustion, but have not operated, should be replaced if they cannot be completely cleaned by wiping the sprinkler with a cloth or by brushing it with a soft bristle brush. Care must be exercised to avoid damage to the sprinklers - before, during, and after installation. Sprin- klers damaged by dropping, striking, wrench twist/slippage, or the like, must be replaced. Also, replace any sprin- kler that has a cracked bulb or that has lost liquid from its bulb. (Ref. Installa- tion Section.) The owner is responsible for the inspection, testing, and maintenance of their fire protection system and devices in compliance with this document, as well as with the applicable standards of the National Fire Protection Asso- ciation (e.g., NFPA 25), in addition to the standards of any other authorities having jurisdiction. Contact the install- ing contractor or sprinkler manufac- turer regarding any questions. Automatic sprinkler systems are rec- ommended to be inspected, tested, and maintained by a qualified Inspec- tion Service in accordance with local requirements and/or national codes. Limited Warranty For warranty terms and conditions, visit www.tyco-fire.com. Ordering Procedure Contact your local distributor for avail- ability. When placing an order, indicate the full product name and Part Number (P/N). Sprinkler Assembly Specify: Series LFII (TY1234), K=3.0, Residential Pendent Sprinkler, (specify) temperature rating, (specify) finish, and P/N (specify): 155°F (68°C) Natural Brass .................51-010-1-155 Signal White (RAL 9003) ........51-010-4-155 Chrome Plated ................51-010-9-155 175°F (79°C) Natural Brass .................51-010-1-175 Signal White (RAL 9003) ........51-010-4-175 Chrome Plated ................51-010-9-175 Recessed Escutcheon Specify: Style 20 Recessed Escutch- eon with (specify*) finish, and P/N (specify*) *Refer to Technical Data Sheet TFP770. Sprinkler Wrench Specify: W-Type 6 Sprinkler Wrench for use with Series LFII Pendent Sprin- klers, P/N 56-000-6-387 Specify: W-Type 7 Sprinkler Wrench for use with Series LFII Recessed Pendent Sprinklers, P/N 56-850-4-001 GLOBAL HEADQUARTERS 1 1400 Pennbrook Parkway, Lansdale, PA 194461 Telephone +1 -215-362-0700 Copyright © 2017 Tyco Fire Products, LP. All rights reserved. tqco TEFLON is a registered trademark of DuPont, LOCTITE is a registered trademark of Henkel Corporation, Fire Protection Products t q =0 Fire Protection Products Worldwide Contacts www.tyco-fire.com Models BB, SD, HIP, and AP Specific Application Sprinklers For Protecting Attics General Description The TYCO Models Back to Back Dual Directional (BB), Single Directional (SD), HIP, and Attic Plus (AP) Specific Appli- cation Attic Sprinklers for Protecting Attics are fire sprinklers for combus- tible and non-combustible sloped attic spaces. While Models BB, SD, and HIP are specific application attic sprinklers, the Model AP is a specific application combustible concealed-space sprin- kler with specific application criteria for use with Models BB, SD, and HIP in attic spaces. Specific Application Attic Sprinklers provide superior fire protection in attic spaces. When compared to Stan- dard Spray Sprinklers, cost savings are achieved by eliminating branchline materials and the associated installa- tion labor. Specific Application Attic Sprinklers for Protecting Attics have undergone the most extensive fire testing ever per- formed for sloped attic spaces. They are UL Listed with their specific appli- cation guidelines for use as special sprinklers as defined by the National Fire Protection Association (NFPA). Specific Application Attic Sprinklers provide an extended coverage spacing alternative to the restricted spacing of Standard Spray Sprinklers. IMPORTANT Always refer to Technical Data Sheet TFP 700 for the "INSTALLER WARNING" that provides cautions with respect to handling and instal- lation of sprinkler systems and com- ponents. Improper handling and installation can permanently damage a sprinkler system or its compo- nents and cause the sprinkler to fail to operate in a fire situation or cause it to operate prematurely. Page 1 of 28 The Specific Application Attic Sprin- klers are the first sprinklers to be: Listed for extended coverage in com- bustible construction Full-scale fire tested in both wet and dry system scenarios Full-scale tested for use in wood truss construction Listed for specific roof slopes (Ref. Table A) The Specific Application Attic Sprin- klers provide cost control with the best level of protection by eliminat- ing the need for additional sprinklers and branchline piping. In many cases, an attic can be entirely protected with just one line of piping located below the peak of the roof using Model BB Sprin- klers. If Model SD Sprinklers or Model HIP Sprinklers are needed, one line of either at each area being covered is sufficient. For example, while using Standard Spray Sprinklers, a system in a 60 ft (18,3 m) wide attic with up to a 12:12 roof pitch designed to NFPA 13, could require seven branchlines to cover the main portion of the attic and several additional branchlines to cover the hip areas. With Specific Application Attic Sprinklers, the required coverage can be obtained with just one branchline running below the peak and one down each slope of the hip beam. This would result in approximately 90% less pipe needed for installation. This reduction in the number of branchlines saves the cost of the pipe, fittings, hangers, and associated labor by eliminating up to five branchlines. Another important aspect of the Spe- cific Application Attic Sprinkler technol- ogy, which also allows for cost savings, is the reduction in system volume. This volume reduction may result in reduc- ing the size of a dry pipe valve and air compressor, and possibly allows for quicker water delivery times, eliminat- ing the need for an accelerator. JUNE 2017 TFP6IO 1 2 3 4 4 2 1 CROSS SECTION TFP6IO Page 2 of 28 Components: 1 - Frame 4 - Bulb 2 - Button 5 - Compression 3 - Sealing Screw Assembly 6 - Deflector 2-1/4 i 1-5/8 (57,2 mm) fl(41,3 mm) 1-1/8 I 13/16" (28,6 mm) (20,6 mm) FLOW FLOW 3 THREAD RELIEF 1/2" (12,7 mm) 3/4" NPT NOMINAL WRENCH FRAME CROSS MAKE-IN FLATS ARMS SECTION ELEVATION FIGURE A MODELS BB1, BB2, AND BB3 WITH 8.0 K-FACTOR SPECIFIC APPLICATION ATTIC SPRINKLERS Components: 1 - Frame 4 - Bulb 2 - Button 5 - Compression 3 - Sealing Screw Assembly 6 - Deflector 2-1/4" 1-5/8" (57,2 mm) (41,3 mm) 1-1/8" J 13/16" (28,6 mm) (20,6 mm) 6 f1[ Ir\ FLOW \ FLOW ' -a- :A )540 m THREAD RELIEF 7/16 (11,1 mm) 1/2 NPT NOMINAL WRENCH FRAME FLATS ARMS CROSS SECTION ELEVATION FIGURE C MODELS BB1, BB2, AND BB3 WITH 4.2 K-FACTOR SPECIFIC APPLICATION ATTIC SPRINKLERS Components: 1 - Body 5 - Compression 8 - Deflector 2 - Cap Screw 9 - Rivet 3 - Sealing 6 - Lever 10 - Diffuser Assembly 7 - Deflector 11 - Link 4 - Saddle Frame Assembly 1-9/16" 2-1/4" (39,7 mm) 1 (57,2 mm) 10 11 9 ________________ 1-1/8" (28,6 mm) 8 7 I FLOW FLOW 2-1/2" (63,5 mm) 6 FRAME j ARMS WRENCH 1/2" 7/16" HEX NPT (11,1 mm) NOMINAL MAKE-IN ELEVATION FIGURE B MODELS BB1, 882, AND BB3 WITH 5.6 K-FACTOR SPECIFIC APPLICATION ATTIC SPRINKLERS Components: 1 - Body 5 - Compression 8 - Deflector 2 - Cap Screw 9 - Rivet 3 - Sealing 6 - Lever 10 - Link Assembly 7 - Deflector Assembly 4 - Saddle Frame 7/16" (11,1 mm)J WRENCH 1/2" 2-1/8" (54,0 mm) 1-5/16" (33,4 mm) FLOW FRAME ARMS (76,2 mm) 3 NOMINAL HEX NPT MAKE-IN ELEVATION FIGURE D MODELS SD1, 5D2, AND SD3 WITH 5.6 K-FACTOR SPECIFIC APPLICATION ATTIC SPRINKLERS CROSS SECTION TFP6IO Page 3 of 28 I Components: I I 1 - Frame 4 -Bulb I I 2 - Button 5 - Compression I I3 - Sealing Screw I Assembly 6 - Deflector 2-1/8 2' 54'0W __\5 (50,8 mm) 1-1/16 1 -1/4 (27,0 mm) li I FLOW (540 mm) AD EF 1 7/16 (11,1 mm) //2JNPT NOMINAL MAKE IN WRENCH FRAME FLATS ARMS CROSS SECTION ELEVATION FIGURE E MODEL HIP WITH 5.6 K-FACTOR SPECIFIC APPLICATION ATTIC SPRINKLERS I Components: I 1 - Frame 5 - Compression I 2 - Sealing Screw I I Assembly 6 - Deflector I I3 - Button 7 - Ejection I 4 - Bulb Spring 1-11/16 (429 mm) 5_-_—iS FRA ARM 2-1/4" T JE mm) PRIN WREN 7,2 FLAT 1/2" NPT 7/16" (11,1 mm) NOMINAL MAKE-IN CROSS SECTION ELEVATION FIGURE F MODEL AP WITH 4.2 OR 5.6 K-FACTOR SPECIFIC APPLICATION COMBUSTIBLE CONCEALED SPACE SPRINKLERS Another cost reduction is the Listing of BLAZEMASTER CPVC for use in attic spaces to feed the wet system Specific Application Attic Sprinklers for Protect- ing Attics, as well as to feed the wet system sprinklers below the ceiling. Traditionally, BLAZEMASTER CPVC has been used on the lower floors in the joist space above a ceiling that do not require sprinklers. The cost of using CPVC on those floors can now be translated to the upper floor even if sprinklers are required in the attic. There are four models of the Specific Application Attic Sprinklers used for protecting attics: BB, SD, HIP, and AR The Model BB and Model SD Sprinklers have three separate versions used for different roof pitches. The pitches, as applicable, can vary from a minimum of 3:12 to a maximum of 12:12. For more information, refer to Table A. BB Sprinkler (Back to Back Dual Directional) The Model BB Specific Application Attic Sprinkler, as seen in Figure A, B and C, throws a narrow and long pattern. The narrow spacing along the ridge serves two purposes: the response time is reduced by placing the sprinklers no farther than 6 ft (1,8 m) apart, and the spray can be concentrated in the throw direction to obtain a pattern that will cover up to 30 ft (9,1 m) in each direction when measured horizontally. There are three different models that account for different roof slopes: 13131, 13132, and 13133. Each model is provided in one of three different orifice sizes: K=4.2, 5.6, or 8.0. SD Sprinkler (Single Directional) The Model SD Specific Application Attic Sprinkler, as seen in Figure D, throws a narrow but long pattern like the Model BB. However, unlike the Model BB, the Model SD only throws in one direction. Model BB Sprinklers are primarily used where shear walls or draft curtains have been installed within an attic space. Model BB Sprinklers are also used when the framing direction is parallel with the outside wall in the hip area. For more information, refer to Figure 13. In this case, the SD Model Sprinkler would be used on one side of the slope and AP Sprinklers or Standard Spray Sprinklers would be used to protect the other side. The Model SD Sprinklers must be installed in a vertical upright orientation and not angled with the slope. Achiev- ing the vertical upright orientation may require the use of a swing joint if the SD Sprinklers are being fed from a line running along and parallel to the roof hip. There are three different models that account for different roof slopes: SD1, SD2, and SD3. HIP Sprinkler The Model HIP Specific Application Attic Sprinkler, as seen in Figure E, covers the area of the hip in the attic. This is a slightly different concept than the BB Model or SD Model Sprinklers. The HIP Sprinkler is located along the slope running down the hip, and throws a 90° pattern toward the outside eaves. This pattern allows the water to "corner" and control the fire. The HIP does not throw much water directly up or down the hip, but rather it throws most of the pattern out to each side (90°) down the slope of the roof. This sprinkler is typically spaced 6 ft (1,8 m) to 3 ft (0,9 m) on center down the slope. To use the HIP Sprinkler, the framing must be perpendicular to the outside wall (refer to Figure 12) and the maximum throw cannot exceed 28 ft (8,5 m) measured horizontally. The HIP, unlike the BB Model and SD Model, is installed with the deflector parallel with the slope. There is only one model with flows and pressures for two different spacings. TFP6IO Page 4 of 28 AP Sprinkler (Attic Plus) The AP Specific Application Attic Sprin- kler are to be installed in the upright orientation with their deflector parallel to the roof. The Model AP Sprinklers, as seen in Figure F, are intended to be used to provide protection of attic areas outside the scope of applica- tions for the BB, SD, or HIP Sprinklers. The AP Sprinklers must only be used in conjunction with other Specific Appli- cation Attic Sprinklers (BB, SD, and HIP), or as permitted in other sections of this document. The AP Sprinklers will provide a hydraulic advantage over Standard Spray Sprinklers for the pro- tection of attic areas outside the scope of application for the BB Model, SD Model, or HIP Model Sprinklers. L!1.JiLg The Specific Application Attic Sprin- klers for Protecting Attics described herein must be installed and maintained in compliance with this document, as well as with the applicable standards of NFPA, in addition to the standards of any other authorities having jurisdiction. Failure to do so may impair the perfor- mance of these devices. The owner is responsible for main- taining their fire protection system and devices in proper operating con- dition. Contact the installing contrac- tor or product manufacturer with any questions. Sprinkler Identification Number (SIN) TY4180* 13131 K=8.0 TY4181* 13132 K=8.0 TY4182* 13133 K=8.0 TY3180* 13131 K=5.6 TY3181* 13132 K=5.6 TY3182* BB3 K=5.6 TY2180 13131 K=4.2 TY2181 13132 K4.2 TY2182 13133 K=4.2 TY3183* SD1 K=5.6 TY3184* SD2 K=5.6 TY3185* SD3 K=5.6 TY3187* HIP K=5.6 1Y3190 AP K=5.6 TY2190 AP K=4.2 * The "TY" prefix is a re-designation of the previous "C" prefix. For example, TY4180 is a re-designation for C4180. Technical Data Approvals UL and C-UL Listed These Approvals only apply to the service conditions indicated in the Design Criteria section on Page 6 and the Design Guidelines section on Page 8. Pipe Thread Connection 1/2 inch NPT for K=4.2 and 5.6 3/4 inch NPT for K=8.0 Discharge Coefficient K = 4.2 GPM/psi/2 (60,5 LPM/bar') K = 5.6 GPM/p5i½ (80,6 LPM/bar½) K = 8.0 GPM/psi" (115,5 LPM/bar½) Temperature Rating Intermediate Temperature as follows: -200 'F (93 'C) for BB (K4.2 and K8.0), HIP, AP -212 'F (100 °C) for BB (K5.6), SD Finish Natural Brass Physical Characteristics (Figures A, C and E) Frame ............................Bronze Button .....................Bronze/Copper Sealing Assembly. . Beryllium Nickel w/TEFLON Bulb.....................Glass (3 mm dia.) Link .............................MONEL Compression Screw ..................Brass Deflector ....................Brass/Bronze Physical Characteristics (Figures B and D) Body ..............................Brass Cap ..............................Bronze Sealing Assembly. . Beryllium Nickel w/TEFLON Saddle.............................Brass Link Assembly......................Nickel Compression Screw ..................Brass Deflector ....................Brass/Bronze Lever .....................Bronze Deflector Frame ............................Bronze Diffuser ............................Brass Rivet ..............................Brass Physical Characteristics (Figure F) Frame .............................Brass Button ............................Bronze Sealing Assembly. . Beryllium Nickel w/TEFLON Bulb.....................Glass (3 mm dia.) Compression Screw ..................Brass Deflector ..........................Bronze Operation BB (K=8.0 and 4.2), HIP (K=5.6) and AP (5.6 and 4.2) The glass bulb contains a fluid that expands when exposed to heat. When the rated temperature is reached, the fluid expands sufficiently to shatter the glass bulb, allowing the sprinkler to activate and water to flow. BB (K=5.6) and SD (K=5.6) The fusible link assembly is comprised of two link halves which are joined by a thin layer of solder. When the rated temperature is reached, the solder melts and the two link halves separate, allowing the sprinkler to activate and water to flow. TFP6IO Page 5 of 28 Installation The TYCO Specific Application Attic Sprinklers for Protecting Attics must be installed in accordance with this section. Do not install any bulb-type sprinkler if the bulb is cracked or there is a loss of liquid from the bulb. With the sprin- kler held horizontally, a small air bubble should be present. The diameter of the air bubble is approximately 1/16 inch (1,6 mm) for the 155°F (68°C) and 3/32 inch (2,4 mm) for the 200°F (93°C) tem- perature ratings. A leak-tight 1/2 inch NPT sprinkler joint should be obtained by applying a min- imum-to-maximum torque of 7 to 14 ft-lb (9,5 to 19,0 Nm). Higher levels of torque can distort the sprinkler inlet with consequent leakage or impairment of the sprinkler. To install the Specific Application Attic Sprinklers, complete the following: Step 1. Sprinklers must be oriented correctly as follows: Model BB Sprinklers are to be installed in the upright vertical posi- tion with the flow arrows on the deflector pointing down the two opposing slopes. Model SD Sprinklers are to be installed in the upright vertical posi- tion with the flow direction arrow on the deflector pointing down the slope. The Model HIP Sprinklers are to be installed with the deflector at the top, the sprinkler centerline perpendicular to the ridge of the hip roof, and the flow direction arrows on the deflec- tor pointing down the two oppos- ing slopes. Unlike the Model BB and Model SD, the Model HIP is installed angled so that its deflector is paral- lel with the slope of the hip ridge line. The Model AP Sprinklers are to be installed in the upright position with the deflector parallel to the roof slope. There are no flow arrows on the deflector to consider; however, a good piping practice is to position all the Model AP Sprinklers so that their frame arms are in the same direction. l WRENCH FLATS ENGAGE SPRINKLER %END\\~ D RELIEF WRENCH LANGES WRENCH USE - JAW FLANGE ARKED "A" ONLY FIGURE H W-TYPE 3 SPRINKLER WRENCH FOR USE WITH BB (K=8.0) SPRINKLERS' WRENCH FLATS ENGAGE SPRINKLER THREAD RELIEF WITH WRENCH JAW FLANGES WRENCH JAW FLANGE MARKED "A" ONLY FIGURE J W-TYPE 6 SPRINKLER WRENCH For Use with BB (K=4.2) Sprinklers Step 2. With pipe thread sealant applied to the pipe threads, hand- tighten the sprinkler into the sprinkler fitting. Note: With reference to Figure G, do not grasp the sprinkler by the deflector. Step 3. Wrench-tighten the sprin- kler using only the wrenches shown in Figures H through M. Wrenches are only to be applied to the sprin- kler wrench flats or wrench hex, as applicable. :=FWRENCH FFLATS ENGAGE SPRINKLER THREAD RELIEF WITH WRENCH N JAW FLANGES "N WRENCH JAW FLANGE USEEND MARKED 7"A"ONLY FIGURE K W-TYPE 20 SPRINKLER WRENCH For Use with HIP (K=5.6) Sprinklers WRENCH HEX fq APPLY WRENCH:/ TO WRENCH HEX ONLY ADJUST \ WRENCH JAW TO FIT WRENCH HEX FIGURE L ADJUSTABLE WRENCH For Use with BB (K=5.6) and SD (K=5.6) Sprinklers I WRENCH FLATS ENGAGE SPRINKLER THREAD RELIEF WITH WRENCH JAW FLANGES WRENCH JAW FLANGE USE END MARKED "A" ONLY FIGURE M W-TYPE 6 SPRINKLER WRENCH For Use with AP (K=4.2 and 5.6) Sprinklers , . •, TFP6I0 Page 6 of 28 Design Criteria Area of Use The TYCO Specific Application Attic Sprinklers are designed for use in roof structures and combustible and non-combustible sloped attic spaces, including wood joist/rafters and wood trussed attics with a ceiling below. System Type for BB, SD, HIP, or AP Sprinklers Wet using CPVC pipe Wet or dry using steel pipe Note: Use of the 4.2 K sprinklers in dry pipe systems is permitted by NFPA 13 where piping is corrosion resistant or internally galvanized. Hazard Light Hazard. BB, SD, or HIP Allowable Roof Span (Coverage) and Roof Pitch Refer to Table A for allowable roof spans and roof pitches, and for the associated minimum sprinkler flows and pressures. Figures 1, 2, 11 and 12 illustrate where the roof span is to be measured. Coverage Beyond BB, SD or HIP Allowable Roof Spans Up to 10 ft (3,1 m) of coverage at the eave(s) beyond the allowable roof spans for BB, SD, or HIP Sprinklers may be obtained by using a single row of AP Sprinklers. For more information, refer to Figure 14A, 14B, and 15. BB, SD, HIP, or AP Minimum Distance Between Sprinklers 4 ft (1,2 m) as measured along the branchline for BB and SD. For more information, refer to Figure 3. 3 ft (0,9 m) as measured along the branchline for HIP. For more informa- tion, refer to Figure 12. 7 ft (2,1 m) between AP Sprinklers. BB, SD, HIP, or AP Maximum Distance Between Sprinklers 6 ft (1,8 m) on center along the branch- line for BB, SD, and HIP. For more infor- mation, refer to Figure 3 and 12. For AP, the maximum spacing is 10 ft (3,1 m) perpendicular to slope and 12 ft (3,6 m) parallel to slope. When there is more than one row of AP Sprin- klers, the sprinklers must be staggered as seen in Figure 20-13-3. BB, SD, HIP, or AP Minimum Distance to AP Sprinklers or Standard Spray Sprinklers As measured along the peak/ridge direction, 6 ft (1,8 m)from BB, SD, and HIP to Standard Spray Sprinklers. For more information, refer to Figure 4. As measured along the peak/ridge direction, 7 ft (2,1 m) from AP to Stan- dard Spray Sprinklers. For more infor- mation, refer to Figure 4. In the slope direction, 26 ft (7,9 m) from BB or HIP Sprinklers to AP Sprinklers or Standard Spray Sprinklers. For more information, refer to Figure 6. BB, SD, or HIP Deflector Installation Position Below Peak/Ridge or Deck For roof pitches of 4:12 (33%) to 12:12 (100%), 22 in (558,8 mm) maximum and 16 in (406,4 mm) minimum. For more information, refer to Figure 2 and 5. For roof pitches of 3:12 (25%) up to 4:12 (33%), (only 4.21K Model BB), 12 in (304,8 mm) maximum below the peak and a minimum of 1 in (25,4 mm) below the bottom of the top chord or solid wood rafter. AP Deflector Position and Roof Pitch 1 to 3 in (25,4 to 75,6 mm) below the bottom of the top chord or bottom of solid wood rafter, where the roof pitch is 3:12 to 12:12 and the top chord or solid wood rafter is a nominal 12 in (600 mm) or less. BB or SD Deflector Installation Position Above Scissor Truss 18 in (457,2 mm) minimum. For more information, refer to Figure 5. BB, SD, or HIP Minimum Distance Away from Trusses Attic Sprinklers must be installed 6 in (152,4 mm) away from the face of trusses. For more information, refer to Figure 7. SD Distance from Shear Wall or Draft Curtain 4 to 6 in (101,6 to 152,4 mm) from face, and a minimum of 8 in (203,2 mm) above the bottom of the draft curtain. For more information, refer to Figure 2. Draft Curtains Draft curtains installed to permit the installation of Attic Sprinklers shall be constructed so as to not allow heat to escape through or above the draft curtain. The draft curtain may be con- structed of 1/2 in (12,7 mm) plywood. BB or HIP Maximum Distance from the Center Line of the Ridge 6 in (152,4 mm) with the deflector located 16 to 22 in (406,4 mm to 558,8 mm) from the peak. For more informa- tion, refer to Figure 8. Use of UL Listed BLAZEMASTER CPVC Piping with Specific Application Attic Sprinklers for Protecting Attics (Wet Systems Only) BLAZEMASTER CPVC piping may be used in a combustible concealed attic space requiring sprinklers when installed in accordance with the follow- ing guidelines: Note: Where the use of non-com- bustible insulation is specified, verify with the insulation manufacturer as to the non-combustibility of the insula- tion. The non-combustible insulation (fiberglass) may be faced or unfaced. Where faced, the facing need not be non-combustible. The insulation is to have a flame spread index of not more than 25. Verify chemical compatibility of the insulation with BLAZEMASTER CPVC by consulting www.lubrizol.com. BLAZEMASTER CPVC may be used to feed the wet system ceiling sprin- klers on the floor below. There must be 6 in (152,4 mm) of non-combus- tible insulation covering the horizon- tal or vertical pipe extending 12 in (304,8 mm) on each side away from the centerline of the pipe. Refer to Figures 9A, 913, and 9C. The area above the pipe must be protected by BB, SD, HIP, or AP Sprinklers. For more information, refer to Figure 9A. If the pipe is located inside the ceil- ing joist, the joist channel must be covered or filled with 6 in (152,4 mm) of non-combustible insulation on top of the pipe and the area above must be protected by BB, SD, HIP, or AP Sprinklers. For more information, refer to Figure 913. Insulation is for fire protection purposes. It is not freeze protection. BLAZEMASTER CPVC must be installed in accordance with the BLAZEMASTER installation guide instructions. With reference to Figure 19, BLAZE- MASTER CPVC may be used exposed to feed wet system BB, SD, or HIP Sprinklers where: Risers are vertical and protected by BB, SD, or HIP Sprinklers locat- ed at a maximum lateral distance of 12 in (304,8 mm) from the riser centerline. BB, SD, or HIP Sprinklers are di- rectly mounted on the branchline. BB, SD, or HIP Sprinklers are on arm-overs and located at a max- imum lateral distance of 6 in (152,4 mm) from the branchline centerline. BB, SD, or HIP Sprinklers are on vertical sprigs attached to the branchline. TFP6IO Page 7 of 28 MODEL K SIN ALLOWABLE ROOF SPAN ' ' 'a' 'b' e' '' ' Feet (m) MINIMUM FLOW, GPM (LPM) MINIMUM PRESSURE, psi (bar) PITCH, Rise Over Run (/o) DRY PIPE SYSTEM MAXIMUM WATER DELIVERY TIME, Seconds 8131 8.0 TY4180 !~60 (18,3) 38 (144) 22.6 (1,5) 4:12 (33) to less than 7:12 (58) (c) BB2 8.0 TY4181 !~60 (18,3) 38(144) 22.6 (1,5) 7:12 (58) to less than 10:12 (83) (c) B133 8.0 TY4182 !~60 (18,3) 40(152) 25.0 (1,7) 10:12 (83) to 12:12 (100) (C) BB1 5.6 TY3180 >40 (12,2) to !960 (18,3) 38 (144) 46.0 (3,2) 4:12 (33) to less than 7:12 (58) (c) BB2 5.6 TY3181 >40(12,2) to 60(18,3) 38 (144) 46.0 (3,2) 7:12 (58) to less than 10:12 (83) (c) B133 5.6 TY3182 >40 (12,2) to 60(18,3) 38 (144) 46.0 (3,2) 10:12 (83) to 12:12 (100) (c) B131 5.6 TY3180 !~40 (12,2) 25 (95) 20.0 (1,4) 4:12 (33) to less than 7:12 (58) (c) 13132 5.6 TY3181 !g40 (12,2) 25 (95) 20.0 (1,4) 7:12 (58) to less than 10:12 (83) (c) B83 5.6 TY3182 !~40 (12,2) 25 (95) 20.0 (1,4) 10:12 (83) to 12:12 (100) (c) BB1 4.2 TY2180 !~20 (6,1) 13 (49) 9.6 (0,7) 3:12 (25) to less than 7:12 (58) 45 (d) B132 4.2 TY2181 !~20 (6,1) 13 (49) 9.6 (0,7) 7:12 (58) to less than 10:12 (83) 45 (d) BB3 4.2 TY2182 520 (6,1) 13 (49) 9.6 (0,7) 10:12 (83) to 12:12 (100) 45 (ci) SD1 5.6 TY3183 >30 (9,1) to !~40 (12,2) 35 (132) 39.0 (2,7) 4:12 (33) to less than 7:12 (58) (c) SD2 5.6 TY3184 >30 (9,1) to !~40 (12,2) 35 (132) 39.0 (2,7) 7:12 (58) to less than 10:12 (83) (c) SD3 5.6 TY3185 >30 (9,1) to !940 (12,2) 35 (132) 39.0 (2,7) 10:12 (83) to 12:12 (100) (c) SD1 5.6 TY3183 >10 (3,0) to ~30 (9,1) 25(95) 20.0(1,4) 4:12 (33) to less than 7:12 (58) (c) SD2 5.6 TY3184 >10 (3,0) to !~30 (9,1) 25(95) 20.0 (1,4) 7:12 (58) to less than 10:12 (83) (c) SD3 5.6 TY3185 >10(3,0) to ~30 (9,1) 25 (95) 20.0(1,4) 10:12 (83) to 12:12 (110 0) (c) SD1 5.6 TY3183 !00 (3,0) 19(72) 11.5 (0,8) 4:12 (33) to less than 7:12 (58) (C) SD2 5.6 TY3184 !00 (3,0) 19(72) 11.5 (0,8) 7:12 (58) to less than 10:12 (83) (c) SD3 5.6 TY3185 ~00 (3,0) 19(72) 11.5 (0,8) 10:12 (83) to 12:12 (100) (c) HIP 5.6 1Y3187 >20 (6,1) to 528 (8,5) 34(129) 36.9 (2,5) 4:12 (33) to 12:12 (100) (c) HIP 5.6 TY3187 !~20 (6,1) 25(95) 20.0 (1,4) 4:12 (33) to 12:12 (100) (c) AP 5.6 - TY3190 10 31' 12 (3,6) ' / / -See note e1 Minimum 7 psi (0,48 bar) Minimum 0.10 gpm/ft2 (4,1 mm/mm.) Design Density 3:12 (25) to 12:12 (100) 60(d) AP 4.2 TY2190 3:12 (25) to 12:12 (100) 60 (d) NOTES The BB and SD roof span is measured horizontally (not along the slope) as shown in Figure 1 and Figure 2. The HIP roof span is measured horizontally as shown in Figure 2. C. Refer to NFPA 13. Maximum water delivery time for all system sizes. The AP roof span is measured along the slope. Maximum 10 ft (3, iii) perpendicular to slope by maximum 12 ft (3,6 m) parallel to slope. TABLE A ALLOWABLE ROOF SPAN, FLOW, PRESSURE, AND PITCH FOR SPECIFIC APPLICATION SPRINKLERS FOR PROTECTING ATTICS TFP6IO Page 8 of 28 BB, SD, or HIP Sprinklers are on arm-over or angled sprigs, and lo- cated at a maximum lateral dis- tance of 6 in (152,4 mm) from the branchline centerline. A minimum lateral distance of 18 in (450 mm) is maintained be- tween the CPVC pipe and a heat producing device such as heat pumps, fan motors, and heat lamps. BLAZEMASTER CPVC may be used exposed to provide wet system, ver- tical or angled, sprigs to AP Sprin- klers (refer to Figures 17A and 17B) where: The exposed portion of an angled sprig is a maximum length of 3 ft (0,9 m), the sprig is supported ad- jacent to the AP Sprinkler, and ver- tical restraint is provided using the CPVC hanger support for horizon- tal pipe runs. Vertical sprigs have a maximum exposed length of 10 ft (3,05 m), the AP Sprinkler is located at a maximum lateral distance of 12 in (3304,8 mm) from the sprig center- line, and the sprig is supported at the swing joint to the AP Sprinkler. A minimum 6 in (152,4 mm) deep of non-combustible insulation ex- tending 12 in (304,8 mm) on each side away from the centerline of the CPVC branchline feeding the AP sprigs (refer to Figure 17A). If the CPVC branchline is located in- side the ceiling joist, the joist chan- nel must be covered or filled with a minimum of 6 in (152,4 mm) deep of noncombustible insulation on top of the branchline feeding the AP sprigs (refer to Figure 17B). Insula- tion is for fire protection purposes. It is not freeze protection. Addition- al depth of non-combustible insu- lation may be added to reduce the exposed length of the AP sprigs. A minimum lateral distance of 18 in (450 mm) is maintained be- tween the CPVC pipe and a heat producing device such as heat pumps, fan motors, and heat lamps. Mismatched Slopes Refer to Figure 10. Obstructions For BB, SD, and HIP, refer to Figure 16. For AP Sprinklers, refer to Figure 18. BB, SD, HIP, and AP Sprinklers may be installed directly on maximum 2-1/2 inch NPS (DN65) branch lines without the need for sprigs. See NFPA 13 for requirements when installed on pipe greater than 2-1/2 inch NPS (DN65). Hydraulic Requirements Refer to Figure 20. Determine the Correct Flow and Pressure For BB, SD, or HIP Sprinklers, deter- mine the roof span (measured horizon- tally) and the slope of the roof, and then refer to Table A. There is no interpola- tion of the flow and pressure shown. Round all cases to the next higher spacing. For example, a 45 ft (13,7 m) span with the BB1 (K=8.0) would be calculated at the 60 feet (18,3 m) span. For the AP Sprinklers, the minimum design pressure is 7 psi, and the minimum design density is 0.10 gpm/ft2 (4,1 mm/mm). The NFPA 13, 20 psi (1,4 bar) minimum operating pressure for Standard Spray Sprinkler spacings parallel to the ridge that are above 8 ft (2,4 m) does not apply to the AP. Coverage Area Coverage area for the BB Sprinklers is determined by twice the distance of the furthest throw measured along the slope multiplied by the distance along the branchline. The maximum distance along branchline is 6 ft (1,8 m) regardless of the length of the throw. Note: The distance along the branch- line may have to be reduced to less than the maximum of 6 ft (1,8 m) to remain under 400 ft2 (372 m2) maximum depending on the slope and the span. In no case can the span exceed 60 ft (18,3 m) without additional Standard Spray Sprinklers. Coverage area for the SD (Single Directional) Sprinklers is the distance along the branchline multiplied by the distance of the throw down the slope. Regardless of the throw, the maximum distance along the branch- line is 6 ft (1,8 m), the maximum throw measured horizontally is 40 ft (12,2 m), and the maximum coverage per sprinkler is 400 ft2 (37,2 m2). Coverage area for the HIP Sprinklers is the distance down the larger slope multiplied by two, and multiplied by the distance between the sprinklers as measured along the slope of the hip. Coverage area for the AP (Attic Plus) Sprinklers is the distance along the branchline multiplied by the distance between the branchlines. The max- imum spacing is 10 ft (3,1 m) per- pendicular to the slope and 12 ft (3,6 m) parallel to slope, and as mea- sured on the slope. When there is more than one row of AP Sprinklers, the sprinklers must be staggered per Figure 20-B-3. The maximum spac- ing per sprinkler is 120 ft2 (11,1 m2). Design Guidelines To design a project with the TYCO Spe- cific Application Attic Sprinklers, use these steps as a guideline: Determine if single, dual directional or hip sprinkler is needed. Determine the roof slope is between 3:12 to 12:12. If more than one slope is being used on a project, select the correct sprinkler for each area. Follow the guidelines for each type of sprinkler. Calculate the sprinkler system in accordance with the appropriate flow and pressure information provided in Table A, as well as Figure 20. There is no interpolation of the flows and pressures shown on the chart. For BB Sprinklers (Back to Back Dual Directional) Verify the framing direction is per- pendicular to the outside wall (refer to Figure 12). If not, cover that area with AP Sprinklers or Standard Spray Sprinklers (refer Figure 13). Determine the throw needed. For more information, see the spac- ing requirements in Table A. If over 20 ft (6,1 m) and up to 60 ft (18,3 m) is required, use the 8.0 K-factor, BB Sprinklers to reduce the pressure required. If pressure is not a concern, use the 5.6 K-factor, BB Sprinklers to minimize over discharge. If less than 20 ft (6,1 m) is required, use the 4.2 K-factor, Back to Back Dual Directional to minimize pressure and flow requirements. Determine the distance along the slope. If the distance is not equal, use the longer side. Multiply the lon- ger side by two to determine the spacing down the slope. Four hun- dred divided by this value will deter- mine the maximum spacing along the ridge. The maximum distance is 6 ft (1,8 m). For example, a 12:12 slope at the maximum span of 60 ft (18,3 m) will produce a slope length of approximately 42.5 ft (13,0 m). That number multiplied by two pro- duces an 85 ft (25,9 m) throw. A 400 ft2 maximum divided by an 85 ft (25,9 m) throw only allows a 4 ft 8 in (1,4 m) spacing along the ridge. Using the maximum spacing, space the sprinklers along the ridge. Avoid obstructions as shown in Fig- ure 16. If necessary, add Model AP Sprinklers or Standard Spray Sprin- klers to maintain coverage around obstructions. TFP6IO Page 9 of 28 For SD Sprinklers (Single Directional) Determine the throw needed As the 400 ft2 (37,2 m2) is not a factor with the SD Sprinklers, the maximum spacing is 6 ft (1,8 m) and the mini- mum is 4 ft (1,2 m). For more infor- mation, refer to Figures 2 and 11. The reason 400 ft2 is not an issue with the single directional is because, at its maximum spacing, 6 ft (1,8 m) on center / covering 40 ft (12,2 m) flat / a 12:12 slope / and the throw being 56.5 ft (17,2 m), the 400 ft2 (37,2 m2) maximum would not be exceeded. Avoid obstructions as shown in Fig- ure 16. If necessary, add Model AP Sprinklers or Standard Spray Sprin- klers to maintain coverage around obstructions. For HIP Sprinklers Verify framing direction is perpendic- ular to outside wall (refer to Figure 12). If not, cover that area with AP Sprinklers or Standard Spray Sprin- klers (refer to Figure 13). From the intersection of the top of the hip and the ridge, the maximum distance down the slope of the hip is 3 ft (0,9 m). Start the layout with the first sprinkler as close to that point as possible, but no further, while staying 6 in (152,4 mm) away from the face of the trusses. Remember the slope of the hip is not equal to the slope of the roof from the ridge to the out- side wall. Continue to space sprin- klers down the hip at a maximum of 6 ft (1,8 m) on center as measured along the slope of the hip. When the bottom of the hip is encountered, the last sprinkler must be within 7-1/2 ft (2,3 m) of the outside wall as mea- sured flat (plan view). If this pipe is "cut to fit", remember to account for the different slopes of the hip and the roof, as well as distances measured along the slope verses horizontal in plan view must be accounted for. Avoid obstructions as shown in Fig- ure 16. If necessary, add Model AP Sprinklers or Standard Spray Sprin- klers to maintain coverage around obstructions. Care and Maintenance The TYCO Specific Application Attic Sprinklers for Protecting Attics must be maintained and serviced in accor- dance with this section. Before closing a fire protection system main control valve for maintenance work on the fire protection system that it controls, obtain permission to shut down the affected fire protec- tion system from the proper authorities and notify all personnel who may be affected by this action. The owner is responsible for the inspection, testing, and maintenance of their fire protection system and devices in compliance with this document, as well as with the applicable standards of the NFPA, such as NFPA 25. In addition to the standards of any other authori- ties having jurisdiction. Contact the installing contractor or product manu- facturer with any questions. Automatic sprinkler systems should be inspected, tested, and maintained by a qualified Inspection Service in accor- dance with local requirements and/or national code. Sprinklers that are found to be leaking or exhibiting visible signs of corrosion must be replaced. Automatic sprinklers must never be painted, plated, coated, or otherwise altered after leaving the factory. Modi- fied sprinklers must be replaced. Over-heated solder type sprinklers must be replaced. Bulb-type sprin- klers that have been exposed to cor- rosive products of combustion, but have not operated, should be replaced if they cannot be completely cleaned by wiping the sprinkler with a cloth or by brushing it with a soft bristle brush. Care must be exercised to avoid damage to the sprinklers before, during, and after installation. Sprin- klers damaged by dropping, striking, wrench twist/slippage, or the like, must be replaced. Also, replace any sprinkler that has a cracked bulb or that has lost liquid from its bulb. For more informa- tion, refer to the Installation Section. Limited Warranty For warranty terms and conditions, visit www.tyco-fire.com. Ordering Procedure Contact your local distributor for avail- ability. When placing an order, indicate the full product name and Part Number (P/N). Sprinkler Assemblies with NPT Thread Connections Specify: Model (specify), K-factor (specify), SIN (specify), Specific Appli- cation Attic Sprinkler, P/N (specify): 13B1 (K=8.0), TY4180 ..................P/N 51-623-1-200 13132 (K=8.0), TY4181 ...................P/N 51-621-1-200 B63 (K=8.0), TY4182 ..................P/N 51-622-1-200 13131 (K=5.6), TY3180 ..................P/N 50-601-1-212 13132 (K=5.6), TY3181 ..................P/N 50-602-1-212 13133 (K=5.6), TY3182 ..................P/N 50-603-1-212 13131 (K=4.2), TY2180 ..................P/N 50-620-1-200 0132 (K=4.2), TY2181 ..................P/N 50-621-1-200 B133 (K=4.2), TY2182 ..................P/N 50-622-1-200 SD1 (K=5.6), TY3183 ...................P/N 50-611-1-212 SD2 (K=5.6), TY3184 ...................P/N 50-612-1-212 SD3 (K=5.6), TY3185 ..................PIN 50-613-1-212 HIP (K=5.6), TY3187 ..................P/N 51-620-1-200 AP (K=5.6), TY3190 ..................P/N 50-625-1-200 AP (K=4.2), TY2190 ..................P/N 50-624-1-200 Sprinkler Wrench Specify: W-Type 3 Sprinkler Wrench, P/N 56-895-1-001 Specify: W-Type 20 Sprinkler Wrench, P/N 56-000-1-106 Specify: W-Type 6 Sprinkler Wrench, P/N 56-000-6-387 6" (152,4 mm) MAX. ROOF SPAN 4" (101,6 mm) MIN. (COVERAGE) FROM WALL DECK P or STANDARD A SPRAY SPRINKLER SINGLE DIRECTIONAL SPRINKLERS /7 SEE 22" (558,8 mm) MAX. BOTTOM OF SHEATHING i FIG 11 F / 16" (406,4 mm) MIN. FULL WALL TO DECK DRAFT 8" MIN. CURTAIN TO DECK (203,2 mm FIGURE 2 7-0" (2,1 m) MIN. FOR AP SPRINKLERS - 6-0" (1,8 m( MINIMUM FOR - STANDARD SPRAY SPRINKLERS II II II II \ II II AP or STANDARD II ATTIC II \ II H SPRAY SPRINKLER SPRINKLER RIDGE H H BRANCH H H II II II LINE ii Ii I II I II II II TRUSS - I II II CEILING II II II II II II II II II II / II FIGURE 4 BB, SD or HIP ATTIC SPRINKLER 26-0" (7,92 m) AP or MINIMUM STANDARD SPRAY SPRINKLERS FIGURE 6 TFP6IO Page 10 of 28 ROOF SPAN (COVERAGE) -i SEE FIG iii BACK TO BACK STANDARD SPRINKLER TRUSS SCISSOR 12 TRUSS FIGURE 1 _________6-0" (1,83 m) MAXIMUM 4-0" (1,22 m) MINIMUM II II -77-- BB or SID ATTIC II II SPRINKLERS I RIDGE II II II BRANCH H II II II ii LINE H II II II II II TRUSS - I II II CEILING II II II II II II II II II II / II II II H 1 I ii FIGURE 3 22" (558,8 mm) MAX. BB, SD or HIP ATTIC 16" (406,4 mm) MIN. SPRINKLER -or- STANDARD FOR A ROOF PITCH LESS THAN 4:12(33%), TRUSS 18" MIN. (457,2 mm) IN I/y— 12" (304,8 mm) MAXIMUM BELOW PEAK AND 1' (25,4 mm) MINIMUM BELOW BOTTOM OF TOP CHORD OR RAFTER SC ISSOR TRUSS 7/ FIGURE 5 6" (152,4 mm) II MINIMUM H II BB, SDorHIP II II H SPRINKLER Ii RIDGE II II II BRANCH II H ii II II L..II'JE II II II II I II TRUSS - I II II CEILING II II II II II II II II II II / II 6" (152,4 mm) MAXIMUM 22" (558,8 mm) MAX. 16" (406,4 mm) MIN. BOTTOM OF SHEATHING BB or HIP ATTIC SPRINKLER FIGURE 7 FIGURE 8 TFP6IO Page 11 0f28 12 MIN.--1----12" MIN. ATTIC, F(3' -1 02" mm) (304,8 mmT SPRINKLER PROTECTED SPACE [y)Mj\y)M 6 MIN. (152,4 mm) CEILING / / T NON-COMBUSTIBLE / INSULATION FOR FIRE JOIST / PROTECTION OF CPVC CPVC PIPE CEILING PIPE, NOT FREEZE & FITTINGS SPRINKLER PROTECTION FIGURE 9A NON-COMBUSTIBLE INSULATION ATTIC FOR FIRE PROTECTION OF CPVC PIPE, SPRINKLER NOT FREEZE PROTECTION PROTECTED OPTION B SPACE 6" MIN. I/\I (1 524 mm)4 CPVC PIPE CEILING JOIST \ & FITTINGS SPRINKLER CEILING FIGURE 9B NON-COMBUSTIBLE INSULATION ATTIC FOR FIRE PROTECTION OF CPVC PIPE, SPRINKLER NOT FREEZE PROTECTION PROTECTED SPACE VERTICAL RISE 6 MIN. (152,4 mm) CEILING JOIST CEILING CPVC PIPE ELEVATION L & FITTINGS CHANGE CEILING FIGURE 9C FIGURE 9 NON-COMBUSTIBLE INSULATION FOR THE PROTECTION OF CPVC PIPE SINGLE DIRECTIONAL SPRINKLERS AS APPROPRIATE FOR RESPECTIVE SLOPE DRAFT CURTAIN / \ 8' MIN. (SHOWN) (203,2 mm) OR FULL WALL TO ROOF DEC ZA WHEN ANGLE "A" DOES BXI NOT EQUAL ANGLE "B" FIGURE 10 PERMITTED USE OF ATTIC SPRINKLERS FOR MISMATCHED SLOPES AP or STANDARD SPRAY SPRINKLER COVERAGE ON SLOPE \ BB, SID orHIP —A1-- COVERAGE ON HORIZONTAL CEILING ROOF JOIST JOIST OR TOP CHORD AP or STANDARD SPRAY SPRINKLER COVERAGE ON SLOPE COVERAGE ON HORIZONTAL MAXIMUM BB, SD or HIP ON TI cOh PERMITTED 2 (50 mm) VENT TOP OF INSUL NON-COMBUSTIBLE ROOF JOIST INSULATION OR TOP CHORD FIGURE 11 COVERAGE STARTING POINT AT EAVE TFP6IO Page 12 of 28 STANDARD SPRAY -j 6-0" (1,8 m) MAX. SPRINKLERS INSTALLED i I I I I I i• PER NFPA13IN HIP SLOPE AREA WHEN TRUSSES ARE FRAMED PARALLEL —._J.. I I I I I I I I I I I BACK TO BACK TO OUTSIDE WALL I I SPRINKIS FIGURE 13B HIP TRUSSES IN SLOPE AREA 'I HIP ROOF INSTALLATION WITH TRUSSES FRAMED PARALLEL TO OUTSIDE WALL I HIP I I I ROOF PARALLEL TO OUTSIDE WALL OUTSIDE WALL SLOPE ' SLOPE (SHOWN WITH STANDARD I I I I I I • SPRAY OR AP SPRINKLERS IN WHERE AN AREA I HIP SLOPE AND ADJACENT (SHOWN NON-SHADED) It RIDGE LINE AREAS TO HIP SLOPE) IS PROTECTED I I I lei I WITH AP SPRINKLERS, I I IIIIIII .I CPVC MAY BE USED FOR CEILING I 4 PROTECTION BELOW (SEE PAGE 6) HIP RIDGES _____________________________________ CPVC PIPE MAY BE USED IN FOR CEILING PROTECTION SHADED AREA ONLY BELOW (SEEPAGE 6) . TFP6IO Page 13 of 28 Attic Spaces Greater Than 60 ft (18,3m) up to 80 ft (24,4m) Wide, (refer to Figures 14 and 15). Only 8.0 K, BB Sprinklers in conjunction with AP Sprinklers or Standard Spray Sprinklers can be used to protect attics up to 80 ft (24,4 m) wide. NOTES: Attics over 80 ft (24,4 m) wide must use Standard Spray Sprinklers throughout because Attic Sprinklers have not been tested in this scenario. For single ridge construction (refer to Figure 14A and 1413), use 8.0K, BB Sprinklers to protect the center portion. AP Sprinklers (refer to Figure 14A) or Standard Spray Sprinklers (refer to Figure 1413) are then used to protect up to 10 ft (3,1 m) of width at the eaves beyond the maximum allowable 60 ft (18,3 m) span of the 8.0K, BB Sprinklers. For hip roof construction (refer to Figure 15), use 8.0K, BB Sprinklers in the center portion and HIP Sprinklers can be located down the entire hip. AP Sprinklers or Standard Spray Sprinklers are then used to protect up to 10 ft (3,1 m) of width at the eaves beyond the maximum allowable 60 ft (18,3 m) span of the 8.01K, BB Sprinklers, and the maximum allowable horizontal coverage of the HIP Sprinklers. ISEE FIG. 11 ISEE FIG. 11 I SD SPAN (TABLE A( BB SPAN I (TABLE A) AP I 10-0 MAX. SPRINKLERS 10-0 MAX. (3,05 m) BB ATTIC SPACED (3,05 m) SID ATTIC SPRINKLER (1,83m) SPRINKLER 7-0(1,8 m) AP SPRINKLER TO COVERAGE (1,83 m) SPRINKLER ON CENTER VEREMAX.rn( (1,83 m) SPRINKLERS ~ Y14e" ON CENTER FIGURE 14A FIGURE 148 BACK 10'-0" HIP TO BACK (3,0 m) SPRINKLERS SPRINKLERS HIP RIDGES AP SPRINKLERS .... RIDGE AT THE EAVES : LINE PERIMETER jHIP : t ROOF PROTECTION SLOPE SLOPE AREA .. I BB SPAN (TABLE A) 101-01, / L.. . .. .... (3,0 m) CPVC PIPE MAY BE USED IN SHADED 7-0' to 10-0 AREA FOR CEILING (2,1 m to 3,0 m) PROTECTION BELOW ON CENTER FOR (SEE PAGE 6) AP SPRINKLERS FIGURE 15 TFP6IO Page 14 of 28 BB ATTIC BB ATTIC SPRINKLER 3-1/2 MIN. ANY SPRINKLER I 36" MIN. DISTANCE (88,9 mm) / AIR SPACE (914,4 mm) _______ GREATER NO 4 6" MAX. THAN 6' I (152,4 mm) (152,4 mm) REQUIRED ADDITIONAL SPRINKLER ADDITIONAL AP OR STANDARD SPRAY SPRINKLER REQUIRED 14A OR 14B) (LOCATE PER FIGURE FIGURE 16A FIGURE 16B There can be a maximum of a 6 in. (152,4 mm) high Horizontal Obstruction as long as it is 36 in. (914,4 mm), measured vertically, below the Attic Sprinkler. If the obstruction is closer or larger, there must be a sprinkler on the other side of the obstruction. Refer to Figures 16A and 1613. This criteria does not limit the top chord of the trusses or the depth of the raf- ter, but does limit the obstructions that run across the trusses or rafters. BB ATTIC SPRINKLER SPRINKLE NO 6" (152,4 mm) 36" (914,4 mm) MINIMUM MINIMUM ADDITIONAL REQUIRED 4'(1,2m N \MAXIMUM \\ FIGURE 16C LESS THAN BB ATTIC 6" (152,4 mm) SPRINKLER 36" (914,4 mm) ADDITIONAL AP MINIMUM OR STANDARD SPRAY SPRINKLER(S) REQUIRED (LOCATE PER FIGURE 14A OR 148) GREATER THAN 4'-0" (1,2m) FIGURE 16D If the Horizontal Obstruction is below the sprinkler, there must be 6 in. (152,4 mm) clearance over the top of the obstruction, and the obstruction must be 4 ft (1,2 m) or less in width to allow water to pass both over and under the obstruction. The clearance is measured perpendicu- lar to and from the bottom of the rafter. If there is not 6 in. must be located on the other side of the obstruc- tion. If the obstruction is greater than 4 ft (1,2 m) in width, a sprinkler must be added below the obstruction. Refer to Figures 16C and 161), where the maximum spacing for AP Sprinklers is 12 ft (3,7 m) and Standard Spray Sprin- klers is 15 ft (4,6 m). Dimension A Distance B Additional Maximum Horizontal Dimension of Obstruction Minimum Horizontal Distance to Obstruction Sprinkler Required Beyond Obstruction All Vertical Obstructions <6" (152,4 mm) YES 1/2-1" (12,7 mm-25,4 mm) 6" (152,4 mm) NO 1-4" (25,4 mm-101,6 mm) 12" (304,8 mm) NO 4-8" (101,4 mm-203,2 mm) 24" (609,6 mm) NO 8-10" (203,2 mm-254,0 mm) 5-0" (1,52 m) NO 10-20" (254,0 mm-508,0 mm) 10-0" (3,05 m) NO 20-30" (508,0 mm-762,0 mm) 15-0" (4,57 m) NO 30-40" (762,0 mm-1016,0 mm) 20-0" (6,10 m) NO 40-48" (1016,0 mm-1219,2 mm) 25-0" (7,62 m) NO >48(1219,2mm) Any Distance YES a I DIMENSION A PER TABLE DIMENSION B I11 N PER TAB ADDITIONAL AP LE OR STANDARD SPRAY SPRINKLER REQUIRED (LOCATE PER FIGURE 14AOR14B) FIGURE 16E For Vertical Obstructions, the maximum dimension of the obstruction is its width and the horizontal distance away from the obstruction is measured horizontally. FIGURE 16 (1 0F2) OBSTRUCTIONS TO WATER DISTRIBUTION - BB, SD AND HIP TFP6IO Page 15 of 28 FIGURE 16F AREA OUTSIDE OF MECHANICAL SPACE OR SIMILAR COMPARTMENTAL SPACE When a BB Sprinkler is 36 in. (914,4 mm) or greater above the space, and 36 in. (914,4 mm) or greater clearance above the space is present, additional sprinklers are not needed. When a BB Sprinkler is 36 in. (914,4 mm) or greater above the space, and a 12 to 36 in. (304,8 to 914,4 mm) clear- ance above the space is present, Intermediate Level Stan- dard Sprinklers are to be installed to protect the obstructed area. Otherwise, the area beyond the mechanical space is to be protected as shown by installing Standard Spray Sprinklers as necessary or by constructing a shear wall and installing SD Sprinklers. Note: In all cases, the mechanical space or similar compartmented space is to be sprinklered per its respective hazard rating and sep- arated from the light hazard attic space by construction that has a fire resistance rating based on the water supply duration required for the hazard rating within the mechanical space or similar com- partmented space. BB ATTIC SPRINKLER 36' (914,4 mm) OR GREATER NO ADDITIONAL 36" (914,4 mm) SPRINKLERS OR GREATER REQUIRED zxx/~" \\\\, STANDARD MECHANIC SPRAY SPRINKLER I SPACE FIGURE 16G PIGGYBACK TRUSSES When a BB Sprinkler can be installed below or between stiffeners and maintain the 16 to 22 in. (404,4 to 558,8 mm) distance to the peak, as well as the "V' and "H" clearance to the stiffeners, additional sprinklers are not required. When the stiffeners are located a minimum of 12 in. (304,8 mm) below the BB Sprinkler, the stiffeners are 7-1/2 in. (190,5 mm) maximum in width, the openings are 12 in. (304,8 mm) minimum, and there is 70% minimum open area, additional sprinklers are not required. Otherwise, additional sprinklers are required as shown. V H BB1 BB2 I BB3 0' 0" 0" 0" V>0" V+15" V+10" V+8" BOTTOM STIFFENERS TOP OF BB ATTIC DEFLECTOR SPRINKLER BB ATTIC 70% MINIMUM 4" (101,6 mm) TO SPRINKLER OPEN AREA 6" (152,4 mm) TYP. 36 (9144 mm) OR GREATER 3-1/2" MIN. 12" MIN. INTERMEDIATE ' ________________ (88,9 mm) / 12" (304,8 mm) TO 36" (914,4 mm) STIFFENERS (304,8 mm) LEVEL BB ATTIC AIRSPACE NN STANDARD SPRAY SPRINKLER SPRINKLER N STANDARD 1MECHANICAL 4" (101,6 mm) TO 7-1/2" MAX. T tN 12" MIN. SPRAY SPRINKLER SPACE 6" (152,4 mm) TF (190,5 mm) (304,8 mm) BB ATTIC BB ATTIC LESS THAN SPRINKLER STANDARD SPRINKLER OR 70% OPEN AREA, SPRAY SPRINKLER SPRINKLER 12" (304,8 mm) WIDE, LESS THAN 12" (3mm 7 1/" STANDARD SPRAY OPENINGS LESS THAN / OR STIFFENERS INTERMEDIATE GREATER THAN LEVEL STANDARD // 7-1/2(190,5mm) WIDE SPRINKLER MECHANICAL SPACE PROTECT WITH ADD SHEAR WALL AND STANDARD SPRAY PROTECT WITH SINGLE SPRINKLERS DIRECTIONAL SPRINKLERS SINGLE INSTALL SINGLE DIRECTIONAL DRAFT CURTAIN DIRECTIONAL SPRINKLER OR FULL WALL SPRINKLER FIGURE 16 (2 0F2) OBSTRUCTIONS TO WATER DISTRIBUTION - BB, SD, AND HIP (Obstructions to Water Distribution for Attic Sprinklers Differ from Standard Sprinklers as Shown) TP61O Page 16 of 28 FIGURE 17A EXPOSED CPVC WITH AP SPRINKLERS AND BRANCHLINE OVER JOISTS 3-0" MAX. AP (0,9 m) SPRINKLER AP SPRIG r 6' MIN. JOIST 152,4 mm) 12" MIN. I 12' MIN. (304,8 mm 304,8 mm) NON-COMBUSTIBLE INSULATION FOR FIRE PROTECTION OF CPVC CEILING PIPE, NOT FREEZE PROTECTION OPTION A AP -PRINKLER AP 10-0" MAX. SPRIG (3,0 m) 6" MIN. rJOIST I rj (152,4 mm) 12' MIN. I / 12" MIN. I (304,8 mm) 304,8 mm)' NON-COMBUSTIBLE INSULATION FOR FIRE PROTECTION OF CPVC CEILING PIPE, NOT FREEZE PROTECTION OPTION B 3-0" MAX.AP SPRINKLER (0,9 m) -__ SPRINKLER AP 10-0" MAX. AP SPRIG (3,0 m) u- SPRIG FIGURE 17B EXPOSED CPVC WITH AP SPRINKLERS AND JOIST JOIST BRANCHLINE WITHIN JOISTS 6" MIN. / NON-COMBUSTIBLE 6" MIN. / NON-COMBUSTIBLE / PROTECTION OF CPVC PROTECTION OF CPVC (152,4 mm) / INSULATION FOR FIRE (152,4 mm)/ INSULATION FOR FIRE / PIPE, NOT FREEZE PIPE, NOT FREEZE CEILING PROTECTION CEILING PROTECTION OPTION A OPTION B OBSTRUCTION OBSTRUCTION AP SPRINKLER C AP C SPRINKLER A ~: 3C or 3D D A!,, 24" (609,6 mm) D ~-A~ (Use dimension C or D, whichever is greater) ELEVATION VIEW PLAN VIEW Horizontal Minimum Vertical Distance Distance Below Deflector )A( (B) 16 (!052,4 mm) (76,2 mm) >6' to 9" (>152,4mm to 228,6 mm) (101,6 mm) >9' to 12" 6' (>228,6 mm to 304,8 mm) (88,9 mm) >12' to 15' 8' (>304,8 mm to 381,0 mm) (203,2 mm) >15' to 18 9-1/2" (>381,0 mm to 457,2 mm) (241,3 mm) >18 to 24' 12-1/2" (>457,2 mm to 609,6 mm) (317,5 mm) >24' to 30" 15-1/2" (>609,6 mm to 762,0 mm) (393,7 mm) >30" 18" )>762,0 mm) (457,2 mm) FIGURE 18 OBSTRUCTIONS TO WATER DISTRIBUTION FOR MODEL AP SPRINKLERS B AP SPRINKLER OBSTRUCTION TFP6IO Page 17 of 28 A= 6 (150 mm) MAX. A B = 12 (300 mm) MAX. ANGLE SPRIG ARMOVER SPRIG OVER B BRANCHLINE BRANCHLINE VERTICAL SPRIG DIRECT MOUNT VERTICAL RISER VERTICAL RISER FIGURE 19 HYDRAULIC CALCULATIONS Attic sprinklers must be calculated in conformance with these guidelines. In all cases, the design area shall include the most hydraulically demanding sprinklers. More than one set of calculations may be required to prove different situations. For individual areas requiring more than four AP Sprinklers, the maximum area of attic protected by AP Sprinklers is limited to 3000 ft2 (279 m2) in any single area. Areas must be separated by a minimum of 15 ft (4,6 m) by an area protected by BB, SD,or HIP Sprinklers, in order to be considered separate areas. The hydraulic calculations have been divided into three parts as follows: FIGURE 20-A: "Attics Protected Entirely By BB, SD, and HIP Attic Sprinklers". 20-A-1 (Page 18) BB Sprinklers 20-A-2 (Page 18) BB and HIP Sprinklers 20-A-3 (Page 19) BB and SD Sprinklers 20-A-4 (Page 19) SD Sprinklers 20-A-5 (Page 19) SD and HIP Sprinklers 20-A-6 (Page 19) HIP Sprinklers FIGURE 20-13: "Attics Protected With A Mixture Of BB. SD, and HIP Attic Sprinklers And AR Sprinklers". 20-B-1 (Page 20) SD Sprinklers and AP Sprinklers At The Ridge 20-B-2 (Page 20) BB Sprinklers and AP Sprinklers At The Eaves or Beyond An Obstruction 20-B-3 (Page 21) BB Sprinklers and AP Sprinklers At The Hip 20-B-4 (Page 21) BB Sprinklers, SD Sprinklers, HIP Sprinklers, and AP Sprinklers At The Hip 20-B-5 (Page 22) BB, SD, or HIP Sprinklers and AP Sprinklers in a Dormer, at a Cross, or at an Ell 20-B-6 (Page 22) BB,SD, or HIP Sprinklers and AP Sprinklers Separated By Compartmentalization FIGURE 20-C: "Attics Protected With A Mixture Of BB. SD, and HIP Attic Sprinklers And Standard Spray Sprinklers". 20-C-1 (Page 23) SD Sprinklers and Standard Spray Sprinklers At The Ridge 20-C-2 (Page 23) BB Sprinklers and Standard Spray Sprinklers At The Eaves or Beyond An Obstruction 20-C-3 (Page 24) BB Sprinklers and Standard Spray Sprinklers At The Hip 20-C-4 (Page 25) BB Sprinklers, SD Sprinklers, HIP Sprinklers, and Standard Spray Sprinklers At The Hip 20-C-5 (Page 26) BB, SD, or HIP Sprinklers and Standard Spray Sprinklers in a Dormer, at a Cross, or at an Ell 20-C-6 (Page 26) BB, SD, or HIP Sprinklers and Standard Sprinklers Separated By Compartmentalization I MODEL HIP OR STANDARD MODEL BB MODEL SD MODEL AP BACK TO BACK SINGLE DIRECTIONAL SPRAY FIGURE 20 HYDRAULIC CALCULATIONS DRY SYSTEM SHOWN DRY SYSTEM SHOWN TFP6IO Page 18 of 28 FIGURE 20-A-I. BB SPRINKLERS Wet Systems: Calculate the most demanding five sprinklers. Dry Systems: Calculate the most demanding seven sprinklers. See the adjacent figure. FIGURE 20-A-2. BB AND HIP SPRINKLERS Wet Systems: Calculate the most demanding five sprinklers. Dry Systems: Calculate the most demanding seven sprinklers. Then calculate the most demanding contiguous nine sprinklers with a maximum of seven to be BB Sprin- klers. See the adjacent figures. Use the most demanding calculation. RIDGE A a a a a a a a WALL OR DRAFT CURTAIN AT RIDGE DRY SYSTEM SHOWN WET SYSTEM SHOWN TFP6IO Page 19 of 28 FIGURE 20-A-3. BB AND SD SPRINKLERS Wet Systems: Calculate the most demanding five BB Sprinklers plus two SD Sprinklers. Dry Systems: Calculate the most demanding seven BB Sprinklers plus up to two SD Sprinklers. See the adjacent figure. OBSTRUCTION RIDGE DRY SYSTEM SHOWN FIGURE 20-A-4. SD SPRIN- KLERS Wet Systems: Calculate the most demanding five SD Sprinklers. Dry Systems: Calculate the most demanding nine SD Sprinklers. See the adjacent figure. RIDGE T T T i T T T t t WALL OR DRAFT CURTAIN AT RIDGE DRY SYSTEM SHOWN FIGURE 20-A-5. SD AND HIP SPRINKLERS Wet Systems: Calculate the most demanding five sprinklers. Dry Systems: Calculate the most demanding nine sprinklers with a maximum of seven to be SD Sprinklers. See the adjacent figure. FIGURE 20-A-6. HIP SPRIN- KLERS Wet Systems: Calculate the most demanding five sprinklers. See the adjacent figure. Dry Systems: Calculate the most demanding nine sprinklers. TFP6IO Page 20 of 28 FIGURE 20-B-I. SD SPRINKLERS AND AP SPRINKLERS AT THE RIDGE Wet Systems: Calculate the most demanding five sprinklers of one type. Use the most demanding calculation. Dry Systems: Calculate the most demanding nine SD Sprinklers, and then calculate the most demanding seven AP Sprinklers. Use the most demanding calcula- tion. See the adjacent figure. UUK IAINS DRY SYSTEM SHOWN • S S • RIDGE FIGURE 20-B-2. BB OR SD SPRINKLERS AND AP SPRIN- KLERS AT THE EAVES OR BE- YOND AN OBSTRUCTION Wet Systems: Calculate the most demanding five BB or SD Sprinklers plus up to two most demanding AP Sprinklers. Dry Systems: Calculate the most demanding seven BB or SD Sprinklers plus up to two most demanding AP Sprinklers. See the adjacent figures. DRY SYSTEM SHOWN DRY SYSTEM SHOWN . I • • • • S & & I DRY SYSTEM SHOWN AREA AREA 1 AREA 3 —1 WITH AP - WITH BB - WITH AP SPRINKLERS SPRINKLERS SPRINKLERS MINIMUM -. SEPARATION 15-0'(4,6m) STAGGERED SPACING WHEN MORE THAN ONE ROW WALL OR DRAFT CURTAIN DRY SYSTEM SHOWN AREA AREA AREA 3 WITH AP WITH BR & SD WITH AP SPRINKLERS SPRINKLERS SPRINKLERS 15-0 (4,6 m) TFP6IO Page 21 of 28 FIGURE 20-8-3. BB SPRINKLERS AND AP SPRIN- KLERS AT THE HIP Where the total number of AP Sprinklers at the hip is greater than four: Wet Systems: Calculate the most demanding five BB Sprinklers plus the two most demanding AP Sprinklers. Then calculate the most demanding area up to 1500 ft2 (137 m2) having AP Sprin- klers, for example, Area 2 in the adjacent upper figure. Use the most demanding calculation. Dry Systems: Calculate the most demanding seven BB Sprinklers plus the two most demanding AP Sprinklers. Then calculate the most demanding area up to 1950 ft2 (181 m2) having AP Sprin- klers, for example, Area 2 in the adjacent upper figure. Use the most demanding calculation. FIGURE 20-8-4. BB SPRINKLERS, SD SPRINKLERS, HIP SPRIN- KLERS, AND AP SPRINKLERS AT THE HIP Where the total number of AP Sprinklers at the hip is four or less: Wet Systems: Calculate the most de- manding five BB, SD, or HIP Sprin- klers plus up to two most demanding AP Sprinklers. Dry Systems: Calculate the most demanding nine BB, SD, or HIP Sprinklers plus up to two most demanding AP Sprinklers (Of the nine BB, SD, or HIP Sprinklers, calculate up to a maximum of seven BB Sprinklers, see adjacent upper figure). Where the total number of AP Sprinklers at the hip is greater than four: Wet Systems: Calculate up to the most demanding five BB, SD, or HIP Sprinklers plus the two most demanding AP Sprinklers. Then calculate the most demanding area Up to 1500 ft2 (137 m2) having AP Sprinklers, for example, Area 2. Use the most demanding calculation. Dry Systems: Calculate up to the most demanding nine BB, SD, or HIP Sprinklers, plus the two most demanding AP Sprinklers, and then calculate the most demanding area up to 1950 ft2 (181 m2) having AP Sprinklers, for example, Area 2. Use the most demanding calculation. FIGURE 20-B-5. BB, SD, OR HIP SPRINKLERS AND AP SPRIN- KLERS INA DORMER, AT CROSS, AT HIP, OR AT AN ELL Where the quantity of AP Sprinklers in each dormer, cross, or ell is four or less (see the adjacent figure) and all of the dormers, crosses and ells meet the maximum four AP Sprinkler crite- ria, calculate the BB, SD, or HIP Sprin- kler demand as described in Part A-i through A-6 or Part B-i through B-4, plus up to two of the most demanding AP Sprinklers in the dormer, cross, or ell that is adjacent to the BB, SD, or HIP Sprinklers that are being included in the demand calculation. Where the quantity of AP Sprinklers in any dormer, cross, or ell is greater than four, refer to Figure B- 3. SF (4 AP INKLERS R LESS) •'\ RIDGE • , ••/ /• WALL DORMER BUILT ON TOP OF ROOF OR SHEATHING RIDGE •0•00001• TFP6IO Page 22 of 28 FIGURE 20-B-6. BB,SD, OR HIP SPRINKLERS AND AP SPRIN- KLERS SEPARATED BY COMPARTMENTALIZATION Wet Systems: Calculate the BB, SD, or HIP Sprinkler demand as described in Part A-i through A-6 or Part B-i through B-4. Then calculate the most demanding area up to 1500 ft' (137 m2) having AP Sprin- klers. Use the most demanding calculation. See the adjacent figure. Dry Systems: Calculate the BB, SD, or HIP Sprinkler demand as described in Part A-i through A-6 or Part B-i through B-4. Then calculate the most demanding area up to 1950 ft2 (181 m2) having AP Sprin- klers. Use the most demanding calculation. See the adjacent figure. TION DRY SYSTEM SHOWN FIGURE 20-C-1. SD SPRINKLERS AND STANDARD SPRAY SPRIN- KLERS AT THE RIDGE Wet Systems: Calculate the most demanding five sprinklers of one type. Use the most demanding calculation. Dry Systems: Calculate the most demanding nine SD Sprinklers. Then calculate the most demanding seven Standard Spray Sprinklers. Use the most demanding calculation. See the adjacent figures. FIGURE 20-C-2. BB SPRINKLERS AND STANDARD SPRAY SPRIN- KLERS BEYOND AN OBSTRUCTION Wet Systems: Calculate the most demanding five BB Sprinklers plus up to two most demanding Standard Spray Sprinklers. Dry Systems: Calculate the most demanding seven BB Sprinklers plus up to two most demanding Standard Spray Sprinklers. See the adjacent figures. TFP61O Page 23 of 28 & a a a RIDGE T TI ITT TI ITT I\T WALLS C DRAFT WJUfl i,-ij'JS DRY SYSTEM SHOWN FIGURE 20-C-3. BB SPRINKLERS AND STANDARD SPRAY SPRIN- KLERS AT THE HIP Where the total number of standard spray sprinklers at the hip is greater than four: Wet Systems: Calculate the most demanding five BB Sprinklers plus up to two most demanding Standard Spray Sprinklers. Then calculate the most demanding remote design area, including all sprinkler types, as per NFPA 13. That is, area reduction for quick response and 30% increase for sloped ceilings. Use the most demanding calculation. Dry Systems: Calculate the most demanding seven BB Sprinklers plus up to two most demanding Stand Spray Sprinklers. Then calculate the most demanding design area, including all sprinkler types, as per NFPA 13. That is, 30% increase for sloped ceilings and 30% increase for dry systems. Include all sprinkler types within this area. See the adjacent figure. Use the most demanding calculation. FIRST CALCULATION DRY SYSTEM SHOWN SECOND CALCULATION DRY SYSTEM SHOWN NOTE: Dry Pipe = 1500 SQ. FT. (NFPA Light Hazard)x 1.3 x 1.3 = 2535 SO. FT. TFP6IO Page 24 of 28 FIGURE 20-C-4. BB SPRINKLERS, SD SPRINKLERS, HIP SPRIN- WALL OR KLERS, AND STANDARD SPRAY DRAFT UI SPRINKLERS THE HIP CURTAIN AT 'RIDGE I' Where the total number of Standard Spray Sprinklers at the hip is four or ' less: Wet Systems: Calculate the most .. . demanding five BB, SD, or HIP Sprin- klers plus up to two most demanding DRY SYSTEM SHOWN Standard Spray Sprinklers. Dry Systems: Calculate the most demanding nine BB, SD, or HIP Sprin- klers plus up to two most demand- ing Standard Spray Sprinklers . Of the nine BB,SD, or HIP Sprinklers, calcu- late up to a maximum of seven BB Sprinklers. See the adjacent upper FIRST CALCULATION Where the total number of standard spray sprinklers at the hip is greater I than four: T Wet Systems: Calculate the most demanding five BB, SD, or HIP Sprin- I klers plus up to two most demand- ing Standard Spray Sprinklers. Then I • calculate the most demanding remote design area, including all sprinklers types, as per NFPA 13. That is, area DRY SYSTEM SHOWN reduction for quick response and 30% increase for sloped ceilings. Use the SECOND CALCULATION most demanding calculation. . Dry Systems: Calculate the most demanding nine BB, SD, or HIP Sprin- klers plus up to two most demand- ing Standard Spray Sprinklers. Of the 1 '1 RIDGE . nine BB,SD, or HIP Sprinklers, cal- ... p . culate up to a maximum of seven BB Sprinklers. Seethe adjacent upper fig- :' .'.' 2535 50. FT. ure. Then calculate the most demand- .• ' ' ' (235,5 SQ. METERS ing design area, including all sprinkler types, as per NFPA 13. That is, 30% increase for sloped ceilings and 30% DRY SYSTEM SHOWN increase for dry systems. Include all NOTE: sprinkler types within this area. See Dry Pipe = 1500 SQ. Fr. (NFPA Light Hazard)x 1.3 x 1.3 = 2535 SQ. FT. the adjacent figure. TFP61O Page 25 of 28 STANDARD SPRAY /. SPRINKLERS (4 OR LESS) U. FIGURE 20-C-5. BB, SD, OR HIP SPRINKLERS AND STANDARD SPRAY SPRINKLERS IN A DOR- MER, ATA CROSS, ATA HIP, OR ATAN ELL Where the quantity of standard spray sprinklers in each dormer, cross, or ell is four or less (see the adjacent figure) and all of the dormers, crosses and ells meet the maximum four standard sprin- kler criteria, calculate the Attic Sprin- kler demand as described in Part A-i through A-6 or Part B-i through B-4, plus up to two of the most demanding standard spray sprinklers in the dormer, cross, or ell that is adjacent to the Attic Sprinklers that are being included in the demand calculation. Where the quantity of standard spray sprinklers in any dormer, cross, or ell is greater than four, refer to Figure C-3. STANDARD SPRAY SPRINKLERS - (4 OR LESS) STANDARD SPRAY SPRINKLERS (4 OR LESS) STANDARD SPRAY SPRINKLERS (4 OR LESS) FIGURE 20-C-6. BB, SD, OR HIP SPRINKLERS AND STANDARD SPRINKLERS SEPARATED BY COMPARTMENTALIZATION Calculate the Attic Sprinkler demand as described in Part A-i through A-6 or Part C-i through C-4, and then calcu- late the Standard Spray Sprinklers per NFPA 13. Use the most demanding cal- culation. See the adjacent figure. N.. .\ .\ RIDGE .. WALL DORMER BUILT ON TOP OF ROOF OR SHEATHING RIDGE • •••••••• 100' (25,4 m) (5,1 M) 60 (15,2 m) - (5Th) 40'F_ (102 • • ' • • Calculation 1 100'(25,4 m) 20 - 60' _______ 20' (5,1 m)(511 m) ' (5,1 m) 40, (10,2 m) • ' I I I I I I I iC. . Calculation 2 L _ 100' (25,4 m) 20'H 60 (15,2 m) -I (102m) Calculation 1 H (5rn) 100' (25,4 m) 60' (15,2 m) (5,1 M) 40' rF:IF (102 m)' IN I I I I I I I Calculation 2 TFP6IO Page 26 of 28 MODEL AP SPRINKLERS WET PIPE SYSTEM (Refer to Figure 20-B-3) Calculation 1: Calculate the most demanding five BB Sprinklers plus the two most demand- ing AP Sprinklers. Calculation 2: Calculate the most demanding area up to 1500 ft2 having AP Sprinklers. In this case the design area will be 800 ft2 (40 ft. x20ft.) Use the most demanding calculation to prove the adequacy of the water supply. Where AP Sprinklers are utilized, CPVC pipe may be used to supply the AP Sprinklers, as well as the ceiling sprin- klers below the AP Sprinklers. For more information, see Page 6. STANDARD SPRAY SPRINKLERS WET PIPE SYSTEM (Ref. Figure 20-C-3) Calculation 1: Calculate the most demanding five BB Sprinklers plus the two most demand- ing Standard Spray Sprinklers. Calculation 2: Calculate the most demanding remote design area, including all sprinklers types, per NFPA 13 (i.e., area reduction for quick response and 30% increase for sloped ceilings). In this case the theoretical design area is 1463 ft2 (1500 ft2 x 0.75* x 1.3). The actual design area, however, will need to be 1520 ft2 to pick up the entire coverage area of the last BB Sprinkler. Use the most demanding calculation to prove the adequacy of the water supply. Where Standard Sprinklers are utilized, CPVC pipe CANNOT be used to supply the Standard Spray Sprinklers or the ceiling sprinklers below the Standard Spray Sprinklers. * A 25% reduction for 20 ft. ceiling. FIGURE 21 EXAMPLE FOR A WET PIPE SYSTEM HYDRAULIC DESIGN AREA COMPARISON OF MODEL AP SPRINKLERS VERSES STANDARD SPRAY SPRINKLERS WHERE MODEL AP OR STANDARD SPRAY SPRINKLERS ARE USED IN HIP AREAS OUTSIDE THE SCOPE OF APPLICATION FOR MODEL BB BACK-TO-BACK SPRINKLERS 100 (25,4 m) I- ' - 60(15,2m) (10,2 m) • I I I • I I I • • • Calculation 2 L____ TFP61O Page 27 of 28 MODEL AP SPRINKLERS DRY PIPE SYSTEM (Ref. Figure 20-B-3) Calculation 1: Calculate the most demanding seven BB Sprinklers plus the two most demanding AP Sprinklers. Calculation 2: Calculate the most demanding area up to 1950 ft2 having AP Sprinklers. In this case the design area will be 800 ft2 (40 ft. x 20 ft.) Use the most demanding calculation to prove the adequacy of the water supply. STANDARD SPRAY SPRINKLERS DRY PIPE SYSTEM (Ref. Figure 20-C-3) Calculation 1: Calculate the most demanding seven BB Sprinklers plus the two most demanding Standard Spray Sprinklers. Calculation 2: Calculate the most demanding remote design area, including all sprinklers types, as per NFPA 13. That is, 30% increase for sloped ceilings and 30% increase for dry systems. In this case the theoretical design area will be 2535 ft2 (1500 ft2 x 1.3 x 1.3). The actual design area, however, will need to be 2720 ft2 to pick up the entire coverage area of the last BB Sprinkler. Use the most demanding calculation to prove the adequacy of the water supply. - 100(25,4m) (5Th) 60 (15,2 m) (511 M) (10,2 m) • •.- ----'- • Calculation 1 FIGURE 22 EXAMPLE FOR A DRY PIPE SYSTEM HYDRAULIC DESIGN AREA COMPARISON OF MODEL AP SPRINKLERS VERSES STANDARD SPRAY SPRINKLERS WHERE MODEL AP OR STANDARD SPRAY SPRINKLERS ARE USED IN HIP AREAS OUTSIDE THE SCOPE OF APPLICATION FOR MODEL BB BACK-TO-BACK SPRINKLERS TFP6IO Page 28 of 28 GLOBAL HEADQUARTERS 11400 Pennbrook Parkway, Lansdale, PA 194461 Telephone +1-215-362-0700 Copyright © 2017 Tyco Fire Products, LP. All rights reserved. tqco TEFLON is a registered trademark of DuPont, MON EL is a registered trademark of Special metals Corporation Fire Protection Products BLAZEMASTER is a registered trademark of The Lubrizol Corporation Worldwide www.tyco-fire.com Contacts Series TY-FRB, 56 K-factor Upright, Pendent, and Recessed Pendent Sprinklers Quick Response, Standard Coverage General Description The TYCO Series TY-FRB, 5.6 K-factor, Upright (TY313) and Pendent (TY323) Sprinklers described in this data sheet are quick response, standard coverage, decorative 3 mm glass bulb-type spray sprinklers designed for use in light or ordinary hazard, commercial occupan- cies such as banks, hotels, and shop- ping malls. The recessed version of the Series TY- FRB Pendent Sprinkler, where applica- ble, is intended for use in areas with a finished ceiling. This recessed pendent sprinkler uses one of the following: A two-piece Style 15 Recessed Escutcheon with recessed adjust- ment up to 5/8 inch (15,9 mm) from the flush pendent position. A two-piece Style 20 Recessed Escutcheon with recessed adjust- ment up to 1/2 inch (12,7 mm) from the flush pendent position. The adjustment provided by the Recessed Escutcheon reduces the accuracy to which the fixed pipe drops to the sprinklers must be cut. Intermediate level versions of Series TY-FRB Sprinklers are described in Technical Data Sheet TFP357. Sprin- kler guards and shields are described in Technical Data Sheet TFP780. IMPORTANT Always refer to Technical Data Sheet TFP700 for the "INSTALLER WARNING" that provides cautions with respect to handling and installation of sprinkler systems and components. Improper handling and installation can permanently damage a sprinkler system or its components and cause the sprinkler to fail to operate in a fire situation or cause it to operate prematurely. Page 1 of 4 I(.)trg The TYCO Series TY-FRB Sprinklers described herein must be installed and maintained in compliance with this doc- ument, as well as with the applicable standards of the National Fire Protec- tion Association, in addition to the stan- dards of any other authorities having jurisdiction. Failure to do so may impair the performance of these devices. The owner is responsible for maintain- ing their fire protection system and devices in proper operating condition. The installing contractor or sprinkler manufacturer should be contacted with any questions. Sprinkler Identification Number (SIN) TY313 .......Upright 5.6K, 1/2" NPT TY323 ......Pendent 5.6K, 1/2" NPT Technical Data Approvals UL and C-UL Listed FM and VdS Approved CE Certified Maximum Working Pressure 175 psi (12.1 bar) 250 psi (17.2 bar)* *The maximum working pressure of 250 psi (17.2 bar) only applies to the listing by Un- derwriters Laboratories, Inc. (UL). Discharge Coefficient K=5.6 GPM/psi112 (80,6 LPM/barl/2) Temperature Rating 135°F (57°C) 155°F (68°C) 175°F (79°C) 200°F (93°C) 286°F (141°C) JANUARY 2013 .3 12 Finishes Sprinkler: Natural Brass, Chrome Plated, Pure White (RAL 9010) and Signal White (RAL 9003). Recessed Escutcheon: White Coated, Chrome Plated, or Brass Plated Phys ical Characteristics Characteristics Frame ...................Bronze Button..............Brass/Copper Sealing Assembly .........Stainless Steel w/TEFLON Bulb ......................Glass Compression Screw........Bronze Deflector.................Bronze TFPI72 2-7/8 (73,0 mm) DIA. - - TPPI72 Page 2 of 4 Components: 1 - Frame 2 - Button 3 - Sealing Assembly * Temperature rating is ** Pipe thread connections per ISO 7-1 4 - Bulb indicated on Deflector, can be provided on special request. 5 - Compression Screw ESCUTCHEON PLATE 1/2 7/16 (11,1 mm) 6 - Deflector* DEFLECTOR * SEATING SURFACE NPT** NOMINAL MAKE-IN 1 7/16 (11,1mm) NOMINAL MAKE-IN _____ 2 mm) [17 1-3/8" '1WF (50,8 mm) (34,9 mm) 1/2 NPT** DEFLECTOR* STYLE 15 or 20 RECESSED ESCUTCHEON CROSS SECTION UPRIGHT PENDENT RECESSED PENDENT FIGURE 1 SERIES TY-FRB UPRIGHT (TY313) AND PENDENT (TY323) SPRINKLERS 5.6 K-FACTOR, 1/2 INCH NPT, QUICK RESPONSE Operation The glass bulb contains a fluid which expands when exposed to heat. When the rated temperature is reached, the fluid expands sufficiently to shatter the glass bulb, allowing the sprinkler to activate and water to flow. Design Criteria The TYCO Series TY-FRB, 5.6 K-factor, Upright (TY313) and Pendent (TY323) Sprinklers are intended for fire protec- tion systems designed in accordance with the standard installation rules rec- ognized by the applicable Listing or Approval agency (such as, UL Listing is based on the requirements of NFPA 13, and FM Approval is based on the requirements of FM's Loss Prevention Data Sheets). Only the Style 15 or Style 20 Recessed Escutcheon is to be used for recessed pendent installations. Installation The TYCO Series TY-FRB, 5.6 K-factor, Upright (1Y313) and Pendent (TY323) Sprinklers must be installed in accor- dance with this section. General Instructions Do not install any bulb-type sprinkler if the bulb is cracked or there is a loss of liquid from the bulb. With the sprin- kler held horizontally, a small air bub- ble should be present. The diameter of the air bubble is approximately 1/16 inch (1,6 mm) for the 135°F (57°C) and 3/32 inch (2,4 mm) for the 286°F (141°C) temperature ratings. A leak-tight 1/2 inch NPT sprinkler joint should be obtained by applying a min- imum to maximum torque of 7 to 14 ft.-lbs. (9,5 to 19,0 Nm). Higher levels of torque can distort the sprinkler Inlet with consequent leakage or impairment of the sprinkler. Do not attempt to compensate for insufficient adjustment in the Escutch- eon Plate by under- or over-tightening the sprinkler. Re-adjust the position of the sprinkler fitting to suit. Upright and Pendent Sprinklers The Series TY-FRB Upright and Pen- dent Sprinklers must be installed in accordance with the following instructions. Step 1. Install Pendent sprinklers in the pendent position. Install upright sprin- klers in the upright position. Step 2. With pipe-thread sealant applied to the pipe threads, hand- tighten the sprinkler into the sprinkler fitting. / WRENCH RECESS / (USE ONLY FIGURE 2 W- TYPE 6 SPRINKLER WRENCH WRENCH RECESS PUSH WRENCH IN TO ENSURE ENGAGEMENT WITH SPRINKLER WRENCHING AREA FIGURE 3 W- TYPE 7 RECESSED SPRINKLER WRENCH TFPI72 Page 3 of 4 Step 3. Tighten the sprinkler into the sprinkler fitting using only the W-Type 6 Sprinkler Wrench (Figure 2). With ref- erence to Figure 1, apply the W-Type 6 Sprinkler Wrench to the wrench flats. Torque sprinklers 7 to 14 ft.-lbs. (9,5 to 19,0 Nm). Recessed Pendent Sprinklers The Series TY-FRB Recessed Pendent Sprinklers must be installed in accor- dance with the following instructions. Step A. After installing the Style 15 or Style 20 Mounting Plate over the sprin- kler threads, and with pipe-thread sealant applied to the pipe threads, hand-tighten the sprinkler into the sprinkler fitting. Step B. Tighten the sprinkler into the sprinkler fitting using only the W-Type 7 Recessed Sprinkler Wrench (Figure 3). With reference to Figure 1, apply the W-Type 7 Recessed Sprinkler Wrench to the sprinkler wrench flats. Torque sprinklers 7 to 14 ft.-lbs. (9,5 to 19,0 Nm). Step C. After ceiling installation and fin- ishing, slide on the Style 15 or Style 20 Closure over the Series TY-FRB Sprin- kler and push the Closure over the Mounting Plate until its flange comes in contact with the ceiling. Care and Maintenance The TYCO Series TY-FRB, 5.6 K-factor, Upright (TY313) and Pendent (TY323) Sprinklers must be maintained and ser- viced in accordance with this section. Before closing a fire protection system main control valve for maintenance work on the fire protection system that it controls, obtain permission to shut down the affected fire protection systems from the proper authorities and notify all personnel who may be affected by this action. Absence of the outer piece of an escutcheon, which is used to cover a clearance hole, can delay sprinkler operation in a fire situation. The owner must assure that the sprin- klers are not used for hanging any objects and that the sprinklers are only cleaned by means of gently dusting with a feather duster; otherwise, non- operation in the event of a fire or inad- vertent operation may result. Sprinklers which are found to be leak- ing or exhibiting visible signs of corro- sion must be replaced. Automatic sprinklers must never be painted, plated, coated, or other- wise altered after leaving the factory. Modified sprinklers must be replaced. Sprinklers that have been exposed to corrosive products of combustion, but have not operated, should be replaced if they cannot be completely cleaned by wiping the sprinkler with a cloth or by brushing it with a soft bristle brush. Care must be exercised to avoid dam- age to the sprinklers - before, during, and after installation. Sprinklers dam- aged by dropping, striking, wrench twist/slippage, or the like, must be replaced. Also, replace any sprinkler that has a cracked bulb or that has lost liquid from its bulb. (Ref. Installation Section.) The owner is responsible for the inspection, testing, and maintenance of their fire protection system and devices in compliance with this document, as well as with the applicable standards of the National Fire Protection Associa- tion (e.g., NFPA 25), in addition to the standards of any other authorities hav- ing jurisdiction. Contact the installing contractor or sprinkler manufacturer regarding any questions. Automatic sprinkler systems are rec- ommended to be inspected, tested, and maintained by a qualified Inspec- tion Service in accordance with local requirements and/or national codes. 2-7/8 DIA. (73,0 mm) 2-1/4" DIA. FACE OF (57,2 mm) SPRINKLER FITTING 5/8 (15,9 mm) FLUSH 3/8±5/16 (9,5±7,9 mm) MOUNTING 1/8" J / SURFACE \ (3,2 mm) CLOSURE SERIES MOUNTING 1-3/8 (34,9 mm) TYFRB PLATE 3/4" (19,1 mm) FIGURE 4 SERIES TY-FRB RECESSED PENDENT SPRINKLER ASSEMBLY (TY323) WITH TWO PIECE 5/8 INCH TOTAL ADJUSTMENT STYLE 15 RECESSED ESCUTCHEON 2-7/8" DIA. (73,0 mm) FACE OF SPRINKLER 2-1/4" DIA. FITTING (57,2 mm) 5/16±1/4" / (7,9±6,4 mm) \ 1/2" (12,7 mm) 1 FLUSH MOUNTING / J SURFACE// (3,2 mm) CLOSURE SERIES MOUNTING 1-3/8" (34,9 mm) TYFRB PLATE 7/8" (22,2 mm) FIGURE 5 SERIES TY-FRB RECESSED PENDENT SPRINKLER ASSEMBLY (TY323) WITH TWO PIECE 1/2 INCH TOTAL ADJUSTMENT STYLE 20 RECESSED ESCUTCHEON TPPI72 Page 4 of 4 P/N* 77 - XXX - X - XXX I I SPRINKLER TEMPERATURE FINISH RATINGS SIN 1 NATURAL BRASS 370 5.6K UPRIGHT (1/2NPT) TY313 4 SIGNAL WHITE (RAL9003) 371 5.6K PENDENT (112 NPT) TY323 3 PURE WHITE (RAL 9010)** * Use suffix "I" for ISO 7-1 connection; 9 CHROME PLATED for example, 77-370-4-175-I Eastern Hemisphere sales Only 286 286-F (141-C) TABLE A SERIES TY-FRB UPRIGHT AND PENDENT SPRINKLERS - PART NUMBER SELECTION - Ordering Procedure Contact your local distributor for avail- ability. When placing an order, indicate the full product name and Part Num- ber (P/N). Sprinkler Assemblies with NPT Thread Connections Specify: Series TY-FRB (SIN), K=5.6, (Upright or Pendent) Sprinkler Quick Response, (specify) temperature rat- ing, (specify) finish, P/N (Table A). Recessed Escutcheon Specify: Style 15 Recessed Escutcheon with (specify*) finish, P/N (specify*) Specify: Style 20 Recessed Escutch- eon with (specify*) finish, P/N (specify*) * Refer to Technical Data Sheet TFP770. Sprinkler Wrench Specify: W-Type 6 Sprinkler Wrench, P/N 56-000-6-387 Specify: W-Type 7 Sprinkler Wrench, P/N 56-850-4-001 135 135-F (57-C) 155 155°F (68°C) 175 175°F (79°C) 200 200°F (93°C) GLOBAL HEADQUARTERS 11400 Pennbrook Parkway, Lansdale, PA 19446 I Telephone +1-215-362-0700 Copyright © 2013 Tyco Fire Products, LP. All rights reserved. tqco TEFLON is trademark of The DuPont Corporation. Fr2-oL —b -C( Fire Protection Products Worldwide' Contacts I www.tyco-fire.com rico cvc TFP-500 One Step Solvent Cement SDS (Safety Data Sheet) Tyco GHS SAFETY DATA SHEET Date Revised: JAN 2015 TFP-500 RED Low VOC Cement for CPVC Plastic Pipe Supersede JUN 2013 SECTION I - PRODUCT AND COMPANY IDENTIFICATION I PRODUCT NAME: TFP-500 RED Low VOC Cement for CPVC Plastic Pipe PRODUCT USE: Low VOC Solvent Cement for CPVC Plastic Pipe SUPPLIER: MANUFACTURER: IPS Corporation 17109 South Main Street, Gardena, CA 90248-3127 P.O. Boo 379, Gardena, CA 90247-0379 Tel. 1-310-898-3300 EMERGENCY: Transportation: CHEMTEL Tel. 800.255-3924, +1 813-248-0585 (International) Medical: CHEMTEL Tel. 800.255-3924, +1813-248-0585 (International) I SECTION 2 HAZARDS IDENTIFICATION - GHS CLASSIFICATION: Environmental Physical Category 4 Acute Toxicity: None Known Flammable Liquid Category 2 E Health Category 3 Chronic Toxicity: None Known : NO eCategory 2 GHS LABEL: Signal Word: WHMIS CLASSIFICATION: CLASS B, DIVISION 2 * <~> 4> Danger CLASS D, DIVISION 2B Hazard Statements Highly flammable liquid and vapor Causes serious eye irritation Harmful if inhaled May cause respiratory irritation May cause drowsiness or dizziness Suspected 01 causing cancer 5: Keep away from heat/sparks/open flames/hot surfaces - No smoking 1: Avoid breathing dusUtsmelgas/rrnistloaporolspray 5: Wear protective gloves/protective clothing/eye protection/face protection 7vP313: Gel medical advice/attention 3vP233: Store in a well ventilated place. Keep container lightly closed 1: Dispose of contents/container in accordance with local regulation I SECTION 3 - COMPOSITION!INFORMATION ON INGREDIENTS_._.. CAS# EINECS 0 REACH CONCENTRATION Pre-registration Number % by Weight Tetrahydroturan )THF) 109-99-9 203-726-8 05-2116297729-22-0000 30-60 Methyl Ethyl Ketone (MEK) 78-93-3 201-159-0 05-2116297728-24-0000 2-25 Acetone 67-64-1 200-662-2 05-2116297713-35-0000 5-15 Cyclohexanone 108-94-1 203-631-1 05-2116297718-25-0000 1 -5 All of the constituents of this adhesive product are listed on the TSCA inventory of chemical substanLes maintained by the US EPA, or are exempt from that listing. * Indicates this chemical is subject to the reporting requirements of Section 313 of the Emergency Planning and Community Right-to-Know Act of 1986 (40CFR372). 8 indicates that this chemical is found on Proposition 65's List of chemicals known to the State of California to cause cancer or reproductive toxicity. SECTION 4 FIRST AID MEASURES Contact with eyes: Flush eyes immediately with plenty of water for 15 minutes and seek medical advice immediately. Skin contact: Remove contaminated clothing and shoes. Wash skin thoroughly with soap and water. If irritation develops, seek medical advice. Inhalation: Remove to fresh air. If breathing is stopped, give artificial respiration. If breathing is difficult, give oxygen. Seek medical advice. Ingestion: Rinse mouth with water. Give 1 or 2 glasses of water or milk to dilute. Do not induce vomiting. Seek medical advice immediately. I SECTION 5 FIREFIGHTING MEASURES Suitable Extinguishing Media: Dry chemical powder, carbon dioxide gas, foam, Halon, water fog. HMIS NFPA 0-Minimal Unsuitable Extinguishing Media: Water spray or stream. Health 2 2 1-Slight Exposure Hazards: Inhalation and dermal contact Flammability 3 3 2-Moderate Combustion Products: Oxides of carbon, hydrogen chloride and smoke Reactivity 0 0 3-Serious PPE B 4-Severe Protection for Firefighters: Self-contained breathing apparatus or full-face positive pressure airline masks. I SECTION 6 ACCIDENTAL RELEASE MEASURES Personal precautions: Keep away from heat, sparks and open flame. Provide sufficient ventilation, use explosion-proof exhaust ventilation equipment or wear suitable respiratory protective equipment. Prevent contact with skin or eyes (see section 8). Environmental Precautions: Prevent product or liquids contaminated with product from entering sewers, drains, soil or open water course. Methods for Cleaning up: Clean up with sand or other inert absorbent material. Transfer to a closable steel vessel. Materials not to be used for clean up: Aluminum or plastic containers Sections 1-6 excerpt from: Filename: TFP-500 RED LoVoc 1-15,x1s Page 1 of 4 AUGUST 2015 TFPI990 None IDOT UN 1133 Cons PG II per inner packaging, JO Kg gross wergnt per these auantilies man aualifv under 1FP1990 Page 2 of 4 Tyco GHS SAFETY DATA SHEET Dare Revised: JAN 2015 TFP-500 RED Low VOC Cement for CPVC Plastic Pipe Supersedes: JUN 2013 SECTION 7 - HANDLING AND STORAGE H Handling: Avoid breathing of vapor, avoid contact with eyes, skin and clothing. Keep away from ignition sources, use only electrically grounded handling equipment and ensure adequate ventilation/fume exhaust hoods. Do not eat, drink or smoke while handling. Storage: Store in ventilated room or shade below 33CC (90F) and away from direct sunlight. Keep away from ignition sources and incompatible materials: caustics, ammonia, inorganic acids, chlorinated compounds, strong oxidizers and isocyanates. Follow all precautionary information on container label, product bulletins and solvent cementing literature. F SECTIONS PRECAUTIONS TO CONTROL EXPOSURE I PERSONAL PROTECTION - II EXPOSURE LIMITS: Component ACGIH TLV ACGIH STEL OSHA PEL OSHA STEL OSHA PEL-Ceiling CAL/OSHAPEL CAUOSHA Ceiling CAL/OSHASTEL Telrahydrofuran (THF) 50 ppm 100 ppm 200 ppm N/E N/E 200 ppm N/E 250 ppm Methyl Ethyl Ketone (MEK) 200 ppm 300 ppm 200 ppm N/E N/E 200 ppm N/E 300 ppm Acetone 500 ppm 750 ppm 1000 ppm N/E N/E 500 ppm 3000 ppm 750 ppm Cyclohexanone 20 ppm 50 ppm 50 ppm N/E N/E 25 ppm N/E N/E cnguneering s.onsroIs: use iocai exnausr as neeoeo. Monitoring: Maintain breathing zone airborne concentrations below exposure limits. Persona? Protective Equipment (PPE): Eye Protection: Avoid contact with eyes, wear splash-proof chemical goggles, face shield, safety glasses (spectacles) with brow guards and side shields, etc. as may be appropriate for the exposure. Skin Protection: Prevent contact with the skin as much as possible. Butyl rubber gloves should be used for frequent immersion. Use of solvent-resistant gloves or solvent-resistant barrier cream should provide adequate protection when normal adhesive application practices and procedures are used for making structural bonds. Respiratory Protection: Prevent inhalation of the solvents. Use in a well-ventilated room. Open doors and/or windows to ensure airflow and air changes. Use local exhaust ventilation to remove airborne contaminants from employee breathing zone and to keep contaminants below levels listed above. With normal use, the Exposure Limit Value will not usually be reached. When limits approached, use respiratory protection equipment. SECTION 9 PHYSICAL AND CHEMICAL PROPERTIES Appearance: Orange or gray, heavy syrupy liquid Odor: Ketone Odor Threshold: 0.88 ppm (Cyclohexanone) pH: Not Applicable Melting/Freezing Point: -108.5C (-163.3F) Based on first melting component: THF Boiling Range: 66CC (151F) to 156CC (313F) Boiling Point: 66CC (151*F) Based on first boiling component: THE Evaporation Rate: >1.0 (BUAC = 1) Flash Point: -20CC (4E) TCC based on THE Flammability: Category 2 Specific Gravity: 0.989 @23CC) 73E) Flammability Limits: LEL: 1.1% based on Cyclohexanone Solubility: Solvent portion soluble in water. Resin portion separates out. UEL: 11.8% based on THE Partition Coefficient n-octanol/water: Not Available . Vapor Pressure: 129 mm Hg © 20CC (68F)based on THE Auto-ignition Temperature: 321 oC (610E) based on THF Vapor Density: <2 (Air = 1) Decomposition Temperature: Not Applicable Other Data: Viscosity: Heavy bodied VOC Content: When applied as directed, per SCAQMD Rule 1168, Test Method 316A,VOC content is: 1490 g/l. I SECTION 10 STABILITY AND REACTIVITY Stability: Stable Hazardous decomposition products: None in normal use. When forced to burn, this product gives off oxides of carbon, hydrogen chloride and smoke. Conditions to avoid: Keep away from heat, sparks, open fame and other ignition sources. Incompatible Materials: Oxidizers, strong acids and bases, amines, ammonia I SECTION 11 TOXICOLOGICAL INFORMATION - Likely Routes of Exposure: Inhalation, Eye and Skin Contact Acute symptoms and effects: Inhalation: Severe overexposure may result in nausea, dizziness, headache. Can cause drowsiness, irritation of eyes and nasal passages. Eye Contact: Vapors slightly uncomfortable. Overexposure may result in severe eye injury with comeal or conjunctival inflammation on contact with the liquid. Skin Contact: Liquid contact may remove natural skin oils resulting in skin irritation. Dermatitis may occur with prolonged contact. Ingestion: May cause nausea, vomiting, diarrhea and mental sluggishness. Chronic (long-term) effects: Category 2 Carcinogen Toxicity: LDxx LC5O Target Organs Tetrahydrofuran (THE) Oral: 2842 mg/kg (rat) Inhalation 3 hrs. 21,000 mg/m' (rat) STOT SE3 Methyl Ethyl Ketone (MEK( Oral: 2737 mg/kg (rat), Dermal: 6480 mg/kg (rabbit) Inhalation 8 hrs. 23,500 mg/m' (rat) STOT SE3 Acetone Oral: 5800 mg/kg (rat) Inhalation 50,100 mg/m3 (rat) STOT SE3 Cyclohexanone Oral: 1535 mg/kg (rat), Dermal: 948 mg/kg (rabbit) Inhalation 4 hrs. 8,000 PPM )rat( Reproductive Effects Teratogenicity Mutacienicitv Embrvotoxicity Sensitization to Product Synergistic Products Not Established Not Established Not Established Not Established Not Established Not Established SECTION 12 - ECOLOGICAL INFORMATION ....., Ecotoxicity: None Known Mobility: In normal use, emission of volatile organic compounds (VOC's) to the air takes place, typically at a rate 01< 490 g/l. Degradability: Not readily biodegradable Bioaccumulation: Minimal to none. I SECTION 13 - WASTE DISPOSAL CONSIDERATIONS Follow local and national regulations. Consult disposal expert. I SECTION 14 TRANSPORT INFORMATION - - Proper Shipping Name: Adhesives Hazard Class: Secondary Risk: Identification Number: Packing Group: Label Required: Marine Pollutant: Class 3 Flammable Liquid TOG INFORMATION NO TOG CLASS. FLAMMABLE LIQUID 3 SHIPPING NAME: ADHESIVES UN NUMBER/PACKING GROUP: UN 1133, PG II Sections 7-14 excerpt from: Filename: TEP-500 RED LoVoc 1-15.xls TFPI99O Page 3 of 4 Tyco GHS SAFETY DATA SHEET Date Revised: JAN 2015 TFP-500 RED Low VOC Cement for CPVC Plastic Pipe supersedes JUN 2013 Precautionary Label Information: Highly Flammable, Irritant, Carc. Cat. 2 Ingredient Listings: USA TSCA, Europe EINECS. Canada DSL, Australia Symbols: F, Xi AICS, Korea ECL/TCCL, Japan MITI (ENCS) Risk Phrases: Ri 1: Highly flammable. R66: Repealed exposure may cause skin dryness or cracking R36137: Irritating to eyes and respiratory system. R67: Vapors may cause drowsiness and dizziness Safety Phrases: S2: Keep out of the reach of children S25: Avoid contact with eyes. S9: Keep container ins well-ventilated place. S26: In case of contact with eyes, rinse immediately with plenty of water and seek medical advice. S16: Keep away from sources of ignition - No smoking. S33: Take precautionary measures against static discharges. SECTION 16 OTHER INFORMATION Specification Information: All ingredients are compliant with the requirements of the European Department issuing data sheet: Safety Health & Environmental Affairs Directive on RoHS (Restriction of Hazardous Substances). Training necessary: Yes, training in practices and procedures contained in product literature. Reissue date! reason for reissue: 1/16/2015 / Updated OHS Standard Format Intended Use of Product: Solvent Cement for CPVC Plastic Pipe This product is intended for use by skilled individuals at their own risk. The information contained herein is based on data considered accurate based on current state of knowledge and experience. However, no warranty is expressed or implied regarding the accuracy of this data or the results to be obtained from the use thereof. Final Sections 15-16 excerpt from: Filename: TFP-500 RED LoVoc 1-15.xls TFPI99O Page 4 of 4 Limited Warranty For warranty terms and conditions, visit www.tyco-fire.com. GLOBAL HEADQUARTERS 11400 Pennbrook Parkway, Lansdale, PA 194461 Telephone +1 -215-362-0700 Copyright © 2015 Tyco Fire Products, LP. All rights reserved. t Ca Fire Protection Products GUARANTEED DOUBLE OFFSET CPVC HANGER -For mounting CPVC pipe to wood 'Flared edges help protect CPVC 'Galvanized steel construction 'Supplied with #10 hex head cap screws 'Complies with the static load requirements of NFPA® 13 'Suitable for fire protection installations For I" Pipe Easy installation Designed to mount CPVC pipe horizontally or vertically to wood or composite wood joists with a minumum 3/8" thickness. Offset edge eliminates abrasion. Installation: Per NFPA 13, 13R and 13D. Install into wood or steel. Slides onto CPVC pipe. 1" Size: Item #2530181-1 The information contained herein is produced in good faith and is believed to be reliable but is for guidance only. ARGCO and its agents cannot assume liability or responsibility for results obtained in the use of its product by persons whose methods are outside or beyond our control. It is the users responsibility to determine the suitability of any of the products, methods of use, or preparation prior to use, mentioned in our literature. It is the users responsibility to observe and adapt such precautions as may be advisable for the protection of personnel and property in the handling and use of any of our products. FOR MORE INFORMATION CALL ARGCO AT 1-800-854-1015 OR LOG ONTO WWW.ARGCO.COM I J OJT 25" ------ I ARGCO STAND-OFF TWO HOLE STRAP NO BLOCK FOR CPVC (ü File VlXH.EX6587 Designed to mount CPVC pipe horizontally or vertically to wood or composite wood joists with a minumum 3/8" thickness. Provides vertical/lateral restraint and prevents upward movement of the pipe that supplies pendant fire sprinkler below ceiling. All sizes can be used as a restrainer in the bottom position. The 3/4" size only can be used as a restrainer in the top position. Installation: Per NFPA 13, 13R and 13D. (See attached) Space by pipe type. Install into wood, concrete or steel. Snap over pipe then squeeze strap back allowing pipe to slide. Fasteners: Wood - 3/4" to 3" cvc Pipe - wood screw - no pre-drill 3/4" to 2" Copper Pipe - wood screw - no pre-drill 3/4" to 2" Steel Pipe - 1/4" x 1-1/2" lag screw - no pre-drill Steel - 3/410 3" CPVC Pipe - 1/4" TEK screw 3/4" to 2" Copper Pipe - 1/4" TEK screw 3/4" to 2" Steel Pipe - 1/4" TEK screw MAX. HANGER size part # A B SPACING ERICO 3/4" 25-30-180-3/4 2.69" 3.25" 67" 597811 25-30-180-1 2.94" 3.25" 70" 597812 1-1/4" 25-30-180-1-1/4 3.31" 3.25" 79" 597813 1.1/2" 25-30-180-1-1/2 3.56" 4.5" 82" 597814 25-30-180-2 4.06" 5" 94" 597815 -For mounting CPVC pipe to wood -Flared edges help protect CPVC Galvanized steel Supplied with #10 hex head cap screws Complies with the static load requirements of NFPA® 13 Suitable for fire protection installations Eliminates spacers or backup blocks Easy installation n top mount? bottom ec side mount The information contained herein is produced in good faith and is believed to be reliable but is for guidance only. ARGCO and its agents cannot assume liability or responsibility for results obtained in the use of its product by persons whose methods are outside or beyond our control. It is the user's responsibility to determine the suitability of any of the products, methods of use, or preparation prior to use, mentioned in our literature. It is the user's responsibility to observe and adapt such precautions as may be advisable for the protection of personnel and property in the handling and use of any of our products. FOR MORE INFORMATION CALL ARGCO AT 1-800-854.1015 OR LOG ONTO WWW.ARGCO.COM ARGCQ INSTALLATION INSTRUCTIONS STAND-OFF TWO HOLE STRAP NO BLOCK FOR CPVC Designed to mount CPVC pipe to wood or composite wood joists with a minumum 3/8" thickness. 1. Snap strap over CPVC pipe. 2. Squeeze strap back around pipe. Allowing pipe to slide back and forth. 3. Fasten the strap to the wood surface using the two hex head screws provided. NOTE: All sizes can be used as a restrainer in the bottom position. The 3/4" size only can be used as a restrainer in the top position. All safety regulations required by the jobsite must be observed. -Observe all federeal and local safety regulations -Wear safety glasses and hard hat at all times -Be aware of personnel working above and below -Wear gloves to avoid splinters and cuts. -When working above ground , be sure the structure will support your weight. ARGCO One Hole Strap for CPVC Provides support for CPVC or Polybutalene fire sprinkler piping in fire sprinkler systems installed per NFPA 13, 13R and 13D. -Fastened with a Hardened Hex Head Screw, #10xl-1/2', supplied with the strap. -Pre-galvanized finish. c\._Jus File VIXH.EX6587 3/16" MAX. HANGER CROSS REFERENCE Size Item # A B SPACING TOLCOe ERICO 3/4fl 25-30-160-3/4 r 2-7/16" 5-1/2" 12722 1070075 1 25-30-160-1 1-7/16" 2-11/16" 6' 12746 1070100 1-1/4" 25-30-160-1-1/4 1-5/8" 3-1/16' 6-1/2" 12753 1070125 1-1/2" 25-30-160-1-1/2 1-3/4" 3-5/16" 12760 1070150 2" 25-30-160-2 1-11/16" 3-3/4" 12777 1070200 hex head screw wood beam Place PVC pipe into hanger. Mount hanger into wood beam with screws proviced Installation and configuration shall conform to the requirements of the NFPA 13, instructions and applicable local codes. Install with hanger tabs upward only. Do not install on the bottom of a beam or under horizontal surface The information contained herein is produced in good faith and is believed to be reliable but is for guidance only. ARGCO and its agents cannot assume liability or responsibility for results obtained in the use of its product by persons whose methods are outside or beyond our control. It is the user's responsibility to determine the suitability of any of the products, methods of use, or preparation prior to use, mentioned in our literature. It is the user's responsibility to observe and adapt such precautions as may be advisable for the protection of personnel and property in the handling and use of any of our products. FOR MORE INFORMATION CALL ARGCO AT 1-800-854-1015 OR LOG ONTO WWW.ARGCO.COM CROSS REFERENCE Size Item # roi r(r i FRICO 3/4" 25-30-175-3/4 012845 597827 1" 25-30-175-1 012869 597828 1-1/4" IPS 25-30-175-1-1/4 012876 597829 1-1/2" IPS 25-30-175-1-1/2 012883 597831 2" IPS 25-30-175-2 012890 597832 CPVC Two-Hole 900 Side Mount Strap Top or bottom beam installation -Galvanized steel, supplied with I" hex screws c.us File VIXH.EX6587 May also be used on the underside of beam. Do anchor tightly to surface, be sure that pipe can slide freely through hanger. Snap CPVC pipe hanger into hanger. Dimples hold pipe in place. Mount hanger onto wood beam with screws provided. May be used as a guide in the upward position. Not designed to restrain upward movement of pipe. ARGCO Installation and configuration shall conform to the requirements of the NFPA 13, instructions and applicable local codes. The information contained herein is produced in good faith and is believed to be reliable but is for guidance only. ARGCO and its agents cannot assume liability or responsibility for results obtained in the use of its product by persons whose methods are outside or beyond our control. It is the user's responsibility to determine the suitability of any of the products, methods of use, or preparation prior to use, mentioned in our literature. It is the user's responsibility to observe and adapt such precautions as may be advisable for the protection of personnel and property in the handling and use of any of our products. FOR MORE INFORMATION CALL ARGCO AT 1-800-854-1015 OR LOG ONTO WWW.ARGCO.COM Designed for support or restraint fo piping in either a vertical or horizon- tal position. It can be used on top or bottom of a beam. The edges are flared to provent any damage to the CPVC pipe. It is easily attached using 2 hex head self-threading screws (supplied) cus File VIXH.EX6587 HEX HEAD SCREWS ARGCO CPVC TWO HOLE STRAP Galvanized steel construction SNAP CPVC PIPE INTO HANGER. MOUNT HANGER TO UNDERSIDE OF BEAM WITH SCREWS PROVIDED. MAY ALSO BE USED ON TOP SIDE OF BEAM. part # size 25-30-283 3/4" 25-30-284 1' 25-30-285 1-1/4" 25-30-286 1-1/2" 25-30-287 2" Galvanized steel, supplied with hex slotted screws The information contained herein is produced in good faith and is believed to be reliable but is for guidance only. ARGCO and its agents cannot assume liability or responsibility for results obtained in the use of its product by persons whose methods are outside or beyond our control. It is the user's responsibility to determine the suitability of any of the products, methods of use, or preparation prior to use, mentioned in our literature. It is the user's responsibility to observe and adapt such precautions as may be advisable for the protection of personnel and property in the handling and use of any of our products. FOR MORE INFORMATION CALL ARGCO AT 1-800-854-1015 OR LOG ONTO WWW.ARGCO.COM kq 0 0 Fire Protection Products Worldwide Contacts www.tyco-fire.com I GRINNELL G-FIRE Figure 705 Flexible Coupling General Description The GRINNELL G-FIRE Figure 705 Flexible Coupling is capable of pres- sures up to 300 psi (20,7 bar) depend- ing on pipe size and wall thickness when used in fire protection services. It provides a dependable method of joining pipe and is suitable for use in a variety of applications. Note: Rigid Couplings are recom- mended for dry pipe and freezer applications. NOTICE The Figure 705 Flexible Coupling de- scribed herein must be installed and maintained in compliance with this document and with the applicable standards of the National Fire Pro- tection Association, in addition to the standards of any authorities having ju- risdiction. Failure to do so may impair the performance of these devices. The owner is responsible for main- taining their fire protection system and devices in proper operating con- dition. Contact the installing contrac- tor or sprinkler manufacturer with any questions. Technical Data Sizes 1' to 12 (DN25 to DN300) Maximum Pressure See Figure 1 Approvals UL, FM, ULC, VdS, LPCB (Cert. Nos. 669a and 673a) Housing Ductile iron conforming to ASTM A-536, Grade 65-45-12 Protective Coatings Non-lead orange paint RAL red (optional) non-lead paint Hot dipped galvanized conforming to ASTM A-i 53 Bolt/Nuts Track Head Bolts - conforming to ASTM A-183, Zinc Plated, (Mm. Tensile = 110,000 psi/758,422 kPa), Metric - conforming to ASTM F568M Gasket (specify when ordering) Pre-lubricated Grade "A" EPDMA violet color code ambient to 150°F (66°C) for fire protection systems. Not recommended for hot water systems. Tr-seal Grade "E" EPDM, green color code -30°F to 230°F (-34°C to 110°C) (Refer to Data Sheet TFP1895 for aid in selecting proper gasket.) Care and Maintenance The GRINNELL G-FIRE Figure 705 Flexible Coupling must be maintained in accordance with this section. NOTICE Before closing a fire protection sys- tem main control valve for maintenance work on the fire protection system that it controls, obtain permission to shut down the affected fire protection sys- tem from the proper authorities and no- tify all personnel who may be affected by this action. The owner is responsible for the in- spection, testing, and maintenance of their fire protection system and devic- es in compliance with this document, as well as with the applicable stan- dards of the National Fire Protection Association (e.g., NFPA 25), in addition to the standards of any other authori- ties having jurisdiction. Contact the in- stalling contractor or sprinkler manu- facturer regarding any questions. Automatic sprinkler systems should be inspected, tested, and maintained by a qualified Inspection Service in accor- dance with local requirements and/or national code. @ Um L gULC ~ V~d ~S FL-PC-B] APPROVED For Fire Protection pressure rating, listing, and approval information, contact your GRINNELL Representative. Ordering Procedure Contact your local distributor for availability. When placing an order, indicate the full product name and Part Number (P/N). Please specify the quantity, size, (ANSI inch size or pipe O.D.), figure number, and type of gasket: Grade "A" Pre-lubricated EPDMA Grade "E" EPDM Tr-Seal Page 1 of 2 OCTOBER 2013 TFPI820 TFP 1820 Page 2 of 2 B C Nominal Pipe Size Max.t Max.t End Deflection f Max.* Nominal Dimensions Coupling Bolts Approx. ANSI O.D. Pressures End Load Gap Degrees Inches/ A B C Size** Weight Inches Inches Pt bar Lbs. kN Inches per Foot Inches Inches Inches Qty. Inches Lbs. DN mm mm Coupling mm/rn mm mm mm mm kg 1 1.315 300 407 0.13 5 0 30 1.16 2.24 3.94 1.81 2 3/8 x 2-1/4 1.3 25 33,7 2,068 1,810 3,3 96,7 56,9 100,1 46,0 M10x57 0,6 1-1/4 1.660 300 649 0.13 4°19' 0.90 2.56 4.19 1.81 2 3/8 x 2-1/4 1.5 32 42,4 2,068 2,887 3,3 75,0 65,0 106,4 46,0 M10x57 0,7 1-1/2 1.900 300 850 0.13 3°46' 0.79 2.75 4.44 1.81 2 3/8 x 2-1/4 1.6 40 48,3 2,068 3,781 3,3 65,8 69,9 112,8 46,0 M10x57 0,7 2 2.375 300 1,328 0.13 3°1' 0.63 3.25 4.88 1.88 2 3/8 x 2-1/4 1.7 50 60,3 2,068 5,907 3,3 52,5 82,6 124,0 47,8 M10x57 0,8 2-1/2 2.875 300 1,947 0.13 2°29' 0.52 3.69 5.50 1.88 2 3/8 x 2-1/4 2.0 65 73,0 2,068 8,660 3,3 43,3 93,7 139,7 47,8 M10x57 0,9 76,1mm 3.000 300 2,120 0.13 2°23' 0.50 4.00 5.75 1.88 2 M12 76 3.1 65 76,1 2,068 9,430 1 3,3 41,7 101,6 146,10 47,8 1,4 3 3.500 300 2,885 0.13 2°3' 0.43 4.38 6.50 1.88 2 1/2 x 3 3.1 80 88,9 2,068 12,832 3,3 35,8 111,3 165,1 47,8 M12 76 14 108,0mm 4.250 300 4,256 0.25 3°22' 0.70 5.50 7.50 2.06 2 M12x 76 4.2 100 108,0 2,068 18,931 6,4 58,3 139,7 190,5 52,3 1,9 4 4.500 300 4,769 0.25 3011 0.67 5.69 7.75 2.06 2 1/2 x 3 4.0 100 114,3 2,068 21,213 6,4 55,8 144,5 196,9 52,3 M12 x 76 1,8 133,0mm 5.250 300 6,494 0.25 2°44' 0.56 6.56 9.50 2.06 2 M16x83 7.2 125 133,0 2,068 28,885 6,4 46,7 166,6 241,3 52,3 3,3 139,7mm 5.500 300 7,127 0.25 2°36 0.55 6.81 9.75 2.06 2 M16x83 7.2 125 139,7 2,068 31,701 6,4 45,5 173,0 247,7 52,3 3,3 5 5.563 300 7,288 0.25 2035 0.54 6.88 9.75 2.06 2 5/8 x 3-1/4 7.1 125 141,3 2,068 32,417 6,4 45,0 174,8 247,7 52,3 M16x83 3,2 159,0mm 6.250 300 9,204 0.25 2°17' 0.48 7.56 10.31 2.06 2 M16x83 7.4 150 159,0 2,068 40,939 6,4 40,0 192,0 261,9 52,3 3,4 165,1mm 6.500 300 9,950 0.25 2°12 0.46 7.75 10.69 2.06 2 M16x83 7.1 150 165,1 2,068 44,258 6,4 38,3 196,9 271,5 52,3 3,2 6 6.625 300 10,336 0.25 2010 0.45 7.94 10.69 2.06 2 5/8 x 3-1/4 7.1 150 168,3 2,068 45,975 6,4 37,5 201,7 271,5 52,3 M16x83 3,2 216,3mm 8.516 300 17,024 0.25 1°40 0.35 10.07 13.50 2.31 2 M20x121 12.4 200 JIS 216,3 2,068 75,723 6,4 29,2 255,8 342,9 58,7 5,6 8 8.625 300 17,519 0.25 1°40 0.35 10.19 13.56 2.50 2 3/4 x 4-3/4 14.5 200 219,1 2,068 77,925 6,4 29,2 258,8 344,4 63,5 M20 121 6,6 10 10.750 250 22,679 0.25 1°20 0.28 12.69 16.38 2.63 2 1 x 6-1/2 28.0 250 1 273,0 1 1,724 1 100,876 1 6,4 23,3 1 322,3 1 416,1 1 66,8 M24 165 12,7 12 12.750 1 250 31,903 1 0.25 107 0.23 14.94 18.88 2.63 2 1 x6-1/2 36.5 300 323,9 1,724 141,905 6,4 19,2 379,5 479,6 66,8 M24 165 16,6 * Maximum available gap between pipe ends. Minimum gap = 0. t Maximum pressure and end load are total from all loads based on standard weight steel pipe. Pressure ratings and end loads may differ for other pipe materials and/or wall thickness. Contact TYCO Fire Protection Products for details. 0* Gold color coded metric bolt sizes are available upon request. 1 Max End Gap and Deflection is for cut grooved standard weight pipe. Values for roll grooved pipe will be 1/2 that of cut grooved. FIGURE 1 FIGURE 705 FLEXIBLE COUPLING NOMINAL DIMENSIONS GLOBAL HEADQUARTERS 11400 Pennbrook Parkway, Lansdale, PA 194461 Telephone +1 -215-362-0700 Copyright© 2013 Tyco Fire Products, LP. All rights reserved. tqco Fire Protection Products t11CG /Fire & Building / Products Technical Services: Tel: (800) 381-9312 I Fax: (800) 791-5500 www.tyco-fire.com Grinnell Grooved Fire Protection Products Figure 716 Flexible Reducing Coupling General Description -- @Lq UL See Fire Protection Submittal Sheet for FM Pressure Rating and Listing/Approval Information The Figure 716 Flexible Reducing Coupling allows a direct transition between two different pipe sizes, and replaces two couplings and a reducing fitting. It is capable of pressures up to 350 psig (2413 kPa) depending on pipe size and wall thickness when used in fire protection services. Note: Reducing Couplingsare not recommended for dry pipe and freezer applications. WARNING The Figure 716 Flexible Reducing Coupling describedhereinmustbeinstalledandmaintained in compliance with this document, as wellas with the applicable standards of the National Fire Protection Association, in addition to the standards of any other authorities having jurisdiction. Failure to do so may impair the performance of this device. The owner is responsible for maintaining their fire protection system and devices in proper operating condition. The installing contractor or sprinklermanufacturershouldbe contacted with any questions. Technical Data Figure: 716 Sizes: 2'x 11/2" - 8" x6" Approvals: UL, FM, ULC, VdS, and LPCB; See Fire Protection Submittal Sheet for exact Listing /Approval information. Housing: Ductile iron conforming to ASTM A-536, Grade 65-45-12 Protective Coatings: Non-lead orange paint Fire brigade red (optional) non-lead paint Hot dipped galvanized conforming to ASTM A-153 Bolt/Nuts: Track Head Bolts - conforming to ASTM A-183, Zinc Plated, (Mm. Tensile = 110,000 p5i1758,422 kPa) Metric - conforming to ASTM F568M Gasket: (specify when ordering) Grade "E" EPDM, green color code (See Data Sheet 1FP1895 for aid in selecting proper gasket) Ordering Procedure When placing an order, indicate the full product name. Please specifythe quantity, figure number, type of gasket, Grade "E" EPDM, and size. Grinnell Grooved Piping Products, valves, accessories and other products are available throughoutthe U.S., Canada, and internationally, through a network of distribution centers. You may write directly or call 215-362-0700 for the distributor nearest you. Care and Maintenance The owner is responsible for the inspection, testing, and maintenance of their fire protection system and devices in accordance with the applicable standards of the National Fire Protection Association (e.g., NFPA 25), in addition to the standards of any authority having jurisdiction. The installing contractor or product manufacturer should be contacted relative to any questions. Any impairment must be immediately corrected. It is recommended that automatic sprinkler systems be inspected, tested, and maintained by a qualified Inspection Service. Limited Warranty Products manufactured by Tyco Fire Products are warranted solely to the original Buyer for ten (10) years against defects in material and workmanship when paid for and properly installed and maintained under normal use and service. This warranty will expire ten (10) years from date of shipment byTyco Fire Products. No warranty is given for products or components manufactured by companies not affiliated by ownershipwith Tyco Fire Productsorfor products and components which have been subject to misuse, improper installation, corrosion, orwhich have not been installed, maintained, modified or repaired in accordance with applicable Standards of the National Fire Protection Association (NFPA), andlorthe standards of any other Authorities Having Jurisdiction. Materials found by Tyco Fire Products to be defective shall be either repaired or replaced, at Tyco Fire Products' sole option. Tyco Fire Products neither assumes, nor authorizes any person to assumefor it, any otherobligation in connection with the sale of products or parts of products. Tyco Fire Productsshall notbe responsible forsprinklersystem design errors or inaccurate or incomplete information supplied by Buyer or Buyer's representatives. IN NO EVENT SHALL TYCO FIRE PRODUCTS BE LIABLE, IN CONTRACT, TORT, STRICT LIABILITY OR UNDER ANY OTHER LEGAL THEORY, FOR INCIDENTAL, INDIRECT, SPECIAL OR CONSEQUENTIAL DAMAGES, INCLUDING BUTNOT LIMITED TO LABOR CHARGES, REGARDLESS OF WHETHERTYCO FIREPRODUCTS WAS INFORMED ABOUT THE POSSIBILITY OF SUCH DAMAGES, AND IN NO EVENT SHALL TYCO FIRE PRODUCTS' LIABILITY EXCEED AN AMOUNT EQUAL TO THE SALES PRICE. THE FOREGOING WARRANTY IS MADE INUEU OF ANY AND ALL OTHER WARRANTIES EXPRESS OR IMPLIED, INCLUDING WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. Page 1 of 2 July 2004 TFPI830 Page 20f2 TFP1830 Figure 716 Grooved Coupling Pipe Max. End Gap Max.t Pressure Max.t End Load Nominal Dimensions Deflection t Bolt Net Wt. 0. D. A B C Inches! °Per Size** Size Inches Inches psi Lbs. Inches Inches Inches Foot x Lbs. Coupling Dia. Lg. MM mm kPa N mm mm mm mm/rn Kg. 2' 11/2 x 2.375 x 1.900 0.13 350 992 3.50 5.06 1. 1°- 5388 0.39 !8" x 21/4" 2.0 60.3x48.8 3.3 2,413 4,412 88.9 128.5 47.8 32.5 M10x57 0.9 21/2 2" x 2.875 x 2.375 0.13 350 1,550 4.00 5.50 1.88 0.32 /e" x 21/4 2.5 73.0x60.3 3.3 2,413 6,894 101.6 139.7 47.8 1° - 33 26.7 M10x57 1.1 76.1 x60.3 3.000x2.375 0.13 350 1.550 4.19 5.88 1.88 1°-34' 0.32 M12x76 3.1 76.1x60.3 3.3 2,413 6,894 106.4 149.4 47.8 26.7 1.4 3'x2° 3.500 x 2.375 0.13 350 1,550 4.69 6.50 1.88 0.27 1/20 x 3° 45 88.9 x 60.3 3.3 2,413 6,894 119.1 165.1 47.8 1°-17' 22.5 M12 x 76 2.0 3" x 21/2' 3.500 x 2.875 0.13 350 2,271 4.69 6.50 1.88 1°- 17' 0.27 1/2" x 3" 4.6 88.9x73.0 3.3 2,413 10,101 119.1 165.1 47.8 22.5 M12x76 2.1 88.9X76.1mm 3.500x3.000 0.13 350 2,474 4.69 6.50 1.88 1°-17' 0.27 M12x76 4.5 88.9 x 76.1 3.3 2,413 11,004 119.1 165.1 47.8 22.5 2.0 4" 2' x 4.500 x 2.375 0.19 350 1,550 6.00 8.13 2.00 0.55 /" x 31/4" 7.0 114.3x 60.3 4.8 2,413 6,894 152.4 206.5 50.8 20 - 38' 45.8 M16x83 3.2 4' 21/2 x 4.500 x 2.875 0.19 350 2,271 6.00 8.13 2.00 0.55 /8" x 31/4' 6.1 114.3x 73.0 4.8 2,413 10,101 152.4 206.5 50.8 2° - 38' 45.8 M16x83 2.8 114.3X76.1mm 4.500 x 3.000 0.19 350 2,474 6.00 8.13 2.00 2°-38' 0.55 M16x83 6.2 114.3x 76.1 4.8 2,413 11,004 152.4 206.5 50.8 45.8 2.8 4" 3' x 4.500 x 3.500 0.19 350 3,366 6.00 8.13 2.00 0.55 /8 x 31/4" 6.2 114.3x88.9 4.8 2,413 14,972 152.4 206.5 50.8 2° - 38' 45.8 M16x83 2.8 139.7X114.3mm 5.500x4.500 0.25 350 5,564 7.06 9.50 2.06 2°-38' 0.55 M20x121 11.0 139.7x114.3 6.4 2,413 24,749 179.3 241.3 52.3 45.8 5.0 5"x4" 5.563x4.500 0.25 350 5,564 7.13 9.56 2.06 2°-5 0.44 3/4" X43/4" 10.1 141.3x 114.3 6.4 2,413 24,749 181.1 242.8 52.3 36.7 M20 121 4.6 165.1 x 11 4.3mm 6.500x4.500 0.25 300 4,771 8.18 10.81 2.06 10 50, 0.38 M20x121 12.5 165.1x 114.3 6.4 2,068 21,221 207.8 274.6 52.3 31.7 5.7 6"x4 6.625 x 4.500 0.25 300 4,769 8.38 10.88 2.06 1°-44' 0.36 3/4" x 43/4" 12.5 168.3x114.3 6.4 2,068 21,213 212.9 276.4 52.3 30.0 M20x121 5.7 6"x5 6.625x5.563 0.25 300 7,288 8.38 10.88 2.06 1° -44' 0.36 3/4" X43/4" 11.7 168.3x 141.3 6.4 2,068 32,417 212.9 276.4 52.3 30.0 M20 121 5.3 8" x 6" 8.625 x 6.625 0.25 300 1 10,336 10.69 13.75 1 2.25 1° -15' 0.26 7/ x 61/2 23.5 219.1x 168.3 6.4 2,068 1 45,975 271.5 1349.3 1 57.2 21.7 M22 165 10.7 ° Maximum available gap between pipe ends. Minimum gap = 0. t Maximum pressure and end load are total from all loads based on standard weight steel pipe. Pressure ratings and end loads may differ on other pipe materials and/or wall thickness. Contact Tyco Fire Products for details. See Fire Protection Equipment Submittal Sheet for Listing and Approval pressure ratings. t Max End Gap and Deflection is for cut grooved standard weight pipe. Values for roll grooved pipe will be ½ that of cut grooved. 0* Gold color coded metric bolt sizes are available upon request. General Notes: It is the Designer's responsibility to select products suitable for the intended service and to ensure that pressure ratings and performance data is not exceeded. Always read and understand the installation instructions (11-1-1 000). Never remove any piping component or corrector modify any piping deficiencies without first depressurizing and draining the system. Material and gasket selection should be verified to be compatible for the specific application. TYCO FIRE PRODUCTS, 451 North Cannon Avenue, Lansdale, Pennsylvania 19946 Printed U.S.A. tqc-u /Fire & Building / Products Technical Services: Tel: (800) 381-9312/ Fax: (800) 791-5500 www.tyco-fire.com Grinnell Grooved Fire Protection Products Grooved Fittings General Description See Fire Protection LLB Submittal Sheet for Pressure Rating and Listing/Approval Us L Information The grooved fittings provide an economical and efficient method of changing direction adding an outlet, reducing, or capping grooved piping systems. Grooved fittings are available in durable ductile iron or fabricated steel as indicated. Note: Figure 510S and 5198 fittings are special short radius fittings with smaller center to end dimensions than standard grooved fittings. Depending on the size and coupling used, there maybe interferences at the bolt pads that require repositioning of the coupling orientation. The use of flange adapters is not recommended with Figures 510S and 5198 fittings. Contact Tyco Fire Products for details. WARNING The Fittings described herein must be installed andmaintainedincompliance with this document, as well as with the applicable standards of the National Fire Protection Association, in addition to the standards of any other authorities having jurisdiction. Failure to do so may impair the performance of this device. The owner is responsible for maintaining their fire protection system and devices in proper operating condition. The installing contractor or sprinklermanufacturershouldbe contacted with any questions. Technical Data Approvals: UL, FM, ULC, VdS, and LPCB; Note: See Fire Protection Submittal Sheet for exact Listing / Approval information. Material: Cast: Figures: 201,210, 219,250,260,501,510, 519, 51 ODE, 501S, 510S and 519S - Ductile iron conforming to ASTM A-536, Grade 65-45-12 Fabricated Steel: Figures 391, 392, 393, 312, 313, 321, 327, 341 and 350- Carbon Steel, (Sizes 11/4 -6 are Schedule 40); (Sizes 8-12 are Schedule 30), conforming to ASTM A-53 Grade B Protective Coatings: Non-lead orange paint Fire brigade red (optional) non-lead paint Hot dipped galvanized conforming to ASTM A-153 Ordering Procedure When placing an order, indicate the full product name. Please specifythe quantity, figure number, wall thickness, and size. Grinnell Grooved Piping Products, valves, accessories and other products are available throughoutthe U.S., Canada, and internationally, through a network of distribution centers. You may write directly or call 215-362-0700 for the distributor nearest you. Care and Maintenance The owner is responsible for the inspection, testing, and maintenance of their fire protection system and devices in accordance with the applicable standards of the National Fire Protection Association (e.g., NFPA 25), in addition to the standards of any authority having jurisdiction. The installing contractoror product manufacturer should be contacted relative to any questions. Any impairment must be immediately corrected. It is recommended that automatic sprinkler systems be inspected, tested, and maintained by a qualified Inspection Service. Limited Warranty Products manufactured by Tyco Fire Products are warranted solely to the original Buyer for ten (10) years against defects in material and workmanship when paid for and property installed and maintained under normal use and service. This warranty will expire ten (10) years from date of shipment by Tyco Fire Products. No warranty is given for products or components manufactured by companies not affiliated by ownership with Tyco Fire Products orfor products and components which have been subject to misuse, improper installation, corrosion, orwhich have not been installed, maintained, modified or repaired in accordance with applicable Standards of the National Fire Protection Association (NFPA), and/orthe standards of any otherAuthorities Having Jurisdiction. Materials found byTyco Fire Products to be defective shall be either repaired or replaced, at Tyco Fire Products' sole option. Tyco Fire Products neither assumes, nor authorizes any person to assumeforit, any other obligation in connectionwith the sale of products or parts of products. Tyco Fire Products shall not be responsibleforsprinklersystem design errors orinaccurate or incomplete information supplied by Buyer or Buyer's representatives. IN NO EVENT SHALL TYCO FIRE PRODUCTS BE LIABLE, IN CONTRACT, TORT, STRICT LIABILITY OR UNDER ANY OTHER LEGAL THEORY, FOR INCIDENTAL, INDIRECT, SPECIAL OR CONSEQUENTIAL DAMAGES, INCLUDING BUTNOT LIMITED TO LABOR CHARGES, REGARDLESS OF WHETHERTYCO FIRE PRODUCTSWAS INFORMED ABOUT THE POSSIBILITY OF SUCH DAMAGES, AND IN NO EVENT SHALL TYCO FIRE PRODUCTS' LIABILITY EXCEED AN AMOUNT EQUAL TO THE SALES PRICE. THE FOREGOING WARRANTY IS MADE IN LIEU OF ANY AND ALL OTHER WARR4N77ES EXPRESS OR IMPLIED, INCLUDING WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTiCULAR PURPOSE. Page 1 of 6 MARCH 2011 TFPI8I0 CtoE -C to Figure 201 Figure 210 Figure 260 Figure 219 Friction Resistance* (Expressed as Equivalent Straight Pipe) Elbow Tee Size 90° 45° Branch Run Feet Feet Feet Feet Inches MM Meters Meters Meters Meters 11/4 1.9 1.0 4.8 1.9 42.4 0.6 0.3 1.5 0.6 11/2 2.3 1.2 5.8 2.3 48.3 0.7 0.4 1.8 0.7 2 3.2 1.6 8.0 3.2 60.3 1.0 0.5 2.5 1.0 21/2 3.9 2.0 9.8 3.9 73.0 1.2 0.6 3.0 1.2 76.1 4.1 2.1 10.3 4.1 1.2 0.6 3.1 1.2 3 4.9 2.4 12.2 4.9 88.9 1.5 0.7 3.7 1.5 108.0 6.5 3.3 16.3 6.5 2.0 1.0 5.0 2.0 4 6.5 3.3 16.3 6.5 114.3 2.0 1.0 5.0 2.0 133.0 8.0 4.0 20.0 8.0 2.4 1.2 6.1 2.4 139.7nm 8.0 4.1 20.0 8.0 2.4 1.3 6.1 2.4 5 8.2 4.1 20.5 8.2 141.3 2.5 1.3 6.3 2.5 159.0 9.5 4.8 23.8 9.5 2.9 1.4 7.2 2.9 165.1 m 9.5 4.8 23.8 9.5 2.9 1.4 7.2 2.9 6 9.9 5.0 24.8 9.9 168.3 3.0 1.5 7.6 3.0 216.3 13.1 6.6 32.8 13.1 4.0 2.0 10.0 4.0 8 13.1 6.6 32.8 13.1 219.1 4.0 2.0 10.0 4.0 10 16.5 8.3 41.3 16.5 273.0 5.0 2.5 12.6 5.0 12 19.9 9.9 49.7 19.9 323.4 6.1 3.0 15.1 6.1 For reducing tees and branches, use the value that is corrosporiding to the branch size. Example: for 8 x 8" x 2' tee, the branch value 2' is 8.0 feet. Friction resistance for all elbows and tees except Figures 510S and 519S. Page 2 of 6 TFP181O Figures 201, 210, 219, and 260 Figure 201 Figure 210 Figure 219 Figure 260t 45° Elbow 90° Elbow Tee End Cap Nominal C to E Appx. Wt. C to E Appx. Wt. C IT Appx. Wt. E to E Appx. Wt. Size Inches Lbs. Inches Lbs. Inches Lbs. Inches Lbs. mm Kg. mm Kg. mm Kg. mm Kg. T7 0.9 T7 1.0 1.4 0.4 11 '4 44.5 0.4 69.9 0.5 69.9 0.6 22.4 0.2 11/2 1.75 1.1 2.75 1.2 2.75 1.8 0.88 0.6 44.5 0.5 69.9 0.5 69.9 0.8 22.4 0.3 2 5 1.8 2.0 2.7 0.9 50.8 0.8 82.6 0.9 82.6 1.2 22.4 0.4 21/2 2.25 2.2 3.75 3.0 3.75 5.8 0.88 0.9 57.2 1.0 95.3 1.4 95.3 2.6 22.4 0.4 76.1 mm • 2.2 3.75 3.0 3.75 5.8 0.94 1.1 57.2 1.0 95.3 1.4 95.3 2.6 23.9 0.5 2.50 3.5 4.25 4.5 4.25 7.0 0.88 1.1 63.5 1.6 108.0 2.0 108.0 3.2 22.4 0.5 108.0mm 2.88 5.5 T7 8.5 11.5 730 2.5 120.7 3.9 120.7 5.2 - - 5.2 5.00 8.5 5.00 11.8 1.00 2.6 76.2 2.4 127.0 3.9 127.0 5.4 25.4 1.2 133.0mm 3.25 7.7 5.25 11.3 5.25 10.6 82.6 3.5 133.4 5.1 133.4 4.8 - - 139.7mm 3.25 7.7 5.50 11.3 5.50 15.3 0.92 4.7 82.6 3.5 139.7 5.1 139.7 6.9 23.4 2.1 8.5 5.50 13.5 ö 17.0 iö 5.0 82.6 3.9 139.7 6.1 139.7 7.7 25.4 2.3 159.0mm 3.50 12.0 6.00 14.6 6.00 13.9 - - 88.9 5.4 152.4 6.6 152.4 6.3 - 165.1 mm 3.50 12.0 6.50 18.5 6.50 26.0 1.00 7.5 88.9 5.4 165.1 8.4 165.1 11.8 25.4 3.4 6 ö 12.0 6.50 18.5 6.50 26.0 1.00 7.5 88.9 5.4 165.1 8.4 165.1 11.8 25.4 3.4 216.3mm 4.25 23.0 36.5 77 45.0 10&0 10.4 196.9 16.6 196.9 20.4 - - 8° 4.25 23.0 7 36.5 7 45.0 12.8 108.0 10.4 196.9 16.6 196.9 20.4 30.2 5.8 10 Irr 31.0 5 60.0 72.1 1.25 20.0 120.7 14.1 228.6 27.2 228.6 32.7 31.8 9.1 12 5.25 40.0 67.0 92.5 1.25 36.0 134 18.1 2540 30.4 2540 42.0 31.8 16.3 Available with tapped plugs, contact Tyco Fire & Building Products. Figure 501S Friction Resistance 501S, 5105 & 519S (Expressed as Equivalent Straight Pipe) Elbow Tee 90° 45° Branch Run Size Inches Feet Feet Feet Feet MM Meters Meters Meters Meters 2 3.2 1.6 8.0 3.2 60.3 1.0 0.5 2.5 1.0 21/2 3.9 2.0 9.8 3.9 73.0 1.2 0.6 3.0 1.2 76.1 4.1 2.1 10.3 4.1 1.2 0.6 3.1 1.2 3 4.9 2.4 12.2 4.9 88.9 1.5 0.7 3.7 1.5 4 6.5 3.3 16.3 6.5 114.3 2.0 1.0 5.0 2.0 8.0 4.1 20.0 8.0 139 7 °'° 2.4 1.3 6.1 2.4 5 8.2 4.1 20.5 8.2 141.3 2.5 1.3 6.3 2.5 165.1 fl1fl1 9.5 4.8 23.8 9.5 2.9 1.4 7.2 2.9 6 9.9 5.0 24.8 9.9 168.3 3.0 1.5 7.6 1 3.0 8 13.1 6.6 32.8 13.1 219.1 4.0 2.0 10.0 1 4.0 Page 3 of 6 TFP181O Figures 501,510,519 and 51 ODE 0toE C to E Figure 510 C to E Figure 519 4A - ;C to Figure 51 ODE Figure 501 Figure 501 Figure 510 Figure 519 Figure 51 ODE 45° Elbow 90° Elbow Tee 90° Drain Elbow Nominal C to E Appx. Wt. C to E Appx. Wt. C to E Appx. Wt. C to E A B Appx. Wt. Size Inches Lbs. Inches Lbs. Inches Lbs. Inches Inches Inches Lbs. mm Kg. mm Kg. mm Kg. mm mm mm Kg. 1 1 '4 1.75 0.9 2.75 1.0 2.75 1.4 44.5 0.4 69.9 0.5 69.9 0.6 - - - - 1 1 /2 1.75 1.1 2.75 1.2 2.75 1.8 44.5 0.5 69.9 0.5 69.9 0.8 - - - - 2 2.00 1.8 3.25 2.0 3.25 2.7 50.8 0.8 82.6 0.9 82.6 1.2 - - - - 21 /2 2.25 2.2 3.75 3.0 3.75 5.8 3.75 2.00 2.75 2.7 57.2 1.0 95.3 1.4 95.3 2.6 95.3 50.8 69.9 1.2 2.50 3.5 4.25 4.5 4.25 7.0 4.25 2.34 2.75 3.7 63.5 1.6 108.0 2.0 108.0 3.2 108.0 59.4 69.9 1.7 3.00 5.2 5.00 8.5 5.00 11.8 5.00 2.85 2.75 7.0 76.2 2.4 127.0 3.9 127.0 5.4 127.0 72.4 69.9 3.2 3.25 8.5 5.50 13.5 5.50 17.0 5.50 3.38 2.75 13.0 82.6 3.9 139.7 6.1 139.7 7.7 139.7 85.9 69.9 5.9 6 3.50 12.0 6.50 18.5 6.50 26.0 6.50 3.92 2.75 13.4 88.9 5.4 165.1 8.4 165.1 11.8 165.1 99.6 69.9 6.1 8 4.25 23.0 7.75 36.5 7.75 45.0 7.75 4.95 2.75 26.3 108.0 10.4 196.9 16.6 196.9 20.4 196.9 125.7 69.9 11.9 Figures 501S, 510S and 519S -G to E C to E Figure 510S* Figure 519S* Figure 501S Figure 510S Figure 519S 45° Elbow 90° Elbow Tee Nominal Appx Wt. C to E Appx. Wt. to Appx. Wt. Size Inches Lbs. Inches Lbs. Inches Lbs. mm Kg. mm Kg. mm Kg. 2 5 1.8 17 1.5 2.1 50.8 0.8 69.9 0.7 69.9 1.0 2.25 2.2 2.2 3.0 21/2'.57.2 1.0 76.2 1.0 76.2 1.4 76.1 2.25 2.2 3.00 2.3 3.00 3.1 572 1.0 76.2 1.0 76.2 1.4 3.0 3.38 4.1 63.5 1.6 85.9 1.3 85.9 1.9 3.00 5.2 4.00 5.6 4.00 7.7 76.2 2.4 101.6 2.6 101.6 3.5 139.7 3.25 7.7 8.6 W 12.0 82.6 3.5 124.0 3.9 124.0 5.4 3.25 8.5 4.88 8.8 4.88 12.0 ___ 82.6 3.9 124.0 3.9 124.0 5.4 165.1 3.50 12.0 5.50 11.00 5.50 15.0 88.9 5.4 139.7 5.0 139.7 6.8 6 3.50 12.0 11.2 15.2 88.9 5.4 139.7 5.1 139.7 6.9 8" 4.25 23.0 23.4 31.2 108.0 10.4 174.8 10.6 174.8 14.2 *Note: Figure 510S and 519S fittings are special short radius tittingswith smaiiercenterto end dimensions than standard grooved fittings. Depending on the size and coupling used, there may be Interferences at the bolt pads which requires repositioning of the coupling orientation. The use of flange adapters is not recommended with Figures 510S and 519S fittings. Contact Tyco Fire Products for details. h-EtoE-1 - -a - Figure 350 Fabricated Sizes 3" to 6" hto E-1 -M Figure 350 Fabricated Sizes 8" to 12" Pi e Nominal Dimensions Net O.D. Takeout Center to End Size Outlet Wt. A B C D Inches NPT* Inches Inches Inches Inches Lbs. Inches mm mm mm mm Kg. 1.25 1.75 1.89 0.7T- 31.8 31.8 44.5 48.0 0.3 3/4 1.25 1.75 1.89 0.77 1/2 1.900 48.3 31.8 44.5 48.0 0.3 1 1.37 2.00 2.02 0.88 34.8 50.8 51.3 0.4 1/2 1.25 1.75 1.89 0.92 31.8 44.5 48.0 0.4 3/4 1.25 1.75 1.89 0.92 2 2.375 60.3 31.8 44.5 48.0 0.4 1 1.37 2.00 2.02 1.06 34.8 50.8 51.3 0.5 1/2 1.47 1.97 1.89 1.28 373 50.0 48.0 0.6 3/4 1.47 1.97 1.89 1.28 21/2 2.875 73.0 373 50.0 48.0 0.6 1 1.37 2.00 2.02 1.50 34.8 50.8 51.3 0.7 F Page 4 of 6 TFP181O Figures 250 and 350 Figures 250 and 350 Concentric Reducer - Groove x Groove Nominal E to E Appx. Wt. Nominal E to E Appx. Wt. Nominal E to E Appx. Wt. Size Inches Lbs. Size Inches Lbs. Size Inches Lbs. Inches mm Kg. Inches mm Kg. Inches mm Kg. 2.50 1.0 3.50 4.2 4.00 5.8 *2 x 11/4 63.5 0.5 *1397 x 88.9 1.9 *6 x 101.6 2.6 2.50 1.3 3.50 4.4 5.00 12.2 2 X 11/2 63.5 0.6 1 *1397 x 4 88.9 2.0 8 x 2 1270 5.5 2.50 1.2 3.50 4.6 5.00 12.1 *2½ x 2 63.5 0.5 5 X 1/2 88.9 2.1 8 x 21/2 1270 5.5 2.50 1.5 3.50 4.6 5.00 12.0 *761 x 11/2 63.5 0.7 x 2 88.9 2.1 8 x 127.0 5.5 2.50 1.6 3.50 4.5 5.00 11.9 *761 x 2 63.5 0.8 5 x 21/ 88.9 2.0 8 x 1270 5.4 2.50 1.3 3.50 4.4 5.00 11.3 3 x 11/4 63.5 0.6 x 3 88.9 2.0 8 X 5 1270 5.1 2.50 1.3 3.50 4.5 5.00 10.8 3 x 11/2 63.5 0.6 *5 x4 88.9 2.0 8 x 6 1270 4.9 2.50 1.3 4.00 5.5 6.00 21.9 *3 x 2 63.5 0.6 *1651 x 101.6 2.5 lOx 4 152.4 10.0 3.00 1.5 4.00 6.0 6.00 21.6 *3 x 2V 76.2 0.7 *165.ln,m X 101.6 2.7 lOx 152.4 9.8 3.00 2.0 4.00 5.6 6.00 21.1 *3 x 76.1,,,,,, 76.2 0.9 *151,,,x1397,, 101.6 2.5 lOx 6 152.4 9.6 3.00 2.2 4.00 6.0 6.00 19.5 4x 11/4 76.2 1.0 *6 x 2 101.6 2.7 10x8 152.4 8.9 3.00 2.3 4.00 6.0 7.00 28.0 4 x 1½ 76.2 1.0 6 x 2½ 101.6 2.7 12 x 4 1778 12.7 3.00 2.3 4.00 6.0 7.00 30.0 *4 x 2 76.2 1.0 *6 x 76.1 101.6 2.7 12x6 1778 13.6 3.00 2.3 4.00 6.0 7.00 28.0 *4 x 21/2 76.2 1.0 6x3 101.6 2.7 12x8 1778 __ 12.7 3.00 3.2 4.00 5.9 7.00 33.0 *4 X 76.1 76.2 1.5 *6 x ' 101.6 2.7 12 X 10 1778 15.0 3.00 2.6 4.00 6.3 x 76.2 1.2 *6 x 139.7 101.6 2.9 Note: Sizes marked with an asterisk () are Only available in Figure 250 Cast. Sizes without an asterisk are only available in Figure 350 Fabricated. N Figure 250 Cast ADA CAP® ISO-7 threaded outlets are available upon request. Figures 391, Figure 312 Figure 313 392 and 393 221/20 Elbow 111/40 Elbow Adapter Nipples Nominal E to E Appx. Wt. C to E Appx. Wt. CtoE Appx. Wt. Size Inches Lbs. Inches Lbs. Inches Lbs. mm Kg. mm Kg. mm Kg. 11/40 4.00 0.8 1.75 0.4 1.38 0.4 101.6 0.4 44.5 0.2 35.1 0.2 11/20 4.00 0.9 1.75 0.5 1.38 0.5 101.6 0.4 44.5 0.2 35.1 0.2 2" 4.00 1.2 1.88 0.6 1.38 0.6 101.6 0.5 47.8 0.3 35.1 0.3 21/2 4.00 1.9 2.00 0.7 1.50 1.1 101.6 0.9 50.8 0.3 38.1 0.5 4.00 2.5 2.25 1.4 1.50 1.2 101.6 1.1 57.2 0.6 38.1 0.5 6.00 5.5 2.63 2.4 1.75 2.2 152.4 2.5 66.8 1.1 44.5 1.0 6.00 7.4 2.88 4.1 2.00 3.3 152.4 3.4 73.2 1.9 50.8 1.5 6 6.00 9.5 3.13 5.6 2.00 4.6 152.4 4.3 79.5 2.5 50.8 2.1 8 6.00 14.2 3.88 11.1 2.00 8.7 152.4 6.4 98.6 5.0 50.8 3.9 10 8.00 27.0 4.38 14.0 2.13 9.1 203.2 12.2 11.3 6.4 54.1 4.1 12" 8.00 33.0 4.88 22.0 2.25 16.7 203.2 15.0 124.0 10.0 57.2 7.6 E to E____.1 Figure 391 E to E Figure 392 E to E Figure 393 Figure 312 CtoE Figure 313 to E Figure 327 Figure 341 Cross 150 lbs. Flange Adapter C to E Appx. Wt. E to E Appx. Wt. Nominal nches Lbs. Inches Lbs. Size mm kg. mm kg. 11/4 2.75 2.0 4.00 2.8 69.6 0.9 101.6 1.3 11/20 2.75 2.2 4.00 3.2 69.9 2.0 101.6 1.5 3.25 2.7 4.0 5.2 2" 82.6 1.2 101.6 2.4 21/2 3.75 5.0 4.00 8.0 95.3 2.3 101.6 3.6 4.25 7.1 4.00 10.2 108.0 3.2 101.6 4.6 5.00 11.9 6.00 17.2 127.0 5.4 152.4 7.8 5.50 17.1 6.00 21.4 139.7 7.8 152.4 9.7 6.50 27.5 6.00 26.0 6 165.1 12.5 152.4 11.8 7.75 - 47.0 6.00 38.4 8" 196.9 21.3 152.4 17.4 9.00 68.0 8.00 65.0 10 228.6 30.8 203.2 29.5 12" 10.00 107.0 8.00 91.0 254.0 48.5 203.2 41.3 11 Figure 327 H1 EtoE Figure 341 Page 5 of 6 TFP181O Figures 391, 3929 393, 312 and 313 Figures 327 and 341 Page 6 of 6 TFP181O Figure 321 H- doE - H Figure 321 Figure 321 Reducing Tee Nominal C to E Appx. WI. Nominal C to E Appx. WI. Size Inches Lbs. Size Inches Lbs. Inches mm Kg. Inches mm Kg. 11/2 x 11/2 x 11/4 3.25 2.0 6x6x4 6.50 26.6 82.6 0.9 165.1 12.1 2 x 2 x 11/2 3.25 2.7 6 x 6 x 5 6.50 27.0 82.6 1.2 165.1 12.2 21/2 x 21/2 X 11/4 3.75 4.2 8x8x2 7.75 36.2 95.3 1.9 196.9 16.4 21/2 x 21/2 x U/2 3.75 4.2 8 x 8 x 3 7.75 36.5 95.3 1.9 196.9 16.6 21/2 x 21/2 x 2 8x8x4 7.75 36.6 95.3 2.0 196.9 16.6 3 x 3 x 11/2 4.25 5.3 8 x 8 x 5 7.75 36.8 108.0 2.4 196.9 16.7 3x3x2 4.25 5.5 8x8x6 7.75 37.0 108.0 2.5 196.9 16.8 3x3x21/2 4.25 5.8 10x10x2 9.00 57.1 108.0 2.6 228.6 25.9 4 x 4 x 11/4 5.00 9.8 lOx 10 x 3 9.00 57.4 127.0 4.4 228.6 26.0 4 x 4 x 11/2 5.00 9.9 lOx 10 x4 9.00 57.6 127.0 4.5 228.6 26.1 4x4x2 5.00 10.1 10x10x5 9.00 57.8 127.0 4.6 228.6 26.2 4 x 4 x 21/2 5.00 10.3 lOx lOx 6 9.00 58.0 127.0 4.7 228.6 26.3 4x4x3 5.00 10.5 10x10x8 9.00 58.4 127.0 4.8 228.6 26.5 5 x 5 x 2 5.50 14.5 12x 12 x3 10.00 80.2 139.7 6.6 1 254.0 36.4 5x5x21/2 5.50 14.8 12x12x4 10.00 80.5 139.7 6.7 254.0 36.5 x 5 x 3 5.50 15.2 12 x 12 x 5 10.00 80.7 139.7 6.9 254.0 36.6 5x5x4 5.50 15.8 12x12x6 10.00 80.9 139.7 7.2 254.0 36.7 6x6x2 6.50 26.5 12x12x8 10.00 91.4 165.1 11.9 1 254.0 41.5 6 x 6 x 21/2 6.50 26.5 12 x 12 x 10 10.00 91.8 165.1 12.0 254.0 41.6 6x6x3 6.50 26.5 165.1 12.0 General Notes: It is the Designer's responsibility to select products suitable for the intended service and to ensure ISO that pressure ratings and performance data is not exceeded. Always read and understand the installation instructions 9001 (I1-1-1000). Never remove any piping component or correct or modify any piping deficiencies without first depressurizing and draining the system. Material and gasket selection should be verified to be compatible for the specific application. Certified Company TYCO FIRE PRODUCTS, 451 North Cannon Avenue, Lansdale, Pennsylvania 19946 Printed U.S.A. ~eU07~7 Contacts I Worldwide www.tyco-fire.com GRINNELL G-FIRE Figure 577 Grooved Rigid Coupling 1 Inch to 12 Inch (DN25 to DN300) General Description For use in fire protection systems, the GRINNELL G-FIRE Figure 577 Grooved Rigid Coupling provides a rigid joint by firmly gripping along the full circumfer- ence of the pipe grooves. Figure 577 Grooved Rigid Couplings are a proven dependable method of joining pipe and are an economical alternative to weld- ing, threading, or using flanges. It is ca- pable of pressures up to 350 psi (24, 1 bar) depending on pipe size and wall thickness when used in fire protection services. NOTICE Never remove any piping component nor correct or modify any piping defi- ciencies without first de-pressurizing and draining the system. Failure to do so may result in serious personal injury, property damage, and/or impaired de- vice performance. It is the designer's responsibility to se- lect products suitable for the intended service and to ensure that pressure ratings and performance data are not exceeded. Material and gasket selec- tion should be verified to be compat- ible for the specific application. Always read and understand the installation instructions. The GRINNELL G-FIRE Figure 577 Grooved Rigid Coupling described herein must be installed and maintained in compliance with this document, as well as with the applicable standards of the Approval agency, in addition to the standards of any other authorities hav- ing jurisdiction. Failure to do so may re- sult in serious personal injury or impair the performance of these devices. The owner is responsible for maintain- ing their mechanical system and devic- es in proper operating condition. The installing contractor or device manu- facturer should be contacted with any questions. Technical Data Approvals UL, FM, ULC, VdS, and LPCB Sizes 1 Inch to 12 Inch (DN25 to DN300) Housing Ductile iron conforming to ASTM A 536, Grade 65-45-12 Finish Orange non-lead paint Red non-lead paint Hot-dipped, Galvanized conforming to ASTM A 153 Bolts/Nuts ANSI: Carbon Steel oval neck track head bolts are heat-treated and conform to the physical properties of ASTM A 183 Grade 2 and SAE J429 Grade 5 with a minimum tensile strength of 110,000 psi. Carbon Steel heavy hex nuts con- form to the physical properties of ASTM A 183 Grade 2 and SAE J995 Grade 5. Bolts and nuts are zinc- electroplated conforming to ASTM B 633. Stainless Steel Bolts and Nuts are available upon request. Metric: Carbon steel oval neck track head bolts (Gold color coded) are heat- treated and conform to the physical properties of ASTM F 568 M with a minimum tensile strength of 760 MPa. Carbon Steel heavy hex nuts con- form to the physical properties of ASTM A 563 M Class 9. Bolts and nuts are zinc-electroplated conform- ing to ASTM B 633. ~ gUL~ ~~g ~~ F=7 For Fire Protection pressure rating, listing, and approval information, contact your GRINNELL Representative. Gaskets Pre-lubricated Grade 'A" EPDMA, Violet color code, -30° F to 150°F (-34°C to 66°C) Not recommended for hot water systems For dry and freezer systems, lubrica- tion is required. Refer to Installation Manual IH-1000FP for details. Tr-Seal Grade "E" EPDM, Green color code, -30°F to 150° F (-34°C to 66°C) For proper gasket selection, refer to Technical Data Sheet TFP1895. Page 1 of 4 MARCH 2013 TFP1854 TFPIS54 Page 2 of 4 'NI Pipe Size Max. b) Max. b) Max. Nominal Dimensions Coupling Bolts Approx. Nominal ANSI O.D. Pressures End Load End Gap A B C Size (c) Weight Inches Inches psi (bar) Lbs. (kN) Inches (mm) Inches Inches Inches Qty. Inches Lbs. (kg) DN (mm) (mm) (mm) (mm) (mm) 1 1.315 350 475 0.06 1.63 3.92 1.65 2 3/8 x 2-1/4 1.2 DN25 (33,4) (24,1) (2,11) (1,5) (41) (100) (42) M10 x 57 (0,55) 1-1/4 1.660 350 757 0.06 2.66 4.40 1.64 2 3/8 x 2-1/4 1.3 DN32 (42,2) (24,1) (3,37) (1,5) (68) (112) (42) MiD x 57 (0,59) 1-1/2 1.900 350 992 0.06 2.90 4.66 1.66 2 3/8 x 2-1/4 1.5 DN40 (48,3) (24,1) (4,41) (1,5) (74) (118) (42) - M10 x 57 (0,68) 2 2.375 350 1,551 0.06 3.38 5.20 1.70 2 3/8 x 2-1/4 1.8 DN50 (60,3) (24,1) (6,90) (1,5) (86) (132) M10 x 57 (0,82) 2-1/2 2.875 350 2,272 0.06 3.88 5.64 1.75 2 3/8 x 2-1/4 2.0 DN65 (73,0) (24,1) (10,11) (1,5) (99) (143) - M10 x 57 (0,91) - 3.000 350 2,474 0.06 4.00 5.78 1.75 2 - 2.0 DN65 (76,2) (24,1) (11,01) (1,5) (102) (147) (44) M10 x 57 (0,91) 3 3.500 350 3,367 0.06 4.50 6.33 1.75 2 3/8 x 2-1/4 3.3 DN80 (88,9) (24,1) (14,98) (1,5) (114) (161) (44) M10 x 57 (1,50) 4 4.500 300 4,771 0.06 5.70 7.50 1.83 2 3/8 x 2-1/4 3.3 DN100 (114,3) (20,7) (21,22) (1,5) (145) (191) (46) - M10 x 57 (1,50) - 5.500 300 7,127 0.125 6.80 8.75 1.91 - 5.3 DN125 (139,7) (20,7) (31,71) (3,2) (173) (222) (49) 2M12 x 76 (2,41) 5 5.563 300 7,290 0.125 6.86 8.82 1.91 2 1/2 x 3 5.3 DN125 (141,3) (20,7) (32,43) (3,2) (174) (224) (49) - M12 x 76 (2,41) - 6.500 300 9,955 0.125 7.80 9.75 1.91 - 5.7 DN150 (165,1) (20,7) (44,28) (3,2) (198) (248) (49) 2M12 x 76 (2,59) 6 6.625 300 10,341 0.125 8.47 9.88 1.91 2 1/2 x 3 5.9 DN150 (168,3) (20,7) (46.00) (3,2) (215) (251) (49) 1 M12 x 76 (2,68) 8 8.625 300 17,528 0.125 10.25 12.78 2.40 2 5/8 x 3-1/4 11.7 DN200 (219,1) (20,7) (77,97) (3,2) (260) (325) (61) M16 x 83 (5,32) 10(e) 10.750 175 15,883 0.25 12.50 16.50 2.56 2 3/4 x 4-3/4 19.5 N250 (273,1) (12,1) (70,7) (6,4) (318) (419) (65) M2 x 121 L 12.750 175 22,343 0.25 (8,86) 12(e) 14.50 22.0 N300 18.50 2.56 24-3/4 (323,9) (12,1) (99,4) (6,4) (368) (470) (65) - M20 x 121 (10,00) Maximum available gap between pipe ends. Minimum gap = 0. Maximum Pressure and End Load are total from all loads based on standard weight steel pipe. Pressure ratings and end loads may differ for other pipe materials and/or wall thickness. Contact your GRINNELL Representative. Gold color coded metric bolt sizes for DN25 - DN300 couplings are available upon request. Max End Gap is for cut grooved standard weight pipe. For 10 inch and 12 inch sizes where VdS Approval is required, refer to Figure 772, Technical Data Sheet G140. FIGURE 1 FIGURE 577, GROOVED RIGID COUPLING, 1 INCH TO 12 INCH (DN25 TO DN300) DIMENSIONS TFPI 854 Page 3 of 4 Care and Maintenance Before closing a fire protection system main control valve for maintenance work on the fire protection system that it controls, obtain permission to shut down the affected fire protection sys- tem from the proper authorities and no- tify all personnel who may be affected by this decision. After placing a fire protection system in service, notify the proper authorities and advise those responsible for moni- toring proprietary and/or central station alarms. The owner is responsible for the in- spection, testing, and maintenance of their fire protection system and devices in compliance with this document, as well as with the applicable standards of the National Fire Protection Association (e.g., NFPA 25), in addition to the stan- dards of any authority having jurisdic- tion. The installing contractor or prod- uct manufacturer should be contacted relative to any questions. Any impair- ments must be immediately corrected. Automatic sprinkler systems are recom- mended to be inspected, tested, and maintained by a qualified Inspection Service in accordance with local re- quirements and/or national codes. Ordering Procedure GRINNELL Products are available glo- bally through a network of distribution centers. For the nearest distributor, visit www.grinnell.com. When placing an or- der, indicate the full product name. Specify G-FIRE Figure 577 Grooved Rigid Coupling, quantity, pipe size (Nominal ANSI or OD.), finish (Orange, Red, or Galvanized), and type of gasket: Pre-lubricated Grade "A" EPDMA Tr-Seal Grade "E" EPDM TFPI 854 Page 4 of 4 GLOBAL HEADQUARTERS 11400 Pennbrook Parkway, Lansdale, PA 194461 Telephone +1-215-362-0700 Copyright © 2013 Tyco Fire Products, LP. All rights reserved. tqco Not less than Wood Flooring SAMMYS FOR WOOD No pre-drilling required. Quick to install using the Sammy Nut Driver with an 18V cordless drill/driver. Saves time from traditional methods. Reduces installation costs. Made in the U.S.A. Watch a video demonstration at www.itwbulldex.com a. #14 Black Nut Driver Part # 8113910 i . #14 SW Red Nut Driver Part #8114910 LATAl1tiTe1T1 . 1/4 8002957 GST 100 1/4 210 (7116"OSB) 25 125 8003957 GST 200 1/4x2 1760 (Ffr) 25 125 1/4 8004957 GST 300 1/403' 2060 (Fir) 25 125 3/8 8007957 GST 10 1/4 x1" 210 (7116" OSB) 300 25 125 3/8 8008957 GST 20 1/4x2 1760 (Fir) 850 1475 25 125 [8 8068925 GST20SS 1/4x2 1760(Fc) 850 25125 3/8" 8009925 GST 25-380 318 x 2-1/2" 2113 (Fir) 1500 25 125 8010957 _GST 30- 1/4x3 2060 (Es) 1500 1475 - 25 125 3/8" 8069925 GST 30-SS 1/40 3" 2060 (Fir) 25 125 F - 3/8" 8011925 GST40 1/4x4 2180 (Fir) - 25 125 1/2' 8013925 GST 2 1/4x2" 1760 (Fir) 25 125 L 1/2 8014925 GST 2S-380 3/8x21/2 23 (Fs) - - 25 1' 1/2 8015925 GST 3 1/40 3" 2275 (Fir) 25 125 MAOEU.S.AV© SPECIAL NUT DRIVER SYSTEM: The nut drivers were designed with a unique spin-off feature which provides a fast and sate installation each time. When the face of the driver comes into contact with the material you are installing into, continue drilling until nut driver spins free. Installation is then complete. Warranty requires the use of the appropriate nut driver for installations. SPAOMMY.T FOR STEEL no ELI vequvle Made with Tekse self-drilling fasteners - no pre-drilling required. Installs into steel range from 20 gauge - 1/2' thicknesses. Saves time from traditional methods. Reduces installation costs. Quick to install using the Sammys Nut Driver with an 1 SV cordless drill/driver. A standard screwgun with a depth sensitive nosepiece should be used to install Teks. For optimal fastener performance, the screwgun should be a minimum of 6 amps and have an RPM range of 0-2500. 'Made in the U.S.A. Wh a video demonstration at www.itwbuildex.com 114" 8024957 DSTR 100 * 1/4-20 xl" TEKS 3 1510 (20 ga.) .036-20 ga 3/16" 25 125 1/4 8025957 EST 160 - 1/414x1 TEKS 3 446 (209a) - - 036 20ga 3/16 25 125 1/4" 8026957 DST 150 1/4-14 x 1-1/2" TEKS 3 970 (16ga.) .036"-20ga 3/16" 25 125 1/48027957 DST 200. 1/4-14-x 2 TEKS3 446 (20ga) 036 20ga 3/16 25125 1/4" 8030957 TEN 500 12-24 x 1-112" TEKS 5 3125 (3/16") .188-3/16" 112" 25 125 I ® Q 3/88038957 DSTR1 1/42O 1EK53Th10)20ga)1500 75O362Oga 3/16 25 125j * o0. 3/8" 8037957 DSTR 1-1/2" 12-24 x 1-112" TEKS 5 1510 (3/16") 1500 1475 .060%16 ga. 1/2" 25 125 #14 Black [°' 3/8 8039957 PSTRS16" 5/16-18x1-1/4"TEKS3 2200(2oga.) 1500 1475 .036"-20ga 3/16" 251251 Nut Driver Part #8113910 3/8" 8040957 DST 10 1/4-14x 1"TEKS 3 446 (20 .036"-20 ga - 3/16' 25 125 - 3/8' 8077925 DST 10-SS 1/4-14x1" TEKS 3 - - 446 (20 ga.) - -. .036"-20 ga 3/16' 25 125' 1_ ---------- ---------. - 970 1 - 3/8' 8041957 DST 15 1/4-14x 1-1/2" TEKS 3 446 (20 ga.) .036"-20 ga 3/16" 25 125 970 (16 ga.) 3/8" 8078925 DST 15-SS 1/4-14 x 1-1/2" TEKS 3 446 (20 ga.) .036"-20 ga 3/16' 25 125 [ 3/8" 8042957 DST 20 1/4-14 x 2" TEKS 3 446 (20 ga.) .036-20 ga 3/16' 25 125 970 (16ga.) 318" 8043957 DST 25 1/4-14 x 2-1/2" TEKS 3- 446 (20 .036"-209a 3/16" 25 125 3/8" 8044957 DST 30 1/4-14 x 3" TEKS 3 446 (20 ga.) .036-20 ga 3/16" 25 125 970 (16 ga.) 3/8'.8045957 DST 516 5/16-18 x 1-1/4" TEKS 3 1500 (3/16") 1500 1475 .125-1/8" 3/16" 25 125 3/8" 8046957 TEK 50 12-24 x 1-1/2" TEKS 5 3125 (3116") 1500 1475 .250-1/4" 1/2" 25 125 1 1/2" 8031925 DST 2.0 1/4-14 x-2-" TEKS 3 .188-3/16" 114' 25 125 "" 1/2" 8033925 DSTR 1.0 * 1/4-20 x 1" TEKS 3 1510 (20 ga.) .036-20 ga - .188-3/16' 3/16" 25 125 1/2" 8034925 DSTR 5.16" 5/16-18 x 1-1/4" TEKS 3 2220 (20 ga:) - 036"-20ga - 3/16" 25 125 1/2" 8035925 DST 5.16 5/16-18 x 1-1/4" TEKS 3 1500 (3116") .125-1/8" 3/16" 25 125 #14 SW Red - 1/2" 8036925 TEK 5.0 12-24x1-1/2" TEKS 5 3125 (3/16") -. 1/2" 25 125 - Nut Driver -. -- - - - --- - - - - - - Part #8114910 "Includes retaining nut — SPECIAL NUT DRIVER SYSTEM: The nut drivers were designed with a unique spin-off feature which provides a fast and safe installation alm each time. When the face of the driver comes into contact with the material you are installing into, continue drilling until nut driver spins 7 WADE free. Installation is then complete. Warranty requires the use of the appropriate nutdriver for installations. IN USA Made with Teks® self-drilling fasteners - no pre-drilling required. nO . Installs into steel range from 20 gauge - 1/2 thicknesses. fl9 A standard screwgun with a depth sensitive nosepiece should be used to pie- 1,ured install Teks. For optimal fastener performance, the screwgun should be a - minimum of 6 amps and have an RPM range of 0-2500. Saves time from traditional methods. Reduces installation costs. Quick to install using the Sammys Nut Driver with an 18V cordless drill/driver. Walsh a olden demonstration Made in the U.S.A. www.jtwbujjdex.com Approvals Rod Size Part Model Number Screw Descriptions Ultimate LIL Test FM Test Min Max Pullout (Ibs) Load (Ibs) Load (Ibs) Thickness Thickness Case Box Gty Qty 1/4 8047957 SWD 100 1/4-14 xl" TEKS 3 1477 (16 ga.) .060"-16 ga 3/16" 25 125 [ 1/4 8049957 SWDR 100 1/420x 1 TEKS3 00(20g - 036 20 ga 3/16 25 3/8" 8050957 SWD 10 1/4-14x 1" TEKS 3 1477 (16 ga.) .060-16 ga 3/16 25 125 3/8 8080925 SWD10-SS1/414x1 TEKS 3 1477 )16ga) 060 16ga 3/16 25 125 3/8" 8051957 SWD 15 1/4-14 x 1-112" TEKS 3 1477 (16 ga.) .060"-l6ga 3/16' 25 125 [ = 3/8 8052957 SWD2O1/414x2TEKS3i477(l6ga) 060 l6ga 3/16 25 1251 - 3/8" 8053957 SWD 516 5116-18x 1-1/4" TEKS 3 2480 (20g3.) .0361-20 ga 3/16" 25 125 3/8 8055957 SW15R1 1/420x1TEKS3 1900(20ga) 00 1475 —.03-6"-2-0ga 3/16 25 125' #14 SW Red 3/8" 8054957 SWDR 1-1/2" 12-24 x 1-1/2" TEKS 5 2375 (3/16") 1500 1475 .188-3/16" 1/2" 25 125 Nut Driver 3/8 8056957 SWDR 516 5/16-18x11/4 TEKS3 2480 (20 ga.) 1500 1475 3/16 -.0-36-"-20-ga 25 fl Part #8114910 — 3/8" 8057957 SWT 15 12-24x1-1/2" TEKS 5 2375 (3/16") .188-3/16" 1/2" 25 125 *Includes retaining nut SAMMYS SWIVEL HEAD FOR STEEL - Swivel Application — 2368 (1/2" steel Vertical) TEKS 5 2281 (3/16" HSS) 1585(3/16" HSS 45" off Vertical) 3/8" 8268957 SH-TEK 50 12-24 x 1-3/4" 1306 (45" off Vertical) 2368 (1/2" steel Vertical) 12-24x1-314" 1306 (45" off Vertical) 1/2" 8270957 SH-TEK 5.0 TEKS 5 2281 (3/16" HSS) #14 SH Orange ' 1585 (3/16" HSS 45" off Vertical) Nut Driver Part # 8273910 "Does not comply with ROHS requirements/Includes retaining nut 1500 (Vertical) 4" 3/16" 1/2" 25 125 850 )45" off Vertical) 2-1/2" 3/16" 1/2" 25 125 1 SAIl/lillY X,.PRESSO Installs into Metal Deck, Purlin, or Tubular Steel / "--- - -----. --- ,- .- .--. The Sammy X-Press expands to provide direct vertical attachment in: - light gauge steel deck or purlin (22 ga. - 1/8"). Installs in seconds with Sammy X-Press Ite Tool saving time & installation costs. Use in applications where access to the back of the installed fastener is prohibited. ie. metal roof deck, tubular steel, or vapor barrier fabric. Less jobsite material needed. No retaining nut required. Provides design flexibility. Made in the U.S.A. Watch a cider demorstratioa at www.itwbuildex.com 1/4" 8181922 XP 290 Sammy 1146122 gal 185 (Luminaire) .027" .125' 25 125 Metal Deck X-Press 200 250 (Luminaire) .056 850(2W' Pipe) .027' Sammy 940 2' Pipe) 029 .L rd3r 3/8' 8150922 XP 20 X-Press 20 1146 (22 gal 185 (Luminaire) 250 (Luminaire) .027 .056" 1475 (4 Pipe) 104" .125" 25 125 Metal Deck 283 (Conduit & Cable) .029" 1500(4" Pipe) .060" &- 3/8' 8153922 XP 35 Sammy 1783 (16 gu) 185 (Luminaire) .029" 940 IT Pipe) .029' .125' 25 125 Purlin X-Press35 258 (Luminaire) 056" 1475 4) i?" 416 (Conduit & Cable) .059" r Metal Deck 3/8' 8150922 20 XP mm' Pre-Pour Structural Concrete@ 3000 psi p p our) I r[ X- Press 1146 (22 ga) 850 (2% Pipe) 25 125 Metal Deck a e -- --.----.-----.-.-- -----------------. Post-Pour Range II LWC~ 35 PCF (lbs/ft( _.(Post -Pour) Pre-Pour Structural Concrete @3000 psi Post-Pour Range II LWC:5 35 PCF llbs/ft'l The Sidewinder X-Press expands to provide 'Less jobsite material needed. horizontal attachment in: - 16 ga - 3/16" steel - purlin, tubular steel. No retaining nut required. Installs in seconds with Sammy X-Press lt Tool, Provides design flexibility. HEWXPH _ saving time & installation costs. 'Made in the U.S.A. Use in applications where access to the back of the installed fastener is prohibited; ie. metal roof deck, tubular steel, or vapor harder fabric. Watrhacideodemonsrrat1or1\ www.itwbulldex.comj 1250 (3W Pipe) £ 3/8" 8293957 S/I4P 35 Sidewinder X-Press 35 1798 (16 gal 80 (Luminaire) .059" .125" 25 125 Purlin - 416 (Conduit& Cable) - -. AfRowl MADEINU.SA V for Lcefl'e or rant heS roof pitC 6~AHNTZ @ The Swivel X-Press allows you to hang plumb in extreme roof pitches: - 89" in z-pudin - 45*in metal deck for 12/12 pitch Installs in seconds with Sammy X-Press 11e Tool, saving time & installation costs. Use in applications where access to the back of the installed fastener is prohibited. ie. metal roof deck, tubular steel, or vapor barrier fabric. Less jobsite material needed. No retaining nut required. Provides design flexibility. Made in the U.S.A. 16-1 Watch. video dem000t,ation at www.itwbuildex.com LLI_ 75012" Pipe) 170 Vertical (Luminaire) 3/8" 8294922 SXP 20 Swivel 1061 (22 gavert) 80 @45" (Luminaire) .029" 635 (2" Pipe) .029" .125" 25 125 Metal Deck X-Press 829 (45* 0 e11) 283 Vertical (Conduit & Cable( - 233@45" (Conduit &Cable) . ______----------- 1250 (3-1/2 Pipe) 250 Vertical )Luminaire) 3/8" 8295922 SXP 35 Swivel 1675 (16 ga Vert) X-Press35 1558 189" Off Vert) 500 Vertical (Conduit & Cable) .059" 635 (2" Pipe) .029" .125" 25 125 Purlin 333 @ 89" (Conduit & Cable) E---------- ---..-.---. --------.--.----- --- Swivel 1061 (22 a Vert) 1/2" 8272957 SXP 2.0 .827" 125" 25 125 Metal Deck Swivel 1675)16gaVert) 1/2 8271957 SXP 3.5 X-Press 35 1558)89" Off Vert) .060" .125" 25 125 Purlin , Vj/1 IT"Installation Tool Application Product I direct vertical attachment in: metal deck (22-16 gauge) z-purlin (18-16 gauge) "Made in the USA : Watch a video demonstratii 7t Part Number Model I11';k.ii Qty 8194910 UXPIT" Universal X-Press It-Tool, - 1 -- 8152910 XPDB 25/64' Drill Bit 1 "Tool Includes: sleeve, Oil Receiver, Hex Wrench, and 251u4 Drill Bit. Easy two step process (Drill hole & 4 P i • P "~ drive Sammys concrete anchor). Z3 05 D pre-drilled pilot hole required. :O4" "Concrete Installation Tool available for a one tool installation process. 0 Made in the U.S.A. P PP.0 Vtth a video wwwitwbuiid demoenstratix.comon at SAMM YS FOR CONCRETE #14 Black 1/4" 8058957 CST 200 5/1601-3/4 2400 25 125 Part#81139 I Q_ 1_L_ 6ST270 2400 - 1475 25 125 #14SW Red 3/8" 8145925 CST 20-SS 5/16x1-3/4" 2400 25 125 Nut Driver [ 1/2" 8060925 CST 2 5/160 1-3/4" 2400 25 125 j Part #8114910 "Tested in 3055 PSI concrete WB _________________ Easy two step process (Drill hole & drive Sammys concrete anchor). o t"n0 V.0 - pre-drilled pilot hole required. _________ ri a '" Concrete Installation Tool available for a one tool P installation process. 70 LOOP' 0. o Made in the U.S.A. Oe Watch a video demonstration at www.itwbulldex.com I RHORIZ #14SW Red Nut Driver Part# 8114910 1/4 8062957 SWC 200 3/8" 8061957 SWC 20 5116x1-3/4" — 2450 25 125 5/16x 1-3/4" 2450 - 1475 - 25 125 "Tested in 3000 PSI concrete === SPECIAL NUT DRIVER SYSTEM: The nut drivers were designed with a unique spin-off feature which provides a fast and safe installation each time. When the face of the driver comes into contact with the material you are installing into, continue drilling until nut driver spins free. Installation is then complete. Warranty requires the use of the appropriate nut driver for installations. AOC IN U.S.A 10 i, .. ç ", :•• pIrrw 1hrod oIi 7. nn .,no F P P I Description Pipefit® Thread Sealing Paste with PTFE is a premium non-hardening PTFE filled pipe thread sealing paste designed specifically for the fire sprinkler industry. Pipefit is suitable for use on all threadable materials commonly used in fire sprinkler systems, including CPVC. Pipefit's unique blend of materials provides superior thread sealing qualities over other similarly priced sealants. The particulate PTFE also helps prevent leaks by accumulating in the voids of damaged or defective threads of the pipe or fittings. Additionally, the lubricating qualities of the PTFE and other materials in the sealing paste improve thread seating during pipe and fitting assembly. Pipefit® also adheres well to hot oily pipe present in "high speed' fabrication operations. Design Criteria/Data Recommended Use Water Air Refrigerants Natural Gas Mild caustics Steam Kerosene LP Gases Acids Gasoline Diesel Fuel Ammonia Use for threaded connections on steel, aluminum, brass, PVC, CPVC and ABS. Operating temperature ranges -50 f to 500 f. FB(/;'. SYSTEM COMPATiBLE *FBCT1 System Compatible indicates this product has been tested by Lubrizol Advanced Materials and is monitored on an on going basis to assure chemical compatibility with FlowGuard Gold®, BlazeMaster®, and Corzan® pipe and fittings. 3198 LIONSHEAD AVE CARLSBAD, CA 92010 TEL +1 760 599-1168 + 1 800 344-1822 FAX + 1800 344-3775 Installation Make sure that the threads are free from burs and other debris. Apply Pipefit® liberally to the male pipe threads. Make sure that the thread sealant is brushed into the "root" of the threads. Do not wipe off excess material until fitting has been "made on" to the pipe thread. The threading action of the fitting to the pipe will allow the proper amount of sealant to remain in the connection. Wipe off excess sealant. Pipef it® will not dry out under normal conditions. Never use dope and tape together. Keep covered when not in use to avoid contamination. Some settling of the product may occur. Occasional stirring may be necessary. Two year shelf life. Disclaimer DO NOT ALTER THE CONSISTENCY OF THIS PRODUCT. Use as is directly from the container. Keep away from your mouth and eyes. If eye contact occurs, flush with water for 5 minutes. If discomfort persists get medical attention. Specifications Appearance: Dense, paste-like consistency, off white in color. Packaging: 16 oz. brush in cap 32 oz. 32 oz. BlC igl. 5g1. 55g1. CAUTION: See MSDS for first aid instructions. Wash hands thoroughly after each use. See Material Safety Data Sheet for additional safety and disposal information at www.fppi.com WW © 2012 Fire Protection Products, Inc. FPPI®, Lubel`10 are registered trademarks of Fire Protection Products, Inc. FBC', BIazeMaste,, FlowGuard GoIcP and Co,zan® are registered trademarks of Noveon IP Holdings Corp. MADE IN U.S.A. Fire Protection Products, Inc 3198 Lionshead Avenue Carlsbad, CA 92010 F P P I Phone: (760) 599-1168 INC,Fax: (800) 344-3775 MATERIAL SAFETY DATA SHEET Last Updated: 06101/2013 ThreadFit© Cutting Oil, Clear Manufacturer Information Emergency Contact Fire Protection Products, Inc. CHEMTREC 3198 Lionshead Avenue 1300 Wilson Boulevard Carlsbad, CA 92010 Arlington, VA 22209-2380 Phone: (760) 599-1168 Phone: (800)424-9300 Fax: (800) 344-3775 International: +1 (703) 527-3887 CAS Registry Number Mixture Chemical Family Petroleum Hydrocarbon Product Type Cutting Oil Preparation/Revision Date 06/01/2013 Component Name CAS Number OSHA PEL ACGIH liv % (Optional) Heavy Paraffinic Hydrotreated Distillate 64742-65-0 5 mg/ml 5 mg/ml >50 Heavy Naphthenic Hydrotreated Distillate 64742-52-5 5 mg/ml 5 mg/ml <30 Contains petroleum oil. Principal Hazard(s) Avoid prolonged or repeated skin contact. Avoid breathing mists or vapors. Oral DO NOT INDUCE VOMITING. Seek immediate medical attention. E Eye Flush eye(s) with water for at least 15 minutes or until irritation subsides. Seek medical attention if eye irritation develops or persists. Wash with soap and water. Immediately remove contaminated clothing. Get medical attention if irritation develops. Launder contaminated clothing before re-use. If product is injected into or Skin under the skin, or into any part of the body, regardless of the appearance of the wound or its size, the individual should be evaluated immediately by a physician as a surgical emergency. Even though initial symptoms from high pressure injection may be minimal or absent, early surgical treatment within the first few hours may significantly reduce the ultimate extent of injury. Vapor pressure is very low. Vapor inhalation under ambient conditions is normally not a problem. Vapor pressure under ambient conditions is normally not a problem. If adverse effects Inhalation are observed, remove exposed person to fresh air. If breathing is labored, administer oxygen. If breathing has stopped, apply artificial respiration. If overexposed to oil mist, remove from further exposure until excessive oil mist subsides. - - 1Ji I iII1 !d143 Flash Point 390 °F COC Typical Upper Flammable Limit Not Determined Lower Flammable Limit Not Determined Extinguishing Media Carbon Dioxide, dry chemical, water spray (fog) and foam. Note: water, water fog and foam may cause frothing and spattering. Special Firefighting Procedures Wear self-contained breathing apparatus. Avoid breathing fumes and vapors. Use water spray (fog) to cool containers exposed to high heat or open flames. Empty containers contain residue and/or vapors. DO NOT WELD, CUT, PRESSURIZE, BRAZE, SOLDER, DRILL, GRIND or EXPOSE SUCH CONTAINERS TO Unusual Fire and Explosion Hazards HEAT, SPARKS, FLAME, STATIC ELECTRICITY OR OTHER SUCH SOURCES OF IGNITION. Keep empty containers closed and dispose of in an environmentally safe manner and in accordance with all government regulations. Auto Ignition Temperature Not Determined Health: 1 NFPA Flammability: 1 Instability: 0 Personal Precautions Evacuate all non-essential personal. Personal Protective Equipment must be worn (See Personal Protection Section for PPE recommendations). Environmental Precautions Remove sources of ignition. Ventilate spill area. Prevent entry into sewers and waterways. Methods for Containment Prevent entry into sewers and waterways. Use of absorbent pads or inert absorbent materials should be considered. Methods for Clean Up Pick up free liquid for recycle and/or disposal. Residual liquid can be absorbed on inert material. 4tiB1 -1II1 Keep away from potential sources of ignition. Avoid breathing vapors if present. Keep Handling containers closed when not in use. Wash thoroughly after handling. Make sure proper warning labels are affixed in accordance with 29 CFR 1910.1200. Use good personal hygiene around product. Do not smoke or eat around product. Storage Do not store near potential sources of ignition. Store in a well ventilated area. Store in a dry area. Do not store around food or eating areas. Engineering Controls Additional ventilation or exhaust may be required to maintain air concentrations below recommended exposure limits. Eye/Face Protection: Safety glasses recommended. Use splash goggles or face shield when eye contact may occur. Skin Protection: Use chemical resistant gloves, if needed, to avoid prolonged or Personal Protection repeated skin contact. Wear a chemical resistant apron or other impervious clothing, if needed, to avoid contaminating regular clothing, which could result in prolonged or repeated skin contact. Respiratory Protection: Use NIOSH/MSHA approved disposable dust/mist mask if the recommended exposure limit is exceeded. General Measures Use material in well ventilated areas only. Physical State: Liquid Vapor Density (Air =1): Greater than 5 Appearance, Color, Odor: Light amber colored liquid with a characteristic petroleum odor Evaporation Rate: Not Determined Specific Gravity: 0.9012 Pour Point: 0 OF Viscosity: Approximately 45 cSt @ 40 °C Boiling Point: IBP approximately 500 OF Odor Threshold: Not Determined % Volatile: Less than 1% VOC in gIL: 1.0 g/L Water Solubility: Not Soluble pH: Not Applicable Vapor Pressure: Not Determined Decomposition Temperature: Not Determined Addition Properties: None special Stability Material is normally stable at room temperature and pressure. See the Handling and Storage Section for further details. Incompatibility Strong oxidizing agents. Conditions to Avoid High heat and open flames. Polymerization Will not occur. Hazardous Decomposition Fumes, smoke, carbon monoxide, sulfur oxides, aldehydes and other decomposition products, in the case of incomplete combustion. 1t1k 10 Oral Toxicity Not Determined Dermal Toxicity Not Determined Inhalation Toxicity Not Determined Chronic Toxicity Not Determined Respiratory Irritation If material is misted or vapors are generated from heating, exposure may cause irritation of mucous membranes and the upper respiratory tract. Carcinogenicity The components of this product have not been found to be a carcinogen under either NIP, IARC Monographs or current OSHA regulations. Other Under conditions which may generate mists, observe the OSHA PEL of 5 mg/m' - L Ecotoxicity Available ecotoxicity data indicates that adverse effects to aquatic organisms are not expected from this product. Degradability This product is not considered bio-degradable under current definitions. Mobility When released into the environment, adsorption to sediment and soil will be the predominant behavior. - - - Waste Disposal Method Product is suitable for processing by an approved recycling facility or can be disposed of at an appropriate government waste disposal facility. Use of these methods is subject to user compliance with applicable laws and regulations and consideration of product characteristics at the time of disposal. The unused product is not specifically listed by the EPA as a hazardous waste, nor is it formulated to contain materials which are listed as hazardous waste. After use, it is the responsibility of the user to determine the products status for disposal. US DOT Shipping Name Not regulated by DOT Hazard Class Not applicable DOT Identification Number Not Applicable DOT Shipping Label Not regulated by DOT Canadian Transportation of Dangerous Goods: Not regulated Marine Pollutants Not regulated by IMO USA TSCA Inventory All components of this product are listed on the TSCA inventory. Sec. 302/304: No RO for product or any constituent greater that 1.0% or 0.01 % (carcinogen). Sec. 311/312: No RO for product or any constituent greater than 1.0% or 0.01% SARA Title III (carcinogen). ( Sec. 313: This product contains no chemicals subject to the supplier notification requirements of SARA 313 toxic release program. CERCLA RQ: No chemicals in this product are subject to the reporting requirements of CERCLA. California Prop 65 This product does not contain chemical regulated under California Proposition 65. Canada WHMIS Classification Not controlled under WHMIS (for workplace exposures) New Substance Notification Not controlled Regulations NPRI Substances None Jo Additional Information When used for its intended purposes, this product is not classified as hazardous in accordance with OSHA 29 CFR 1910. 1200. Prepared By Revised Date 06/01/2013 Although the information and recommendations set forth herein are presented in good faith and believed to be correct as of the date hereof, Fire Protection Products, Inc. makes no representations as to the completeness or accuracy thereof. Fire Disclaimer Protection Products, Inc. makes no warranty whatsoever, expressed or implied, of merchantability or fitness for the particular purpose since the conditions of use are beyond our control. Fire Protection Products, Inc. assumes no responsibility for injury to recipient or to third persons for any damage to any property and recipient. HAZARDOUS MATERIALS IDENTIFICATION SYSTEM (HMIS) Health = 1 Fire = 1 Reactivity = 0 PP = B Rating: 0 = Minimal 1 = Slight 2 = Moderate 3 = Serious 4 = Extreme Fig. 20021I2 to 200-8 Fig. 200 Fig. 200S Fin. 200 - "Trimline" Adiustable Rand Hannr 1Cnnnr R-I me Fin R317flNF Fig. 200F - "Trimline" Adjustable Band Hanger with Felt Lining (Cooper B-Line Fig. B317ONFF) Fig. 200C - "Trimline" Adjustable Band Hanger with Plastic Coated (Cooper B-Line Fig. B317ONFC) Fig. 200S - "Trimline" Adjustable Band Hanger with Non-Captured Nut c®Us LISTED Size Range: Fig. 200 - 1/2" (15mm) thru 8" (200mm) pipe Material: Steel, Pre-Galvanized to G90 specifications Function: For fire sprinkler and other general piping purposes. Knurled swivel nut design permits hanger adjustment after installation. Features: (1/2" (15mm) thru 2" (50mm)) Flared edges ease installation for all pipe types and protect CPVC plastic pipe from abrasion. Captured design - - keeps adjusting nut from separating with hanger. Hanger is easily installed around pipe. For hanger with non-captured nut order Fig. 200S. / (21/2' (65mm) thru 8" (200mm)) Spring tension on nut holds it securely in hanger before installation. Adjusting nut is easily removed. Approvals: Underwriters Laboratories listed (1/2" (15mm) thru 8" (200mm)) in the USA (UL) and Canada (cUL) for steel and CPVC plastic pipe and Factory Mutual Engineering Approved (FM) (3/4" (20mm) thru 8" (200mm)). Fig. 200-1 to 200-2 Conforms to Federal Specifications WW-H-1 71 E & A-A-1 192A, Type 10 and Manufacturers Standardization Society ANSI/MSS SP-69 & SP-58, Type 10. Maximum Temperature: 650°F (343°C) Finish: Pre-Galvanized. Stainless Steel materials will be supplied with (2) hex nuts in place of a knurl nut. Order By: Figure number and pipe size Designed to meet or exceed requirements of Fig. 200C Fig. 200F Part No. 200-1/2 Pipe I 1/2,, Size (15) Rod Size 3/811-16 A 31/8 (79.4) 25/81,(66.7) : 11 u (5.0) 200-/4 3/4" (20) /8°-16 31/8" (79.4) 21/2' (63.5) 11 (5.0) 200-1 1" (25) /8-16 3/8' (85.7) 2/8 (66.7) 12 (5.5) 200-11/4 11/4 (32) 3/8"-16 33/4 (940) 2I8 (730) 13 (59) 200-11/2 11/2 (40) /8-16 37/81,(98.4) 2/8 (73.0) 14 (6.4) 200-2 (50) 3/8"1641I2 (114.3) (76.3) 15 (6.9) 200_21/2 21/2" (65) I8-16 5I8" (142.9) 41/8" (104.7) 27 (12.3) 200-3 3' (75) /8-16 5I8" (149.1) 4' (101.6) 29 (13.3) 200_3112 31/2 ' (90) /8-16 7 /8 ' (187.3) 51/4" (133.3) 34 (15.6) 200-4 4 (100) /8 16 7 /8 (1873) 5 (1270) 35 (160) 200-5 5" (125) 1/2'L13 91/8" (231.8) 61/4' (158.7) 66 (30.2) 200-6 6' (150) 1/2"..13 101/8' (257.2) 6/4" (171.4) 73 (33.4) 200-8 8 (200) 1/2"13 131/8' (333.4) 8/4 (222.2) 136 (62.3) All dimensions in charts and on drawings are in inches. Dimensions shown in parentheses are in millimeters unless otherwise specified. COOPER B-Line RATING 6 GONG SIZE 8 GONG SIZE 10 GONG SIZE Rated Sound Level Rated Sound Level Rated Sound Level VOLTAGE Current at 1 Meter Current at 1 Meter Current at 1 Meter 6VDC 250mA 95dB 250mA 95dB 250mA 95dB 12VDC 180mA 95dB 180mA 95dB 180mA 96dB 24VDC lOOmA 95dB lOOmA 95dB lOOmA 96dB 120VAC 25mA 95dB I 25mA 95dB 25mA 98dB 220VAC 1 20mA 95db 20mA 95db 20mA 97db Back Box ARGCO FIRE ALARM BELLS Four wire, 120 and 24 volt Indoor and outdoor installation Weatherproof backbox 120 VAC: 6", 8", 10" 24 VAC: 6", 10" ® 10DIA.GONG Z11 / 7 N I / 8" DIA. GONG 'I! 6 DIA.GONG \U 4/ 4-3/8 Base WIRING INSTRUCTIONS from control pa preceding D.C. BELLS (observe polarity) RED (IN) / N RED Eel to next bell or preceding bell from control panel or ( end-of-fine resistor BLACK (IN BLACK (OUT) When electrical supervisor is required use in and out leads as shown. Observe polarity to ring DC bells Red wires positive (+) Black wires negative (-) A.C. BELLS When electrical supervisor is required use in and out leads as shown. When using AC bells, terminate each extra wire separately after last bell End-of-line resistor is not required on AC bells. INSTALLATION: I. The bell should be mounted a minimum of 8 ft. from the floor or as close to the ceiling as possible. Remove the gong Connect the wiring (see diagram). Mount bell mechanism to backbox (bell mechanism must be mounted with the striker pointing down). Reinstall the gong (be sure that the gong positioning pin, in the mechanism housing, is in th hole in the gong). Test all bells for proper operation that they can be heard where required (bells must be heard in all areas as designated by the authority having jurisdiction). I 800-854-1015 www.argco.com FAX 760-727-3270 I 3 Head Box 12 Head Box 6 Large Head Box (65-10-150) 6 Head Box (65-10-152) Heavy gauge steel construction Knockouts and shelf to accommodate any 1/2" or 3/4" sprinkler head All-welded construction and full length hinge Red powder coated finish Slotted for easy mounting with screws, rivets or strapping (65-10-151) (65-10-151A) ARGCO FIRE SPRINKLER SPARE HEADBOXES The information contained herein is produced in good faith and is believed to be reliable but is for guidance only. ARGCO and its agents cannot assume liability or responsibility for results obtained in the use of its product by persons whose methods are outside or beyond our control. It is the users responsibility to determine the suitability of any of the products, methods of use, or preparation prior to use, mentioned in our literature. It is the user's responsibility to observe and adapt such precautions as may be advisable for the protection of personnel and property in the handling and use of any of our products. FOR MORE INFORMATION CALL ARGCO AT 1-800-854-1015 OR LOG ONTO WWW.ARGCO.COM tqCU Fire & Building 1,Pro du c ts Technical Services: Tel: (800)381-9312/ Fax: (800) 791-5500 BlazeMaster CPVC Fire Sprinkler Pipe & Fittings Submittal Sheet An rapid response HOME FIRE SPRINKLER SYSTEM General Description Tyco Fire & Building Products (TFBP) BlazeMaster CPVC Pipe and Fittings are designed exclusively for use in wet pipe automatic fire sprinkler systems. They are made from a specially devel- oped thermoplastic compound com- posed of post chlorinated polyvinyl chloride (CPVC) resin and state of the art additives. TFBP BlazeMaster CPVC products are easier to install than traditional steel pipe systems, and at the same time, provide superior heat resistance and strength as com- pared to traditional CPVC and PVC piping materials used in the plumbing trade. Various adapters are available to connect CPVC pipe to metallic pip- ing. All female pipe thread adapters have brass inserts for durability. Grooved adapters connect directly to grooved end valves and metallic pipe, with flexible grooved end couplings. WARNING Tyco Fire & Building Products (TFBP) BlazeMaster CPVC Pipe and Fittings described herein must be installed and maintained in compliance with this document, as well as with the applica- ble standards of the National Fire Pro- tection Association, in addition to the standards of any other authorities hav- ing jurisdiction. Failure to do so may impair the performance of these de- vices. The owner is responsible for maintain- ing their fire protection system and de- vices in proper operating condition. The installing contractor or sprinkler manufacturer should be contacted with any questions. Technical Data Sizes 3/4" to 3" Maximum Working Pressure 175 psi Approvals UL, FM, CUL, NSF, Dade County, LPCB, MEA, and the City of Los Ange- les. (Refer to IH-1900, Rev. 0, Janu- ary 2005 "Installation Instruction & Technical Handbook" for exact list- ing/approval information.) Manufacture Source U.S.A. Material Pipe: ASTM F442, SDR 13.5 Fittings: ASTM F438 (Sch. 40) and ASTM F439 (Sch. 80), ASTM Fl 970 Color Orange BlazeMasterc is a registered trademark of Noveon IP Holding Corp. Page 1 of 6 JANUARY, 2006 TFPI9I5 Page 2 of 6 TFPI9I5 WATER NOMINAL AVERAGE AVERAGE WEIGHT FILLED WEIGHT FT. OF PIPE WEIGHT PER LIFT SIZE O.D. I.D. lbs/ft. lbs/ft. PER LIFT lbs. 3/4 1.0501, 0.874 0.18 0.44 7875 1339 V. 1.315" 1.101' 0.26 0.67 5040 1320 1-1/4" 1.660" 1.394" 0.42 1.08 2835 1191 1-1/2" 1.900' 1.598" 0.54 1.41 2205 1213 2.375' 2.003" 0.84 2.20 1260 1084 2-1/2" 2.875" 2.423" 1.26 3.26 1215 1531 3.500" 2.952" 1.87 4.83 720 1344 FIGURE 1— PIPE DIMENSIONS Installation Tyco Fire and Building Products (TFBP) BlazeMaster CPVC Pipe and Fittings are to be installed in accord- ance with IH-1900, Rev. 0, January 2005 "Installation Instruction & Techni- cal Handbook". Care and Maintenance The owner is responsible for the in- spection, testing, and maintenance of their fire protection system and de- vices in compliance with this docu- ment, as well as with the applicable standards of the National Fire Protec- tion Association (e.g., NFPA 25), in addition to the standards of any authority, having jurisdiction. The in- stalling contractor or product manufac- turer should be contacted relative to any questions. It is recommended that automatic sprinkler systems be inspected, tested, and maintained by a qualified Inspection Service in accordance with local requirements and/or national codes. NOTES Before closing a fire protection system control valve for inspection or mainte- nance work on the fire protection sys- tem that it controls, permission to shut down the affected fire protection sys- tem must first be obtained from the proper authorities and all personnel who may be affected by this action must be notified. After placing a fire protection system in service, notify the proper authorities and advise those responsible for moni- toring proprietary and/or central sta- tion alarms. 1FP1915 Page 3 of 6 FITTING PART NOMINAL SIZE NOMINAL TAKE-OUT SCHD WEIGHT TYPE NUMBER (TIO) (lb.) TEE 80000 314" 5/8" 40 0.11 T/O 80001 11/16" 40 0.19 80002 1-1/4" 7/8" 40 0.26 80003 1-1/2" 1-1/16" 80 0.51 80004 1-3/8" 80 0.90 / 80005 2-1/2" 1-9116" 80 1.59 T1 T/O 80006 1-13/16" 80 2.41 XxYxZ X Y Z 3/4" x 3/4" x 1" 3/4" 3/4" 5/8" 80132 40 0.14 80133 1"x3/4"x3/4" 9/16" 9/16" 3/4" 40 0.14 80134 1" x 3/4" x1" 3/4" 11116" 3/4" 40 0.17 80260 xix 3/4" 5/8" 5/8" 13/16" 40 0.16 80135 1-1/4" x lx 3/4" 5/8" 5/8" 15116" 40 0.21 80136 1-1/4" x 1" x 1" 3/4" 3/4" 15/16" 40 0.22 80137 1-1/4" x 1" x 1-1/4" 15/16" 15/16" 7/8" 40 0.26 REDUCING TEE 80261 1-1/4" x 1-1/4" x 3/4" 5/8" 5/8" 7/8" 40 0.23 80262 1-1/4" x 1-1/4" xl" 3/4" 3/4" 7/8" 40 0.26 Z 80138 1-1/4" x 1-1/4" x 1-1/2" 1" 1" 1" 80 0.43 U U 110 80140 1-1/2" x 1-1/4" x 3/4" 9/16" 9/16" 1" 80 0.36 80141 1-1/2" x 1-1/4" xl" 9/16" 9/16" 1-1/16" 80 0.38 80263 80264 1-1/2" x 1-1/2" x 3/4" 1-1/2" x 1-1/2" xl" 9/16" 9/16" 9/16" 9/16" 1" 1-1/16" 80 80 0.36 0.38 x T/O T/!tlO 80275 1-1/2" x 1-1/2" x 1-1/4" 7/8" 7/8" 10 80 0.45 80265 x 2" x 3/4" 3/4" 3/4" 1-3/8" 80 0.61 80266 2" x 2" x 1" 7/8" 7/8" 1-3/8" 80 0.66 80274 2" x 2" x 1-1/4" 1-1/16" 1-1/16" 1-3/8" 80 0.74 80267 2" x 2" x 1-1/2" 1-1/8" 1-1/8" 1-3/8" 80 0.78 80271 2-1/2"x2-1/2"x 1" 1-9/16" 1-9/16" 1-9/16" 80 1.43 80272 2-1/2" x 2-1/2" x 1-1/4" 1-9/16" 1-9/16" 1-9/16" 80 1.46 80273 2-1/2" x 2-1/2" x 1-1/2" 1-9/16" 1-9/16" 1-9/16" 80 1.48 80276 2-1/2" x 2-1/2" x 2" 1-9/16" 1-9/16" 1-9/16" 80 1.50 80270 3" x 3" x 1-1/2" 1-13/16" 1-13/16" 1-13/16" 80 2.28 80268 3" x 3" x 2" 1-13/16" 1-13/16" 1-3/4" 80 2.25 80269 3" x 3" x 2-1/2" 1-13/16" 1-13/16" 1-13/16" 80 2.44 CROSS & REDUCING CROSS 80009 3/4" 9/16" 40 0.13 1/0 80010 11/16" 40 0.23 80011 1-1/4" 15/16" 40 0.34 80012 1-1/2" 1-1/16" 80 0.67 80013 1-5/16" 80 1.00 80014 2-1/2" 1-9/16" 80 1.91 TI 0 80008 1-13/16" 80 2.89 80015 1" xix 3/4" x 3/4" 7/8" 40 0.28 T/ ________ T/0 80025 3/4" 5/8" 40 0.09 900 ELBOW & 80026 3/4" 40 0.14 REDUCING ELBOW 80027 1-1/4" 7/8" 40 0.21 X 80028 1-1/2" 1-1/16" 80 0.40 80029 1-5/16" 80 0.79 80030 2-1/2" 1-9/16" 80 1.14 80031 1-13/16" 80 1.82 XxY X V 1/0 80032 111 x 314" 11116" 13/16" 40 1 0.16 FIGURE 2- FITTING DIMENSIONS (Part 1 of 4) Page 4 of 6 TFPI9I5 FITTING PART NOMINAL SIZE NOMINAL TAKE-OUT SCHD. WEIGHT TYPE NUMBER (TIO) (lb.) 45 ELBOW 80050 3/4" 3/8" 40 008 80051 3/8" 40 0.11 80052 1-1/4" 3/4" 40 0.20 80053 1-1/2" 1/2" 80 0.31 80054 3/4' 80 0.56 T/O 80055 2-1/2" 13/16" 80 0.89 80056 1•' 80 1.19 80075 3/4" 1/8' 40 0.07 COUPLING & 80076 1/8" 40 0.11 REDUCING COUPLING 80077 1-1/4' 3/16" 40 0.12 80078 1-1/2" 3/16" 80 0.25 rr 80079 3/16" 80 0.38 _________ 80080 2-1/2" 1/4" 80 0.67 T/O 80081 3/16" 80 0.91 80220 1" x 3/4" 1/8" 40 0.08 80200 x 3/4" 7/16" 40 0.04 80201 1-1/4" x 3/4" 1/2' 40 0.11 80202 1-1/4" x 1" 5/16" 40 0.12 80203 1-1/2" x 3/4" 5/8" 80 0.16 80204 1-1/2" x1" 1/2' 80 0.14 REDUCER BUSHING 80205 1-1/2" x 1-1/4" 3/8" 80 0.17 80206 x 3/4" 13/16" 80 0.27 80207 2" x1" 11/16" 80 0.26 80208 2" x 1-1/4" 9/16" 80 0.24 PT/O 80209 2" x 1-1/2" 7/16" 80 0.19 80215 2-1/2" x1" 15/16" 80 0.42 80214 2-1/2" x 1-1/4" 13/16" 80 0.45 80213 2-1/2"x1-1/2" 11/16" 80 0.46 80211 2-1/2" x 2" 5/8" 80 0.29 80210 3" x 2" 3/4" 80 0.72 80212 3" x 2-1/2" 1/2" 80 0.47 CAP 80100 3/4" 5/16" 40 0.04 80101 3/8" 40 0.06 80102 1-1/4" 7/16" 40 0.10 80103 1-1/2" 11/16" 80 0.20 P 80104 5/8" 80 0.31 80105 2-1/2' 7/8" 80 0.58 80106 1" 80 0.88 GROOVED T/O PIPE O.D. COUPLING ADAPTER 2-5/16" 1-1/4" (1.660") 80160 1-1/4" x 1-1/4" Groove 40 0.78 80161 1-1/2" x 1-1/2" Groove 2-5/16" 1-1/2" (1.900") 80 0.95 PIPE 80162 2" x 2" Groove 2-5/16" (2.375") 80 1.42 O.D. 80163 2-1/2" x 2-1/2" Groove 2-5/16" 2-1/2" (2.875") 80 2.28 80164 3"x3" Groove 2-1/4" (3.500") 80 3.00 80169 2-1/2' x 76,1 mm Groove 2-5/16" 76,1 mm (3.000") 80 2.28 FIGURE 2- FITTING DIMENSIONS (Part 2 of 4) T'FP1915 Page 5 of 6 FITTING PART NOMINAL TAKE-OUT WEIGHT TYPE NUMBER NOMINAL SIZE (T/O) SCHD. (lb.) SPRINKLER HEAD ADAPTER 80175E 3/4" x 112" NPT 7116' 80 020 80176E 1" x 1/2" NPT 7/16 80 0.22 ;T/O 80175WL 3/4" x 1/2 NPT 7116" 40 0.16 80179 lx 3/4" NPT 13/16' 40 0.43 SPRINKLER HEAD ADAPTER 80175W 314" x 112" NPT 1/2" 40 0.19 E; 80176W lx 1/2" NPT 1/2" 40 0.18 SPRINKLER HEAD ADAPTER (SPIGOT) 80177L 3/4" x 1/2" NPT 1/2" 40 0.16 0.20 80178 lx 1/2" NPT 9/16" 40 ~Fwo 80180 x 3/4" NPT 7/8" 40 0.40 FEMALE ADAPTER 80142 3/4" x 3/4" NPT 13/16" 40 0.41 80145 lx 1" NPT 7/8" 40 0.63 1 80146 1-1/4" x 1-1/4" NPT 1-1/8" 40 1.03 80147 1-1/2" x 1-1/2" NPT 1-3/8" 80 1.42 / / 7T/O 80148 x 2" NPT 1-11/16" 80 2.66 MALE ADAPTER 80157 3/4" x 3/4" NPT 1-5/16" 40 0.33 0.56 L;T/O - 80158 lx 1" NPT 1-3/8" 40 XxYxZ X V Z SPRINKLER HEAD 80250 40 0.22 3/4' x 3/4" x 1/2" NPT 9/16" 9/16" 1" ADAPTER TEE Z 80251 1" xl" x 1/2' NPT 11/16" 11/16" 1-3/16" 40 0.29 T/O 80249 xl" xl" NPT 15/16" 15/16" 1-9/16" 40 0.73 80256 1-114" xl" x 1/2" NPT 7/16" 9/16" 1-5/16" 40 0.30 80252 1-1/4" x 1-1/4" x 1/2" NPT 7/16" 7/16" 1-5/16" 40 0.31 80257 1-1/2" x 1-1/4" x 1/2" NPT 1/2" 11/16" 1-7/16" 80 0.43 80254 1-1/2" x 1-1/2" x 1/2" NPT 1/2" 1/2" 1-7/16" 80 0.46 _________ T/O 1/0 80258 2" x 1-1/2" x 1/2" NPT 1/2" 5/8" 1-11/16" 80 0.56 80253 x 2" x 1/2" NPT 1/2" 1/2" 1-11/16" 80 0.62 FIGURE 2— FITTING DIMENSIONS (Part 3 of 4) Page 6 of 6 TFPI9I5 FITTING TYPE PART NUMBER NOMINAL SIZE NOMINAL TAKE-OUT (T/O) SCHD. WEIGHT (lb.) BACK-TO-BACK TEE XxYxZ X Y,Z x T/O yffi~l_ 80459 lx 1/2" NPTx 1/2 NPT 5/8 1-5/16 40 0.48 80460 lx 1/2 NPTx 1/2 NPT .5/8" 1-3/16 40 0.46 4FT/OZ7 T/O BACK-TO-BACK CROSS XxYxZxW X,Y Z,W x T/O zff[—L I 80462 80463 lx lx 1/2" NPTx 1/2" NPT lx lx 1/2" NPTx 1/2" NPT 5/8" 5/8' 1-3/16" 1-5/16" 40 40 0.46 0.47 T IT/O TYTIOW SPRINKLER HEAD XxY X V ADAPTER 90 ELBOW Y T/O 80199 3/4" x 1/2" NPT 9/16" 1" 40 0.20 80198 1" x 1/2" NPT 3/4" 1-1/4" 40 0.26 x 80196 1" x 3/4" NPT 1-1/16" 1-7/16" 40 0.26 FIGURE 2— FITTING DIMENSIONS (Part 4 of 4) Limited Warranty Products manufactured by Tyco Fire & Building Products (TFBP) are war- ranted solely to the original Buyer for ten (10) years against defects in mate- rial and workmanship when paid for and properly installed and maintained under normal use and service. This warranty will expire ten (10) years from date of shipment by TFBP. No warranty is given for products or com- ponents manufactured by companies not affiliated by ownership with TFBP or for products and components which have been subject to misuse, improper installation, corrosion, or which have not been installed, maintained, modi- fied or repaired in accordance with ap- plicable Standards of the National Fire Protection Association, and/or the standards of any other Authorities Having Jurisdiction. Materials found by TFBP to be defective shall be either repaired or replaced, at TFBP's sole option. TFBP neither assumes, nor authorizes any person to assume for it, any other obligation in connection with the sale of products or parts of prod- ucts. TFBP shall not be responsible for sprinkler system design errors or inac- curate or incomplete information sup- plied by Buyer or Buyer's repre- sentatives. In no event shall TFBP be liable, in contract, tort, strict liability or under any other legal theory, for incidental, indirect, special or consequential dam- ages, including but not limited to labor charges, regardless of whether TFBP was informed about the possibility of such damages, and in no event shall TFBP's liability exceed an amount equal to the sales price. The foregoing warranty is made in lieu of any and all other warranties. ex- press or implied, including warranties of merchantability and fitness for a par- ticular purpose. This limited warranty sets forth the ex- clusive remedy for claims based on failure of or defect in products, materi- als or components, whether the claim is made in contract, tort, strict liability or any other legal theory. This warranty will apply to the full ex- tent permitted by law. The invalidity, in whole or part, of any portion of this warranty will not affect the remainder. TYCO FIRE & BUILDING PRODUCTS, 451 North Cannon Avenue, Lansdale, Pennsylvania 19446