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Home My WebLink About2234 RUTHERFORD RD; ; AS070004; Permit5/16/25, 3:16 PM Job Address: Permit Type: Parcel No: Lot#: Reference No.: PC#: Project Title: Applicant: AS070004 Permit Data City of Carlsbad Sprinkler Permit Permit No: AS070004 2234 RUTHERFORD Status: ISSUED RD SPRINK Applied 1/11/2007 2120612600 Approved: 1/11/2007 0 Issued: 1/11/2007 Inspector: 24 HOUR FITNESS 3 FIRE SPRINKLER INSPECTIONS@ $62/EA Owner: FACILITIES PROTECTION SYSTEMS SUITED RUTHERFORD ROAD LLC C/O STONERIDGE CAPITAL PARTNERS 4350 VON KARMAN AVE #400 NEWPORT BEACH CA 1150 W.CENTRALAV BREA,CA Fees($) 186 about:blank Add'I Fees ($) 0 Total($) Balance($) 186 0 1/1 Project Street City Contact Zone DWG.Ref Installer Calculated By Comments Head Type: Filter Type FIRE Threshold No of Pipes ASPIRE for Windows System Report 10/30/2006 24 HOUR FITNESS C1297 R1 LaserCOMPACT V2 80m/240ft VLP Filter Cartridge 0.015415 %/ft Region Floor Date File Temperature Absolute Pressure Aspirator Setting System flowrate 27-October-2006 V-C1297.ASP 68 °F 1.01325 Bar 3420 RPM 33.9715 I/m ASPIRE v 3.09.11 -Page 1/3 Project Date Sector 24 HOUR FITNESS 10/30/2006 Pipe length (ft) First position (ft) No of Holes Hole Spacing (ft) Pipe Int. Dia. (in) Tube Int. Dia.(in) Hole Int. Dia. (in) End Vent Dia.(in) Hole % Balance Hole% Share Maximum Time Ambient Press Sector Press Sector Flow (1/m) Sector % Share Total Pipe Length: Total Number of Bends: Total Number of Capillaries: Total Capillary Length: System Summary 1 155 15.5 12 ~12.682 0.827 0.209 0.125 0.125 90 92 68 0 208 34 100 155ft 2 12 96ft File 2 3 V-C1297.ASP 4 5 6 7 8 ASPIRE v 3.09.11 -Page 2/3 Project 24 HOUR FITNESS Date 10/30/2006 File V-C1297.ASP Pipe number Flowrate 33.971 I/m Tube diameter 0.209 in No of Holes 12 Length 155 ft Vent diameter 0.125in Balance(%): 90 Share(%): 92 Bends radius 0.828 in P.os No of Press Flow Flow Pipe Tube Number hole Sens Time Bend 1/m % Diameter Length Holes Diameter 1 15.5 ·2 184 3.3 9.9 0.827 8 1 0.125 0.156 4.6 2 27.5 0 175 3.2 9.5 0.827 8 1 0.125 0.163 6.4 3 41.5 0 164 3.1 9 0.827 8 1 0.125 0.171 8.6 4 53.5 0 157 3 8.7 0.827 8 1 0.125 0.177 10.8 5 65.5 0 151 2.9 8.4 0.827 8 1 0.125 0.182 13.3 6 77.5 0 146 2.8 8.2 0.827 8 1 0.125 0.187 16.1 7 94.5 0 140 2.7 8 0.827 8 1 0.125 0.193 20.7 8 106.5 0 137 2.7 7.8 0.827 8 1 0.125 0.197 24.7 9 118.5 0 134 2.6 7.7 0.827 8 1 0.125 0.2 29.8 10 128.5 0 133 2.6 7.6 0.827 8 1 0.125 0.202 35.4 11 142.5 0 131 2.6 7.6 0.827 8 1 0.125 0.204 47.2 EC 155 0 131 2.6 7.5 0.827 8 1 0.125 0.205 68.3 ASPIRE v 3.09.11 -Page 3/3 TENANT IMPROVEMENT FIRE SPRINKLERS ENGINEERING SUBMITTAL FOR 24 HR FITNESS 2234 RUTHERFORD RD. CARLSBAD, CA IJ{ ( sM1ne Cop;, APPROVED PROVIDED BY: 0 FACILITIES PROTECTION SYSTEMS 1150 W. CENTRAL AVE. SUITE "D" BREA, CA 92821 TEL: 714-257-2244 FAX: 714-257-2240 C.L.#592289-C10/C16 I • I FACILITIES PROTECTION SYSTEMS 1150 W. CENTRAL AVE. STE. D BREA, CA 92821 - LI~ENSE #592289-ClO & Cl6 HYDRAULIC CALCULATIONS FOR 24-BOUR FITNESS DATA CENTER 2234 RUTHERFORD ROAD CARLSBAD, CA 92008 24-BOUR FITNESS DATA CENTER PREACT.ION SYSTEM EXPANSION, AREA 1 FILE NUMBER: 24-HOUR FITNESS PRE-ACTION SYSTEM AREA l.SDF DATE: 9/7 /05 -DESIGN DATA- 'OCCUPANCY CLASSIFICATION: DENSITY: AREA OF APPLICATION: NUMBER OF SPRINKLERS CALCULATED: TOTAL SPRINKLER WATER FLOW REQUIRED: TOTAL WATER REQUIRED (including hose): FLOW AND PRESSURE (@ NODE PREIN): SPRINKLER K-FACTOR (ORIFICE SIZE): DESIGN/LAYOUT BY·: AUTHORITY HAVING JURISDICTION: WATER FLOW AVAILABILITY DATA: STATIC: RESIDUAL: FLOW: SOURCE: LIGHT HAZARD , 10 gpm/sq. ft. 1393 sq. ft. (per NFPA-13 7-2.3.2.4 & 7-2.3.2.6) 12 sprinklers (225 sq.ft. maximum spacing) 276. 7 gpm 376. 7 gpm (100 gpm Hose Allow) 276.7 gpm@ 47.6 psi 5.6 J. YATES CARLSBAD FIRE DEPARTMENT \ 105.0 psi (94.5 psi@ 90%) 100.0 PSI (90.0 psi @ 90%) 1370 GPM CITY OF CARLSBAD WATER'-" DEPT FLOW TEST - August 23, 2006, 9:48 am, CALCULATIONS BY HASS COMPUTER PROGRAM HRS SYSTEMS, INC. r -1 I SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 1 DATE: 7/7/2006 C:\HASS DATA\24-HOUR FITNESS PRE-ACTION SYSTEM AREA l.SDF JOB TITLE: 24-Hour Fitness Data Center, Pre-action System Expansion Area 1 WATER SUPPLY DATA SOURCE STATIC RESID. FLOW AVAIL. TOTAL REQ'D NODE PRESS. PRESS. @ PRESS. @ DEMAND PRESS. TAG (PSI) (PSI) (GPM) (PSI) (GPM) (PSI) SRC 94;5 • 90. 0 1370.0 94.1 376.7 63.2 AGGREGATE FLOW ANALYSIS: TOTAL FLOW AT SOURCE 376.7 GPM TOTAL HOSE STREAM ALLOWANCE AT SOURCE 0.0 GPM OTHER ROSE STREAM ALLOWANCES 100.0 GPM TOTAL DISCHARGE FROM ACTIVE SPRINKLERS 276.7 GPM NODE ANALYSIS DATA NODE TAG ELEVATION NODE TYPE PRESSURE DISCHARGE (FTJ (PSIJ (GPMJ SRC -1.0 SOURCE 63.2 376.7 DETTN 3.0 ----61.1 DETOOT 3.0 ----57.1 BOR 1.0 ROSE STREAM 51.4 1.00.0 TOR 13.0 52.2 1 13.0 ----52.2 2 13.0 51. 8 3 13.0 ----46.2 PREIN 3.0 ----41. 6 PREOUT 3.0 ----46.4 4 .3. 0 --..; -46.3 5 15.0 ----39.3 6 15.0 ----37.9 1 15.0 ----26.1 8 15.0 ----24.6 9 15.0 ----24.2 10 16.0 ----24.7 11 16.0 ----• 23. 3 12 16.0 ----22.9 --.;_ 13 16.0 ----23.8 14 16.0 ----23.2 15 16.0 ----23.0 16 16.0 22~9 11 16.() ----22.4 18 16.0 ----21. 9 19 16.0 ----21. 6 20 16.0 ----21.5 21 16.0 ----22.0 22 16.0 ----21.5 23 16.0 21.3 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 2 DATE: 7/7/2006 C:\HASS DATA\24-HOUR FITNESS PRE-ACTION SYSTEM AREA 1.SDF JOB TITLE: 24-Hour Fitness Data Center, Pre-action System Expansion .T:i.rea 1 NODE ANALYSIS DATA NODE TAG ELEVATION NODE TYPE PRESSURE DISCHARGE (FT) (PSI) (GPM) 24 16.0 ----21.2 101 10.0 K= 5. 60 18.2 23.9 102 10.Q K= 5.60 17.3 23.3 103 10.0 K= 5.60 17.5 23.4 104 10.0 K= 5.60 17. 6 23.5 105 10.9 K= 5.60 17.1 23.1 106 10.0 K= 5. 60 16.5 22.8 107 10.0 K= 5.60 16.7 22.9 108 10.0 K= 5.60 16.8 23.0 109 10.0 K= 5. 60 16.8 23.0 110 10.0 K= 5.60 16.1 22.5 111 10.0 K= 5. 60 16.3 22.6 112 10.0 K= 5.60 16.4 22.7 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 3 DATE: 7/7/2006 C:\HASS DATA\24-HOUR FITNESS PRE-ACTION SYSTEM AREA 1.SDF JOB TITLE: 24-Hour Fitness Data Center, Pre-action System Expansion Area 1 PIPE DATA PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL (FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) FL/FT (PSI) Pipe: 1 376.7 6.400 PL 25.00 PF 0.4 SRC -1.0 SRCE 63.2 (N/A) 3.8 140 FTG 2ETG PE -1. 7 DETIN 3.0 0.0 61.1 0.0 0.003 TL 130.41 PV Pipe: 2 FIXED PRESSURE LOSS DEVICE DETIN 3.0 0.0 61.1 0.0 4.0 psi, 376.6 gpm DETOUT 3.0 0.0 57 .1 0.0 Pipe: 3 376.6 6.400 PL 25.00 PF 0.5 DETOUT 3.0 0.0 57.1 0.0 3.8 140 FTG SE PE 0.9 BOR 1.0 H.S. 57.4 100 .0 0.003 TL 145.97 PV Pipe: 4 276.6 6.357 PL 12.00 PF 0.0 BOR 1.0 H.S. 57.4 100.0 2.8 120 FTG PE -5.2 TOR 13.0 0.0 52.2 0.0 0.003 TL 12.00 PV Pipe: 5 276.6 6.357 PL 4.50 PF 0.1 TOR 13.0 0.0 52.2 0.0 2.8 120 FTG E PE 0.0 1 13.0 0.0 52.2 0.0 0.003 TL 22.10 PV Pipe: 6 276.6 4 .260 PL 6.50 PF 0.4 1 13.0 0.0 52.2 0.0 6.2 120 FTG E PE 0.0 2 13.0 0.0 51.S 0.0 0.018 TL 19.61 PV Pipe: 7 276.6 3.260 PL 63.50 PF 5.6 2 13.0 0.0 51. 8 0.0 10.6 120 FTG T PE 0.0 3 13.0 0.0 46.2 0.0 0.067 TL 83.66 PV Pipe: 8 276.6 3.260 PL 15.00 PF 2.9 3 13.0 0.0 46.2 0.0 10.6 120 FTG 3E PE 4.3 PREI.N 3.0 0.0 47.6 0.0 D.067 TL 43.22 PV Pipe: 9 276. 6 3 .260 PL 1.00 PF 1.2 FREIN 3.0 0.0 47.6 0.0 10.6 120 FTG D PE 0.0 PREOUT 3.0 0.0 46.4 0.0 0. 067. TL 18.47 PV Pipe: 10 276.6 3.260 PL 1.00 PF 0.1 PREOUT 3.0 0.0 46: 4 . 0.0 10.6 100 FTG PE 0.0 4 3.0 . Cl.O 46.3 0.0 0.094 TL 1.00 PV Pipe: 11 276.6 3.260 PL 12.00 PF 1. 8 4 3.0 0.0 46.3 0.0 10.6 100 FTG E PE -5.2 5 15.0 0.0 39.3 0.0 0.094 TL 18. 71 PV SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 4 DATE: 7/7/2006 C:\HASS DATA\24-HOUR FITNESS PRE-ACTION SYSTEM AREA l.SDF JOB TITLE: 24-Hour Fitness Data Center, Pre-action System Expansion Area 1 PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW{C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) FL/FT (PSI) Pipe: 12 276.6 3.260 PL 8.83 PF 1.5 5 15.0 0.0 • · 39.3 0.0 10.6 100 FTG E PE 0.0 6 15.G G.O 31.9 O.G 0.094 TL 15.54 PV Pipe: 13 276.6 2.635 PL 32.66 PF 11. 8 6 15.0 0.0 • 37. 9 0.0 16.3 100 FTG T PE 0.0 7 15.0 0.0 26.1 0.0 0.265 TL 44.42 PV Pipe: 14 182.5 2.635 PL 12.00 PF 1.5 7 15.0 0.0 26.1 0.0 10.7 100 FTG PE 0.0 8 15.0 0.0 24.6 0.0 0.123 TL 12.00 PV Pipe: 15 90.7 2.635 PL 12.00 PF 0.4 8 15.0 0.0 24.6 0.0 5.3 100 FTG PE 0.0 9 15.0 0.0 24.2 0.0 0.034 TL 12.00 PV Pipe: 16 94.1 2.157 PL 1.00 PF 0.9 7 15.0 0.0 26.1 0.0 8.3 100 FTG T PE -0.4 10 16.0 (LG 24.1 G.O (LG% TL ~L 18 PV Pipe: 17 91.8 2.157 PL 1.00 PF 0.9 8 15.0 0.0 24.6 0.0 8.1 100 FTG T PE -0.4 11 16.0 0.0 23.3 o.o 0.091 TL 9.78 PV Pipe: 18 90.7 2.157 PL 1.00 PF 0.9 9 15.0 0.0 24.2 0.0 8.0 100 FTG T PE -0.4 12 16.0 o.o 22.9 0.0 0.089 TL 9.78 PV Pipe: 19 94.1 2.157 PL 1.00 PF 0.9 10 16.0 0.0 24.7 0.0 8.3 100 FTG T PE 0.0 13 16.0 0.0 23.8 0.0 0.096 TL 9.78 PV Pipe: 20 70.2 2.157 PL 10.00 PF 0.6 13 16.0 0.0 23.8 0.0 6.2 100 FTG PE 0.0 14 16.0 0.0 23.2 0.0 0.056 TL 10.00 PV Pipe: 21 46.9 2.157 PL 10.00 PF 0.3 14 16.0 0.0 23.2 0.0 4.1 100 FTG PE 0.0 15 16.0 o .·o 23.0 0.0 0.026 TL 10.00 PV Pipe: 22 23.5 2.157 PL 10.00 PF 0.1 15 16.0 0.0 23.0 0.0 2.1 100 FTG PE 0.0 16 16.0 0.0 22.9 0.0 0.007 TL 10.00 PV Pipe: 23 91.8 2.157 PL 1.00 PF 0.9 11 16.0 0.0 23.3 0.0 8.1 100 FTG T PE 0.0 17 16.0 0.0 22.4 0.0 0.091 TL 9.78 PV SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 5 DATE: 7/7/2006 C:\HASS DATA\24-HOUR FITNESS PRE-ACTION SYSTEM AREA 1.SDF JOB TITLE: 24-Hour Fitness Data Center, Pre-action System Expansion Area 1 PIPE TAG Q(GPM) DIA(IN) LENGTti PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) {PSI) (GPM) FL/FT (PSI) Pipe: 24 68.6 2.157 PL 10.00 PF 0.5 17 16.0 0.0 22.4 0.0 6.0 100 FTG PE 0.0 lS 16.0 0.0 21.9 (LO 0.053 TL 10.0G PV Pipe: 25 45.8 2.157 PL 10.00 PF 0.3 18 16.0 0.0 21.9 0.0 4.0 100 FTG PE 0.0 19 16.0 0.0 21.6 0.0 0.025 TL 10.00 PV Pipe: 26 23.0 2.157 PL 10.00 PF 0.1 19 16.0 0.0 21. 6 0.0 2.0 100 FTG PE 0.0 20 16. 0 0.0 21.5 0.0 0.007 TL 10.00 PV Pipe: 27 90.7 2.157 PL 1.00 PF 0.9 12 16.0 0.0 22.9 0.0 8.0 100 FTG T PE 0.0 21 16.0 0.0 22.0 0.0 0.089 TL 9.78 PV Pipe: 28 67.8 2.157 PL 10.00 PF 0.5 21 16.0 0.0 22.0 0.0 6.0 100 FTG PE 0.0 22 16.0 CLO 21.5 O.G 0.052 TL 10.00 PV ' Pipe: 29 45.3 2.157 PL 10.00 PF 0 .2 22 16.0 0.0 21.5 0.0 4.0 100 FTG PE 0.0 23 16.0 0.0 21.3 0.0 0.025 TL 10.00 PV Pipe: 30 22.7 2.157 PL 10.00 PF 0.1 23 16.0 0.0 21.3 0.0 2.0 100 FTG PE 0.0 24 16.0 0.0 21.2 0.0 0.007 TL 10.00 PV Pipe: 31 23.9 1. 049 PL 25.00 PF 8.2 13 16.0 0.0 23.8 0.0 8.9 100 FTG TT PE 2.6 101 10.0 5.6 18·.2 23.9 0.254 TL 32.14 PV Pipe: 32 23.3 1.049 PL 28.00 PF 8.5 14 16.0 0.0 23.2 0.0 8.7 100 FTG TT PE 2.6 102 10.G 5.6 11.3 23.3 G.242 TL 35.14 PV Pipe: 33 23.4 1. 049 PL 26. 00 PF 8.1 15 16.0 0.0 23.0 0.0 8.7 100 FTG TT PE 2.6 103 10.0 5.6 17.5 23.4 0.244 TL 33.14 PV Pipe: 34 23.5 1. 049 PL 25.00 PF 7.9 16 16.0 0.0 22.9 0.0 8.7 100 FTG TT PE 2.6 104 10.0 5.6 17.6 23.5 0.246 TL 32.14 PV Pipe: 35 23.1 1.049 PL 26.00 PF 7.9 17 16.0 0.0 22.4 0.0 8.6 100 FTG TT PE 2.6 105 10.0 5.6 17.1 23.1 0.239 TL 33.14 PV SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 6 DATE: 7/7/2006 C:\HASS DATA\24-HOUR FITNESS PRE-ACTION SYSTEM AREA 1. SDF JOB TITLE: 24-Hour Fitness Data Center, Pre-action System Expansion Area 1 PIPE TAG Q{GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL (FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) FL/FT (PSI) Pipe: 36 22.8 1.049 PL 27.00 PF 7.9 18 16.0 0.0 21. 9 0.0 8.5 100 FTG TT PE 2.6 106 10.0 5.6 16.5 22.8 0.232 TL 34.14 PV Pipe: 37 22.9 1.049 PL 25.00 PF 7.5 19 16.0 0.0 21. 6 0.0 8.5 100 FTG TT PE 2.6 107 10.0 5.6 16.7 22.9 0.234 TL 32.14 PV Pipe: 38 23.0 1.049 PL 24.00 PF 7.3 20 16.0 0.0 21.5 0.0 8.5 100 FTG TT PE 2.6 108 10.0 5.6 16.8 23.0 0.235 TL 31.14 PV Pipe: 39 23.0 1.049 PL 26.00 PF 7.8 21 16.0 0.0 22.0 0.0 8.5 100 FTG TT PE 2.6 109 10.0 5.6 16.8 23.0 0.236 TL 33.14 PV Pipe: 40 22.5 1.049 PL 28.00 PF 8.0 22 16.0 0.0 21.5 0.0 8.4 100 FTG TT PE 2.6 110 10.0 5.6 16.1 22.5 0.221 TL 35.14 PV Pipe: 41 22.6 1. 049 PL 26.00 PF 7.6 23 16.0 0.0 21.3 0.0 8.4 100 FTG TT PE 2. 6 • 111 10.0 5.6 16.3 22.6 0.229 TL 33.14 PV Pipe: 42 22.7 1. 049 PL 25.00 PF 7.4 24 16.0 0.0 21.2 0.0 8.4 100 FTG TT PE 2.6 112 10.0 5.6 16. 4 22.7 0.230 TL 32.14 PV NOTES: ( 1) Calculations were performed by the HASS 7.6 computer program under license no. 16080621 granted by HRS Systems, Inc. 4792 Lavista Road Tucker, GA 30084 (2) The system has been calculated to provide an average imbalance at each node of 0.005 gprn and a maximum imbalance at any node of 0.193 gpm. (3) Total pressure at each node is. used in balancing the system. Maximum water velocity is 16.3 ft/sec at pipe 13. SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 7 DATE: 7/7/2006 C:\HASS DATA\24-HOUR FITNESS PRE-ACTION SYSTEM AREA l.SDF JOB TITLE: 24-Hour Fitness Data center, Pre-action System Expansion Area 1 (4) PIPE FITTINGS TABLE Pipe Table Name: STANDARD.PIP PAGE: * MATERIAL: S40 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 2.157 6.15 12.31 3.69 13.54 7.38 1.23 12.31 12.31 12.31 2.635 8.24 16.47 5.49 19.22 9.61 1:37 13.73 13. 73 16.47 3.260 9.41 20.16 6. 72 21.50 13.44 1. 34 17.47 17. 47 20.16 4.260 13.17 26.33 7.90 28.97 15.80 2.63 26.33 26.33 26.33 6.357 17.60 37.72 11.32 40.23 12.57 3. 77 35.21 35.21 37. 72 6.400 18.19 38.98 11. 69 41.58 12.99 3.90 36.38 36.38 38.98 PAGE: A MATERIAL: S40 HWC: 120 Diameter Equivalent Fitting Lengths in Feet (in} E T L C B G A D N Ell Tee LngE~l ChkVlv BfyVlv GatVlv AlmChk DPVlv NPTee. 1.049 2.00 5.00 2.00 5.00 6.00 1.00 10.00 10.00 5.00 ,,J ~· ..) 100.0 G A 80. 0 u G E p R 60.0 E s s u R 40. 0 E p 8 i 20. 0 ) WATER SUPPLY ANALYSIS --.---~---------~--Static: 94.50 psi Resid: 90.00 psi Flow: 1370.0 qp,u~,__......., I / LEGEND Ja.l ~~ - 2~ - I - 1 2 Available pressure 94.09 psi@ 376,7 gpm -Required pressure----~ 63,24 psi@ 376.7 gpm A, source Supply Cur~e B. system Demand cur~e 0.0 ~ -14.7 ' ' ' I I I ' ' 400 600 800 1000 I 1200 1400 1600 1800 FLOW (GPM) SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 9 DATE: 7/7/2006 C:\HASS DATA\24-HOUR FITNESS PRE-ACTION SYSTEM AREA l.SDF JOB TITLE: 24-Hour Fitness Data Center, Pre-action System Expansion Area 1 WATER SUPPLY CURVE 96+ *\\0\\\\\\\\\\\\ I \\\\\\\\\\\\\\\\ I 88+ I I I 80+ I I I 72+ I I I P 64+ X R I E I s I S 56+ u I R I E I 48+ C I P I s I I 40+ ) I I I 32+ I I I 24+ I I !========================= 16+ LEGEND I \ X = Required Water Supply I 63.24 psi@ 376.7 gpm • 8+ I 0 = Available Water Supply I 94.09 psi@ 376.7 gpm I " " II " " " " " * <-90.0 psi@ 1370 gpm Flow Test Point o++-+---+----+-----+------+--------+--------+---------+-----------+ 400 600 800 1000 1200 1400 1600 1800 2000 Flow Test Record Test Hydrant ~ OF Hydrant ID No.lJIJ~N Size Main • 't; 11 ---~--- Static............. ,kitf / 0 f) Residual......... ./,1 tJ . l .__ _"_c.._~ ___,] ~ Pressure Drop.. ,6 (PDI 1) ..... K factor for PDI 1 1,, ~1 Flow Hydtant(s) _ l II 11 Hydrant] location wP:fEiJ~ST C-Dtzi...Jf=:/2.. CF ~§: G ~ !2=0. Hydrant 2 location. __________________ _ Hydrant 3 location __________________ _ Hydrant l Pitot.____,.(p""'~'----PSI GPM: l'lzJO Hydrant 2 Pitot PSI GPM:. ___ _ Hydrant 3 Pitot PSI GPM:. ___ _ Total:. ___ _ (Ql) Calculated test and flow data -OxPD2 k ==Q2 PDI*k Static: ..................... ___ _ Desired Residual. ...... _20 __ Size of Orifice V;} Size of Orifice ----Size of Orifice ---- Pressure Drop (PD 2).. . ................................ K factor PD 2: ____ _ ____ x ____ divided by ____ e.quals ____ GPM at 20 psi residual Ql PD2k PD lk Q2 Comments:. _________________________ _ Test conducted for : Conducted by: ___bt.i,J 'f-A~ ¾ f-1 =:): . I 1:qca I Fire & Building / Products Technical Services: Tel: (800) 381-9312 / Fax: (800) 791-5500 Gem Customer Service/Sales: Tel: (414) 570-5000 / (800) 558-5236 Fax: (414) 570-5010 / (800) an-12es Series TY.FAS -2.8, 4.2, 5.6, and 8.0 K-factor Upright, Pendent, and Recessed Pendent Sprinklers Quick Response, Standard Coverage General Description The Series TY-FRB, 2.8, 4.2, 5.6, and 8.0 K-factor, Upright and Pendent Sprinklers described in this data sheet are quick response -standard cover- age, decorative 3 mm glass bulb type spray sprinklers designed for use in light or ordinary hazard, commercial occupancies such as banks, hotels, shopping malls, etc. The recessed version of the Series TY-FRB Pendent Sprinkler, where ap- plicable, is intended for use in areas with a finished ceiling. lt uses either a two-piece Style 10 (1/2 inch NPT) or Style 40 (3/4 inch NPT) Recessed Es- cutcheon with 1/2 inch (12,7 mm) of recessed adjustment or up to 3/4 inch (19, 1 mm) of total adjustment from the flush pendent position, or a two-piece Style 20 (1/2 inch NPT) or Style 30 (3/4 inch NPT) Recessed Escutcheon with 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 pen- dent position. The adjustment provided by the Recessed Escutcheon reduces the accuracy to which the fixed pipe drops 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- tained 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- :osive atmospheres. Consequently, it 1s recommended that the end user be consulted with respect to the suitability of these coatings for any given corro- sive environment. The effects of ambi- ent temperature, concentration of chemicals, and gas/chemical velocity, should be considered, as a minimum, along with the corrosive nature of the Page 1 of 8 chemical to which the sprinklers will be exposed. An Intermediate level versions of the Series TY-FRB Pendent Sprinklers are detailed in Technical Data Sheet TFP356, and Sprinkler Guards are de- tailed in Technical Data Sheet TFP780 WARNINGS The Serles TY-FRB Sprinklers de- scribed 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 integrity of these devices. 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 relative to any questions. Model/Sprinkler Identification Numbers TY1131 - TY1231 • TY2131 • TY2231 - TY3131 - TY3231 • TY4131 • TY4231 - Upright 2.8K, 1/2"NPT Pendent 2.8K, 1/2"NPT Upright 4.2K, 1/2"NPT Pendent 4.2K, 1/2"NPT Upright 5.6K, 1/2"NPT Pendent 5.6K, 1/2"NPT Upright 8.0K, 3/4"NPT Pendent 8.0K, 3/4"NPT Technical Data Approvals UL and C-UL Listed. FM, LPCB, and NYC Approved. (Referto Table A for complete approval information including corrosion resis- tant status.) APRIL, 2003 Maximum Working Pressure 175 psi (12, 1 bar) Discharge Coefficient K = 2.8 GPM/psj1/2 (40,3 LPM/bar112) K = 4.2 GPM/psf1/2 (60,5 LPM/bar112) K = 5.6 GPM/psf1/2 (80,6 LPM/bar112) K = 8.0 GPM/psi1/2 (115,2 LPM/bar112) Temperature Ratings Refer to Table A and B Finishes Sprinkler: Refer to Table A and B Recessed Escutcheon: White Coated, Chrome Plated, or Brass Plated Physical Characteristics Frame . . . . . . . . . . . . Bronze Button . . . . . . . . Brass/Copper Sealing Assembly . . . . . . . . . . . . . . . . Beryllium Nickel w/Teflont Bulb .............. Glass Compression Screw . . . . . Bronze Deflector ....... Copper/Bronze Bushing (K=2.8) . . . . . . . Bronze TFP171 Page 2 of 8 ESCUTCHEON PLATE Si:ATING SURFACE 2-1/4' (57,2mm) 1/2" ** NPT 7/16' (11,1 mm) NOMINAL MAKE-IN ! STYLE 10 or 20 RECESSED ESCUTCHEON ssu* DEFLECTOR 7/16" (11,1 mm) NOMINAL MAKE-IN TFP171 1-9/16" (39,7mm) ~·1 WRENCH __i FLATS 2-3/16' (55,6mm) SSP DEFLECTOR* PENDENT 1-Frame 2 • Button 3-Sealing Assembly 2-7/8" (73,0 mm) DIA. ---l RECESSED PENDENT 4-Bulb 5 -Compression Screw 6· Deflector 7-Bushing FIGURE1 l 1/2' NPT** UPRIGHT CROSS SECTION * Temperature rating is indicated on deflector or adjacent lo orifice seat on frame. ** Pipe thread connections per ISO 7/1 can be provided on speclal request. QUICK RESPONSE SERIES TY-FRB UPRIGHT (TY1131) AND PENDENT (TY1231) SPRINKLERS 2.8 K-FACTOR, 1/2 INCH NPT ESCUTCHEON PLATE SEATING SURFACE 2-3/16" (55,6mm) 1-112" (38,1 mm} 1/2" ** NPT 7/16" (11,1 mm) NOMINAL MAKE-IN l STYLE 10 or 20 RECESSED ESCUTCHEON SSP DEFLECTOR* PENDENT L ,.,m• (73,o => DIA. RECESSED PENDENT 1 -Frame 2 -Button 3 • Sealing Assembly 4 -Bulb 5 -Compression Screw 6 • Deflector FIGURE2 ssu* DEFLECTOR 7/16' (11,1 mm) NOMINAL MAKE-IN ~ ~ 2-3/16° (55,6mm) 1/2" NPT** UPRIGHT ' CROSS SECTION * Temperature rating is Indicated on deflector or adjacent to orifice seat on frame. **Pipe thread connections per ISO 7/1 can be provided on special request. ,QUICK RESPONSE SERIES TY-FRB UPRIGHT (TY2131) AND PENDENT (TY2231) SPRINKLERS 4.2 K-FACTOR, 1/2 INCH NPT TFP171 ESCUTCHEON PLATE SEATING SURFACE 2-3/16" (55,6mm) 1-1/2' (38,1 mm) 1/2" ** NPT 7/16" (11,1 mm) NOMINAL MAKE-IN l STYLE 10 or 20 RECESSED ESCUTCHEON SSP DEFLECTOR* PENDENT L 2-7/8" (73,0 mm) DIA. RECESSED PENDENT 1 -Frame 2 -Button 3 • Sealing Assembly 4-Bulb S -Compression Screw 6 -Deflector FIGURE3 ssu* DEFLECTOR 7/16" (11,1 mm) NOMINAL MAKE-IN 2-3/16" (55,6mm) l Page 3 of 8 1/2" NPT** UPRIGHT CROSS SECTION * Temperature rating is indicated on deflector or adjacent to orifice seat on frame. -Pipe thread connections per ISO 7/1 can be provided on special request. QUICK RESPONSE SERIES TY-FRB UPRIGHT (TY3131) AND PENDENT (TY3231) SPRINKLERS 5.6 K-FACTOR, 112 INCH NPT ESCUTCHEON PLATE SEATING SURFACE 2-5/16° (58,7 mm) STYLE 30 or 40 RECESSED ESCUTCHEON ssu* DEFLECTOR 2-1/4' (57,2mm) s* 5 2 3 SSP DEFLECTOR* PENDENT 2-7/8' (73,0 mm) DIA. 3/4" NPT** RECESSED PENDENT UPRIGHT CROSS SECTION 4-Bulb 6 • Dellec)or 1 -Frame 2 -Button 3 • Sealing Assembly 5 • Compression Screw * Temperature rating Is Indicated on deflector or adjacent to orifice seat on frame. **Pipe thread connections per ISO 7/1 can be provided on special request. FIGURE4 QUICK RESPONSE SERIES TY-FRB UPRIGHT (TY4131) AND PENDENT (TY4231) SPRINKLERS 8.0 K-FACTOR, 3/4 INCH NPT 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 Pendent and Up- right Sprinklers are intended for fire protection systems designed in ac- cordance 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 Pre- vention Data Sheets ). Only the Style 10, 20, 30, or 40 Recessed Escutch- eon, as applicable, is to be used for recessed pendent installations. Page 4 of 8 SPRINKLER FINISH {See Note 7) K TYPE TEMP. BULB NATURAL I CHROME I WHITE ... LIQUID BRASS PLATED POLYESTER 13s•Fts1°c Orange PENDENT 1ss°Ft6a0c Red (TY1231) 1, 2, 3, 5 and 11s°Fn0°c Yellow UPRIGHT 2oo•F/93°c Green 2.8 {TV1131) 286°F/141 •c Blue 1/2" NPT 135°F/57°C Orange RECESSED 1ss°Ft6a0c Red PENDENT {TV2231)• 11s°Fn0·c Yellow Figures 200°F/93°C Green 1, 2, 5 135°F/57°C Orange RECESSED 1ss°F1sa0c Red PENDENT {TY2231)" 175°Fll9°C Yellow Figure 6 200°F10s·c Green 135°F/57"C Orange PENDENT 155°F/68"C Red {TV2231) and 175°Fll9'C Yellow UPRIGHT 200°F/93°C Green 4.2 {TV3131) 2as°F /141 ·c Blue 1/2" 1, 2 NPT 135°F/57'C Orange RECESSED 155"F/68°C Red PENDENT {TV2231)· 11s°Fn0°c Yellow Figure 7 200°F1es0c Green 1ss°F/S1°c Orange RECESSED 1ss°F/68°C Red PENDENT {TV2231)" 11s°Fne•c Yellow Figure 8 200°F/93°C Green NOTES: 1. Listed by Underwriters Laboratories, Inc. (UL) as Quick Response Sprinklers. 2. Listed by Underwriters Laboratories, Inc. for use in Canada (C-UL) as Quick Response Sprinklers. 3. Approved by Factory Mutual Research Corporation (FM) as Quick Response Sprin- klers. 5. Approved by the City of New York under MEA 354-01-E. 7. Where Polyester Coated Sprinklers are noted to be UL and C-UL Listed, the sprin- klers are UL and C-UL Listed as Corrosion Resistant Sprinklers. • Installed with Style 10 (1/2' NPD or Style 40 (3/4' NPT) 3/4' Total Adjustment Re- cessed Escutcheon, as applicable . .. Installed with Style 20 (1/2' NPD or Style 30 (3/4" NPD 1/2" Total Adjustment Re- cessed Escutcheon, as applicable. ... Frame and Deflector only. Listings and approvals apply to all colors (Special Order). N/A; Not Available TABLE A LABORATORY LISTINGS AND APPROVALS 2.8 AND 4.2 K-FACTOR SPRINKLERS TFP171 Installation The Series TY-FRB Sprlnklers must be installed in accordance with the follow- ing instructions: NOTES Do not Install any bulb type sprinkler 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 diameter 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). A maxi- mum of 21 ft. lbs. (28,5 Nm) of torque may be used to install sprinklers with 112 NPT connections. A leak tight 314 inch NPT sprinkler Joint should be ob- tained with a torque of 10 to 20 ft.lbs. (13,4 to 26,B Nm). A maximum of 30 ft.lbs. (40,7 Nm) of torque is to be used to install sprinklers with 3/4 NPT con- nections. Higher levels of torque may distort the sprinkler inlet and cause leakage or Impairment of the sprinkler. Do not attempt to make-up for insuffi- cient adjustment in the escutcheon plate by under-or over-tightening the sprinkler. Readjust the position of the sprinkler fitting to suit The Series TY-FRB Pendent and Up- right Sprinklers must be installed in accordance with the following instruc- tions. Step 1. Pendent sprinklers are to be Installed in the pendent position, and upright sprinklers are to be installed in the upright position. 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 13). With reference to Figures 1, 2, 3, and 4, the W-Type 6 Sprinkler Wrench is to be applied to the sprinkler wrench flats . The Series TY-FRB Recessed Pen- dent Sprinklers must be installed in accordance with the following instruc- tions. Step A. After installing the Style 10. 20, 30, or 40 Mounting Plate, as appli- cable, over the sprinkler threads and with pipe thread sealant applied to the pipe threads, hand tighten the sprin- kler into the sprinkler fitting. Step B. Tighten the sprinkler into the TFP171 Page 5 of 8 SPRINKLER FINISH (See Note 7) K TYPE TEMP. BULB NATURAL I CHROME WHITE* .. LEAD LIQUID BRASS PLATED POLYESTER COATED 135•ft51•c Orange PENDENT 155°F/68°C Red (TY3231) 1, 2, 3, 4, 5, 6 1, 2, 3, 5 and 175"F/79°C Yellow UPRIGHT 200"F/93°C Green 5.6 (TY3131) 286°F/141 "C Blue 112• NPT 135"F/57°C Orange RECESSED 155°F/68°C Red PENDENT 1, 2, 4,5 N/A (TY3231)* 175°F/79°C Yellow Figure 9 200°F/93°C Green 135'F/57°C Orange RECESSED 155°F/68°C Red PENDENT 1,2,3,4,5 1, 2, 4, 5 N/A CTV3231r 175°F/79°C Yellow Figure 10 200°F/93°C Green 135°F/57°C Orange PENDENT 155°F/68°C Red (TV4231) 1, 2, 5 and 175°Fn9°C Yellow 1, 2, 3, 4, 5, 6 UPRIGHT 200°F/93"C Green a.a (TV4131) 286"F/141°C Blue 3/4" NPT 135°F/57°C Green RECESSED 155°F/68°C Orange PENDENT 1, 2, 4, 5 N/A (TV4231)* 175°F/79°C Red Figure 11 200°F/93"C Yellow 135°F/57°C Orange RECESSED 1ss°Ftsa·c Red PENDENT 1, 2, 3, 4, 5 N/A (TV4231)** 175'F/79°C Yellow Figure 12 200°F/93°C Green NOTES: 1. Listed by Underwriters Laboratories, Inc. (UL) as Quick Response Sprinklers. 2. Listed by Underwriters Laboratories, Inc. for use In Canada (C-UL) as Quick Response Sprinklers. 3. Approved by Factory Mutual Research Corporation (FM) as Quick Response Sprinklers, 4. Approved by the Loss Prevention Certification Board (LPCB) as Quick Response Sprinklers; however, the LPG does not rate the thermal sensitivity of recessed sprinklers. 5. Approved by the City of New York under MEA 354-01-E. 6. VdS Approved (For details contact Tyco Fire & Building Products, Enschede, Netherlands, Tel. 31-53-428-4444/Fax 31-53-428-3377). 7. 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 Resistant Sprinklers. Where Lead Coated Sprinklers are noted to be FM Approved, the sprinklers are FM Approved as a Corrosion Resistant Sprinklers. • Installed with Style 10 (1/2' NPT) or Style 40 (3/4" NPT) 3/4" Total Adjustment Recessed Escutcheon, as applicable. •• Installed with Style 20 (1/2" NPT) or Style 30 (3/4" NPT) 1/2' Total Adjustment Recessed Escutcheon, as applicable. ••• Frame and Deflector only. Listings and approvals apply to all colors (Special Order). N/A: Not Available sprinkler fitting using only the W-Type 7 Recessed Sprinkler Wrench (Ref. Figure 14). With reference to Figure 1, 2, 3, and 4, the W-Type 7 Recessed Sprinkler Wrench is to be applied to the sprinkler wrench flats. TABLES LABORATORY LISTINGS AND APPROVALS 5.6 AND 8.0 K-FACTOR SPRINKLERS Step C. After the ceiling has been in- stalled or the finish coat has been ap- plied, slide on the Style 10, 20, 30, or 40 Closure over the Series TY-FRB Sprinkler and push the Closure over the Mounting Plate until its flange comes in contact with the ceiling. Page 6 of 8 5/8±1/4' (15,9±6,4 mm) FACE OF SPRINKLER FITTING 314" 19,1 mm) 114' (6,4 mm) MOUNTING PLATE 1/8" (3,2mm) TFP171 1I2''(12,7mm 1/4" (6,4 mm) MOUNTING PLATE ~=1 ~:;z::;;;:::;IW \ 118' i:==;;r,..11o:d.14 . .f«,~ (3,2rm) ~~;;;::::::j{;~ MOUNTING SURFACE CLOSURE SERIES TY-FRB FIGURE5 1-5116' 33,3 mm 13/16" (20,6 mm) MOUNTING SURFACE CLOSURE SERIES TY-FRB FIGURE6 1-5/16' 33,3 mm 1-1/16' (27,0 mm) SERIES TY-FRB RECESSED PENDENT WITH TWO-PIECE 3/4 INCH TOTAL ADJUSTMENT STYLE 10 RECESSED ESCUTCHEON SERIES TY-FRB RECESSED PENDENT WITH TWO-PIECE 112 INCH TOTAL ADJUSTMENT STYLE 20 RECESSED ESCUTCHEON 2.8 K-FACTOR, 1/2 INCH NPT 2.8 K-FACTOR, 1/2 INCH NPT 518±1/4' (15,9±6,4 mm) FACE OF SPRINKLER FITTING MOUNTING SURFACE CLOSURE 2·7/8' DIA. ;l (73,0mm) 2·1/4" DIA. ---:i (51.2mm) r I SERIES TY-FRB FIGURE7 3/4" (19,1 mm) 114" (6,4 mm) MOUNTING PLATE 3/4' (19, 1 mm) 112±118" (12,7±3,2 mm) FACE OF SPRINKLER FITTING 2-7/8" DIA. ;l (73,0 mm) 2-1/4' DIA. --:i (57,2mm) r I 1/2" (12,7 mm 114" (6,4 mm) MOUNTING PLATE 1/8" (3,2mm) \ i::==;r,._oi..='1~4--=1 ~~;;:=:;i;~ MOUNTING SURFACE CLOSURE SERIES TY-FRB FIGURES 1-1/4' (31,8 mm 1"(25,4mm) SERIES TY-FRB RECESSED PENDENT SERIES TY•FRB RECESSED PENDENT WITH TWO-PIECE 1/2 INCH TOTAL ADJUSTMENT STYLE 20 RECESSED ESCUTCHEON WITH TWO-PIECE 314 INCH TOTAL ADJUSTMENT STYLE 10 RECESSED ESCUTCHEON 4.2 K-FACTOR, 1/2 INCH NPT 4.2 K-FACTOR, 1/2 INCH NPT Care and Maintenance The Series TY-FRB Sprinklers must be maintained and serviced in accord• ance with the following instructions: NOTES Before closing a fire protection system main control valve for maintenance work on the fire protection system that It controls, permission to shutdown 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 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 otherwise altered after leaving the factory. Modi- fied 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 Ilka, must be re- placed. Also, replace any sprinkler that has a cracked bulb or that has lost liquid from Its bulb. (Ref. Installation Section). Frequent visual inspections are rec- ommended to be initially performed for corrosion resistant coated sprinklers, after the Installation has been com- pleted, to verify the integrity of the cor- rosion resistant coating. Thereafter, 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- TFP171 518:tt/4' (15,9:t6,4 mm) FACE OF SPRINKLER FITTING MOUNTING SURFACE CLOSURE 2•7/8" DIA. ;l (73,0 mm) 2-1/4' DIA. --:7 (s1.2mm) r I SERIES TY-FRB FIGURE9 3/4' (19,1 mm) 1/4' (6,4 mm) MOUNTING PLATE 1-1/4' 31,8mm 3/4' (19,1 mm) SERIES TY-FRB RECESSED PENDENT WITH TWO-PIECE 314 INCH TOTAL ADJUSTMENT STYLE 10 RECESSED ESCUTCHEON 5.6 K-FACTOR, 112 INCH NPT 5/8±1/4' (15,9±6,4 mm) FACE OF SPRINKLER FITTlNG 2-7/8' DIA. =;l (73,0mm) 2-1/4" DIA. --j (57,2mm) JI 3/4' (19,1 mm) 1/4' (6,4 mm) MOUNTING PLATE MOUNTING SURFACE CLOSURE SERIES TY·FRB FIGURE 11 1 •5/16' 33,3 mm 13/16" (20,6 mm) SERIES TY-FRB RECESSED PENDENT WITH TWO-PIECE 3/4 INCH TOTAL ADJUSTMENT STYLE 40 RECESSED ESCUTCHEON 8.0 K-FACTOR, 3/4 INCH NPT tion and the long term integrity of lhe corrosion resistant coating, as It may be affected by the corrosive conditions present 1/2±1/8' (12,7±3,2 mm) FACE OF SPRINKLER FITTING \ MOUNTING SURFACE CLOSURE 2·7/B" DIA. ;l (73,0mm) 2-1/4" DIA. --:7 (s1,2mm> r I SERIES TY·FRB FIGURE 10 Page 7 of 8 1/2' (12,7 mm) 1/4" (6,4 mm) MOUNTING PLATE 1-1/4' 31,8 mm 1"(25,4mm) SERIES TY•FRS RECESSED PENDENT WITH TWO-PIECE 1/2 INCH TOTAL ADJUSTMENT STYLE 20 RECESSED ESCUTCHEON 5,6 K-FACTOR, 1/2 INCH NPT 1/2:t1/8' (12,7±3,2 mm) FACE OF SPRINKLER FITTING 2-718" DIA. (73,0mm) 2-1/4' DIA. (57,2mm) 1/2' 12,7 mm 1/4" (6,4 mm) MOUNTING PLATE 1/8' (3,2mm) \ ~"'1~~=1 ~~~ MOUNTING SURFACE CLOSURE SERIES TY·FRB FIGURE 12 1·5/16' (33,3 mm 1·1/16' (27,0 mm) SERIES TY-FRB RECESSED PENDENT WITH TWO-PIECE 1/2 INCH TOTAL ADJUSTMENT STYLE 30 RECESSED ESCUTCHEON 8.0 K-FACTOR, 3/4 INCH NPT WRENCH RECESS 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 Nalional Fire Protec- tion Association (e.g., NFPA 25), in addition to lhe standards of any other authorities having jurisdiction. The in- stalling contractor or sprinkler manu- facturer shou Id be contacted relative to any questions. WRENCH RECESS (END 'A" USED FOR 1/2' NPT MODELS) It is rt:icommended that automatic sprinkler systems be inspected, tested, and maintained by a qualified Inspection Service. WRENCH RECESS (END "B" USED FOR 3/4' NPT MODELS) FIGURE 13 W-TYPE 6 SPRINKLER WRENCH PUSH WRENCH INTO ENSURE ENGAGEMENT WITH SPRINKLER WRENCHING AREA FIGURE 14 W-TYPE 7 RECESSED SPRINKLER WRENCH Page 8 ol 8 TFP171 P/N 57-XXX-X-XXX I I I MODELJSIN TEMPERATURE RATING SPRINKLER 330 2.8K UPRIGHT (1/2'NPT) TY1131 135 135°F/57°C 331 2.8K PENDENT (1/2"NPT) TY1231 NATURAL BRASS 155 155°F/68°C 340 4.2K UPRIGHT (1/2"NPT) TY2131 4 WHITE POL VESTER 175 115•ma·c 341 4.2K PENDENT (1/2'NPT) TY2231 9 CHROME PLATED 200 200°Ff9a•c 370 5.6K UPRIGHT (1/2"NPT) TY3131 7 LEAD COATED 286 286°F/141 °C 371 5.6K PENDENT (1/2'NPT) TY3231 390 8.0K UPRIGHT (3/4"NPT) TY4131 391 8.0K PENDENT (3/4"NPT) TY4231 TABLEC PART NUMBER SELECTION SERIES TY-FRB PENDENT AND UPRIGHT SPRINKLERS Limited Warranty Products manufactured by Tyco Fire Products are warranted solely to the orlginal Buyer for ten (10) years against defects in material and work- manship when paid for and properly installed and maintained under normal use and service. This warranty will ex- pire ten (10) years from date of ship- ment by Tyco Fire Products. No war- ranty is given for products or components manufactured by compa- nies not affiliated by ownership with Tyco Fire Products or for products and components which have been subject to misuse, improper installation, corro- sion, or which have not been installed, maintained, modified or repaired in ac- cordance with applicable Standards of the National Fire Protection Associa- tion, and/or the standards of any other Authorities Having Jurisdiction. Mate- rials found by Tyco Fire Products to be defective shall be either repaired or replaced, at Tyco Fire Products' sole option. Tyco Fire Products nelther as- sumes, nor authorizes any person to assume for it, any other obligation in connection with the sale of products or parts of products. Tyco Fire Products shall not be responsible for sprinkler system design errors or inaccurate or Incomplete information supplied by Buyer or Buyer's representatives. IN NO EVENT SHALL TYCO FIRE PRODUCTS BE LIABLE, IN CON- TRACT, TORT, STRICT LIABILITY OR UNDER ANY OTHER LEGAL THE- ORY, FOR INCIDENTAL, INDIRECT, SPECIAL OR CONSEQUENTIAL DAMAGES, INCLUDING BUT NOT LIMITED TO LABOR CHARGES, RE- GARDLESS OF WHETHER TYCO FIRE PRODUCTS WAS INFORMED ABOUT THE POSSIBILITY OF SUCH DAMAGES, AND IN NO EVENT SHALL TYCO FIRE PRODUCTS' LI· ABILITY EXCEED AN AMOUNT EQUAL TO THE SALES PRICE. THE FOREGOING WARRANTY IS MADE IN LIEU OF ANY AND ALL OTHER WARRANTIES EXPRESS OR IMPLIED, INCLUDING WARRANTIES OF MERCHANTABILITY AND FIT- NESS FOR A PARTICULAR PUR- PJJSE,. Ordering Procedure When placing an order, indicate the full product name. Refer to the Price List for complete listing of Part Numbers. Contact your local distributor for avail- ablllty. Sprinkler Assemblies with NPT Thread Connections: Specify: (Specify Model/SIN), Quick Response, {specify K-factor), (specify temperature rating), Series TY-FRB {specify Pendent or Upright) Sprinkler with (specify type of finish or coating), PIN {specify from Table C). Recessed Escutcheon: Specify: Style (specify) Recessed Es- cutcheon with (specify finish), PIN (specify). 1/2' (15 mm) Style 10 Chrome Plated ......... PIN 56-70Hl-010 1/2' (15mm) Style 10 White Color Coaled ................ PIN 56-701-4-010 1/2" (15 mm) Style 10 Brass Plated ........... P/N 56-701-2·010 1/2" (15mm) Style 20 Chrome Plated ......... PIN 56-705-9-010 1/2' (15 mm) Style 20 White Color Coated ................ PIN 56-705-4-010 1/2' (15mm) Style 20 Brass Plated ........... P/N 56-705-2-010 3/4" (20 mm) Style 30 Chrome Plated ......... PIN 56-705-9·011 3/4' (20 mm) Style 30 White Color Coated ..... , .......... P/N 56-705-4-011 3/4" (20mm) Style 30 Brass Plated ........... PIN 56•705·2-011 3/4' (20mm) Style40 Chrome Plated . . . . . . . . . PIN 56-700-9-010 314' (20mm) Style40 White Color Coated ................ PIN 56-700-4-010 3/4" (20 mm) Style 40 Brass Plated . . . . . . . . . . . PIN 56-700-2-01 O Sprinkler Wrench: Specify: W-Type 6 Sprinkler Wrench, PIN 56-000-6-387. Specify: W-Type 7 Sprinkler Wrench, P/N 56-850-4-001. TYCO FIRE PRODUCTS, 451 North Cannon Avenue, Lansdale, Pennsylvania 19446 FINALLY, THE ADVANCED FLEXLINE SYSTEM. EASYFLEX Sprinkler Drops. Simply Irresistible/ □ Stop worrying. □ Stop spending. □ and start installing. ■ Corrugated stainless steel flexline was first utilized to protect from earthquake damage. In spite of vibrations, corrugated stainless steel flexline helps to prevent ruptures in the plumbing system. It can withstand wide fluctuations in temperature, and due to its flexible nature is extremely reliable and resistant to abusive environmental conditions. Now, corrugated stainless steel flexline are used in an wide variety of industrial and residential plumbing applications world widely. r*EASYFLEX., Inc. is an U.S subsidiary of KOFULSO Co., Ltd. in Korea.J ■ KOFULSO Co., Ltd. is an world class manufacturer of corrugated stainless steel flexllne using AISI 304 and AISI 316L stainless steel. It is a technological innovator in a wide variety of applications for water and gas distribution utilizing flexibility stainless steel flexline which can be simply bent by hand. ■ KOFULSO Co., Ltd. is an ISO 9001 certified manufacturer which has passed stringent UL testing for flexible fire sprinkler drops. A full line of UL Listed and FM approved flexible fire sprinkler drops are available. ■ EASYFLEX innovative features save time and money for you and your customers. Now favored worldwide by contractors and fire protection engineers. EASYFLEX sprinkler drops are the product of choice for those who used to install conventional rigid pipe sprinkler drops. The ease of installation and significantly reduced labor costs utilizing flexible sprinkler drops make EASYFLEXthe smart choice. ■ Simplicity • Installation is quick & easy. • Configuration structures or relocations of previously installed sprinkler systems is simplified. • Eliminates labor and time for Intensive cutting, threading and measuring of hard pipe armovers. • Varieties of EASYFLEX lengths give you comfort choices. 11 Flexibility • As the minimum bending radius is 3• (76mm), EASYFLEX can be easily installed in narrow or confined spaces, and can be easily bent by hand. • Allows you to easily adjust to last minute changes in blue prints or construction obstacles. • Profitability • Reduce time needed to determining the placement of the sprinkler head in the center-of-tile. • Install 4 EASYFLEX Sprinkler Drops in the time it takes only one hard pipe arm over sprinkler drop. • Fewer people needed to install EASYFLEX as the opposed to hard pipe installations. • Simplify and streamline your present labor force. Work more jobs utilizing your same work force since less people and time are needed installing EASYFLEX. 11 Safety • Stainless steel corrugated flexline is made with AISI 304 and AISI 316L. Extremely flexlble with a high tensile strength. • Braided flexible sprinkler drops are wrapped with a AISI 304 wire and can withstand high pressure. • Tube connectors are made by brass and rupture pressure is over 1,420 psi. • An EPDM packing is used in the connector to prevent leakage and withstand high pressure. It has excellent thermal resistance. • EASYFLEX Sprinkler Drops are 100% factory tested and ready for installation. • 100% corrosion resistant. EASYFLEX Sprinkler Drops are designed to significantly reduce labor and installation costs. Available in s different lengths with either a 1/2" or 3/4" NPT on reducer thread. EASYFLEX has been tested and listed by Underwriters Laboratories and approved by FM, United States and Canada, per NFPA 13, 13R & 13D, as well as UL 1474 standards for safety regarding, but not limited to, pressure cycling, corrosion resistance, flow characteristics, vibration resistance, leakage, and mechanical as well as hydrostatic strength. EASYFLEX is an active member of AFSA, NFPA and NFSA. ( Technical Feature ) ► Temperature Rating: Maximum temperature: 300° F(149' C) ► Pressure: • Maximum Working Pressure : 200 psi/ 1375kPa • Test Pressure: 1000 psi/ 6875kPa (burst) ► Connection : • To Branch Line (Inlet): 1"NPT male thread. • To Splinkler Head (Outlet) : 1/2" or 3/ 4" NPT female thread. ► Minimum bend radius: 3"(76mm). Do not bend within 2 '/2" from connection nut. ► Maximum number of bends per flexible tube : 3 ■SNAP CLAMP ■WING CLAMP ■BOLT CLAMP ■T-BAR BRACKET ■ NEW REDUCER ( Physical Data J Fitting Type Model No. Length Inch/ mm Inlet Outlet EFV/EFB 224 24.0 I 610 EFU/EFB 231 31.0/7B7 1/2"NPT EFU/EFB 236 36.0 I 91<1 1' EFU/EFB 248 <18.0/ 1219 N EFU/EFB 260 60.0/ 1524 p EFU/EFB 275 75.0 / 1905 T EFV/EFB 324 24.0/610 3/4"NPT EFU/EFB 331 31.0/787 EFU/EFB 336 36.0/914 EFU/EFB 348 /,8.0/ 1219 EFU/EFB 360 60.0 / 1524 EFU/EFB 375 75.0/1905 * Optional 80" and 106" lengths are available upon request. !I! Maximum Working Pressure: 5oopsi(3,45okPa) ii! EFU • Unbn>ided Type EFB • Braided Type Pieces/case 20 20 20 20 10 10 20 20 20 20 10 10 mREDUCER ■METAL STUD ■STOCK BAR ■ISOLATION RING ■GASKET ( Snap Clamp Type J Grip the end brackets and set them on the T-Bar with the protrusion part to the outside of the T-Bar. Press the lever of the end brackets to latch firmly with both levers facing each other. To adjust level of the reducer with the ceiling tile, move the reducer vertically, and push the latch down firmly to secure into position. Please Compare with other Mounting Brackets and save at least 30% of Installation Time • No pipe cutting or less time consume • Fast installation -100% no corrosion • Simplified work ( Competitive Reducer Connections) EASYFL~"''"'" • Other company"s product Low Cost/ High Cost/ Low Cost/ No risk of leakage No risk of leakage risk of leakage Friction Loss Data and Specifications o Variety size of EASYFLEX,; reducers ~ S,piink\l'tllra~ • Multiple pipe cutting • Slow installation • Corrosion • Complicated assembly • Traditional hard-pipe reduce . . ,Col\~RctAL.sus'l>E~DEtrCEiLINGS:: ~~~ir~111A,•KFB':SP~o~1,,1 ~~P"oa·A. ·:;:.1;:~:~~~~i~~~B;.Sl'~01,¢;;I<EJt-S.P;.o2AB~.KFB,Sr~o3~~ •• ··• •• ·•. j~.fffio~~~~~t~~~-QlA~~SJ>)).C4}lA,.KFB,$PDC;-03~. ·ASQUARE DUCTS~ KFB~S.Pi)S,,OIA, '.KElJ4SPDS~02A, KFB'-Sl"DS"'03A, ·~sih>S:~4A1'.~S~:O.S'-QSA. • ·_·.. • • • • • ... • ... j~~:.~~MS: :¥:Jr~SPC;ifrlA, KFD~SPb.ot~t-~B0SPc:ao341::KFJJ.:~pc~P4~,. l\<l~u:factufed Jily: KOFUL~O•GO 'Ll:D · i~~;:gt~w!~:~g~10.~v .• • ·. . •• ~~4-'\f~d~~r JJnde:rwrite.rs: :t,b.:otJbl.fl.J$ Im;~,~: ~i~jg~fN½\lk~(~1°·'-0.;~~~.· ~-~~1flB '\IBNF Ji.tdi1>1e•.~pfiltlder,Hose·•1<ittin~, ~~~~$.~~h.q~g'.;$E◊'-G:U;.JN'~PN'J{Q~Js* RoillilimokDiiiliillii'ii' e~ l{E~f~pj~rt iS[~t,~M ~;qj)s':l¢ti~~; ift&~l4t~tl111 B;-;$p~;f!~_s.~1#~ir-:~~~a.-:f~J.~~--g4,,:~~9~,_ 'K1~\~iai~ONt $EQ"C~ ~P.IIEON: IS'.Q~'EA.; ({t.Ji/ / n:1r. Et>' tftc,'l'!!!t1m·J;:;:: .. , . . f&. 'J;'t~l!ijg~~!2000 .. • · s:eePE OF SURPLY • ~j .. ~,!~--,f;tt® 'jfl/ • .f • ·SITE. OF· S.1Jl?PE¥ • • • ~®'~$f ~Utng.~k-itonlk ~eo~!; fnch'e0n<N1etr.q}}()llt@ ft~£ !!{ore~ \: < ... •• •• , •• :.-!~~J.c.M.Jtlf,tljjfj.tfffi#etf satf#/4.¢.fo1:jp~p¢ra#.tm. of t~-at_gti¥1iz4ti0.rls:{~;~alJ.fu, ·, • ~a~:e~11;; '(J;;rJ/~fr$Jajit.Jt \QifJ}Yl?Xff'lJ:/l1/Qn; • • . I . .. • . . . . 2ir &iL·:' ,., ... __ .... · • ;~ :il • ~; J Gt1. a· 3 llA,. • '.,~ •fijj iEl ::' , .2:Q{).~i'p·1 Olif29:8 • • •. ·•·· ::~t-[~Wi]JP~~y',;j{~~;<F?:7~'6¢ .. :~· {:Ak:._~;A~~57~u:;,:• • ,, fflffi§~$Jm:lc§?<~i!Q)Ja~, "Faol~1.1:i~8i5fii:Y.~~;i(;;.1 f.;517':7-#. !mWl~i@-8 L-Z:V)QCC.~IDEv~~... . . • • . . • . . • • 1J:iffl, ~~(7)~~C'.~~ffll186,. :1b~'./4.~a-lf.-·l:t2:0')~l!J.&~~7f ·O)~:t.i!ll~J;;eq~iffi·~"'e~. . 6 , _.. . .. , .,._. ,.· ,.,, ,-. . . . , .... • . .. . ,L.©~~fl:t", 1ttt! (~pft)O)oQ~'Yf'~.,:Kvr~A:r.41J~$.Jl~ pflJTVi'~~'g<lfF1:~ .. ~l;l~\62Q(f$~J~~4 .:l-S~tf~'9.., ,1', -~~*~#.Y r-$'~:r:41!ffl: 1$0 9'00 2 :199.4 , J I $. Z 9•$10:2-'199.8 •. •2· :~·o :1C~:7.Jtf;;t;tt--E;z(J)-• ' • • •• ~~~~~:t;to; _di P 1 ~~~'rnt• 'G~~lii/<.~tl!'~x _ f tf;Me,~rt<l,, :Kott~, :r:t r~~lDi;kli StaJiiles$.•Stee1 orstrJb'otpt, iSot'inkler .lolnt. mr,.-Frt [tFademairkJJiai:\d ~~tv.,{'i~,:. :-.. ' . ' ,' -., -' .,, . '•;' ' ' ' ' '' ' r1s·j -~-' ;;, ... "'":' ... i-~1. ?'.:., . . •. • :,•. .-.::,-:=:·._ .' •• . :_ .. ::•_. -~-' ' -~~~~~•~,.; ~~~j~,1·· , .. -· ... ---.. . ' ' ' .•· • 1t~_!+ttQ,~t [~Y.?ft; 11 PERFORMANCE IPS CARBON STEEL PIPE -HOLE CUT PRODUCTS ':iilr,Jq ,;¥ ::HlH\1•,t,_' 11:: VICTAUuc• ISAN 1S09001 C£RTIAEDCOMPANV Styles 920 and 920N Mechanical-T® Bolted Branch Outlets PRODUCT DESCRIPTION Styles 920 and 920N SeeVictaulic publicalion 10,01 for details. See chaff on page 5 for pressure ratings, Victaulic Mechanica!-T'" Outlet provides a direct branch connection at any location a hole can be cut in pipe. The hole is cut oversize to receive a "holefinder" locating collar which secures the outlet in position permanently. A pressure responsive gasket seals on the pipe O.D. Cross-type connections can be achieved by utilizing two upper housings of the same style and size, with the same or differing branch size connections. NOTE: Style 920 and Style 920N housings cannot be mated to achieve a cross connection, Style 920 and Style 920N Mechanical-T outlets are available with grooved or female threaded outlet Specify choice on order. Units are supplied painted with plated bolts, Galvanized housings are available, supplied with plated bolts. All sizes of Style 920 and 920N are rated at 500 psi (3450 kPa) working pressure on Schedule 1 o and 40 carbon steel pipe. They may also be used on high density polyethylene or polybutylene (HOPE) pipe, Pressure ratings on HOPE are dependent on the pipe rating. Contact Vlctaulic for ratings on other pipe. Style 920 and 920N are not recommended for use on PVC plastic pipe. Standard piping practices dictate that the Mechanical-T Styles 920 and 920N must be Installed so that the main and branch connections are a true 90° angle when permanently attached to the pipeline surface, MATERIAL SPECIFICATIONS Housing/Coating: Ductile iron conforming to ASTM A-536, grade 65-45-12, with orange enamel coating. Ductile iron conforming to ASTM A-395, grade 65-45-15, is available upon special request. • Optional: Hot dipped galvanized Gasket (Specify choice•) • Grade "E" EPDM EPOM (Green color code). Temperature range -30°F to +23o•F (-34°C to+ 110'C). Recommended for cold and hot water service within the specified temperature range plus a variety of dilute acids, oil-free air and many chemical services. UL Classified in accordance with ANSI/NSF 61 for cold +86°F (+30'C) and hot +1ao·F (+B2°C) NOT RECOMMENDED FOR PETROLEUM SERVICES. • Grade "T" nitrile Nitrile (Orange color code), Temperature range -zo•F to+ 180°F (-29'C to +s2•c). Recommended for petroleum products. air with oil vapors, vegetable and mineral oils within the specified temperature range. Not recommended for hot water services over +150°F (+66°C) or for hot dry air over +140'F (+60°C}, •services listed are General Service Recommendations only. It should be noted that there are services for which these gaskets are not recommended. Reference should always be made to the latest Victaulic Gasket Selection Guide for specific gasket service recommendations and for a listing of services which are not recommended. Bolts/Nuts: Heat-treated plated carbon steel, trackhead meeting the physical and chemical requirements of ASTM A-449 and physical requirements of ASTM A-183. If/ REGISTERED TRAOa!ARl< Ol' VICTAULIC -Cl OOPYRIGHT 2005 l'lCTAUUC -PRINIEl IN U,SA -SKU iWCAS-6GJJCL 1480REVH United States• Phone: HOO-PICK-VIC (1-800•742-5842] • Fax: 610-250-8817 • e-mail: plckvic@victaulic,com Canada • Phone: 905-884-7444 • Fax: 905-884-9774 • e-mail: viccanada@victaulic.com Europe• Phone: 32-9-381-1500 • Fax: 32-9-380-4438 • e-mail: viceuro@viclaulic,be UK • Phone: 44{0)1438741100 • Fax: 44(0)1438313883 • e-mail: viceuro@victaulic.be Central and South America • Phone: 610-559-3300 • Fax: 610-559-3608 • e-mail: vir.al@victaulic.com Australasia • Phone: 86-21-58855151 • Fax: 86-21-58851298 • e-mail: vicap@victaulic.oom ~taulic' DIMENSIONS Styles 920 and 920N w/Grooved Outlet Styles 920 and 920N w/Female Threaded Outlet NOTE: Style 920 and Style 920N housings cannot be mated to achieve cross connections. These r,ew size Style 920N products require a dffferent hole size than the Style 920 it replaces. for proper lnstallaUon. Use caution to assure lhe proper size hole is prepared for the specific size and style used, Failure to use the proper hole size could resun In joint ler,kage and property damage, Max. SIZE Work. RunXBranch Press. Nominal Inches Style PSI mm No. kPa 2 X 'h (a) 920N 500 50 X 15 3450 X '!., (a) 920N 500 X 20 3450 X 1 (a) 920N 500 X 25 3450 X 1¼ (a) t 920N 500 X 32 3450 X 1½ (a)t 920N 500 X 40 3450 2½ X ½(a) 920N 500 65 X 15 3450 X ¼(a) 920N 500 X 20 3450 X 1 (a) 920N 500 X 25 3450 X 11/, t {a) 920N 500 X 32 3450 X l1/, t (a) 920N 500 X 40 3450 76,1 mm X ½{a) 920 300 X 15 2065 X >/, {a) 920 300 X 20 2065 X 1 (a) 920 300 X 25 2065 X 1¼(a) t 920N 500 X 32 3450 X 11/,(a) 920N 500 X 40 3450 3 X ½{a) 920N 500 so X 15 3450 X 'I, (a) 920N 500 X 20 3450 X 1 (a) 920N SOD X 25 3450 X 1'/, (a) t 920N 500 X 32 (b) 3450 X 11/,(a) t 920N 500 X 40 (b) 3450 X 2 (a) 920N 500 X 50 3450 3½ X 2 920N 500 90 X 50 3450 4 X 'h(a) 920N 500 100 X 15 3450 X ¾(a) 920N 500 X 20 3450 X 1 (a) 920N 500 X 25 3450 X 1'1,(a) t 920N 500 X 32 (b) 3450 X l½(a)t 920N 500 X 40{b) 3450 X 2 (a) t 920N 500 X 50 3450 X 2½{a)t 920 500 X 65 3450 X 76.1 mm 920 500 3450 X 3 (alt 920 500 X 80 3450 Table conanued on page 3. See notes on page 4. Hole Dia, +0.13 -0,00 T" 1.50 2.00 3B,1 51 1.50 1.97 38,1 50 1.50 1,85 38.1 47 1.75 2.05 44,5 52 1.75 2.03 44,5 52 1.50 2.21 38,1 56 1.50 2.18 38.1 55 1.50 2.06 38.1 52 }fat~t~01 : 2.30 58 2.00 2.28 50.8 58 1.50 2.22 38,1 56 1.50 2.19 38,1 56 1,50 2.07 38.1 53 1.75 2.30 44,5 58 2.00 2.28 50.8 58 1.50 2.52 38,1 64 1.50 2.49 38.1 63 1.50 2.38 38.1 61 :;;ii\i::i.f\ 2.55 ,vi1;5c:; 65 2.00 2.78 50,8 71 2.50 2.75 63,5 70 2.50 -63.5 - 1.50 3.03 38,1 77 1.50 3.00 38,1 76 1,50 2,88 38,1 73 ~~1~1.1~ 3.08 78 2.00 3.28 50.8 83 2.50 3.25 63,S 83 2,75 2.88 69,9 73 2.75 -69,9 - 3.50 3.31 88.9 114 Dlmenslons-lnches/mUUmelers Aprx. Fem. Wgl.Each Thd. Grv. LbsJkg V V Fem. ** * w y z Thd. Grv; 2,53 -1.61 5.35 2.75 3.1 -64 -41 136 70 1,5 - 2.53 -1.61 5.35 2,75 3.1 -64 -41 136 70 1,5 - 2,53 -1.61 5.35 2.75 3,0 - 64 -41 136 70 1,4 - 2.75 3.00 1.61 5.35 3,00 3.5 3,2 70 76 41 136 76 1.7 1,5 2.75 3.12 1.61 5.35 3.25 3.6 3.2 70 79 41 136 83 1,7 1,5 2,74 -1.86 5.64 2.75 3.0 - 70 -47 143 70 1.4 - 2.74 -1.86 5.64 2,75 3.0 -70 -47 143 70 1,4 - 2.74 -1.86 5.64 2.75 2.9 - 70 -47 143 70 1.4 - 3.00 3.25 1.86 6.29 3.00 3.5 3.2 76 83 47 160 76 1,7 1,5 3.00 3.25 1.86 6.26 3.25 3.6 3.3 76 83 47 159 83 1,7 1,6 2.75 -1.88 6.46 3.16 3.9 -70 -48 164 80 1,8 - 2.75 -1.88 6.46 3.16 3.9 - 70 -48 164 BO 1,8 - 2.75 -1.88 6.46 3.16 3,8 - 70 -48 164 80 1,7 - 3.00 3.31 1.92 6.29 3.00 3,5 3.2 76 84 49 160 76 1.6 1,5 3.00 3.31 1.92 6.29 3.25 3.5 3.3 76 84 49 160 83 1.6 1,5 3.05 -2.28 6.15 2.75 3.4 - 78 -58 156 70 1,6 - 3.05 -2.28 6.15 2.75 3.4 -78 -58 156 70 1.6 - 3,06 -2.28 6.15 2.75 3.3 - 78 -SB 156 70 1,6 - 3.25 3.56 2.28 6.15 3,00 3:8 3,7 83 90 58 156 76 1,8 1,8 3.50 3.56 2.28 6.15 3.25 4.1 3.8 89 90 58 156 83 1,9 1,8 3,50 3.56 2.28 6.75 3.88 4.9 4.6 89 90 58 172 99 2.3 2,1 -3:/5 2.44 6.72 3,88 -3.8 -95 62 171 99 -1,8 3.56 -2.69 7.01 2.75 3.7 - 90 -68 178 70 1.8 - 3.56 -2.69 7.01 2.75 3.7 - 90 -68 178 70 1.8 - 3.56 -2.69 7.01 2,75 3.6 - 90 -68 178 70 1.8 - 3,78 4.00 2.69 7.01 3.00 4.0 3.6 96 102 68 178 76 1,9 1,8 4.00 4.00 2.69 7.01 3,25 4.2 3.9 102 102 68 178 83 2,0 1.9 4.00 4.00 2.69 7.01 3.88 5.0 4.6 102 102 68 17B 99 2,3 2,1 4.00 4.00 2.69 7.34 4.63 5.8 5.0 102 102 68 186 118 2.6 2,3 -4,00 2.69 7.34 4.63 -6.4 -102 68 186 118 -2,9 4.50 4.12 2.69 7.73 5.12 8.4 6.4 114 105 68 196 130 3,8 2,9 2 Styles 920 and 920N Mechanical-T® Bolted Branch Outlets DIMENSIONS Styles 920 and 920N w/Grooved Outlet Styles 920 and 920N w/Female Threaded Outlet NOTE: Style 920 and Style 920N housings cannot be mated to achieve cross connections. These new size Style 920N products require a different hole size than the Style 920 il replaces, for proper installation. U:;e caution to assure the proper size hole is prepared for lhe specific size and style used, Failure to use the proper hole siZe co,~d result in jolntleakage and property damage, SIZE Max. Run X Branch Work, Nominal Inches Style Press. mm No. PSl/kPa 108.0mm X 1¼(a) 920N 500 X 32 3450 X 1'1,(a) 920/11 500 X 40 3450 X 2 (a) 920N 500 X so 3450 76.1 mm 920 500 3450 X 3 (a) 920 500 X 80 3450 5 X 1'/,(a)t 920 500 125 X 40 3450 X 2 (a) t 920 500 X 50 3450 X 21/, (a) t 920 500 X 65 3450 X 3 (a) t 920 500 X 80 3450 133,0mm X 2 920N 500 X 50 3450 X 3 920 500 X 80 3450 139,7mm X 1½t 920N 500 X 40 3450 X 2 t 920N 500 X 50 3450 X 76, 1 mm (a)(b) 920 500 3450 X 76.1 mm 920 500 3450 X 3 920 500 X 88.9 3450 6 X 11/. 920N 500 150 X 32 (b) 3450 X 1½(a)t 920N 500 X 40(b) 3450 X 2 (a) t 920N 500 X 50 3450 X 211, (a) t 920 500 X 65 3450 X 76, 1 mm (a)(o) 920 500 3450 X 3 (a) t 920 500 X BO 3450 X 4 (a) t 920 500 X 100 3450 159,0mm X 11/, 920N 500 X 32 3450 X 1'12[a) 920N 500 X 40 3450 X 2 (a) 920N 500 X 50 3450 X 76,1 mm 920 500 3450 X 3 920 500 X 80 3450 X 108,0mm 920 500 3450 X 4 920 500 100 3450 Table conunued on page 4. See notes on page 4. Styles 920 and 920N Mechanical-T'II) Bolted Branch Outlets Hole Dia. +0,13 --0.00 TH 1.75 3.08 44,5 78 2.00 3.28 50,8 83 2.50 3.25 63,5 B3 2.75 2.BB 69.9 73 3.50 3.31 88.9 84 2.00 4.03 50,8 102 2.50 4.00 63,6 102 2.75 3.63 69,9 92 3.50 3.81 88,9 97 2.50 3.75 63,5 95 3.50 3.81 88,9 97 2.00 3.78 50.8 96 2.50 3.75 63.5 95 2.75 3.63 69.9 92 3.50 -88,9 - 3.50 3.81 88,9 96.80 '![:i~1~~ 4.43 112 2.00 4.40 50,8 . 112 2.50 4.38 63,5 111 2.75 4.01 69,9 110 2.75 -69.9 - 3.50 4.31 88.9 110 4.50 3.81 114.3 97 1.75 4.43 44.5 113 2.00 4.41 50,8 112 2.50 4.38 63.5 111 2.75 4.38 69,9 111 3.50 4.31 88.9 110 4.50 -114,3 - 4.50 3.81 114.3 96.80 Dimensions -lncheslmUllmeteJS Aprx.WgLEa, Fem. LbsJkg Thd. Grv, Fem. V*# v* w y z Thd, Grv, 3.78 -2.63 7.64 3.05 5.0 -96 -67 194 78 2.3 - 4.00 -2.63 7.64 3.25 5.0 -102 -67 194 83 2.3 - 4.00 -2.63 7.64 4.00 4.0 -102 -67 194 102 1,9 - 4.00 4.00 2.63 7.64 4.29 B.0 -102 102 67 194 109 3.6 - 4.50 -2.63 7.63 4.88 6.8 6.5 114 -67 194 124 3,1 3.0 4.75 4.75 3.16 9.70 3.69 7.4 7,6 121 121 80 246 94 3,4 3A 4.75 4.75 3.16 9.70 4.38 8.2 a.a 121 121 80 246 111 3.7 3,6 4.75 4.75 3.16 9.70 4.63 8.3 7.9 121 121 80 . 246 118 3.8 3,6 5.00 4.63 3.16 9.70 5.31 8.4 8.8 127 118 80 246 135 3,8 4,0 4.50 -3.17 8.00 3.88 8,0 -114 -81 203 99 3.6 - 5.00 -3.00 9.46 5.31 8.0 -127 -76 240 135 3.6 - 4.50 -3.30 8.23 3.25 7.0 - 114 -84 209 83 3,2 - 4.50 -3.30 8.23 3.88 9.0 - 114 -84 209 99 4.1 - 4.75 -3.13 9.85 4.63 8.8 -121 -80 250 118 4.0 --4.63 3.16 9.70 5.31 11.0 --118 80 246 135 5,0 - 5.00 4.63 3.16 9.85 5.38 14.0 14.2 127 118 80 250 137 6A 6,4 5.13 -3.79 9.15 3.25 -4.8 130 -96 232 83 -2.2 5.12 5.13 3.79 9.15 3.25 5.4 5.1 130 130 96 232 B3 2.4 2.3 5,13 5.13 3.79 9.15 3.88 6.0 5.6 130 130 96 232 99 2.i 2,5 5.13 5.12 3.69 10.51 4.63 8.3 7.6 130 130 94 267 118 3.8 3,4 -5.21 3.69 10.51 4.63 -8.4 -132 94 267 118 -3.8 5.50 5."13 3.69 10.5'1 5.31 9.9 8.4 140 130 94 267 135 4,5 3,8 5.75 5.38 3.69 10.51 6.25 10.1 10.1 146 137 94 267 159 4,6 4,6 5.13 -3.63 9.40 3.25 9.0 8.7 130 -92 239 83 4,1 4,0 5.13 -3.63 9.40 3.25 7.8 - 130 -92 239 83 3,5 - 5.13 -3.63 9.40 3.88 8,0 -130 -92 239 99 3.6 - 5.50 5.13 3.63 9.40 4.63 9.5 9.5 140 130 92 239 118 4,3 4,3 5.50 5.13 3.63 9.40 5.31 8.1 14.0 140 130 92 239 "135 3,7 6,4 -5.38 3.63 9.40 6.12 -10.0 -137 92 239 155 -4,5 5.75 -3.63 9.40 6.25 18.0 - 146 -92 239 159 8,2 - 3 DIMENSIONS Styles 920 and 920N w/Grooved Outlet Styles 920 and 920N w/Female Threaded Outlet NOTE: Style 920 and Style 920N housings cannot be mated to achieve cross connections. These new size Style 920N products require a different hole size than the Style 920 It replaces, for proper installation. Use caution to assure the proper size nole is prepared ror the specifoe size and style used. Failure to use the proper hole size could result in joint leakage and property damage. NOTES ··eenter of run to engaged pipe end, female threaded ouUet only (Dimen-sions approximate). t Avallable with grooved or female threaded oudet. Specify choice on order. ; Cemer of run to end of fitling. • fl Female threaded outlets are avai~ able to NPT and BSPT specifications. (a) British Standard female pipe lhreaded outlet is available as listed. Specify "BSPT" clearly on order. (bl For 76, 1 mm threaded oudel specify 21/i" BSPT clearly on order. 4 SIZE RunXBranch Nominal Inches Style mm No. 165,1 mm X 1 920 X 25 X ,,,. 920 X 32 X 11/i(a) t 920 X 40 X 2 (a) t 920 X 50 X 21/z t 920 X 65 X 76. 1 mm (a)(b) 920 X 3 (alt 920 X 80 X 4 (a) t 920 X 100 8 X 2 (a) 920 200 X 50 X 2½(alt 920 X 65 X 3 (a) t 920 X 80 X 4 (a) t 920 X 100 Max. Hale Dimensions -lncheslmUllmeters Wark. Dia. Fem. Press, +0,13 Thd. Grv. Aprx. Wgt. Ea. PSl/kPa -a.oo T .. v*' Vt w V z LbsJkg 500 1.50 8.0 -3450 38.1 99 116 .. 96 237 70 3,6 - 500 1.75 4.43 5.13 -3.79 9.34 3.25 8.4 .. 3450 44.5 113 130 -96 237 83 3.8 .. 500 2.00 4.41 5.13 .. 3.79 9.34 3.25 8.4 .. 3450 so.a 112 130 -96 237 83 3,8 .. 500 2.50 4.38 5.13 -3.79 9.34 3.88 8.5 .. 3450 63,5 111 130 -96 237 99 3,9 - 500 2.75 4.01 5.13 .. 3.63 10.51 4.63 8.6 7.6 3450 69,9 110 130 -92 267 118 3.9 3,4 500 2.75 4.01 5.13 5.21 3.63 10.51 4.63 8.6 7.6 3450 69.9 110 130 132 92 267 118 3,9 3,◄ 500 3.50 4.31 5.50 5.13 3.63 10.51 5.31 10.2 8.4 3450 88,9 110 140 130 92 267 135 4.6 3.8 500 4.50 3.81 5.75 5.38 3.63 10.51 6.25 10.5 8.4 3450 114,3 97 146 137 92 267 159 4.8 3,8 500 2.75 5.44 6.19 .. 4.81 12.42 4.50 11.6 .. 3450 69.9 138 157 -122 316 114 5,3 - 500 2.75 5.07 6.19 6.19 4.81 12.42 4.50 11.6 11.6 3450 69,9 129 157 157 122 316 114 5.3 5,3 500 3.50 5.31 6.50 6.50 4.81 12.42 5.31 12.6 11.6 3450 88.9 135 165 165 122 316 135 5,7 5,3 500 4.50 4.81 6.75 6.38 4.81 12.42 6.25 15.3 12.5 3450 114,3 122 171 162 122 316 159 6.9 5,7 Styles 920 and 920N Mechanical-T® Bolted Branch Outlets FLOW DATA Exaggerated for Clarity Flow test data has shown that the total head loss between point (1) and (2) for the Style 920, 900N and 929 Mechanical-T® fittings can best be expressed in terms of the pressure difference across the inlet and branch. The pressure difference can be obtained from the relationship to the right. CvValues Values for flow of water at +60'F ( + 16°C) are shown in the table at right. OUTLET SIZE Namlnal Actual Diameter Out.Dia. lnJmm lnJmm ½ 0.840 15 21,3 ¾ 1.050 20 26,7 1 1.315 25 33,7 1¼ 1.660 32 42.4 1"2 1.900 40 48,3 Formulas for CV Values: M' = If!:._ c2 V Q= Cvx.f& Pipe Size Actual Mominal Outside Diameter Diameter Inches/mm Inches/mm 1/, 0.840 15 21.l ¾ 1.050 20 26.7 1 1.315 25 33,7 APPROVED PRESSURE RATINGS Equlvalenl length OUTLET SIZE Equivalent Length Feet/meter of Pipe Feel/meter al Pipe Nominal Actual Female Diameter Out. Dia. Female Grooved Threaded tnJmm lnJmm Grooved Threaded -2.0 2 2.375 9.0 10.5 -0.6 50 60,3 2,7 3.2 -4.0 21I? 2.875 11.0 12.5 -1,2 65 73,0 3.4 3,8 -5.0 3 3.500 13.5 15.5 -1,5 BO 88,9 4,1 4,7 5.5 6.0 4 4.500 20.0 22.0 1.7 1,8 100 114,3 6.1 6.7 7.0 8.0 Z.1 2,4 Where: Q = Flow (GPM) Cv = Flow Coefficient LIP = Pressure Drop (psi) Pipe Size Pipe Size Actual Actual Nominal Outside Momlnal Outside Cv Diameter Diameter Cv Diameter Diameter Cv Values Inches/mm Inches/mm varues lncheBlmm Inches/mm Values 17 1'1, 1.660 45 2½ 2.875 135 32 42,4 65 73.0 21 11/, 1.900 60 3 3,500 200 40 4B,3 BO 8B,9 25 2 2.375 100 4 4.500 400 50 60,3 100 114.3 The information provided below is based on the latest listing and approval data at the time of publication. Listings/Approvals are subject to change and/or additions by the approvals agencies. Contact Victaulic for performance on other pipe and the latest listings and approvals. Run Size Actual Nomlnal Outside Diameter Diameter Outlet Size Pipe Inches/mm Inches/mm Inches/mm Schedule 2½-6 2.875 • 6.625 All 10, 40 65-150 73.0 -168,3 21/,-4 2.87 5 -4.500 All DF 65-100 73.0-114.3 21/,-4 2.875 -4.500 All SF 65 • 100 73.0 • 114,3 6 6.625 3, 4 10 150 168,3 6 6.625 3,4 30, 40 150 15B,3 8 8.625 2'h 10, 40 200 219,1 8 8.625 3.4 10 200 219,1 8 8.625 3,4 30. 40 200 219.1 NOTES: 10 refers 10 Listed/Approved Schedule 10 steel sprinkler pipe. 40 refers to Listed/Approved Schedule 40 Slee! sprinkler pipe. Rated Working Pressures PSl/kPa UL ULC FM 400 400 400 2755 2755 2755 300 300 300 2065 2065 2065 300 300 300 2065 2065 2065 300 300 250 2065 2065 1724 300 300 300 2065 2065 2065 400 --2755 -- 300 -250 2065 -1724 300 -300 2065 -2065 OF refers to Usted/Approved Dyna•Flow steel sprinkler pipe manufactured by American Tube Company. SF refers to Listed/Approved Super-Flo steel sprinkler pipe manufactured by Allied Tube and Conduit Corporation. This product shall be manufactured by Victaullc or to Victaulic specifications. All products to be installed In accordance with current Victaulic installation/assembly instructions. Victaulic reserves the right to change product specmcatlons. designs and standard equipment without notice and without inc:U1Ting obligations. Styles 920 and 920N Mechanical-T® Bolted Branch Outlets 5 wtolog 1001 Y,r.;ion Speedy Products, Inc. 2472 East Seventh Avenue North St. Paul, MN 55109 Values Speedy places values first, as the foundation for all business dealings - promoting honesty, open straightforward communication and mutual respect. Vision Recognized for original ideas and extraordinary product development, we continue to provide time saving solutions/or today's global construction needs. Mission Dedicated to unparalleled customer service, superior quality and innovative products we create ever-increasing profitability and prosperity for our customers, partners and employees. The Speedy Team remains uncompromisingly committed to you! Page 1 2001 Catalog Version Table of Contents Values, Vision, Mission Statements ...................................................................................... 1 Special Notes .......................................................................................................................... 3 Wood Sam mys ........................................................................................................................ 4 Wood Sidewinders ................................................................................................................. 5 Sheetrock ................................................................................................................................ 5 Steel Sammys ......................................................................................................................... 6 Steel Sidewinders .................................................................................................................. 7 Performance Data for Steel ................................................................................................... 7 Concrete Sammys & Sidewinders ......................................................................................... 8 Concrete/Wood Installation Tools ......................................................................................... 9 Stainless Steel -Wood Sammys/Sidewinders ................................................................... 10 Stainless Steel -Steel Sammys/Sidewinders .................................................................... 11 Juniors ................................................................................................................................... 12 Hurricane/Window Shutter Screws ..................................................................................... 13 -, Ceiling Screws ...................................................................................................................... 13 Speedy Pole Tool ................................................................................................................. 14 Universal Socket Kit for Pole Tool ......................... '. ............................................................ 14 Sammy Saddle ..................................................................................................................... 15 Spot-Rite Level ..................................................................................................................... 16 Universal Sample Kit ............................................................................................................ 16 Sprink-Larm .......................................................................................................................... 17 Display, Banners, Posters ..................................................................................................... 17 Complete Installation Instructions .................................................................................. 18-19 Recommended Safeloads for Steel .................................................................................... 20 Page 2 Special Notes Engineering Note In 1996 the screws listed by UL were tested in plate steel that measured .188 and .118. Subsequent testing was done forpurlin applica- tions on May 5, 1997 using .037 or 20 gauge steel. Metric Sizes Sammy Super Screws'™ and Sidewinders™ are available to hang metric threaded rod (6mm, 8mm, and 10mm) or bolt stock. Sammy Nut Drivers Special nut drivers were designed to be used with the Sammy Super Screw™ anchoring system. When the appropriate nut drivers are used for installation the driver spins free on the screw after installation is complete and eliminates the expected wrist snap, reduces over-torque, and prevents screw failure. See installation procedures on pages 18 and 19. Stainless Steel Screws For standard stainless steel inventory, refer to pages IO and 11. Additional screws can be made with mild screws and stainless steel heads. Please call 888.773.0001 for additional information. Steel Screws Due to variations in hardness of certain metals, it should be noted our self-drilling screws for steel will experience different drill rates. 500-1500 RPM drill speed should be tried. Resulting drill chips should not be blue in color. Residual drill chips that are blue in color indicate the drill RPM level is too high. Vibratory Environments For attaching or anchoring in high vibratory environments, special care should be taken not just for building attachments but also for the hangers or assemblies being supported. Consult local code authorities for accepted anchoring devices. T JI Joist / Truss Truss manufacturers vary installation recommendations for TJijoist. Sidewinders SWG 20 and SWG 25-380 can be installed into the top cord of a truss. Sammy GST 20 can be installed into the center of the lower cord of a TJI. Penetration of the upright center web is permitted by some joist manufacturers. Pre-drilling maybe required by joist manufacturers. Tfso, pre-drill pilot 1/8" smaller than root diameter of fastener. Consult table below: Model Root Diameter Hole Size . GST 20 0.182 1/8" GST 25-380 0.280 7/32" SWG.20 0.182 1/8" SWG25-380 0.280 7/32" To increase efficiency of the installation process, sleeve tools, bit receivers and wood bits are available for pre-drilling. NFPA Requirements Sammy screws noted with NFPA under "Approvals" colum11 meet NFPA requirements. Check with local Authority Having Jurisdiction to confirm application and usage. UL Listings/ FM Approvals UL and FM reports are available atwww.SammySuperScrew.com CAD Drawings Cad Drawings are available and can be downloaded at www.SammySuperScrew.com Page 3 WOOD -Sammys WOOD• 1/4'' Rod (Ve1tical Mount) Use #14 Nut Drhu (Item #100) Item# Model Shk Lgth Shk Dia 20 GST,750 3/4 1/4 21 GSTlOO 1 1/4 22 GST200 2 1/4 23 GST300 3 1/4 24 GST600 6 1/4 Box Qty Weight (per 100) 100 4.75 100 5.00 100 6.50 100 7.50 50 9.00 Case Qty 1000 IOOO 1000 !000 500 #14 (ltem#100-black) Sammys 1/411, 318" rod WOOD• 3/8'' Rod (Ve1tical Mount) Use #14 Nut Driver (ltem#lOO) Approvals Item# Model Shk Lgth ShkDia FMTest UL Test WFM Actual Pullout Box Qty Load,lb. Load lb. Pipe Size 10 GST.75 3/4 1/4 564# • 6 Ply 100 11 GSTIO 1 1/4 210# • 7/16 OSB 100 NFPA 670# • 3/4" Ply UL-FM•NFPA 12 GST20 2 1/4 940# 850# 3/4-2 1/2 1760# -Fir 100 UL•NFPA * 27 GST25-380 21/2 3/8 1500# 4 2113# • Fir 50 UL•FM•NFPA 13 GST30 3 114 1475/f• 15011/f 314-4 2060/f -Fir 100 NFPA 403 GST40 4 114 21801/ -Fir 50 NFPA 14 GST60 6 114 2230# • Fir 50 \\100D • 1/2" Rod (Ve11ica1 Mount) Use #14SWNutDriver (ltem#lOl) Item# Model ShkLgth Shk Dia Actual Pullout Box Qty Weight Case Qty (per 100) #14SW Plem#101-red) Sidewinder.;& Sammys1/2°rad 8 GST2 * 06 GST2,5-380 15 GST3 16 GST4 17 GST6 ( Double Sheetrock Cemn9 2 1/4 21/2 318 3 1/4 4 114 6 1/4 1760# -Fir SC► 7.00 2113#-Fir 50 10.00 2275# • Fir so 10.50 218011 • Fir 50 10.60 2230# -Fir so 10.95 T JI Joist/Truss Consult truss manufacturer for recommended Installation point. • Pre-drilling may be 1·eq11lred for items #27 and #06. Tools available on page 9. Minimum 2" lmbedment Into base materlalforNFPA 13compllance Fcrvertlcal use. Install In center oflowerface. 500 500 500 500 500 Notless than 2" nominal width (1112") ( ) t Page 4 UL Listings and CAD Drawings are available at www.SammySuperScrew.com Nattt:Screu1.i: mu.tt be in.galled wit/, approprlaltt 11ut dri~rto campfy ,~il/1 "'""anlJ' WOOD -Sidewinders WOOD• 1/4" Rod (Horizontal Mount) Use #14SW Nut Driwr (Item #101) Item# Model Shk Lgth ShkDia Actual Box Qty Weight Case Qty Shear/Pullout (per 100) 4016 SWGJOO l 1/4 100 7.50 1000 300 SWG200 2 1/4 1725# -Fir 100 8.00 1000 WOOD• 3/8" Rod (Ho1izontal Mount) Use #14SW Nut Driwr (Item #101) Approvals Item# Model Shk Lgth Shk Dia UL Test UllFM Actual Load lb. Pipe Size Shear/Pullout 18 SWGlO 1 1/4 UL•NFPA 19 SWG20 2 1/4 1250# 3 1725# -Fir UL•NFPA * 26 SWG25-380 21/2 3/8 1500# 4 2249#. Fir 25 SWG30 3 1/4 Floor Joist r Jr JI Joist/ Truss =·. Consult truss manufai:turerfor • •. recommended lnstallauon point Pre-drilling may be ,·equired . for item #26. • . Tools available on page 9. Mlnlmum 21/211 from bottom for branch Unes. Minimuml"from bottom for main lines. Exception: This requirement shall not apply to 2" or thicker naftlng strfpsrestlng SHEETROCK-Toggle on top of steel beams. SHEETROCK• 1/4'' Rod (Ve1tical Mom1t) Use#14 NutDriver(ltem#lOO) Item# Model ShkLgth ShkDia Actual Pullout Box Qty Weight Case Qty (per I 00) 71 SST300 3 1/4 450# Lath & Plaster 404# 2 Layers 5/8 Rock 50 12.00 500 #14SW (llem#101-red) Sidewinders & Sammys 112'' rod Box Qty Weight (per JOO) 100 6.00 l00 7.00 50 10.25 50 8.50 ( Notless than 2'' nominal width (1112") up to 3112" pipe; not less than 3" nominal wldlh 4" & 5" pipe ( #14 (ltem#100-lllack) Sammys 1/4", 315" rod SHEETROCK• 3/8" Rod (Ve1tical Mount) Use #14 Nut Driver (Item #I 00) Item# Model ShkLgth Shk Dia Actual Pullout Pkg Qty Weight Case Qty (per I 00) 70 SST30 3 1/4 450# Lath & Plaster 50 12.00 500 404# 2 Layers 5/8 Rock Note..• Scrct~ must bl! in:iJalled wft/1 t1pprnpriale ntd driver tocampfy ,11ith Wtlrranty Page 5 January 12, 2004 \IIKINCG® A. SYSTEM DESCRIPTION (Refer to Figures 1 -3) Viking Electric/Pneumatic Double Inter- locked Preaction Systems utilize a Vi- king deluge valve controlled by a pneu- matic actuator (F.1), normally held closed by supervisory pressure main- tained in the automatic sprinkler system, AND a normally closed electric solenoid valve (F.2) controlled by an approved system control panel with compatible detection system. BOTH the electric detection system must activate AND supervisory pressure must be relieved from the sprinkler sys- tem before the deluge valve will open to fill the sprinkler system with water. If the electric detection system (alone} oper- ates due to fire, damage, or malfunction, an alarm will activate but the deluge valve will NOT open. If the sprinkler pip- ing is damaged or a sprinkler is broken or fused, but the detection system has not activated, an alarm will activate but the deluge valve will NOT open. In fire conditions, operation of both the detection system and a sprinkler is re- quired before the deluge valve will open allowing water to enter the system pip- ing. Electric/Pneumatic Double interlocked preaction systems are commonly used as refrigerated area systems. They are also commonly used where flooding of the pipe can have serious conse- quences, and where it is important to control accidental water discharge due to damaged sprinkler piping. Care should be taken since double Inter- locked preaction systems may not pro- duce flow from opened sprinklers as quickly as single or non-interlocked preaction systems. Activation of the de- tection system alone, or operation of a sprinkler alone, will sound an alarm but will NOT cause the system to fill with we:- ter. FACTORY MUTUAL APPROVAL Viking Electric/Pneumatic Double Inter- locked Preaction Systems are Factory Mutual (FM) Approved as a refrigerated area system when installed with specific components. Refer to current FM Ap- proval Guide. Consult the manufacturer for any component approvals too recent to appear in the FM Approval Guide. B. SYSTEM OPERATION (Refer to Figures 1 -3) In the SET condition: System water supply pressure enters the priming chamber of the deluge valve Forni No. F_070889 SYSTEM DATA through the 1/4'' (8 mm) priming line which includes a normally open priming valve (B.1 ), strainer (8.2), restricted ori- fice (B.3), and check valve (B.4). In the SET condition, water supply pressure is trapped in the priming chamber by check valve (B.4), and BOTH pneumatic actu- ator (F.1} and normally closed solenoid valve (F.2}. The water supply pressure trapped in the priming chamber holds the deluge valve clapper closed, keep- Ing the outlet chamber and system pip- ing dry. In a fire condition, when the detection system operates, system control panel energizes solenoid valve (F.2) open. Alarms activate, but the deluge valve will NOT open until a sprinkler opens reliev- ing supervisory pressure from the sprin- kler system. When a sprinkler opens, supervisory pressure in the sprinkler piping is reduced causing the pneumatic actuator (F.1) to open. After BOTH the electric detection system activates AND supervisory pressure In the sprinkler system have been lost, pressure is re- leased from the priming chamber to open drain cup (8.14) faster than it is supplied through restricted orifice (B.3). The deluge valve clapper opens to allow water to flow into the system piping and alarm devices, causing water motor alarm (C.2} and water flow alarms con- nected to alarm pressure switch (C.1) to activate. An optional accelerator may be installed to accelerate pressure loss from the sprinkler system to provide earlier alarms and/or allow the system to fill with water faster. An accelerator may be necessary to meet system discharge time requirements. When the deluge valve operates, the sensing end of P.O.R.V. (B.10) is pres- surized, causing the P.O.R.V. (B.10) to operate. When the P.O.R.V. {8.10} op- erates, it continually vents the priming chamber to prevent the deluge valve from resetting even if the releasing de- vices close. The deluge valve can only be reset after the system is taken out of service, and the outlet chamber of the deluge valve and associated trim piping are depressurized and drained. Trouble conditions: If a sprinkler opens prior to operation of the detection system, or any time super- visory pressure in the sprinkler piping is lost, alarms connected to air supervisory. switch will signal a low air pressure con- 319a DOUBLE INTERLOCKED PREACTION SYSTEM ELECTRIC/PNEUMATIC RELEASE dition but the deluge valve will NOT open. If the electric detection system (alone) operates due to damage or malfunction, alarms connected to system control panel will activate but the deluge valve will NOT open. Manual Operation: Any time the handle inside emergency release (B.11) is pulled, pressure is re- leased from the priming chamber; the deluge valve will open. Water will flow into the system piping, and alarm de- vices . If a sprinkler head opens, water will flow from the system. C. INSTALLATION Refer to current Viking Technical Data describing individual components of the Viking Electric/Pneumatic Double Inter- locked Preaction System. Technical Data describing the Viking deluge valve, and other system components are packed with product and in the Viking Engineering Design Data book. Also, refer to applicable installation standards, codes, and Authorities Hav- ing Jurisdiction. For Technical Data, Installation, Maintenance and Testing Instructions for individual system components, refer to current Viking Technical Data describing individual components of the Preaction System used. Viking Technical Data may be found on The Viking Corpora11on's Web site at http://www.viklngcorp.com. The Web site may include a more recent edition of this Technical Data page. Important Settings: (Also refer to Table 1, page 319 b) 1. Provide a minimum 30 PSI (207 kPa) pneumatic pressure to the closed sprinkler system and the pneumatic actuator (F.1} for system water pres- sures of 175 PSI (1 207 kPa) or less. For system water pressures above 175 PSI, up to a maximum of 250 PSI (1724 kPa}, provide a minimum of 50 PSI (345 kPa) pneumatic pressure to the sprinkler system and pneumatic actuator (F.1 ). 2. Set Air Compressor air pressure su- pervisory switch (E.3) to maintain a constant air supply of 40 PSI (276 kPa) for system water pressures of Replaces page 319a-j dated September 5, 2001. (Removed all reference to Easy Trim as it is no longer an option on this system.) 319 b \IIKII\Kii® 175 PSI (1207 kPa) or less. For sy&- tem water pressures above 175 PSI, up to a maximum of 250 PSI (1 724 kPa), set the air compressor air pres- sure supervisory switch to maintain a constant air supply of 60 PSI (414 kPa). 3. Set air maintenance device (G.6) to maintain a constant air supply of 30 PSI (207 kPa) for system water pres- sures of 175 PSI (1 207 kPa) or less. For system water pressures above 175 PSI, up to a maximum of 250 PSI (1 724 kPa), set the air compressor air pressure supervisory switch (E.3) to maintain a constant air supply of 50 PSI (345 kPa). 4. Set air pressure supervisory switch (E.3) to activate at 25 PSI (172 kPa) on pressure drop for system water pressures of 175 PSI (1 207 kPa) or less. For system water pressures above 175 PSI, up to a maximum of 250 PSI (1 724kPa), set the air pre&- sure supervisory switch (E.3) to acti- vate at 45 PSI (241 kPa) on pressure drop. air pressure supervisory switch (E.3) should be wired to activate an alarm to signal a low air pressure condition. Activation of an alarm to signal a high pressure condition may be required. Refer to applicable in- stallation standards and the Authority Having Jurisdiction. 5. alarm pressure switch (C.1} should activate when pressurized to 4 to 8 PSI (27 to 55 kPa) on pressure rise. alarm pressure switch (C.1) should be wired to activate the water flow alarm. Air Supply Design: The air supply compressor should be sized to establish total required air pres- sure In 30 minutes. The air supply must be regulated, restricted and maintained automatically. air maintenance device (G.6) is used to regulate and restrict the flow of supervisory air into the sprinkler system piping. The air supply must be regulated to maintain the supervisory pressure de- sired in the sprinkler piping. Pressures in excess of the pressure settings rec- ommended in paragraph C: "Installa- tion", may affect operation of the system. The air supply must be restricted to en- sure that the automatic air supply cannot replace air as fast as it escapes when a sprinkler operates. It is recommended practice to provide an inspectors test connection on the su- pervised sprinkler piping. SYSTEM DATA TABLE 1 IMPORTANT SETTINGS DEVICE Air Compressor "On/Off' Switch Air Maintenance Device Release System Pressure Supervisory Switch The sprinkler system inspectors test connection should terminate in an orifice equal to the smallest sprinkler orifice provided. The inspectors test connection should be equipped with a ball valve (normally locked closed) capable of being opened to simulate the opening of a sprinkler and should be installed at the most hy- draulically demanding location of the system. Inspectors test connections may be used to verify that the automatic air supply cannot replace air as fast as it escapes when a sprinkler operates. Re- fer to paragraph F. INSPECTIONS and TESTS. Speed of Operation An optional accelerator may be installed to accelerate pressure loss from the sprinkler system to provide earlier alarms and/or allow the system to fill with water faster. An accelerator may be necessary to meet system discharge time requirements. D.EMERGENCYINSTRUCTIONS (Refer to Figures 1 -3) To Take System Out of Service: WARNING: Placing a control valve or detection system out of service may eliminate the Fire Protection capabilities of the system. Priorto proceeding, notify all Authorities Having Jurisdiction. Con- sideration should be given to employ- ment of a Fire Patrol in the affected ar- eas. After a fire, verify that the fire is OUT and that placing the system out of service has been authorized by the appropriate Authority Having Jurisdiction. 1. Close water supply valve. 2. Open system main drain. 3. Silence alarms (optional). a: To silence electric alarms con-trolled by Viking PAR-3 Panel: Open panel and press "ALARM SILENCE" b: To silence electric alarms con- trolled by pressure switch and to silence water motor alarm (C.2J : Close alarm shut-off valve (B.9 . Jan~ary 12, 2004 DOUBLE INTERLOCKED PREACTION SYSTEM ELECTRIC/PNEUMATIC RELEASE WATER SUPPLY PRESSURES Upto 175 PSI (1 207 kPa) to 175 PSI (1 207 kPa) 250 PSI (1 724 kPa) SET TO MAINTAIN SET TO MAINTAIN 40 PSI (276 kPa) 60 PSI (414 kPa) 30 PSI {207 kPa) 50 PSI (345 kPa) 25 PSI (172 kPa) 45 PSI (310 kPa) On Pressure Drop On Pressure Drop Note: Electric alarms controlled by a pressure switch installed in the 1/2" (15 mm) NPT connection for a Non-interuptable alarm pressure switch (C.1) cannot be shut off until the deluge valve is reset or taken out of service. 4. Shut off the air supply (optional). 5. Open auxiliary drain valve (B.6). 6. Close priming valve (B.1) (optional). Sprinkler systems that have been sub- jected to a fire must be returned to ser- vice as soon as possible. The entire system must be inspected for damage, and repaired or replaced as necessary. 7. Replace any detectors that have been damaged. 8. Replace any sprinklers that have opened, been damaged, or have been exposed to fire conditions. 9. Perform all maintenance procedures recommended in Technical Data de- scribing individual components of the system that has operated. 10. Return the system to service as soon as possible. Refer to E: PLACING THE SYSTEM IN SER- VICE. E. PLACING THE SYSTEM IN SERVICE (Refer ID FigLl!es 1-3) Note: Refer to instructions provided in Technical Data describing the Viking de- luge valve, and other system compo- nents. To Return the System to Service: 1. Verify that the system has been prop- erly drained. System main drain and auxiliary drain valve (B.6) should be open. Verify that emergency release (B.11) is closed. 2. Close the system main drain. 3. Open priming valve (B.1). 4. Reset the system control panel. For Viking Par-3 Panel: Open panel and press "RESET". Solenoid valve (F.2) should close. Flow from the outlet of pneumatic ac- tu ato r (F.1) to drain cup (8.14) should stop. The low air alarm will ac- tivate. January 12, 2004 a: For Par-3 Panels, to sllence the low air alarm, open the panel and press ALARM SILENCE. 5. Restore supervisory pressure to sprinkler piping. Establish and main- tain 30 PSI (207 kPa) or 50 PSI (345 kPa) as required by pneumatic actua- tor (F.1). refer to Section C: "Installa- tion". • a: Verify that the 1/2" valve in the air maintenance device by-pass trim is closed and that both 1/4" valves are open. 6. Reset the system control panel. For Par-3 Panels, open the panel and press RESET. 7. Open flow test valve (8.15). 8. Partially open main water supply con- trol valve 9. When full flow develops from flow test valve (8.15), close the flow test valve (B.15). a: Verify that there is no flow from open auxiliary drain valve (B.6). 10. Close auxiliary drain valve (B.6). 11. Fully open and secure the main water supply control valve. 12. Verify that the alarm shut-off valve (B.9) is open and that all other valves are in their normal operating position. 13. Depress the plunger of drip check. No water should flow from the drip Check when the plunger is pushed. F. INSPECTIONS and TESTS It is imperative that the system be in- spected and tested on a regular basis. Refer to INSPECTIONS and TESTS recommended in current Viking Techni- cal Data describing individual compo- nents of the Viking Electric/Pneumatic Double Interlocked ?reaction System used. The frequency of the inspections may vary due to contaminated water sup- plies, corrosive water supplies, corro- sive atmospheres as well as the condi- tion of the air supply to the system. For minimum maintenance and inspection requirements, refer to the National Fire Protection Association Pamphlet that describes care and maintenance of sprinkler systems. In addition, the Au- thority Having Jurisdiction may have ad- ditional maintenance, testing, and in- spection requirements which must be followed. WARNING: Any system maintenance which involves placing a control valve or detection system out of service may eliminate the fire protection capabilities of that system. Prior to proceeding, no- tify all Authorities Having Jurisdiction. SYSTEM DATA Consideration should be given to em- ployment of a fire patrol in the affected areas. F.1 Low Air Pressure Alann Test Quarterly testing of low air alarms is rec- ommended. To Test Sprinkler System "Low Su- pervisory Air" Alarm. 1. To prevent operation of the deluge valve and filling the system with water during the test, do NOT operate the electric detection system during this test Consider closing the main water supply control valve. 2. Fully open the sprinkler system in- spectors test valve to simulate opera- tion of a sprinkler. 3. Verify that low air alarms operate within an acceptable time period and continue without interruption. 4. Close the inspectors test valve. 5. Establish recommended pneumatic supervisory pressure to be main- tained. Refer to paragraph C: IN- STALLATION. 6. Open the system control panel and press RESET. Alarms should stop. When testing is complete, return the system to service following steps 1 through 9 below. Caution, this procedure applies only when done in conjunction with "Low Air" Alarm testing described above. 1. Verify that the pressure indicated on priming pressure water gauge (B.12) indicates that the priming chamber is pressurized with system water supply pressure. 2. Depress the plunger of drip check. No water should flow from the drip check when the plunger is pushed. If the main water supply control valve was NOT closed in step 1, proceed to step 8 below. If the main water supply control valve WAS closed in step 1, proceed with steps 3 through 9 below. 3. Open flow test valve (B.15) and auxil- iary drain valve (B.6). 4. Partially open main water supply con- trol valve 5. When full flow develops from flow test valve (8.15), close the flow test valve (8.15). a: Verify that there is no flow from open auxiliary drain valve (8.6). 6. Close auxiliary drain valve (B.6). 7. Fully open and secure the main wa- ter supply control valve. 319c DOUBLE INTERLOCKED PREACTION SYSTEM ELECTRIC/PNEUMATIC RELEASE 8. Verify that the alarm shut-off valve (B.9) is open and that all other valves are in their normal operating position. 9. Depress the plunger of drip check. No water should flow from the drip Check when the plunger is pushed. F.2 Full Flow Trip test Performance of a trip test is recom- mended annually during warm weather. Consider coordinating this test with op- eration testing of the detectors. Caution! Performance of this test will cause the deluge valve to open and the sprinkler system to fill with water. If trip testing is considered not practical con- sult the Authority Having Jurisdiction. To trip test the Electric/Pneumatic Dou- ble Interlocked Preaction System: 1. Notify the Authority Having Jurisdic- tion and those in the area affected by the test. 2. To trip the deluge valve: a: Operate a detector according to the manufacturers instructions. b: Open the sprinkler system inspec- tors test valve. 3. The deluge valve should open, filling the sprinkler system with water. a: Waterflowalarmsshouldoperate. 4. Verify adequate flow from the Sprin- kler System inspectors test valve within an acceptable time period. When trip testing is complete: 5. Perform steps 1 through 10 of para- graph "D" EMERGENCY INSTRUC- TIONS to take the system out of ser- vice. 6. Perform steps 1 through 13 of para- graph "E' PLACING THE SYSTEM IN SERVICE to return the system to service. 7. Notify the Authority Having Jurisdic- tion and those in the affected area that testing is complete. G. MAINTENANCE NOTICE: The owner is responsible for maintaining the fire protection system and devices in proper operating condi- tion. • Refer lo MAINTENANCE INSTRUC- TIONS provided in current Viking Tech- nical Data describing individual compo- nents of the Viking Electric/Pneumatic Double Interlocked Preaction System used. Where difficulty in performance is expe- rienced, the valve manufacturer or his authorized representative shall be con- tacted if any field adjustment is to be made. 319d January 12, 2004 \IIKINai® SYSTEM DATA DOUBLE INTERLOCKED PREACTION SYSTEM ELECTRIC/PNEUMATIC RELEASE DOUBLE INTERLOCKED PREACTION WITH CONVENTIONAL TRIM SYSTEM PIPE WORK ELEVATION SHALL BE ABOVE THE CONTROL VALVE ~ ~Vi 1/2" (\5 mm) NPT for Non-7 ln-terupi:o.l:>le B. AIQr,... Pressure Swl-tch <Optiono.ll To Dre.in To Drain ---Do.she cl lines lndic:o:te pip~ reqvlred b~ not listed In •sys-te .. Cor,ponents• T oble. ..... ••• DoHed lines lnclicote eledrlco.\ detection sys ten wiring requireol but not listed In 'Syste'"' CoMponents" Table, For o.clclitlona.l wiring requlrel"'lents reof'er to technico.l for <;or-i.ponf;'nis us~cl. * Viking Deluge Vo.Ive Tril"I Po.cko.ges conto.ir. iteMs BJ through B.15 and o.ssodo ted nipples, Viking Accessor-y Po.cMnge for Conventional Deluge Valve Tri contoins B.2 -throvgh B,5, B.7 through BJl, ond B.14, DOUBLE INTERLOCKED PREACTION ELEC1RICIPNEUMATIC A SUPERVISED DRY SYSTCH CllNlRDl..l[D BY ELECTRIC RELEASE SYSlEM ond PNElJltATIC SUPERVISORY ~SURC SYSTEM C□MP□NENTS A. Vo.Ive A.I Deluge Valve * B, Deluge Valve Conventional Trlr, (See Deluge Valve Conventlono.l Trir, Cho.r-ts) B.1 Pl"'irllt"'lg Vo.lve (Norr-1otly Opet"'I) B.2 Stro.iner B,J 1/1&• Restriction B.4 Spring Looded Check Volve B.5 Alo.rr, Test Vo.Ive CNorl'lolly Closed) B.6 Auxiliary Oro.in Vo.Ive CNorr,o,lly Closed) B.7 Drip Check Vo.Ive B.8 Drain Check Volve B.9 Alo.rn Shvt-□ff Vo.Ive (Norr,olly □p~n) B.lO Pressure Operated Relief Volve (P.□,R.V.) B.ll EMergenc:y Release B.12 Prlr,lng P,-essure \Jeter Gouge ond Valve B.13 \Jo.ter Supply Pressure Go.uge and Volve B.14 Droin Cup B,15 Flow Test Vo.Ive <Norr,ally Closed) C. Voter now Alo.rr, Equlpnent C.l AlorM Press1.1re Switch ond/or- C.2 \Jo ter Motor Alorr, CStrolner Require cl) C.3 Si:rolner C.4 Electric Alo.rr, Bell D, Riser 0.1 lloter Supply Control Valve D.2 Eo.sy Riser" Check Vo.Ive or r1,.1bbe,.. seo:tecl c::heck volve 0.3 Sprinkler Syster, Moln Droln D.4 90 "Ell. <Grooved Ell Shown. Deluge Vo.Ive also ovo.ilable with flanged Outlet,) [, Supervisory Air Supply E.I Systel'I Pressure Go.uge ond Valve E-2 Soft Seo-t Swing Check Volve E,3 Air Pressure Supervisory S~ltch f". Releose SysteM F",l Pneur'\o.tic Actuator f",2 Solenolcl Volve <Nori,o.Uy Closed) F'.3 Elecirlc:/Pneunatic Releo.se Module TriM f",4 Systen Conirol Panel f".S Electric De-tection Systel'L Heo.t Detector shown For clarity. F.6 Accelerotor <Optiono.l. See Inset.) F.7 Acceler-0tor lsola.tion Valve. <See Inset.> (j, Air Supply G.1 AutoMotlc Air Supply, Air CoMpressor c..nd Tonk shown for clo.rlty. G.2 Air Supervisory Pressure Switch tConpressor □ntOff Control Switch) G.3 Soft Seo.t Check Volv• G.4 Sh'-'t OH Valve <lnclic:a.i:ing Bo.ll V0,lve reC:QMMenoled.) G,5 D•hydro tor G.6 Air rialnteno.nce O&vice & By-Pass TriM G.7 1/2' x 1/4' Reducing Coupling FIGURE 1 January 12, 2004 \IIKIN(;® SYSTEM DATA 319 e DOUBLE INTERLOCKED PREACTION SYSTEM ELECTRIC/PNEUMATIC RELEASE DOUBLE INTERLOCKED PREACTION WITH HORIZONTAL CONVENTIONAL TRIM SYSTEM PIPE WORK ELEVATION SHALL BE ABOVE THE CONTROL VALVE I To Drain -----Do.shed lines incllcate pipe l""Gqulreol but not lnc:luded with Deluge Vo.Ive Ccnventlonol Tr-lM ond Cnsy Rlser1M Check Vo..lve ll"lM Po.c:koge$, ' ................ Dotted lines inclicote electrk:ci.l sys-teri wil"'ing t"'eqwilreol no1 not include-cl with 'SysteM Conponents'". F"or Adolttlona.l wll"'lnQ recu,.all""et"l!'nts t"'e-f'e,l"' to technlccil do.to for c0nponents useol. * Viking Deluge Votve Trlt'I Po.ckoges c:onto.ln ltens EJ thr-ovgh 8.15 and ossocinteol nipples. Viking Accessory ~ocko.ge for Conventional Deluge, Valve Tri,.. conto.lris 8.2 thr-01..1gh B.5. D.7 thr-ough 8.11, o.ncf B.J.4. ** J/2' CJ5 1'11'1) NPT for Non-Jnte-ruptoble AlorM Pr-essur-e Switch (Cptionol) FIGURE 2 A SUPERVISED DOUBLE INTERLOCKED PRE-ACTION SYSTEM CONTROLLED BY ELECTRIC/PNEUMATIC RELEASE S~STEM C□Mf>□NENTS A, V"lve A.l Deluge Valve * B. Delvge Valve Conven-tionol Trir, <See Deluge Valve Conventional Trin Cho.rts) B,l PriMing Valve (Norrially Open) B.2 Strainer B.3 1115' Restriction B.4 Spring Loaciecl Check Volve B,5 AhirM Test VQlve <Norl'\O.lly Closed) B.5 . Auxiliary DrQln Valve <NorM<>lly Closed) B.7 Drip Check VQlve B,B Oro.In Check Vo.Ive B.9 AlarM Shut-□t'f Valve (Nomally Open) B.10 P.-essure Dper•tecl Reller V•lve Cf>.□,R.V.) B.11 EMc,.-gency Rc,le•se B.12 Pril'ling Pressvre Voter Go.uge o.ncl VQlve B,13 \Jc.ter Supply Pressure Go.uge c.nd Volve B.!4 Drain CUP B,15 Flew Test Vo.Ive CNcrMally Closed) C. Vo.te.-F'low Alo.m Equipr,ent C.1 Alo.rM Pressure Switch Qnci/cr C.2 Vo.ter Motor Alo.rM <StrQiner Required) C.3 Siroiner C.4 Electric AlorM Bell D, Riser DJ Vo.ter Supply Cor,t,ol VQlve DZ ~~~b.~ls:;:t.;;•~.6<0.1~:lv':° D.3 Sprinkler Systeri M•ln Dr"in E. Supervisory Air Supply E.1 Systen Pressure Gauge, a.nd Vc.lve E.2 Soft Seat Swing Check Volve E,3 Air Pr~ssvrl!' S1..1pervisory Switch F'. Release Syste~ F'.l ~lectric/PneuMa-tlc Releio.se Moch.Ile <Se~ Etectric/Pne1.motic Releo.se ModLA• Trll'l Cho.rt) r .2 SysteM Control Panel F'.3 £1ectrlc Detectlor, SysteM, Heat Detector shown for clnrfty. f".4 Accelerotor <□ptlonol, See Inset.) r,5 Acceter"tor lso\"tion V•lve. <See Inset), G, Air Supply G.1 AutoMc. tic Air-Supply. Air CoMprt?ssor ancl Tonk shown for clari'ty, G.2 Air Supervisory Pressure Switch (Col"\prEissor □nl□ff Con1:rot Swl'tch) G.3 Soft Se" t Check Valve G.4 Shut □H V•lve (!nclicoting B"ll Volve reCOMMenciecl.l G.5 Dehycir• tor G.6 Air Maintenance Device & By-PQSS TriM 319 f January 12, 2004 SYSTEM DATA DOUBLE INTERLOCKED PREACTION SYSTEM ELECTRIC/PNEUMATIC RELEASE DOUBLE INTERLOCKED PREACTION WITH VERTICAL CONVENTIONAL TRIM SYSTEM PIPE WORK ELEVATION SHALL BE ABOVE THE CONTROL VALVE -----Do.shed lines lndh:ote pipe required bu1: not inch.Aded with Delu9e VCLlve conventlonot Tril'I o.nd Eosy RISer NChecl< Votve Trln Pod<oges. Dotted lines lndic:o.te electriCol systG'M wiring requil"'ed "'0t not lr'lclucled M1h •sy.t;l'I COf'IIP0r"l9nts•. for AcldttlOP'\Ol wlrfnQ rec:iulrew-ients r-ef'er to te-chrllco.l c:iato ror-COl"le>onents used. * Viking Deluge Valve Tril'li Pocko.ges conto.ln lte"s B.l thr-ough B.15 and o.ssoclo. ted nipples. Viking Accessor'"y Pocko.ge for Conventiona.1 Detvge Va.Ive 1rin contains B.2 "through B.S, B. 7 through B.Jl. ond 8.14. ** ue• (]5 rv,) NPT for Ncn-]nteruptoble Alo.r-r, Pressure Switch (□pt~no.l"> FIGURE 3 A SUPERVlSED DOUBLE JNTERLOCKED PRE-ACTJDN SYSTEM CONTROLLED BY ELECTRlC/PNEUMATIC RELEASE SYSTEM COMPONENTS A. Vo.Ive A.I D1>lu9e VQlve * B. Deluge Valve ConventionCll Trin <See Deluge VQlve ConventionQl Trh, Chcirts> B.l PrlMlng VQlve CNorMQlly Open) B.2 Strc.ine-r 8.3 1/16' Restriction B.4 Spring LOQclecl Check VCllve B.5 AlQr"' Test Volve CNornQlly Closeol) B.6 AuxlliQry Droln VQlve CNorMo.lly Closecl) B,7 Drip Check Vc,lve B.B Drciln Check Vo.Ive B.9 Alo.rM Shut-OH VCllve CNorncilly Open) B.10 Pressure □perCltecl Relief VCllve (P.O.R.V,) B.11 e;n.,r9ency R6'lense B.12 PriMing Pressure \Jo ter Gauge and Valve B.13 \Jo.ter Supply Pressure GQuge onol Vo.Ive B,14 Dr Cl in cup B.15 Flow Test Volve (Norno.lly Closecl) C. \JQter Flow Alorn Equipr,ent C.1 Alo.rn Pressure Switch o.nct/or C.2 \Jo. ter Motor AIQrl'I (Strnlner Required) C.3 Stro.lner C.4 Electric AIQrl'l Bell D. Riser D.1 \Jo.ter Supply Control Vc,lve 0,2 ;~~be~is:;:t;~e;~e~"l~:lv~ D.3 Spi-inkler SysteM Mo.in Droil"I E. Supervisory Air Supply E.1 Systeri Pressur"' Go.uge, Qncl VQlve, E.2 Soft Seo. t Swing Check VQlve E.3 Air Pressure Supervisory Switch F. Releo.se Systen F.I Electric/Pneuno.tic Release Modi.Ale <See Electric/Pneurio.tic Releo.se Moclule 'Trin Chart) F.2 SysteM Control Pcinel F.3 Electric Detection SysteM. Heat Detector shown for clCLrity. F'.4 AccelerQtor c□ptiono.l. See Inset,) F.5 Accelerator Isolation Valve. CSee Inset). Ci. Air Supply G.l AutoMatic Air Supply. Air CoMpressor o.nci Tank shown For clc,rlty. G.2 Air Supervisory Pressure Switch (CoMpressor On/Off Control Switch) G.3 Soft SeClt Check VCllve G.4 Shut Off Valve (Indicating BClll Valve reCOMMendeci.> G.5 Dehycirn tor G.6 Air MolntenQnce Device ~ By-Pass TrlM Replaces page 319a-j dated September 5, 2001. (Removed all ref- erence to Easy Trim as it is no longer an option on this system.) Form No. F _070889