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2251 FARADAY AVE; ; AS090117; Permit
10/28/21, 9:46 AM AS090117 Permit Data City of Carlsbad Sprinkler Permit Job Address: 2251 FARADAY AV Permit Type: SPRINK Parcel No: 2120610400 Lot #: 0 Permit No: AS090117 Status: ISSUED Applied 9/14/2009 Approved: 9/14/2009 Reference No.: Issued: 9/14/2009 PC #: Inspector: Project Title: ABBOT IBIS T.I. FIRE SPRINKLER PLAN CHECK & INSPECTIONS Applicant: COSCO FIRE PROTECTION 10695 TREENA ST SAN DIEGO, CA 858-444-2000 Owner: CARLSBAD RESEARCH CENTER L L C 515 S FIGUEROA FL #16 LOS ANGELES CA Fees ($) Add'I Fees ($) [ Total ($) Balance ($) 130 0 130 0 1/1 ASoctotr ... Fire Protection by Computer Design Cosco Fire Protection 10695 Treena St, #105 San Diego, CA 92131 858444-2000 Job Name : ABBOTT IBIS Most Demanding Building Location : 2251 FARADAY AVE System : 1A Contract : 10.CA_5108 Data File : ABBOTT IBIS B.WXF Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Cosco Fire Protection Page ABBOTT IBIS Most Demanding Date Hydraulic Design Information Sheet Name - ABBOT IBIS Location - 2251 FARADAY AVE Building - Contractor - TSA/DBC Calculated By - S VERNON Construction: C ) Combustible Occupancy - Date - 8-14-09 System No. - 1A Contract No. - 10.CA 5108 Drawing No. - FP-1 Non-Combustible Ceiling Height - 171 -0" (X) NFPA 13 ( ) Lt. Haz. Ord.Haz.Gp. (X) 1 C ) 2 ( ) 3 ( ) Ex.Haz. NFPA 231 ( ) NFPA 231C Figure Curve Other Specific Ruling Made By Date Area of Sprinkler Operation - .1 System Type Sprinkler/Nozzle Density - (X) Wet Make EC-14 Area Per Sprinkler - 256 ( ) Dry Model TY-6237 Elevation at Highest Outlet - 10' ( ) Deluge Size 3/4 Hose Allowance - Inside - ( ) Preaction K-Factor 14 Rack Sprinkler Allowance - ( ) Other Temp.Rat.155 Hose Allowance - Outside - 250 Note Calculation Flow Required - 616.85 Press Required - 56.298 Summary C-Factor Used: Overhead Underground W Water Flow Test: Pump Data: Tank or Reservoir: A Date of Test - Cap. - T Time of Test - Rated Cap.- Elev.- E Static Press - 94.5 @ Press - BOR R Residual Press - 68.75 Elev. - Well Flow - 1061.21 Proof Flow S Elevation - U P Location - P L Source of Information - Y C Commodity Class Location O Storage Ht. Area Aisle W. M Storage Method: Solid Piled % Palletized % Rack H Single Row ( ) Conven. Pallet C ) Auto. Storage C ) Encap. S R C ) Double Row ( ) Slave Pallet C ) Solid Shelf ( ) Non T A ( ) Mult. Row ( ) Open Shelf O C R K Flue Spacing Clearance:Storage to Ceiling A Longitudinal Transverse G E Horizontal Barriers Provided: Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 S Y S T E H D E S I G N City Water Supply: CI - Static Pressure : 94.5 C2 - Residual Pressure: 65.75 C2 - Residual Flow : 1061.21 Demand: Dl - Elevation : 6.787 D2 - System Flow : 366.847 02 - System Pressure : 57.387 Hose(Adj City) Hose ( Demand) : 250 D3 - System Demand : 616.847 Safety Margin : 26.576 VVLI ouppiy LUIVt (L) Cosco Fire Protection Page 2 ABBOTT IBIS Most Demanding Date 150 140 130 P 120 R 110 E 100 S90 80 U 70 R6° E 50 40 30 20 10 I 200 400 600 800 1000 1200 1400 1800 FLOW( N A 1.85) Computer Proqrams by Hydratec Inc. Route 111 Windham N.H. USA 03087 1-Ittings usea oummary Cosco Fire Protection Page 3 ABBOTT IBIS Most Demanding Date Fitting Legend Abbrev. Name Y2 3fl 1 1'/4 11/z 2 2V2 3 31/2 4 5 6 8 10 12 14 16 18 20 24 E NFPA 1390Standard Elbow 1 2 2 3 4 5 6 7 8 10 12 14 18 22 27 35 40 45 50 61 Fsp Flow Switch Potter VSR Fitting generates a Fixed Loss Based on Flow I NFPA 139OFlowthruTee 3 4 5 6 8 10 12 15 17 20 25 30 35 50 60 71 81 91 101 121 Units Summary Diameter Units Inches Length Units Feet Flow Units US Gallons per Minute Pressure Units Pounds per Square Inch Note: Fitting Legend provides equivalent pipe lengths for fittings types of various diameters. Equivalent lengths shown are standard for actual diameters of Sched 40 pipe and CFactors of 120 except as noted with *• The fittings marked with a * show equivalent lengths values supplied by manufacturers based on specific pipe diameters and CFactors and they require no adjustment. All values for fittings not marked with a * will be adjusted in the calculation for CFactors of other than 120 and diameters other than Sched 40 per NFPA. Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Pressure I Flow Summary - STANDARD Cosco Fire Protection Page 4 ABBOTT IBIS Most Demanding Date Node Elevation K-Fact Pt Pn Flow Density Area Press No. Actual Actual Req. 15.166 43.41 na 15.67 43.2 na 15.67 43.45 na 15.166 43.41 na 15.67 43.2 na 15.67 43.45 na 15.166 43.41 na 15.67 43.2 na 15.67 43.45 na 15.166 43.32 na 15.67 43.11 na 15.67 43.18 na 15.67 43.2 na 15.67 43.23 na 15.67 43.25 na 15.67 43.46 na 10.0 45.64 na 10.0 45.66 na 10.0 45.69 na 10.0 45.71 na 15.166 43.31 na 15.67 41.19 na 15.67 39.44 na 15.67 29.55 na 15.67 24.6 na 15.67 22.25 na 15.67 20.84 na 15.67 20.8 na 15.67 21.18 na 15.67 24.6 na 15.67 28.01 na 15.67 42.82 na 15.166 39.66 na 15.67 29.55 na 15.67 14 11.54 na 47.56 0.1 80 8.2 15.67 14 10.69 na 45.77 0.1 256 8.2 15.67 14 8.2 na 40.09 0.1 256 8.2 15.67 14 10.68 na 45.75 0.1 108 8.2 15.67 14 10.31 na 44.96 0.1 108 8.2 15.67 24.6 na 15.67 28.01 na 15.166 43.47 na 15.67 42.88 na 15.67 23.16 na 15.67 21.26 na 15.67 20.31 na 15.67 20.27 na 15.67 20.23 na 15.67 21.51 na 15.67 23.35 na 15.67 27.02 na 15.67 32.52 na 15.67 3435 na 15.67 42.92 na 9.5 44.27 na 9.5 23.93 na 9.5 14 11.96 na 48.42 0.1 256 8.2 10.0 22.73 na 9.5 14 12.04 na 48.58 0.1 256 8.2 10.0 14 10.66 na 45.71 0.1 256 8.2 9.5 26.02 na 9.5 29.69 na 10.0 34.97 na 10.0 36.81 na 15.166 43.8 na Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Flow Summary - Standard Cosco Fire Protection Page 5 ABBOTT IBIS Most Demanding Date Node Elevation K-Fact Pt Pn Flow Density Area Press No. Actual Actual Req. 15.67 43.59 na 15.67 43.81 na 15.67 43.83 na 15.67 43.84 na 15.67 43.87 na 15.67 43.87 na 15.67 43.9 na 15.67 43.94 na 15.67 43.98 na 15.67 44.0 na 15.67 44.04 na 9.5 46.48 na 9.0 46.72 na 9.0 46.72 na 9.0 46.76 na 9.0 46.76 na 10.0 46.35 na 10.0 46.39 na 10.0 46.44 na 10.0 46.46 na 15.166 44.11 na 15.67 43.9 na 15.67 44.22 na 15.67 44.22 na 15.67 44.27 na 15.67 44.27 na 15.67 44.3 na 15.67 44.36 na 15.67 44.44 na 15.67 44.48 na 10.0 46.67 na 10.0 46.67 na 10.0 46.72 na 10.0 46.73 na 10.0 46.76 na 10.0 46.81 na 10.0 46.89 na 10.0 47.18 na 15.166 44.39 na 15.67 44.19 na 15.67 44.73 na 15.67 44.98 na 15.166 44.64 na 15.67 44.44 na 15,67 45.49 na 15.166 44.85 na 15.67 44.66 na 15.67 46.32 na 15.166 45.02 na 15.67 44.82 na 15.67 46.16 na 15.166 45.15 na 15.67 44.95 na 15.67 46.03 na 15.166 45.26 na 15.67 45.05 na 15.67 45.93 na 15.166 45.34 na 15.67 45.14 na 15.67 45.85 na 15.166 45.41 na 15.67 45.2 na 15.67 45.78 na 15.166 45.46 na 15.67 45.25 na Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Flow SiJmmary - Standard Cosco Fire Protection Page 6 ABBOTT IBIS Most Demanding Date Node Elevation K-Fact Pt Pn Flow Density Area Press No. Actual Actual Req. G43 15.67 45.73 na G35 15.166 45.84 na G36 15.67 45.63 na G41 15.67 45.7 na G37 15.166 45.88 na G38 15.67 45.66 na G39 15.67 45.66 na G40 15.166 45.88 na G42 15.166 45.92 na G44 15.166 45.96 na G46 15.166 46.01 na G76 15.166 46.08 na G49 15.166 46.16 na G51 15.166 46.27 na G53 15.166 46.4 na G55 0.0 53.14 na G75 15.166 43.67 na G73 15.166 43.67 na G71 15.166 43.68 na G69 15.166 43.68 na G67 15.166 43.7 na G65 15.166 43.84 na G63 15.166 4426 na G61 15.166 44.71 na G59 15.166 45.2 na 057 0.0 52.3 na 077 15.166 47.02 na MA1 13.0 48.82 na TOR 13.0 50.7 na BOR 2.5 56.3 na TEST 0.0 57.39 na The maximum velocity is 22.6 and it occurs in the pipe between nodes G10 and B12 250.0 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Cosco Fire Protection Page 7 ABBOTT IBIS Most Demanding Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. or Ftng's Pe Pv ******* Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn Gi 7.72 2.157 iT 12.307 0.500 43.410 to 120.0 0.0 12.307 -0.218 G2 7.72 0.0006 0.0 12.807 0.008 Vel = 0.68 G2 0.0 1.61 iT 8.0 80.416 43.200 to 120.0 0.0 8.000 0.0 G74 7.72 0.0028 0.0 88.416 0.245 Vel = 1.22 G74 0.0 2.157 iT 12.307 0.500 43.445 to 120.0 0.0 12.307 0.218 G75 7.72 0.0007 0.0 12.807 0.009 Vel = 0.68 0.0 7.72 43.672 KFactor= 1.17 G3 7.74 2.157 iT 12.307 0.500 43.409 to 120.0 0.0 12.307 -0.218 G4 7.74 0.0006 0.0 12.807 0.008 Vel = 0.68 G4 0.0 1.61 iT 8.0 80.416 43.199 to 120.0 0.0 8.000 0.0 G72 7.74 0.0028 0.0 88.416 0.247 Vel = 1.22 G72 0.0 2.157 iT 12.307 0.500 43.446 to 120.0 0.0 12.307 0.218 G73 7.74 0.0007 0.0 12.807 0.009 Vel = 0.68 0.0 7.74 43.673 KFactor= 1.17 G5 7.84 2.157 iT 12.307 0.500 43.406 to 120.0 0.0 12.307 -0.218 G6 7.84 0.0006 0.0 12.807 0.008 Vel = 0.69 G6 0.0 1.61 iT 8.0 80.416 43.196 to 120.0 0.0 8.000 0.0 G70 7.84 0.0029 0.0 88.416 0.253 Vel = 1.24 G70 0.0 2.157 iT 12.307 0.500 43.449 to 120.0 0.0 12.307 0.218 G71 7.84 0.0007 0.0 12.807 0.009 Vel = 0.69 0.0 7.84 43.676 KFactor= 1.19 G7 6.57 2.157 iT 12.307 0.500 43.324 to 120.0 0.0 12.307 -0.218 G8 6.57 0.0005 0.0 12.807 0.006 Vel = 0.58 G8 0.0 1.61 0.0 34.833 43.112 to 120.0 0.0 0.0 0.0 B4 6.57 0.0021 0.0 34.833 0.072 VeI= 1.04 B4 0.0 1.61 0.0 8.000 43.184 to 120.0 0.0 0.0 0.0 B3 6.57 0.0020 0.0 8.000 0.016 Vel = 1.04 B3 0.0 1.61 0.0 16.000 43.200 to 120.0 0.0 0.0 0.0 B2 6.57 0.0021 0.0 16.000 0.033 Vel = 1.04 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Clculations - Hazen-Williams Cosco Fire Protection Page 8 ABBOTT IBIS Most Demanding Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn B2 0.0 1.61 0.0 8.000 43.233 to 120.0 0.0 0.0 0.0 B1 6.57 0.0020 0.0 8.000 0.016 Vel = 1.04 B1 0.0 1.61 IT 8.0 93.416 43.249 to 120.0 0.0 8.000 0.0 G68 6.57 0.0021 0.0 101.416 0.209 Vel= 1.04 G68 0.0 2.157 IT 12.307 0.500 43.458 to 120.0 0.0 12.307 0.218 G69 6.57 0.0005 0.0 12.807 0.007 Vel = 0.58 0.0 6.57 43.683 K Factor= 0.99 D4 0.0 1.049 2E 4.0 9.291 45.639 to 120.0 IT 5.0 9.000 -2.456 B4 0.0 0.0001 0.0 18.291 0.001 Vel = 0 0.0 0.0 43.184 K Factor =0 D3 0.0 1.049 2E 4.0 8.160 45.656 to 120.0 IT 5.0 9.000 -2.456 B3 0.0 0.0 0.0 17.160 0.0 Vel = 0 0.0 0.0 43.200 K Factor = 0 D2 0.0 1.049 2E 4.0 8.160 45.689 to 120.0 IT 5.0 9.000 -2.456 82 0.0 0.0 0.0 17.160 0.0 Vel = 0 0.0 0.0 43.233 K Factor =0 Dl 0.0 1.049 2E 4.0 9.500 45.705 to 120.0 IT 5.0 9.000 -2.456 B1 0.0 0.0 0.0 18.500 0.0 Vel = 0 0.0 0.0 43.249 K Factor = 0 G9 -143.42 2.157 1 12.307 0.500 43.311 to 120.0 0.0 12.307 -0.218 GIO -143.42 -0.1488 0.0 12.807 -1.906 Vel = 12.59 GIO 0.0 1.61 0.0 2.830 41.187 to 120.0 0.0 0.0 0.0 B12 -143.42 -0.6184 0.0 2.830 -1.750 Vel = 22.60 B12 0.0 1.61 0.0 16.000 39.437 to 120.0 0.0 0.0 0.0 Bil -143.42 -0.6182 0.0 16.000 -9.891 Vel = 22.60 Bil 0.0 1.61 0.0 8.000 29.546 to 120.0 0.0 0.0 0.0 BIO -143.42 -0.6182 0.0 8.000 -4.946 Vel = 22.60 BIO 47.56 1.61 0.0 8.000 24.600 to 120.0 00 0.0 0.0 B9 -95.86 -0.2934 0.0 8.000 -2.347 Vel = 15.11 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Cosco Fire Protection Page 9 ABBOTT IBIS Most Demanding Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn B9 45.77 1.61 0.0 16.000 22.253 to 120.0 0.0 0.0 0.0 B8 -50.09 -0.0883 0.0 16.000 -1.413 Vel = 7.89 B8 40.09 1.61 0.0 8.000 20.840 to 120.0 0.0 0.0 0.0 B39 -10.0 -0.0044 0.0 8.000 -0.035 Vel = 1.58 B39 45.76 1.61 0.0 8.000 20.805 to 120.0 0.0 0.0 0.0 B7 35.76 0.0472 0.0 8.000 0.378 Vel = 5.64 B7 44.95 1.61 0.0 16.000 21.183 to 120.0 0.0 0.0 0.0 B6 80.71 0.2134 0.0 16.000 3.415 Vel = 12.72 B6 0.0 1.61 0.0 16.000 24.598 to 120.0 0.0 0.0 0.0 B5 80.71 0.2134 0.0 16.000 3.415 Vel = 12.72 B5 0.0 1.61 IT 8.0 61.375 28.013 to 120.0 0.0 8.000 0.0 G66 80.71 0.2134 0.0 69.375 14.807 Vel = 12.72 G66 0.0 2.157 IT 12.307 0.500 42.820 to 120.0 0.0 12.307 0.218 G67 80.71 0.0514 0.0 12.807 0.658 Vel = 7.09 0.0 80.71 43.696 K Factor 12.21 012 0.0 1.049 2E 4.0 10.125 39.656 to 120.0 IT 5.0 9.000 -0.218 B12 0.0 -0.0001 0.0 19.125 -0.001 Vel = 0 0.0 0.0 39.437 K Factor = 0 Dli 0.0 1.049 2E 4.0 10.125 29.546 to 120.0 1 5.0 9.000 0.0 13I1 0.0 0.0 0.0 19.125 0.0 Vel0 0.0 0.0 29.546 K Factor = 0 010 47.56 1.049 2E 4.0 11.208 11.541 KFactor= 14.00 to 120.0 IT 5.0 9.000 0.0 B10 47.56 0.6462 0.0 20.208 13.059 Vel = 17.66 0.0 47.56 24.600 K Factor = 9.59 D9 45.77 1.049 2E 4.0 10.208 10.690 K Factor = 14.00 to 120.0 IT 5.0 9.000 0.0 B9 45.77 0.6020 0.0 19.208 11.563 Vel = 16.99 0.0 45.77 22.253 K Factor= 9.70 08 40.09 1.049 2E 4.0 17.833 8.200 K Factor = 14.00 to 120.0 IT 5.0 9.000 0.0 68 40.09 0.4711 0.0 26.833 12.640 Vel = 14.88 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Cosco Fire Protection Page 10 ABBOTT IBIS Most Demanding Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. or Ftng's Pe Pv ******* Notes ****** Point Qt Pf/Ft Eqv. Ln. Total Pf Pn 0.0 40.09 20.840 K Factor = 8.78 D39 45.75 1.049 2E 4.0 7.830 10.681 K Factor = 14.00 to 120.0 IT 5.0 9.000 0.0 B39 45.75 0.6015 0.0 16.830 10.124 Vel = 16.98 0.0 45.75 20.805 K Factor= 10.03 D7 44.96 1.049 2E 4.0 9.670 10.312 K Factor= 14.00 to 120.0 11 5.0 9.000 0.0 B7 44.96 0.5823 0.0 18.670 10.871 Vel = 16.69 0.0 44.96 21.183 KFactor= 9.77 D6 0.0 1.049 2E 4.0 11.080 24.598 to 120.0 IT 5.0 9.000 0.0 B6 0.0 0.0 0.0 20.080 0.0 Vel = 0 0.0 0.0 24.598 K Factor = 0 05 0.0 1.049 2E 4.0 11.420 28.013 to 120.0 IT 5.0 9.000 0.0 B5 0.0 0.0 0.0 20.420 0.0 Vel = 0 0.0 0.0 28.013 K Factor = 0 Gil -58.82 2.157 IT 12.307 0.500 43.466 to 120.0 0.0 12.307 -0.218 G12 -58.82 -0.0287 0.0 12.807 -0.367 Vel = 5.16 G12 0.0 1.61 0.0 10.830 42.881 to 120.0 0.0 0.0 2.672 022 -58.82 -0.1188 0.0 10.830 -1.287 Vel = 9.27 0.0 -58.82 44.266 K Factor= -8.84 B22 -58.82 1.61 0.0 16.000 23.162 to 120.0 0.0 0.0 0.0 B21 -58.82 -0.1189 0.0 16.000 -1.902 Vel = 9.27 B21 0.0 1.61 0.0 8.000 21.260 to 120.0 0.0 0.0 0.0 B20 -58.82 -0.1189 0.0 8.000 -0.951 Vel = 9.27 B20 48.41 1.61 0.0 8.000 20.309 to 120.0 0.0 0.0 0.0 B19 -10.41 -0.0049 0.0 8.000 -0.039 Vel = 1.64 B19 0.0 1.61 0.0 8.000 20.270 to 120.0 0.0 0.0 0.0 618 -10.41 -0.0048 0.0 8.000 -0.038 VeI= 1.64 618 48.59 1.61 0.0 24.000 20.232 to 120.0 0.0 0.0 0.0 B17 38.18 0.0534 0.0 24.000 1.282 Vel = 6.02 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Cosco Fire Protection Page 11 ABBOTT IBIS Most Demanding Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv Notes ****** Point Qt Pf/Ft Eqv. Ln. Total Pf Pn B17 45.71 1.61 0.0 8.000 21.514 to 120.0 0.0 0.0 0.0 616 83.89 0.2292 0.0 8.000 1.834 Vel = 13.22 B16 0.0 1.61 0.0 16.000 23.348 to 120.0 0.0 0.0 0.0 B15 83.89 0.2292 0.0 16.000 3.668 Vel = 13.22 B15 0.0 1.61 0.0 24.000 27.016 to 120.0 0.0 0.0 0.0 B14 83.89 0.2292 0.0 24.000 5.501 Vel = 13.22 B14 0.0 1.61 0.0 8.000 32.517 to 120.0 0.0 0.0 0.0 B13 83.89 0.2292 0.0 8.000 1.834 Vel = 13.22 B13 0.0 1.61 IT 8.0 29.375 34.351 to 120.0 0.0 8.000 0.0 G64 83.89 0.2292 0.0 37.375 8.568 Vel = 13.22 G64 0.0 2.157 IT 12.307 0.500 42.919 to 120.0 0.0 12.307 0.218 G65 83.89 0.0552 0.0 12.807 0.707 Vel = 7.37 0.0 83.89 43.844 K Factor= 12.67 D22 -58.82 1.049 2E 4.0 10.250 44.266 to 120.0 IT 5.0 9.000 -2.672 B22 -58.82 -0.9575 0.0 19.250 -18.432 Vel = 21.84 0.0 -58.82 23.162 K Factor = -12.22 D21 0.0 1.049 2E 4.0 10.250 23.932 to 120.0 11 5.0 9.000 -2.672 B21 0.0 0.0 0.0 19.250 0.0 Vel = 0 0.0 0.0 21.260 K Factor 0 020 48.42 1.049 2E 4.0 7.500 11.960 K Factor= 14.00 to 120.0 IT 5.0 9.000 -2.672 B20 48.42 0.6679 0.0 16.500 11.021 Vel = 17.97 0.0 48.42 20.309 K Factor= 10.74 D19 0.0 1.049 2E 4.0 13.670 22.726 to 120.0 1 5.0 9.000 -2.456 B19 0.0 0.0 0.0 22.670 0.0 Vel = 0 0.0 0.0 20.270 K Factor = 0 D18 48.58 1.049 2E 4.0 7.160 12.042 K Factor = 14.00 to 120.0 IT 5.0 9.000 -2.672 B18 48.58 0.6722 0.0 16.160 10.862 Vel = 18.03 0.0 48.58 20.232 K Factor= 10.80 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Cosco Fire Protection Page 12 ABBOTT IBIS Most Demanding Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv ******* Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn D17 45.71 1.049 2E 4.0 13.160 10.662 K Factor= 14.00 to 120.0 iT 5.0 9.000 -2.456 B17 45.71 0.6005 0.0 22.160 13.308 Vel = 16.97 0.0 45.71 21.514 K Factor = 9.85 D16 0.0 1.049 2E 4.0 9.375 26.020 to 120.0 1 5.0 9.000 -2.672 816 0.0 0.0 0.0 18.375 0.0 Vel = 0 0.0 0.0 23.348 K Factor = 0 D15 0.0 1.049 2E 4.0 9.375 29.688 to 120.0 iT 5.0 9.000 -2.672 B15 0.0 0.0 0.0 18.375 0.0 Vel = 0 0.0 0.0 27.016 K Factor = 0 D14 0.0 1.049 2E 4.0 14.250 34.973 to 120.0 IT 5.0 9.000 -2.456 B14 0.0 0.0 0.0 23.250 0.0 Vel = 0 0.0 0.0 32.517 K Factor 0 013 0.0 1.049 2E 4.0 11.208 36.807 to 120.0 1 5.0 9.000 -2.456 B13 0.0 0.0 0.0 20.208 0.0 Vel = 0 0.0 0.0 34.351 K Factor = 0 G13 7.52 2.157 1 12.307 0.500 43.801 to 120.0 0.0 12.307 -0.218 G14 7.52 0.0006 0.0 12.807 0.008 Vel = 0.66 G14 0.0 1.61 0.0 82.830 43.591 to 120.0 0.0 0.0 0.0 B31 7.52 0.0027 0.0 82.830 0.220 Vel = 1.19 631 0.0 1.61 0.0 8.000 43.811 to 120.0 0.0 0.0 0.0 B30 7.52 0.0026 0.0 8.000 0.021 Vel = 1.19 B30 0.0 1.61 0.0 1.208 43.832 to 120.0 0.0 0.0 0.0 B29 7.52 0.0025 0.0 1.208 0.003 VeI= 1.19 B29 0.0 1.61 0.0 12.420 43.835 to 120.0 0.0 0.0 0.0 B28 7.52 0.0027 0.0 12.420 0.033 Vel = 1.19 B28 0.0 1.61 0.0 2.395 43.868 to 120.0 0.0 0.0 0.0 B27 7.52 0.0025 0.0 2.395 0.006 Vel = 1.19 B27 0.0 1.61 0.0 8.000 43.874 to 120.0 0.0 0.0 0.0 B26 7.52 0.0026 0.0 8.000 0.021 Vel = 1.19 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Cosco Fire Protection Page 13 ABBOTT IBIS Most Demanding Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn B26 0.0 1.61 0.0 16.000 43.895 to 120.0 0.0 0.0 0.0 B25 7.52 0.0027 0.0 16.000 0.043 Vel = 1.19 B25 0.0 1.61 0.0 16.000 43.938 to 120.0 0.0 0.0 0.0 B24 7.52 0.0026 0.0 16.000 0.042 Vel = 1.19 B24 0.0 1.61 0.0 8.000 43.980 to 120.0 0.0 0.0 0.0 B23 7.52 0.0026 0.0 8.000 0.021 Vel = 1.19 B23 0.0 1.61 IT 8.0 5.375 44.001 to 120.0 0.0 8.000 0.0 G62 7.52 0.0027 0.0 13.375 0.036 Vel = 1.19 G62 0.0 2.157 IT 12.307 0.500 44.037 to 120.0 0.0 12.307 0.218 G63 7.52 0.0006 0.0 12.807 0.008 Vel = 0.66 0.0 7.52 44.263 KFactor= 1.13 D31 0.0 1.049 2E 4.0 9.330 46.483 to 120.0 IT 5.0 9.000 -2.672 831 0.0 0.0 0.0 18.330 0.0 Vel = 0 0.0 0.0 43.811 K Factor = 0 D30 0.0 1.049 2E 4.0 9.000 46.721 to 120.0 1 5.0 9.000 -2.889 B30 0.0 0.0 0.0 18.000 0.0 Vel = 0 0.0 0.0 43.832 K Factor = 0 029 0.0 1.049 2E 4.0 11.080 46.724 to 120.0 IT 5.0 9.000 -2.889 B29 0.0 0.0 0.0 20.080 0.0 Vel = 0 0.0 0.0 43.835 K Factor = 0 028 0.0 1.049 2E 4.0 11.080 46.757 to 120.0 IT 5.0 9.000 -2.889 B28 0.0 0.0 0.0 20.080 0.0 Vel = 0 0.0 0.0 43.868 K Factor = 0 D27 0.0 1.049 2E 4.0 9.875 46.763 to 120.0 11 5.0 9.000 -2.889 B27 0.0 0.0 0.0 18.875 0.0 Vel = 0 0.0 0.0 43.874 K Factor = 0 026 0.0 1.049 2E 4.0 11.208 46.351 to 120.0 IT 5.0 9.000 -2.456 B26 0.0 0.0 0.0 20.208 0.0 Vel = 0 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Cosco Fire Protection Page 14 ABBOTT IBIS Most Demanding Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv ******* Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn 0.0 0.0 43.895 K Factor = 0 D25 0.0 1.049 2E 4.0 11.208 46.394 to 120.0 IT 5.0 9.000 -2.456 B25 0.0 0.0 0.0 20.208 0.0 Vel = 0 0.0 0.0 43.938 K Factor = 0 D24 0.0 1.049 2E 4.0 10.580 46.436 to 120.0 IT 5.0 9.000 -2.456 B24 0.0 0.0 0.0 19.580 0.0 Vel = 0 0.0 0.0 43.980 K Factor = 0 D23 0.0 1.049 2E 4.0 9.458 46.457 to 120.0 IT 5.0 9.000 -2.456 B23 0.0 0.0 0.0 18.458 0.0 Vel = 0 0.0 0.0 44.001 K Factor = 0 G15 8.66 2.157 1 12.307 0.500 44.110 to 120.0 0.0 12.307 -0.218 G16 8.66 0.0009 0.0 12.807 0.011 Vel = 0.76 G16 0.0 1.61 0.0 90.830 43.903 to 120.0 0.0 0.0 0.0 B38 8.66 0.0034 0.0 90.830 0.312 Vel = 1.36 B38 0.0 1.61 0.0 1.208 44.215 to 120.0 0.0 0.0 0.0 B37 8.66 0.0033 0.0 1.208 0.004 Vel = 1.36 B37 0.0 1.61 0.0 13.420 44.219 to 120.0 0.0 0.0 0.0 B36 8.66 0.0034 0.0 13.420 0.046 Vel = 1.36 B36 0.0 1.61 0.0 2.375 44.265 to 120.0 0.0 0.0 0.0 B35 8.66 0.0038 0.0 2.375 0.009 Vel = 1.36 B35 0.0 1.61 0.0 8.000 44.274 to 120.0 0.0 0.0 0.0 B34 8.66 0.0034 0.0 8.000 0.027 Vel = 1.36 B34 0.0 1.61 0.0 16.000 44.301 to 120.0 0.0 0.0 0.0 B33 8.66 0.0034 0.0 16.000 0.055 Vel = 1.36 B33 0.0 1.61 0.0 24.000 44.356 to 120.0 0.0 0.0 0.0 B32 8.66 0.0034 0.0 24.000 0.082 Vel = 1.36 B32 0.0 1.61 IT 8.0 5.375 44.438 to 120.0 0.0 8.000 0.0 G60 8.66 0.0034 0.0 13.375 0.046 Vel = 1.36 G60 0.0 2.157 IT 12.307 0.500 44.484 to 120.0 0.0 12.307 0.218 G61 8.66 0.0009 0.0 12.807 0.011 Vel = 0.76 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Cosco Fire Protection Page 15 ABBOTT IBIS Most Demanding Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C'1 or Ftng's Pe Pv Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn 0.0 8.66 44.713 KFactor= 1.30 D38 0.0 1.049 2E 4.0 11.375 46.671 to 120.0 IT 5.0 9.000 -2.456 B38 0.0 0.0 0.0 20.375 0.0 Vel = 0 0.0 0.0 44.215 K Factor =0 D37 0.0 1.049 2E 4.0 11.125 46.675 to 120.0 1 5.0 9.000 -2.456 B37 0.0 0.0 0.0 20.125 0.0 Vel = 0 0.0 0.0 44.219 K Factor =0 D36 0.0 1.049 2E 4.0 11.125 46.721 to 120.0 IT 5.0 9.000 -2.456 B36 0.0 0.0 0.0 20.125 0.0 Vel = 0 0.0 0.0 44.265 K Factor = 0 035 0.0 1.049 2E 4.0 11.420 46.729 to 120.0 IT 5.0 9.000 -2.456 B35 0.0 0.0 0.0 20.420 0.001 Vel = 0 0.0 0.0 44.274 K Factor =0 D34 0.0 1.049 2E 4.0 7.500 46.757 to 120.0 IT 5.0 9.000 -2.456 B34 0.0 0.0 0.0 16.500 0.0 Vel = 0 0.0 0.0 44.301 K Factor =0 033 0.0 1.049 2E 4.0 7.500 46.812 to 120.0 IT 5.0 9.000 -2.456 B33 0.0 0.0 0.0 16.500 0.0 Vel = 0 0.0 0.0 44.356 K Factor = 0 032 0.0 1.049 2E 4.0 8.420 46.894 to 120.0 1 5.0 9.000 -2.456 B32 0.0 0.0 0.0 17.420 0.0 Vel = 0 0.0 0.0 44.438 K Factor = 0 040 0.0 1.049 2E 4.0 7.500 47.185 to 120.0 1 5.0 9.000 -2.456 B40 0.0 0.0 0.0 16.500 0.0 Vel = 0 0.0 0.0 44.729 K Factor = 0 G17 10.29 2.157 IT 12.307 0.500 44.390 to 120.0 0.0 12.307 -0.218 G18 10.29 0.0011 0.0 12.807 0.014 Vel= 0.90 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Cosco Fire Protection ABBOTT IBIS Most Demanding Page 16 Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv ******* Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn G18 0.0 1.61 0.0 114.830 44.186 to 120.0 0.0 0.0 0.0 B40 10.29 0.0047 0.0 114.830 0.543 Vel = 1.62 B40 0.0 1.61 iT 8.0 45.375 44.729 to 120.0 0.0 8.000 0.218 G59 10.29 0.0047 0.0 53.375 0.253 Vel = 1.62 0.0 10.29 45.200 K Factor= 1.53 G58 0.0 2.157 IT 12.307 0.500 44.982 to 120.0 0.0 12.307 0.218 G59 0.0 0.0 0.0 12.807 0.0 Vel = 0 0.0 0.0 45.200 K Factor = 0 G19 12.00 2.157 1 12.307 0.500 44.637 to 120.0 0.0 12.307 -0.218 G20 12.0 0.0015 0.0 12.807 0.019 Vel = 1.05 G20 0.0 1.61 IT 8.0 160.208 44.438 to 120.0 0.0 8.000 0.0 G56 12.0 0.0063 0.0 168.208 1.056 Vel = 1.89 G56 0.0 2.157 iT 12.307 0.500 45.494 to 120.0 0.0 12.307 6.787 G57 12.0 0.0015 0.0 12.807 0.019 Vel = 1.05 0.0 12.00 52.300 K Factor= 1.66 G21 15.34 2.157 iT 12.307 0.500 44.847 to 120.0 0.0 12.307 -0.218 G22 15.34 0.0023 0.0 12.807 0.030 Vel = 1.35 G22 0.0 1.61 IT 8.0 160.208 44.659 to 120.0 0.0 8.000 0.0 G54 15.34 0.0099 0.0 168.208 1.664 Vel = 2.42 G54 0.0 2.157 iT 12.307 0.500 46.323 to 120.0 0.0 12.307 6.787 G55 15.34 0.0023 0.0 12.807 0.030 Vel = 1.35 0.0 15.34 53.140 K Factor = 2.10 G23 13.65 2.157 IT 12.307 0.500 45.015 to 120.0 0.0 12.307 -0.218 G24 13.65 0.0019 0.0 12.807 0.024 Vel = 1.20 G24 0.0 1.61 iT 8.0 160.208 44.821 to 120.0 0.0 8.000 0.0 G52 13.65 0.0080 0.0 168.208 1.340 Vel = 2.15 G52 0.0 2.157 iT 12.307 0.500 46.161 to 120.0 0.0 12.307 0.218 G53 13.65 0.0020 0.0 12.807 0.025 Vel = 1.20 0.0 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Cosco Fire Protection Page 17 ABBOTT IBIS Most Demanding Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv ******* Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn 13.65 46.404 K Factor= 2.00 G25 12.15 2.157 IT 12.307 0.500 45.149 to 120.0 0.0 12.307 -0.218 G26 12.15 0.0015 0.0 12.807 0.019 Vel = 1.07 G26 0.0 1.61 IT 8.0 160.208 44.950 to 120.0 0.0 8.000 0.0 G50 12.15 0.0064 0.0 168.208 1.082 Vel = 1.91 G50 0.0 2.157 IT 12.307 0.500 46.032 to 120.0 0.0 12.307 0.218 G51 12.15 0.0016 0.0 12.807 0.020 Vel= 1.07 0.0 12.15 46.270 KFactor= 1.79 G27 10.84 2.157 IT 12.307 0.500 45.256 to 120.0 0.0 12.307 -0.218 G28 10.84 0.0012 0.0 12.807 0.015 VeI= 0.95 G28 0.0 1.61 IT 8.0 160.208 45.053 to 120.0 0.0 8.000 0.0 G48 10.84 0.0052 0.0 168.208 0.876 VeI= 1.71 G48 0.0 2.157 IT 12.307 0.500 45.929 to 120.0 0.0 12.307 0.218 G49 10.84 0.0013 0.0 12.807 0.017 Vel = 0.95 0.0 10.84 46.164 KFactor= 1.60 G29 9.70 2.157 IT 12.307 0.500 45.340 to 120.0 0.0 12.307 -0.218 G30 9.7 0.0010 0.0 12.807 0.013 Vel = 0.85 G30 0.0 1.61 11 8.0 160.208 45.135 to 120.0 0.0 8.000 0.0 G47 9.7 0.0042 0.0 168.208 0.712 Vel = 1.53 G47 0.0 2.157 IT 12.307 0.500 45.847 to 120.0 0.0 12.307 0.218 G76 9.7 0.0011 0.0 12.807 0.014 VeI= 0.85 0.0 9.70 46.079 K Factor = 1.43 G31 8.70 2.157 IT 12.307 0.500 45.408 to 120.0 0.0 12.307 -0.218 G32 8.7 0.0008 0.0 12.807 0.010 Vel = 0.76 G32 0.0 1.61 IT 8.0 160.208 45.200 to 120.0 0.0 8.000 0.0 G45 8.7 0.0035 0.0 168.208 0.583 Vel = 1.37 G45 0.0 2.157 IT 12.307 0.500 45.783 to 120.0 0.0 12.307 0.218 G46 8.7 0.0009 0.0 12.807 0.011 Vel = 0.76 0.0 8.70 46.012 K Factor= 1.28 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Cosco Fire Protection Page 18 ABBOTT IBIS Most Demanding Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. ficif or Ftng's Pe Pv ******* Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn G33 7.84 2.157 IT 12.307 0.500 45.460 to 120.0 0.0 12.307 -0.218 G34 7.84 0.0007 0.0 12.807 0.009 Vel = 0.69 G34 0.0 1.61 IT 8.0 160.208 45.251 to 120.0 0.0 8.000 0.0 G43 7.84 0.0029 0.0 168.208 0.481 Vel = 1.24 G43 0.0 2.157 IT 12.307 0.500 45.732 to 120.0 0.0 12.307 0.218 G44 7.84 0.0007 0.0 12.807 0.009 Vel = 0.69 0.0 7.84 45.959 K Factor= 1.16 G35 3.87 2.157 IT 12.307 0.500 45.845 to 120.0 0.0 12.307 -0.218 G36 3.87 0.0002 0.0 12.807 0.002 Vel = 0.34 G36 0.0 1.61 IT 8.0 79.875 45.629 to 120.0 0.0 8.000 0.0 G41 3.87 0.0008 0.0 87.875 0.068 Vel = 0.61 G41 0.0 2.157 IT 12.307 0.500 45.697 to 120.0 0.0 12.307 0.218 G2 3.87 0.0002 0.0 12.807 0.002 Vel = 0.34 0.0 3.87 45.917 K Factor = 0.57 G37 0.0 2.157 IT 12.307 0.500 45.881 to 120.0 0.0 12.307 -0.218 G38 0.0 0.0 0.0 12.807 0.0 Vel = 0 G38 0.0 1.61 IT 8.0 79.875 45.663 to 120.0 0.0 8.000 0.0 G39 0.0 0.0 0.0 87.875 0.0 Vel = 0 G39 0.0 2.157 IT 12.307 0.500 45.663 to 120.0 0.0 12.307 0.218 G40 0.0 0.0 0.0 12.807 0.0 Vel = 0 0.0 0.0 45.881 K Factor =0 Gi -7.72 3.26 0.0 9.500 43.410 to 120.0 0.0 0.0 0.0 G3 -7.72 -0.0001 0.0 9.500 -0.001 Vel = 0.30 G3 -7.74 3.26 0.0 10.000 43.409 to 120.0 0.0 0.0 0.0 G5 -15.46 -0.0003 0.0 10.000 -0003 Vel = 0.59 G5 -7.84 3.26 1E 9.408 89.291 43.406 to 120.0 IT 20.159 29.567 0.0 G7 -23.3 -0.0007 0.0 118.858 -0.082 G7 -6.57 3.26 0.0 12.000 43.324 to 120.0 0.0 0.0 0.0 G9 -29.87 -0.0011 0.0 12.000 -0.013 Vel = 0.90 VeI= 1.15 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Cosco Fire Protection Page 19 ABBOTT IBIS Most Demanding Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. HG" or Ftng's Pe Pv Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn G9 143.42 3.26 0.0 12.000 43.311 to 120.0 0.0 0.0 0.0 Gil 113.55 0.0129 0.0 12.000 0.155 Vet = 4.36 Gil 58.82 3.26 0.0 12.000 43.466 to 120.0 0.0 0.0 0.0 G13 172.37 0.0279 0.0 12.000 0.335 Vet = 6.63 G13 -7.52 3.26 0.0 12.000 43.801 to 120.0 0.0 0.0 0.0 G15 164.85 0.0258 0.0 12.000 0.309 Vel = 6.34 G15 -8.67 3.26 0.0 12.000 44.110 to 120.0 0.0 0.0 0.0 G17 156.18 0.0233 0.0 12.000 0.280 Vel = 6.00 G17 -10.29 3.26 0.0 12.000 44.390 to 120.0 0.0 0.0 0.0 G19 145.89 0.0206 0.0 12.000 0.247 Vet = 5.61 G19 -12.00 3.26 0.0 12.000 44.637 to 120.0 0.0 0.0 0.0 G21 133.89 0.0175 0.0 12.000 0.210 Vet = 5.15 G21 -15.34 3.26 0.0 12.000 44.847 to 120.0 0.0 0.0 0.0 G23 118.55 0.0140 0.0 12.000 0.168 Vel = 4.56 G23 -13.65 3.26 0.0 12.000 45.015 to 120.0 0.0 0.0 0.0 G25 104.9 0.0112 0.0 12.000 0.134 Vel = 4.03 G25 -12.15 3.26 0.0 12.000 45.149 to 120.0 0.0 0.0 0.0 G27 92.75 0.0089 0.0 12.000 0.107 Vel = 3.57 G27 -10.84 3.26 0.0 12.000 45.256 to 120.0 0.0 0.0 0.0 G29 81.91 0.0070 0.0 12.000 0.084 Vel = 3.15 G29 -9.70 3.26 0.0 12.000 45.340 to 1200 0.0 0.0 0.0 G31 72.21 0.0057 0.0 12.000 0.068 Vet = 2.78 G31 -8.70 3.26 0.0 12.000 45.408 to 120.0 0.0 0.0 0.0 G33 63.51 0.0043 0.0 12.000 0.052 Vet = 2.44 G33 -7.84 3.26 2E 18.815 92.330 45.460 to 120.0 0.0 18.815 0.0 G35 55.67 0.0035 0.0 111.145 0.385 Vel = 2.14 G35 -3.87 3.26 0.0 12.000 45.845 to 120.0 0.0 0.0 0.0 G40 51.8 0.0030 0.0 12.000 0.036 Vet = 1.99 G40 0.0 3.26 0.0 12.000 45.881 to 120.0 0.0 0.0 0.0 G42 51.8 0.0030 0.0 12.000 0.036 Vel = 1.99 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Cosco Fire Protection Page 20 ABBOTT IBIS Most Demanding Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn G42 3.87 3.26 0.0 12.000 45.917 to 120.0 0.0 0.0 0.0 G44 55.67 0.0035 0.0 12.000 0.042 Vel = 2.14 G44 7.84 3.26 0.0 12.000 45.959 to 120.0 0.0 0.0 0.0 G46 63.51 0.0044 0.0 12.000 0.053 Vel = 2.44 G46 8.70 3.26 0.0 12.000 46.012 to 120.0 0.0 0.0 0.0 G76 72.21 0.0056 0.0 12.000 0.067 Vel = 2.78 G76 9.70 3.26 0.0 12.000 46.079 to 120.0 0.0 0.0 0.0 G49 81.91 0.0071 0.0 12.000 0.085 Vel = 3.15 G49 10.84 3.26 0.0 12.000 46.164 to 120.0 0.0 0.0 0.0 G51 92.75 0.0088 0.0 12.000 0.106 Vel = 3.57 G51 12.15 3.26 0.0 12.000 46.270 to 120.0 0.0 0.0 0.0 G53 104.9 0.0112 0.0 12.000 0.134 Vel = 4.03 G53 13.65 3.26 0.0 12.000 46.404 to 120.0 0.0 0.0 6.568 G55 118.55 0.0140 0.0 12.000 0.168 Vel = 4.56 G55 15.34 3.26 IT 20.159 5.670 53.140 to 120.0 0.0 20.159 -6.568 G77 133.89 0.0175 0.0 25.829 0.453 Vel = 5.15 0.0 133.89 47.025 K Factor= 19.52 G75 7.72 3.26 0.0 9.500 43.672 to 120.0 0.0 0.0 0.0 G73 7.72 0.0001 0.0 9.500 0.001 Vel = 0.30 G73 7.74 3.26 0.0 10.000 43.673 to 120.0 0.0 0.0 0.0 G71 15.46 0.0003 0.0 10.000 0.003 Vel = 0.59 G71 7.84 3.26 0.0 9.458 43.676 to 120.0 0.0 0.0 0.0 G69 23.3 0.0007 0.0 9.458 0.007 Vel = 0.90 G69 6.57 3.26 0.0 12.000 43.683 to 120.0 0.0 0.0 0.0 G67 29.87 0.0011 0.0 12.000 0.013 Vel= 1.15 G67 80.71 3.26 0.0 12.000 43.696 to 120.0 0.0 0.0 0.0 G65 110.58 0.0123 0.0 12.000 0.148 Vel = 4.25 G65 83.89 3.26 0.0 12.000 43.844 to 120.0 0.0 0.0 0.0 G63 194.47 0.0349 0.0 12.000 0.419 Vel = 7.47 G63 7.53 3.26 0.0 12.000 44.263 to 120.0 0.0 0.0 0.0 G61 202.0 0.0375 0.0 12.000 0.450 Vel = 7.76 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Cosco Fire Protection Page 21 ABBOTT IBIS Most Demanding Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv ******* Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn G61 8.66 3.26 0.0 12.000 44.713 to 120.0 0.0 0.0 0.0 G59 210.66 0.0406 0.0 12.000 0.487 Vel = 8.10 G59 10.30 3.26 0.0 12.000 45.200 to 120.0 0.0 0.0 6.568 G57 220.96 0.0443 0.0 12.000 0.532 Vel = 8.49 G57 11.99 3.26 IT 20.159 6.330 52.300 to 120.0 0.0 20.159 -6.568 G77 232.95 0.0488 0.0 26.489 1.293 Vel = 8.95 0.0 232.95 47.025 K Factor= 33.97 G77 366.85 4.26 1 26.334 1.500 47.025 to 120.0 0.0 26.334 0.938 MA1 366.85 0.0308 0.0 27.834 0.856 Vel = 8.26 MA1 0.0 5.295 3E 45.473 131.080 48.819 to 120.0 0.0 45.473 0.0 TOR 366.85 0.0107 0.0 176.553 1.881 Vel = 5.34 TOR 0.0 6.357 iFsp 0.0 11.500 50.700 to 120.0 0.0 0.0 5.548 * Fixed loss = 1 BOR 366.85 0.0043 0.0 11.500 0.050 Vel = 3.71 BOR 250.00 6.357 0.0 0.500 56.298 Qa = 250 to 120.0 0.0 0.0 1.083 TEST 616.85 0.0120 0.0 0.500 0.006 Vel = 6.24 0.0 616.85 57.387 K Factor= 81.43 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 - - Fire Protection by Computer Design Cosco Fire Protection 10695 Treena St, #105 San Diego, CA 92131 858444-2000 Job Name : ABBOTT IBIS EXTENDED COVERAGE ORDINARY HAZARD Building Location 2251 FARADAY AVE System : IA Contract : 10.CA_5108 Data File : ABBOTT IBIS EXOH.WXF Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Cosco Fire Protection Page ABBOTT IBIS EXTENDED COVERAGE ORDINARY HAZARD Date Hydraulic Design Information Sheet Name - ABBOT IBIS Date - 8-14-09 Location - 2251 FARADAY AVE Building - System No. - 1A Contractor - TSA/DBC Contract No. - 10.CA 5108 Calculated By - S VERNON Drawing No. - FP-1 Construction: ( ) Combustible ( ) Non-Combustible Ceiling Height - 17'-0" Occupancy - S (X) NFPA 13 ( ) Lt. Haz. Ord.Haz.Gp. (X) 1 ( ) 2 ( ) 3 ( ) Ex.Haz. Y ( ) NFPA 231 ( ) NFPA 231C ( ) Figure Curve S Other T Specific Ruling Made By Date E M Area of Sprinkler Operation - .1 System Type Sprinkler/Nozzle Density - (X) Wet Make EC-14 D Area Per Sprinkler - 256 ( ) Dry Model TY-6237 E Elevation at Highest Outlet - 10' ( ) Deluge Size 3/4 S Hose Allowance - Inside - ( ) Preaction K-Factor 14 I Rack Sprinkler Allowance - ( ) Other Temp.Rat.155 G Hose Allowance - Outside - 250 N Note Calculation Flow Required - 788.435 Press Required - 55.189 Summary C-Factor Used: Overhead Underground W Water Flow Test: Pump Data: Tank or Reservoir: A Date of Test - Cap. - T Time of Test - Rated Cap.- Elev.- E Static Press - 94.5 @ Press - R Residual Press - 68.75 Elev. - Well Flow - 1061.21 Proof Flow S Elevation - U P Location - P L Source of Information Y C Commodity Class Location O Storage Ht. Area Aisle W. M Storage Method: Solid Piled % Palletized % Rack M Single Row ( ) Conven. Pallet ( ) Auto. Storage C ) Encap. S R ( ) Double Row C ) Slave Pallet ( ) Solid Shelf ( ) Non T A ( ) Mult. Row ( ) Open Shelf O C R K Flue Spacing Clearance:Storage to Ceiling A Longitudinal Transverse G E Horizontal Barriers Provided: Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 vvater ouppy t urve iL) Cosco Fire Protection Page 2 ABBOTT IBIS EXTENDED COVERAGE ORDINARY HAZARD Date City Water Supply: Demand: Cl - Static Pressure : 94.5 Dl - Elevation : 4.331 C2 - Residual Pressure: 65.75 D2 - System Flow : 538.435 C2 - Residual Flow : 1061.21 D2 - System Pressure : 55.189 Hose (Adj City) Hose ( Demand) : 250 D3 - System Demand : 788.435 Safety Margin : 22.718 150 140 130 p120 R0 E10° 90 80 — G2 U 70 R 60 B2 E5O T / D3 4 0 - - :: 10 200 400 600 800 1000 1200 1400 1600 1800 FLOW ( N A 1.85) Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 1-luings usea oummary Cosco Fire Protection Page 3 ABBOTT IBIS EXTENDED COVERAGE ORDINARY HAZARD Date Fitting Legend Abbrev. Name 1/2 3/4 1 1% 11/2 2 21/2 3 31/2 4 5 6 8 10 12 14 16 18 20 24 Aty Alarm Tyco AV-1 14 23 24 23 E NFPA139OStandardElbow 1 2 2 3 4 5 6 7 8 10 12 14 18 22 27 35 40 45 50 61 I NFPA139O Flow thruTee 3 4 5 6 8 10 12 15 17 20 25 30 35 50 60 71 81 91 101 121 Units Summary Diameter Units Inches Length Units Feet Flow Units US Gallons per Minute Pressure Units Pounds per Square Inch Note: Fitting Legend provides equivalent pipe lengths for fittings types of various diameters. Equivalent lengths shown are standard for actual diameters of Sched 40 pipe and CFactors of 120 except as noted with * The fittings marked with a * show equivalent lengths values supplied by manufacturers based on specific pipe diameters and CFactors and they require no adjustment. All values for fittings not marked with a * will be adjusted in the calculation for CFactors of other than 120 and diameters other than Sched 40 per NFPA. Computer Proqrams by Hydratec Inc. Route 111 Windham N.H. USA 03087 Pressure I Flow Summary - STANDARD Cosco Fire Protection ABBOTT IBIS EXTENDED COVERAGE ORDINARY HAZARD Node No. Elevation K-Fact Pt Actual Pn Flow Density Actual Gi 15.166 37.47 na G2 15.67 37.24 na G74 15.67 37.03 na G3 15.166 37.47 na G4 15.67 37.24 na G72 15.67 37.03 na G5 15.166 37.47 na G6 15.67 37.25 na G70 15.67 37.03 na G7 15.166 37.54 na G8 15.67 37.32 na 64 15.67 37.26 na 83 15.67 37.24 na B2 15.67 37.21 na 81 15.67 37.2 na G68 15.67 37.02 na D4 10.0 39.71 na D3 10.0 39.7 na 02 10.0 39.67 na Di 10.0 39.66 na G9 15.166 37.55 na GIO 15.67 37.33 na B12 15.67 37.32 na 611 15.67 37.29 na B10 15.67 37.28 na 139 15.67 37.26 na 138 15.67 37.23 na B39 15.67 37.22 na 67 15.67 37.2 na 66 15.67 37.17 na B5 15.67 37.14 na G66 15.67 37.01 na D12 15.166 37.54 na Dli 15.67 37.29 na 010 15.67 37.28 na D9 15.67 37.26 na D8 15.67 37.23 na D39 15.67 37.22 na D7 15.67 37.2 na 06 15.67 37.17 na 05 15.67 37.14 na Gil 15.166 37.57 na G12 15.67 37.26 na B22 15.67 32.2 na 821 15.67 31.71 na B20 15.67 31.47 na B19 15.67 31.22 na B18 15.67 30.98 na 617 15.67 30.25 na B16 15.67 30.0 na 815 15.67 29.52 na B14 15.67 28.78 na 813 15.67 28.96 na G64 15.67 36.37 na 022 9.5 39.6 na 021 9.5 34.38 na D20 9.5 34.14 na D19 10.0 33.68 na D18 9.5 33.65 na 017 10.0 32.7 na D16 9.5 32.68 na 015 9.5 32.19 na 014 10.0 14 13.67 na 51.76 0.15 D13 10.0 14 14.89 na 54.02 0.15 G13 15.166 37.62 na Page 4 Date Area Press 192 12.3 192 12.3 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Flow Summary - Standard Cosco Fire Protection Page 5 ABBOTT IBIS EXTENDED COVERAGE ORDINARY HAZARD Date Node Elevation K-Fact Pt Pn Flow Density Area Press No. Actual Actual Req. 15.67 37.05 na 15.67 29.31 na 15.67 27.46 na 15.67 26.53 na 15.67 26.39 na 15.67 24.96 na 15.67 24.68 na 15.67 23.75 na 15.67 23.7 na 15.67 24.64 na 15.67 26.76 na 15.67 35.09 na 9.5 31.98 na 9.5 30.13 na 9.0 29.42 na 9.0 29.28 na 9.0 27.84 na 9.0 27.57 na 10.0 14 12.33 na 49.16 0.15 192 12.3 10.0 14 12.3 na 49.1 0.15 192 12.3 10.0 14 12.98 na 50.45 0.1 150 7.0 10.0 14 14.49 na 53.29 0.15 288 12.3 15.166 37.79 na 15.67 37.31 na 15.67 29.4 na 15.67 29.29 na 15.67 28.12 na 15.67 27.92 na 15.67 27.22 na 15.67 27.24 na 15.67 30.28 na 15.67 36.07 na 10.0 31.85 na 10.0 31.75 na 10.0 30.58 na 10.0 30.37 na 10.0 14 15.59 na 55.28 0.15 192 12.3 10.0 14 15.6 na 55.3 0.15 192 12.3 10.0 14 16.8 na 57.39 0.15 288 12.3 10.0 14 20.05 na 62.68 0.15 192 12.3 15.166 38.12 na 15.67 37.84 na 15.67 35.36 na 15.67 38.37 na 15.166 38.53 na 15.67 38.34 na 15.67 39.56 na 15.166 38.9 na 15.67 38.73 na 15.67 41.62 na 15.166 39.19 na 15.67 39.01 na 15.67 41.34 na 15.166 39.42 na 15.67 39.24 na 15.67 41.11 na 15.166 39.61 na 15.67 39.42 na 15.67 40.93 na 15.166 39.75 na 15.67 39.56 na 15.67 40.79 na 15.166 39.87 na 15.67 39.67 na 15.67 40.68 na Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Flow Summary - Standard Oosco Fire Protection Page 6 ABBOTT IBIS EXTENDED COVERAGE ORDINARY HAZARD Date Node No. Elevation K-Fact Pt Actual Pn Flow Density Area Press Actual Req. G33 15.166 39.96 na G34 15.67 39.76 na G43 15.67 40.59 na G35 15.166 40.63 na G36 15.67 40.41 na G41 15.67 40.53 na G37 15.166 40.69 na G38 15.67 40.47 na G39 15.67 40.47 na G40 15.166 40.69 na G42 15.166 40.75 na G44 15.166 40.83 na G46 15.166 40.92 na G76 15.166 41.03 na G49 15.166 41.18 na G51 15.166 41.37 na G53 15.166 41.6 na G55 0.0 48.46 na G75 15.166 37.24 na G73 15.166 37.24 na G71 15.166 37.24 na G69 15.166 37.23 na G67 15.166 37.22 na 065 15.166 37.2 na G63 15.166 37.23 na G61 15.166 37.62 na G59 15.166 38.59 na 057 0.0 46.37 na 077 15.166 42.67 na MA1 13.0 45.35 na TOR 13.0 49.18 na BOR 2.5 54.1 na 250.0 TEST 0.0 55.19 na The maximum velocity is 23.27 and it occurs in the pipe between nodes D40 and B40 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Cosco Fire Protection Page 7 ABBOTT IBIS EXTENDED COVERAGE ORDINARY HAZARD Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn Gi -7.14 2.157 IT 12.307 0.500 37.468 to 120.0 0.0 12.307 -0.218 G2 -7.14 -0.0006 0.0 12.807 -0.008 Vel = 0.63 G2 0.0 1.61 IT 8.0 80.416 37.242 to 120.0 0.0 8.000 0.0 G74 -7.14 -0.0024 0.0 88.416 -0.212 Vet= 1.13 G74 0.0 2.157 IT 12.307 0.500 37.030 to 120.0 0.0 12.307 0.218 G75 -7.14 -0.0006 0.0 12.807 -0.008 Vet = 0.63 0.0 -7.14 37.240 K Factor= -1.17 G3 -7.17 2.157 IT 12.307 0.500 37.469 to 120.0 0.0 12.307 -0.218 G4 -7.17 -0.0006 0.0 12.807 -0.008 Vel = 0.63 G4 0.0 1.61 IT 8.0 80.416 37.243 to 120.0 0.0 8.000 0.0 G72 -7.17 -0.0024 0.0 88.416 -0.214 VeI= 1.13 G72 0.0 2.157 IT 12.307 0.500 37.029 to 120.0 0.0 12.307 0.218 G73 -7.17 -0.0005 0.0 12.807 -0.007 Vet = 0.63 0.0 -7.17 37.240 K Factor= -1.17 G5 -7.26 2.157 IT 12.307 0.500 37.472 to 120.0 0.0 12.307 -0.218 G6 -7.26 -0.0006 0.0 12.807 -0.008 Vel = 0.64 G6 0.0 1.61 IT 8.0 80.416 37.246 to 120.0 0.0 8.000 0.0 G70 -7.26 -0.0025 0.0 88.416 -0.220 Vet = 1.14 G70 0.0 2.157 IT 12.307 0.500 37.026 to 120.0 0.0 12.307 0.218 G71 -7.26 -0.0005 0.0 12.807 -0.007 Vel = 0.64 0.0 -7.26 37.237 KFactor= -1.19 G7 -6.08 2.157 IT 12.307 0.500 37.543 to 120.0 0.0 12.307 -0.218 G8 -6.08 -0.0005 0.0 12.807 -0.006 Vet = 0.53 G8 0.0 1.61 0.0 34.833 37.319 to 120.0 0.0 0.0 0.0 84 -6.08 -0.0018 0.0 34.833 -0.062 Vel = 0.96 B4 0.0 1.61 0.0 8.000 37.257 to 120.0 0.0 0.0 0.0 B3 -6.08 -0.0019 0.0 8.000 -0.015 Vel = 0.96 63 0.0 1.61 0.0 16.000 37.242 to 120.0 0.0 0.0 0.0 B2 -6.08 -0.0018 0.0 16.000 -0.028 Vet = 0.96 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Cosco Fire Protection Page 8 ABBOTT IBIS EXTENDED COVERAGE ORDINARY HAZARD Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv ******* Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn B2 0.0 1.61 0.0 8.000 37.214 to 120.0 0.0 0.0 0.0 131 -6.08 -0.0018 0.0 8.000 -0.014 Vel = 0.96 131 0.0 1.61 IT 8.0 93.416 37.200 to 120.0 0.0 8.000 0.0 G68 -6.08 -0.0018 0.0 101.416 -0.182 Vel = 0.96 G68 0.0 2.157 iT 12.307 0.500 37.018 to 120.0 0.0 12.307 0.218 G69 -6.08 -0.0004 0.0 12.807 -0.005 Vel = 0.53 0.0 -6.08 37.231 K Factor= -1.00 D4 0.0 1.049 2E 4.0 9.291 39.712 to 120.0 iT 5.0 9.000 -2.456 B4 0.0 0.0001 0.0 18.291 0.001 Vel = 0 0.0 0.0 37.257 K Factor = 0 D3 0.0 1.049 2E 4.0 8.160 39.698 to 120.0 iT 5.0 9.000 -2.456 B3 0.0 0.0 0.0 17.160 0.0 Vel = 0 0.0 0.0 37.242 K Factor = 0 D2 0.0 1.049 2E 4.0 8.160 39.670 to 120.0 IT 5.0 9.000 -2.456 B2 0.0 0.0 0.0 17.160 0.0 Vel = 0 0.0 0.0 37.214 K Factor =0 Dl 0.0 1.049 2E 4.0 9.500 39.655 to 120.0 IT 5.0 9.000 -2.456 81 0.0 0.0001 0.0 18.500 0.001 Vel = 0 0.0 0.0 37.200 K Factor = 0 G9 -6.32 2.157 iT 12.307 0.500 37.554 to 120.0 0.0 12.307 -0.218 G10 -6.32 -0.0005 0.0 12.807 -0.006 Vel = 0.55 G10 0.0 1.61 0.0 2.830 37.330 to 120.0 0.0 0.0 0.0 B12 -6.32 -0.0021 0.0 2.830 -0.006 Vel = 1.00 B12 0.0 1.61 0.0 16.000 37.324 to 120.0 0.0 0.0 0.0 BII -6.32 -0.0019 0.0 16.000 -0.030 Vel = 1.00 BII 0.0 1.61 0.0 8.000 37.294 to 120.0 0.0 0.0 0.0 BIO -6.32 -0.0020 0.0 8.000 -0.016 VeI= 1.00 610 0.0 1.61 0.0 8.000 37.278 to 120.0 0.0 0.0 0.0 B9 -6.32 -0.0019 0.0 8.000 -0.015 Vel = 1.00 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Cosco Fire Protection Page 9 ABBOTT IBIS EXTENDED COVERAGE ORDINARY HAZARD Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn B9 0.0 1.61 0.0 16.000 37.263 to 120.0 0.0 0.0 0.0 B8 -6.32 -0.0019 0.0 16.000 -0.031 Vel = 1.00 B8 0.0 1.61 0.0 8.000 37.232 to 120.0 0.0 0.0 0.0 B39 -6.32 -0.0019 0.0 8.000 -0.015 Vel = 1.00 B39 0.0 1.61 0.0 8.000 37.217 to 120.0 0.0 0.0 0.0 B7 -6.32 -0.0019 0.0 8.000 -0.015 Vel = 1.00 B7 0.0 1.61 0.0 16.000 37.202 to 120.0 0.0 0.0 0.0 B6 -6.32 -0.0019 0.0 16.000 -0.031 Vel = 1.00 B6 0.0 1.61 0.0 16.000 37.171 to 120.0 0.0 0.0 0.0 85 -6.32 -0.0019 0.0 16.000 -0.031 VeI= 1.00 B5 0.0 1.61 IT 8.0 61.375 37.140 to 120.0 0.0 8.000 0.0 G66 -6.32 -0.0019 0.0 69.375 -0.132 Vel = 1.00 G66 0.0 2.157 IT 12.307 0.500 37.008 to 120.0 0.0 12.307 0.218 G67 -6.32 -0.0005 0.0 12.807 -0.006 Vel = 0.55 0.0 -6.32 37.220 K Factor= -1.04 D12 0.0 1.049 2E 4.0 10.125 37.543 to 120.0 11 5.0 9.000 -0.218 812 0.0 -0.0001 0.0 19.125 -0.001 Vel = 0 0.0 0.0 37.324 K Factor = 0 Dli 0.0 1.049 2E 4.0 10.125 37.294 to 120.0 IT 5.0 9.000 0.0 811 0.0 0.0 0.0 19.125 0.0 Vel =0 0.0 0.0 37.294 K Factor = 0 010 0.0 1.049 2E 4.0 11.208 37.278 to 120.0 IT 5.0 9.000 0.0 810 0.0 0.0 0.0 20.208 0.0 Vel = 0 0.0 0.0 37.278 K Factor = 0 09 0.0 1.049 2E 4.0 10.208 37.263 to 120.0 IT 5.0 9.000 0.0 B9 0.0 0.0 0.0 19.208 0.0 Vel = 0 0.0 0.0 37.263 K Factor = 0 08 0.0 1.049 2E 4.0 17.833 37.232 to 120.0 IT 5.0 9.000 0.0 B8 0.0 0.0 0.0 26.833 0.0 Vel = 0 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Oosco Fire Protection Page 10 ABBOTT IBIS EXTENDED COVERAGE ORDINARY HAZARD Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn 0.0 0.0 37.232 K Factor = 0 D39 0.0 1.049 2E 4.0 7.830 37.217 to 120.0 1 5.0 9.000 0.0 B39 0.0 0.0 0.0 16.830 0.0 Vel = 0 0.0 0.0 37.217 K Factor 0 07 0.0 1.049 2E 4.0 9.670 37.202 to 120.0 iT 5.0 9.000 0.0 B7 0.0 0.0 0.0 18.670 0.0 Vel = 0 0.0 0.0 37.202 K Factor = 0 D6 0.0 1.049 2E 4.0 11.080 37.171 to 120.0 iT 5.0 9.000 0.0 B6 0.0 0.0 0.0 20.080 0.0 Vel = 0 0.0 0.0 37.171 K Factor =0 D5 0.0 1.049 2E 4.0 11.420 37.140 to 120.0 1 5.0 9.000 0.0 B5 0.0 0.0 0.0 20.420 0.0 Vel = 0 0.0 0.0 37.140 K Factor =0 Gil -28.19 2.157 1 12.307 0.500 37.571 to 120.0 0.0 12.307 -0.218 G12 -28.19 -0.0074 0.0 12.807 -0.095 Vel = 2.48 G12 0.0 1.61 0.0 10.830 37.258 to 120.0 0.0 0.0 2.672 022 -28.19 -0.0305 0.0 10.830 -0.330 Vel = 4.44 0.0 -28.19 39.600 KFactor -4.48 B22 -28.19 1.61 0.0 16.000 32.200 to 120.0 0.0 0.0 0.0 621 -28.19 -0.0305 0.0 16.000 -0.488 Vel = 4.44 B21 0.0 1.61 0.0 8.000 31.712 to 120.0 0.0 0.0 0.0 B20 -28.19 -0.0305 0.0 8.000 -0.244 Vel = 4.44 B20 0.0 1.61 0.0 8.000 31.468 to 120.0 0.0 0.0 0.0 B19 -28.19 -0.0305 0.0 8.000 -0.244 Vel = 4.44 B19 0.0 1.61 0.0 8.000 31.224 to 120.0 0.0 0.0 0.0 B18 -28.19 -0.0305 0.0 8.000 -0.244 Vel = 4.44 B18 0.0 1.61 0.0 24.000 30.980 to 120.0 0.0 0.0 0.0 617 -28.19 -0.0305 0.0 24.000 -0.732 Vel = 4.44 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Cosco Fire Protection Page 11 ABBOTT IBIS EXTENDED COVERAGE ORDINARY HAZARD Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. UCU or Ftng's Pe Pv Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn B17 0.0 1.61 0.01 8.000 30.248 to 120.0 0.0 0.0 0.0 B16 -28.19 -0.0305 0.0 8.000 -0.244 Vel = 4.44 B16 0.0 1.61 0.0 16.000 30.004 to 120.0 0.0 0.0 0.0 B15 -28.19 -0.0305 0.0 16.000 -0.488 Vel = 4.44 B15 0.0 1.61 0.0 24.000 29.516 to 120.0 0.0 0.0 0.0 B14 -28.19 -0.0305 0.0 24.000 -0.732 Vel = 4.44 B14 51.76 1.61 0.0 8.000 28.784 to 120.0 0.0 0.0 0.0 B13 23.57 0.0219 0.0 8.000 0.175 Vel = 3.71 B13 54.01 1.61 IT 8.0 29.375 28.959 to 120.0 0.0 8.000 0.0 G64 77.58 0.1984 0.0 37.375 7.415 Vel = 12.23 G64 0.0 2.157 IT 12.307 0.500 36.374 to 120.0 0.0 12.307 0.218 G65 77.58 0.0477 0.0 12.807 0.611 Vel= 6.81 0.0 77.58 37.203 K Factor= 12.72 022 -28.19 1.049 2E 4.0 10.250 39.600 to 120.0 IT 5.0 9.000 -2.672 B22 -28.19 -0.2456 0.0 19.250 -4.728 Vel = 10.46 0.0 -28.19 32.200 KFactor= -4.97 D21 0.0 1.049 2E 4.0 10.250 34.384 to 120.0 IT 5.0 9.000 -2.672 B21 0.0 0.0 0.0 19.250 0.0 Vel =0 0.0 0.0 31.712 K Factor 0 D20 0.0 1.049 2E 4.0 7.500 34.140 to 120.0 1 5.0 9.000 -2.672 B20 0.0 0.0 0.0 16.500 0.0 Vel = 0 0.0 0.0 31.468 K Factor 0 D19 0.0 1.049 2E 4.0 13.670 33.680 to 120.0 IT 5.0 9.000 -2.456 B19 0.0 0.0 0.0 22.670 0.0 Vel = 0 0.0 0.0 31.224 K Factor 0 018 0.0 1.049 2E 4.0 7.160 33.652 to 120.0 IT 5.0 9.000 -2.672 B18 0.0 0.0 0.0 16.160 0.0 Vel = 0 0.0 0.0 30.980 K Factor = 0 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Cosco Fire Protection Page 12 ABBOTT IBIS EXTENDED COVERAGE ORDINARY HAZARD Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv ******* Notes ****** Point Qt PfIFt Eqv. Ln. Total Pf Pn 017 0.0 1.049 2E 4.0 13.160 32.704 to 120.0 IT 5.0 9.000 -2.456 B17 0.0 0.0 0.0 22.160 0.0 Vel0 0.0 0.0 30.248 K Factor = 0 D16 0.0 1.049 2E 4.0 9.375 32.676 to 120.0 IT 5.0 9.000 -2.672 B16 0.0 0.0 0.0 18.375 0.0 Vel = 0 0.0 0.0 30.004 K Factor = 0 D15 0.0 1.049 2E 4.0 9.375 32.188 to 120.0 IT 5.0 9.000 -2.672 615 0.0 0.0 0.0 18.375 0.0 Vel =0 0.0 0.0 29.516 K Factor = 0 014 51.76 1.049 2E 4.0 14.250 13.669 K Factor = 14.00 to 120.0 1 5.0 9.000 -2.456 B14 51.76 0.7557 0.0 23.250 17.571 VeI= 19.21 0.0 51.76 28.784 K Factor = 9.65 013 54.02 1.049 2E 4.0 11.208 14.888 K Factor = 14.00 to 120.0 1 5.0 9.000 -2.456 613 54.02 0.8178 0.0 20.208 16.527 Vel = 20.05 0.0 54.02 28.959 KFactor= 10.04 G13 -57.98 2.157 IT 12.307 0.500 37.622 to 120.0 0.0 12.307 -0.218 G14 -57.98 -0.0280 0.0 12.807 -0.358 Vel = 5.09 G14 0.0 1.61 0.0 66.830 37.046 to 120.0 0.0 0.0 0.0 841 -57.98 -0.1157 0.0 66.830 -7.735 Vel = 9.14 B41 0.0 1.61 0.0 16.000 29.311 to 120.0 0.0 0.0 0.0 B31 -57.98 -0.1158 0.0 16.000 -1.852 Vel = 9.14 B31 0.0 1.61 0.0 8.000 27.459 to 120.0 0.0 0.0 0.0 630 -57.98 -0.1158 0.0 8.000 -0.926 Vel = 9.14 630 0.0 1.61 0.0 1.208 26.533 to 120.0 0.0 0.0 0.0 B29 -57.98 -0.1151 0.0 1.208 -0.139 Vel = 9.14 B29 0.0 1.61 0.0 12.420 26.394 to 120.0 0.0 0.0 0.0 B28 -57.98 -0.1158 0.0 12.420 -1.438 Vel = 9.14 B28 0.0 1.61 0.0 2.395 24.956 to 120.0 0.0 0.0 0.0 627 -57.98 -0.1157 0.0 2.395 -0.277 Vel = 9.14 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Cosco Fire Protection Page 13 ABBOTT IBIS EXTENDED COVERAGE ORDINARY HAZARD Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn B27 0.0 1.61 0.0 8.000 24.679 to 120.0 0.0 0.0 0.0 B26 -57.98 -0.1158 0.0 8.000 -0.926 Vel = 9.14 B26 49.15 1.61 0.0 16.000 23.753 to 120.0 0.0 0.0 0.0 B25 -8.83 -0.0036 0.0 16.000 -0.057 Vel = 1.39 B25 49.10 1.61 0.0 16.000 23.696 to 120.0 0.0 0.0 0.0 B24 40.27 0.0590 0.0 16.000 0.944 Vel = 6.35 B24 50.45 1.61 0.0 8.000 24.640 to 120.0 0.0 0.0 0.0 B23 90.72 0.2649 0.0 8.000 2.119 Vel= 14.30 823 53.29 1.61 iT 8.0 5.375 26.759 to 120.0 0.0 8.000 0.0 G62 144.01 0.6230 0.0 13.375 8.332 Vel = 22.70 G62 0.0 2.157 IT 12.307 0.500 35.091 to 120.0 0.0 12.307 0.218 G63 144.01 0.1500 0.0 12.807 1.921 Vel = 12.64 0.0 144.01 37.230 K Factor= 23.60 D41 0.0 1.049 2E 4.0 9.330 31.984 to 120.0 iT 5.0 9.000 -2.672 B41 0.0 -0.0001 0.0 18.330 -0.001 Vel = 0 0.0 0.0 29.311 K Factor =0 D31 0.0 1.049 2E 4.0 9.330 30.132 to 120.0 iT 5.0 9.000 -2.672 B31 0.0 -0.0001 0.0 18.330 -0.001 Vel = 0 0.0 0.0 27.459 K Factor = 0 D30 0.0 1.049 2E 4.0 9.000 29.422 to 120.0 IT 5.0 9.000 -2.889 830 0.0 0.0 0.0 18.000 0.0 Vel = 0 0.0 0.0 26.533 K Factor = 0 D29 0.0 1.049 2E 4.0 11.080 29.282 to 120.0 iT 5.0 9.000 -2.889 B29 0.0 0.0 0.0 20.080 0.001 Vel = 0 0.0 0.0 26.394 K Factor =0 D28 0.0 1.049 2E 4.0 11.080 27.845 to 120.0 iT 5.0 9.000 -2.889 B28 0.0 0.0 0.0 20.080 0.0 Vel = 0 0.0 0.0 24.956 K Factor = 0 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Cosco Fire Protection Page 14 ABBOTT IBIS EXTENDED COVERAGE ORDINARY HAZARD Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv ******* Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn D27 0.0 1.049 2E 4.0 9.875 27.568 to 120.0 IT 5.0 9.000 -2.889 B27 0.0 0.0 0.0 18.875 0.0 Vel = 0 0.0 0.0 24.679 K Factor = 0 D26 49.16 1.049 2E 4.0 11.208 12.328 K Factor = 14.00 to 120.0 IT 5.0 9.000 -2.456 B26 49.16 0.6869 0.0 20.208 13.881 Vel = 18.25 0.0 49.16 23.753 K Factor = 10.09 025 49.10 1.049 2E 4.0 11.208 12.300 K Factor= 14.00 to 120.0 IT 5.0 9.000 -2.456 B25 49.1 0.6855 0.0 20.208 13.852 Vel = 18.23 0.0 49.10 23.696 K Factor = 10.09 D24 50.45 1.049 2E 4.0 10.580 12.985 K Factor = 14.00 to 120.0 IT 5.0 9.000 -2.456 B24 50.45 0.7207 0.0 19.580 14.111 Vel = 18.73 0.0 50.45 24.640 K Factor = 10.16 023 53.29 1.049 2E 4.0 9.458 14.491 K Factor = 14.00 to 120.0 IT 5.0 9.000 -2.456 B23 53.29 0.7977 0.0 18.458 14.724 Vel = 19.78 0.0 53.29 26.759 K Factor = 10.30 G15 -49.72 2.157 11 12.307 0.500 37.794 to 120.0 0.0 12.307 -0.218 G16 -49.72 -0.0210 0.0 12.807 -0.269 Vel = 4.37 G16 0.0 1.61 0.0 90.830 37.307 to 120.0 0.0 0.0 0.0 B38 -49.72 -0.0871 0.0 90.830 -7.910 Vel = 7.84 B38 0.0 1.61 0.0 1.208 29.397 to 120.0 0.0 0.0 0.0 B37 -49.72 -0.0869 0.0 1.208 -0.105 Vel = 7.84 B37 0.0 1.61 0.0 13.420 29.292 to 120.0 0.0 0.0 0.0 B36 -49.72 -0.0870 0.0 13.420 -1.168 Vel = 7.84 B36 0.0 1.61 0.0 2.375 28.124 to 120.0 0.0 0.0 0.0 B35 -49.72 -0.0872 0.0 2.375 -0.207 Vel = 7.84 B35 0.0 1.61 0.0 8.000 27.917 to 120.0 0.0 0.0 0.0 B34 -49.72 -0.0871 0.0 8.000 -0.697 Vel = 7.84 B34 55.29 1.61 0.0 16.000 27.220 to 120.0 0.0 0.0 0.0 B33 5.57 0.0015 0.0 16.000 0.024 Vel = 0.88 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Cosco Fire Protection Page 15 ABBOTT IBIS EXTENDED COVERAGE ORDINARY HAZARD Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv ******* Notes Point Qt Pf/Ft Eqv. Ln. Total Pt Pn B33 55.30 1.61 0.0 24.000 27.244 to 120.0 0.0 0.0 0.0 B32 60.67 0.1267 0.0 24.000 3.040 Vet = 9.59 B32 57.39 1.61 IT 8.0 5.375 30.284 to 120.0 0.0 8.000 0.0 G60 118.26 0.4327 0.0 13.375 5.787 VeI= 18.64 G60 0.0 2.157 IT 12.307 0.500 36.071 to 120.0 0.0 12.307 0.218 G61 118.26 0.1041 0.0 12.807 1.333 Vel= 10.38 0.0 118.26 37.622 K Factor= 19.28 038 0.0 1.049 2E 4.0 11.375 31.853 to 120.0 IT 5.0 9.000 -2.456 B38 0.0 0.0 0.0 20.375 0.0 Vel = 0 0.0 0.0 29.397 K Factor = 0 D37 0.0 1.049 2E 4.0 11.125 31.748 to 120.0 1 5.0 9.000 -2.456 B37 0.0 0.0 0.0 20.125 0.0 Vel = 0 0.0 0.0 29.292 K Factor = 0 D36 0.0 1.049 2E 4.0 11.125 30.579 to 120.0 IT 5.0 9.000 -2.456 B36 0.0 0.0 0.0 20.125 0.001 Vel = 0 0.0 0.0 28.124 K Factor =0 035 0.0 1.049 2E 4.0 11.420 30.372 to 120.0 1 5.0 9.000 -2.456 B35 0.0 0.0 0.0 20.420 0.001 Vet = 0 0.0 0.0 27.917 K Factor =0 D34 55.28 1.049 2E 4.0 7.500 15.592 K Factor = 14.00 to 120.0 IT 5.0 9.000 -2.456 B34 55.28 0.8536 0.0 16.500 14.084 Vel = 20.52 0.0 55.28 27.220 KFactor= 10.60 D33 55.30 1.049 2E 4.0 7.500 15.605 K Factor = 14.00 to 120.0 IT 5.0 9.000 -2.456 B33 55.3 0.8542 0.0 16.500 14.095 Vel = 20.53 0.0 55.30 27.244 K Factor = 10.59 032 57.39 1.049 2E 4.0 8.420 16.804 K Factor= 14.00 to 120.0 IT 5.0 9.000 -2.456 B32 57.39 0.9148 0.0 17.420 15.936 VeI= 21.30 0.0 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Cosco Fire Protection Page 16 ABBOTT IBIS EXTENDED COVERAGE ORDINARY HAZARD Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv ******* Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn 57.39 30.284 K Factor= 10.43 040 62.68 1.049 2E 4.0 7.500 20.048 K Factor = 14.00 to 120.0 IT 5.0 9.000 -2.456 B40 62.68 1.0770 0.0 16.500 17.770 Vel = 23.27 0.0 62.68 35.362 K Factor= 10.54 G17 -23.36 2.157 IT 12.307 0.500 38.120 to 120.0 0.0 12.307 -0.218 G18 -23.36 -0.0052 0.0 12.807 -0.066 Vel = 2.05 G18 0.0 1.61 0.0 114.830 37.836 to 120.0 0.0 0.0 0.0 B40 -23.36 -0.0215 0.0 114.830 -2.474 VeI= 3.68 B40 62.68 1.61 IT 8.0 45.375 35.362 to 120.0 0.0 8.000 0.218 G59 39.32 0.0564 0.0 53.375 3.012 VeI= 6.20 0.0 39.32 38.592 K Factor = 6.33 G58 0.0 2.157 IT 12.307 0.500 38.374 to 120.0 0.0 12.307 0.218 G59 0.0 0.0 0.0 12.807 0.0 Vel = 0 0.0 0.0 38.592 K Factor = 0 G19 13.00 2.157 IT 12.307 0.500 38.535 to 120.0 0.0 12.307 -0.218 G20 13.0 0.0017 0.0 12.807 0.022 Vel = 1.14 G20 0.0 1.61 IT 8.0 160.208 38.339 to 120.0 0.0 8.000 0.0 G56 13.0 0.0073 0.0 168.208 1.226 Vel = 2.05 G56 0.0 2.157 IT 12.307 0.500 39.565 to 120.0 0.0 12.307 6.787 G57 13.0 0.0017 0.0 12.807 0.022 Vel = 1.14 0.0 13.00 46.374 K Factor= 1.91 G21 20.65 2.157 IT 12.307 0.500 38.900 to 120.0 0.0 12.307 -0.218 G22 20.65 0.0041 0.0 12.807 0.052 Vel = 1.81 G22 0.0 1.61 IT 8.0 160.208 38.734 to 120.0 0.0 8.000 0.0 G54 20.65 0.0171 0.0 168.208 2.883 Vel = 3.25 G54 0.0 2.157 IT 12.307 0.500 41.617 to 120.0 0.0 12.307 6.787 G55 20.65 0.0041 0.0 12.807 0.053 Vel = 1.81 0.0 20.65 48.457 K Factor = 2.97 G23 18.37 2.157 1 12.307 0.500 39.191 to 120.0 0.0 12.307 -0.218 G24 18.37 0.0033 0.0 12.807 0.042 Vel = 1.61 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Cosco Fire Protection Page 17 ABBOTT IBIS EXTENDED COVERAGE ORDINARY HAZARD Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv ******* Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn G24 0.0 1.61 iT 8.0 160.208 39.015 to 120.0 0.0 8.000 0.0 G52 18.37 0.0138 0.0 168.208 2.322 Vel = 2.89 G52 0.0 2.157 iT 12.307 0.500 41.337 to 120.0 0.0 12.307 0.218 G53 18.37 0.0034 0.0 12.807 0.043 Vel= 1.61 0.0 18.37 41.598 KFactor= 2.85 G25 16.36 2.157 iT 12.307 0.500 39.423 to 120.0 0.0 12.307 -0.218 G26 16.36 0.0027 0.0 12.807 0.034 Vel = 1.44 G26 0.0 1.61 iT 8.0 160.208 39.239 to 120.0 0.0 8.000 0.0 G50 16.36 0.0111 0.0 168.208 1.874 VeI= 2.58 G50 0.0 2.157 iT 12.307 0.500 41.113 to 120.0 0.0 12.307 0.218 G51 16.36 0.0027 0.0 12.807 0.034 Vel = 1.44 0.0 16.36 41.365 KFactor= 2.54 G27 14.60 2.157 11 12.307 0.500 39.608 to 120.0 0.0 12.307 -0.218 G28 14.6 0.0021 0.0 12.807 0.027 VeI= 1.28 G28 0.0 1.61 iT 8.0 160.208 39.417 to 120.0 0.0 8.000 0.0 G48 14.6 0.0090 0.0 168.208 1.517 VeI= 2.30 G48 0.0 2.157 iT 12.307 0.500 40.934 to 120.0 0.0 12.307 0.218 G49 14.6 0.0022 0.0 12.807 0.028 Vel = 1.28 0.0 14.60 41.180 KFactor= 2.28 G29 13.05 2.157 IT 12.307 0.500 39.754 to 120.0 0.0 12.307 -0.218 G30 13.05 0.0018 0.0 12.807 0.023 Vel = 1.15 G30 0.0 1.61 IT 8.0 160.208 39.559 to 120.0 0.0 8.000 0.0 G47 13.05 0.0073 0.0 168.208 1.234 Vel = 2.06 G47 0.0 2.157 iT 12.307 0.500 40.793 to 120.0 0.0 12.307 0.218 G76 13.05 0.0018 0.0 12.807 0.023 Vel = 1.15 0.0 13.05 41.034 KFactor= 2.04 G31 11.71 2.157 iT 12.307 0.500 39.871 to 120.0 0.0 12.307 -0.218 G32 11.71 0.0014 0.0 12.807 0.018 VeI= 1.03 G32 0.0 1.61 iT 8.0 160.208 39.671 to 120.0 0.0 8.000 0.0 G45 11.71 0.0060 0.0 168.208 1.010 Vel = 1.85 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Cosco Fire Protection Page 18 ABBOTT IBIS EXTENDED COVERAGE ORDINARY HAZARD Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn G45 0.0 2.157 IT 12.307 0.500 40.681 to 120.0 0.0 12.307 0.218 G46 11.71 0.0014 0.0 12.807 0.018 Vel = 1.03 0.0 11.71 40.917 KFactor= 1.83 G33 10.55 2.157 IT 12.307 0.500 39.962 to 120.0 0.0 12.307 -0.218 G34 10.55 0.0012 0.0 12.807 0.015 Vel = 0.93 G34 0.0 1.61 IT 8.0 160.208 39.759 to 120.0 0.0 8.000 0.0 G43 10.55 0.0050 0.0 168.208 0.833 Vel = 1.66 G43 0.0 2.157 IT 12.307 0.500 40.592 to 120.0 0.0 12.307 0.218 G44 10.55 0.0012 0.0 12.807 0.016 Vel = 0.93 0.0 10.55 40.826 K Factor= 1.65 G35 5.20 2.157 IT 12.307 0.500 40.628 to 120.0 0.0 12.307 -0.218 G36 5.2 0.0003 0.0 12.807 0.004 Vel = 0.46 G36 0.0 1.61 IT 8.0 79.875 40.414 to 120.0 0.0 8.000 0.0 G41 5.2 0.0013 0.0 87.875 0.117 Vel = 0.82 G41 0.0 2.157 IT 12.307 0.500 40.531 to 120.0 0.0 12.307 0.218 G42 5.2 0.0004 0.0 12.807 0.005 Vel = 0.46 0.0 5.20 40.754 K Factor= 0.81 G37 0.0 2.157 IT 12.307 0.500 40.691 to 120.0 0.0 12.307 -0.218 G38 0.0 0.0 0.0 12.807 0.0 Vel = 0 G38 0.0 1.61 IT 8.0 79.875 40.473 to 120.0 0.0 8.000 0.0 G39 0.0 0.0 0.0 87.875 0.0 Vel = 0 G39 0.0 2.157 IT 12.307 0.500 40.473 to 120.0 0.0 12.307 0.218 G40 0.0 0.0 0.0 12.807 0.0 Vel = 0 0.0 0.0 40.691 K Factor = 0 GI 7.14 3.26 0.0 9.500 37.468 to 120.0 0.0 0.0 0.0 G3 7.14 0.0001 0.0 9.500 0.001 Vel = 0.27 G3 7.17 3.26 0.0 10.000 37.469 to 120.0 0.0 0.0 0.0 G5 14.31 0.0003 0.0 10.000 0.003 Vel = 0.55 G5 7.26 3.26 1E 9.408 89.291 37.472 to 120.0 IT 20.159 29.567 0.0 G7 21.57 0.0006 0.0 118.858 0.071 VeI= 0.83 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Cosco Fire Protection Page 19 ABBOTT IBIS EXTENDED COVERAGE ORDINARY HAZARD Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. INC11 or Ftng's Pe Pv Notes ****** Point Qt Pf/Ft Eqv. Ln. Total Pf Pn G7 6.08 3.26 0.0 12.000 37.543 to 120.0 0.0 0.0 0.0 G9 27.65 0.0009 0.0 12.000 0.011 Vel = 1.06 G9 6.32 3.26 0.0 12.000 37.554 to 120.0 0.0 0.0 0.0 Gil 33.97 0.0014 0.0 12.000 0.017 Vel = 1.31 Gil 28.20 3.26 0.0 12.000 37.571 to 120.0 0.0 0.0 0.0 G13 62.17 0.0042 0.0 12.000 0.051 Vet = 2.39 G13 57.98 3.26 0.0 12.000 37.622 to 120.0 0.0 0.0 0.0 G15 120.15 0.0143 0.0 12.000 0.172 Vel = 4.62 G15 49.71 3.26 0.0 12.000 37.794 to 120.0 0.0 0.0 0.0 G17 169.86 0.0272 0.0 12.000 0.326 Vet = 6.53 G17 23.37 3.26 0.0 12.000 38.120 to 120.0 0.0 0.0 0.0 G19 193.23 0.0346 0.0 12.000 0.415 Vel = 7.43 G19 -13.01 3.26 0.0 12.000 38.535 to 120.0 0.0 0.0 0.0 G21 180.22 0.0304 0.0 12.000 0.365 Vel = 6.93 G21 -20.65 3.26 0.0 12.000 38.900 to 120.0 0.0 0.0 0.0 G23 159.57 0.0242 0.0 12.000 0.291 Vel = 6.13 G23 -18.37 3.26 0.0 12.000 39.191 to 120.0 0.0 0.0 0.0 G25 141.2 0.0193 0.0 12.000 0.232 VeI= 5.43 G25 -16.36 3.26 0.0 12.000 39.423 to 120.0 0.0 0.0 0.0 G27 124.84 0.0154 0.0 12.000 0.185 Vet = 4.80 G27 -14.59 3.26 0.0 12.000 39.608 to 120.0 0.0 0.0 0.0 G29 110.25 0.0122 0.0 12.000 0.146 Vel = 4.24 G29 -13.06 3.26 0.0 12.000 39.754 to 120.0 0.0 0.0 0.0 G31 97.19 0.0098 0.0 12.000 0.117 VeI= 3.74 G31 -11.71 3.26 0.0 12.000 39.871 to 120.0 0.0 0.0 0.0 G33 85.48 0.0076 0.0 12.000 0.091 Vel = 3.29 G33 -10.55 3.26 2E 18.815 92.330 39.962 to 120.0 0.0 18.815 0.0 G35 74.93 0.0060 0.0 111.145 0.666 Vel = 2.88 G35 -5.21 3.26 0.0 12.000 40.628 to 120.0 0.0 0.0 0.0 G40 69.72 0.0052 0.0 12.000 0.063 Vel = 2.68 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Oosco Fire Protection Page 20 ABBOTT IBIS EXTENDED COVERAGE ORDINARY HAZARD Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv ******* Notes Point Qt PfIFt Eqv. Ln. Total Pf Pn G40 0.0 3.26 0.0 12.000 40.691 to 120.0 0.0 0.0 0.0 G42 69.72 0.0052 0.0 12.000 0.063 Vel = 2.68 G42 5.21 3.26 0.0 12.000 40.754 to 120.0 0.0 0.0 0.0 G44 74.93 0.0060 0.0 12.000 0.072 Vel = 2.88 G44 10.55 3.26 0.0 12.000 40.826 to 120.0 0.0 0.0 0.0 G46 85.48 0.0076 0.0 12.000 0.091 Vel = 3.29 G46 11.71 3.26 0.0 12.000 40.917 to 120.0 0.0 0.0 0.0 G76 97.19 0.0098 0.0 12.000 0.117 Vel = 3.74 G76 13.06 3.26 0.0 12.000 41.034 to 120.0 0.0 0.0 0.0 G49 110.25 0.0122 0.0 12.000 0.146 Vel = 4.24 G49 14.59 3.26 0.0 12.000 41.180 to 120.0 0.0 0.0 0.0 G51 124.84 0.0154 0.0 12.000 0.185 VeI= 4.80 G51 16.36 3.26 0.0 12.000 41.365 to 120.0 0.0 0.0 0.0 G53 141.2 0.0194 0.0 12.000 0.233 VeI= 5.43 G53 18.37 3.26 0.0 12.000 41.598 to 120.0 0.0 0.0 6.568 G55 159.57 0.0242 0.0 12.000 0.291 Vel = 6.13 G55 20.65 3.26 IT 20.159 5.670 48.457 to 120.0 0.0 20.159 -6.568 G77 180.22 0.0304 0.0 25.829 0.784 Vel = 6.93 0.0 180.22 42.673 K Factor= 27.59 G75 -7.14 3.26 0.0 9.500 37.240 to 120.0 0.0 0.0 0.0 G73 -7.14 0.0 0.0 9.500 0.0 Vel = 0.27 G73 -7.17 3.26 0.0 10.000 37.240 to 120.0 0.0 0.0 0.0 G71 -14.31 -0.0003 0.0 10.000 -0.003 Vel = 0.55 G71 -7.26 3.26 0.0 9.458 37.237 to 120.0 0.0 0.0 0.0 G69 -21.57 -0.0006 0.0 9.458 -0.006 Vel = 0.83 G69 -6.08 3.26 0.0 12.000 37.231 to 120.0 0.0 0.0 0.0 G67 -27.65 -0.0009 0.0 12.000 -0.011 Vel = 1.06 G67 -6.32 3.26 0.0 12.000 37.220 to 120.0 0.0 0.0 0.0 G65 -33.97 -0.0014 0.0 12.000 -0.017 VeI= 1.31 G65 77.58 3.26 0.0 12.000 37.203 to 120.0 0.0 0.0 0.0 G63 43.61 0.0022 0.0 12.000 0.027 Vel = 1.68 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Cosco Fire Protection Page 21 ABBOTT IBIS EXTENDED COVERAGE ORDINARY HAZARD Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv ******* Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn G63 144.02 3.26 0.0 12.000 37.230 to 120.0 0.0 0.0 0.0 G61 187.63 0.0327 0.0 12.000 0.392 Vet = 7.21 G61 118.26 3.26 0.0 12.000 37.622 to 120.0 0.0 0.0 0.0 G59 305.89 0.0808 0.0 12.000 0.970 VeI= 11.76 G59 39.32 3.26 0.0 12.000 38.592 to 120.0 0.0 0.0 6.568 G57 345.21 0.1012 0.0 12.000 1.214 Vel = 13.27 G57 13.00 3.26 IT 20.159 6.330 46.374 to 120.0 0.0 20.159 -6.568 G77 358.21 0.1082 0.0 26.489 2.867 Vet = 13.77 0.0 358.21 42.673 K Factor= 54.84 G77 538.43 4.26 1 26.334 1.500 42.673 to 120.0 0.0 26.334 0.938 MA1 538.43 0.0625 0.0 27.834 1.740 Vel = 12.12 MA1 0.0 5.295 3E 45.473 131.080 45.351 to 120.0 0.0 45.473 0.0 TOR 538.43 0.0217 0.0 176.553 3.828 Vet = 7.84 TOR 0.0 6.357 lAty 30.176 11.500 49.179 to 120.0 0.0 30.176 4.548 BOR 538.43 0.0089 0.0 41.676 0.370 VeI= 5.44 BOR 250.01 6.357 0.0 0.500 54.097 Qa = 250 to 120.0 0.0 0.0 1.083 TEST 788.44 0.0180 0.0 0.500 0.009 Vel = 7.97 0.0 788.44 55.189 K Factor = 106.13 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 - Fire Protection by Computer Design Cosco Fire Protection 10695 Treena St, #105 San Diego, CA 92131 858-444-2000 Job Name ABBOTT IBIS PREACTION Building Location : 2251 FARADAY AVE System : 3 Contract : 10.CA_5108 Data File : ABBOTT IBIS PREACTION.WXF 14 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Cosco Fire Protection ABBOTT IBIS PREACTION Hydraulic Design Information Sheet Name - ABBOT IBIS Date - 8-14-09 Location - 2251 FARADAY AVE Building - System No. - 3 Contractor - TSA/DBC Contract No. - 10.CA 5108 Calculated By - S VERNON Drawing No. - FP-1 Construction: ( ) Combustible ( ) Non-Combustible Ceiling Height - 171 -0" Occupancy - S (X) NFPA 13 ( ) Lt. Haz. Ord.Haz.Gp. (X) 1 ( ) 2 ( ) 3 ( ) Ex.Haz. Y ( ) NFPA 231 ( ) NFPA 231C ( ) Figure Curve S Other T Specific Ruling Made By Date E M Area of Sprinkler Operation - .1 System Type Sprinkler/Nozzle Density - (X) Wet Make EC-14 D Area Per Sprinkler - 256 ( ) Dry Model TY-6237 E Elevation at Highest Outlet - 10' ( ) Deluge Size 3/4 S Hose Allowance - Inside - ( ) Preaction K-Factor 14 I Rack Sprinkler Allowance - ( ) Other Temp.Rat.155 G Hose Allowance - Outside - 250 N Note Calculation Flow Required - 411 Press Required - 35.415 BOR Summary C-Factor Used: Overhead Underground W A T E R S U P P L Y Water Flow Test: Date of Test - Time of Test - Static Press - 94.5 Residual Press - 68.75 Flow - 1061.21 Elevation - Location - Source of Information - Pump Data: Rated Cap.- 8 Press - BOR Elev. - Tank or Reservoir: Cap. - Elev.- Well Proof Flow Page Date C 0 N N SR TA O C R K A G E Commodity Storage Ht. Storage Method: Single Row Double Row Mult. Row Flue Spacing Longitudinal Horizontal Barriers Provided: Location Aisle W. Palletized % Rack Auto. Storage ( ) Encap. Solid Shelf ( ) Non Open Shelf Clearance:Storage to Ceiling Transverse Class Area Solid Piled % Conven. Pallet Slave Pallet Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 .JUJJI) .JUl V Cosco Fire Protection ABBOTT IBIS PREACTION Page 2 Date City Water Suppiy: Demand: Cl - Static Pressure : 94.5 Dl - Elevation : 4.114 C2 - Residual Pressure: 65.75 D2 - System Flow : 160.998 C2 - Residual Flow : 1061.21 D2 - System Pressure : 36.502 Hose (Adj City) Hose ( Demand) : 250 D3 - System Demand : 410.998 Safety Margin : 53.027 150 140 130 p120 R0 E10° -Cl- S 90 S80 70 U R 60 E 50 40 30 D3 20 10 -- 200 400 600 800 1000 1200 1400 1600 1800 FLOW ( N A 1.85) Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 i-inings usea 3ummary Cosco Fire Protection Page 3 ABBOTT IBIS PREACTION Date Fitting Legend Abbrev. Name 1/2 11/2 2 21/2 3 3½ 4 5 6 8 10 12 14 16 18 20 24 Dvk Dry Viking Fl 3 5 49 E NFPA 13 90' Standard Elbow 1 2 2 3 4 5 6 7 8 10 12 14 18 22 27 35 40 45 50 61 I NFPA 13 90' Flowthru Tee 3 4 5 6 8 10 12 15 17 20 25 30 35 50 60 71 81 91 101 121 Units Summary Diameter Units Inches Length Units Feet Flow Units US Gallons per Minute Pressure Units Pounds per Square Inch Note: Fitting Legend provides equivalent pipe lengths for fittings types of various diameters. Equivalent lengths shown are standard for actual diameters of Sched 40 pipe and CFactors of 120 except as noted with *• The fittings marked with a * show equivalent lengths values supplied by manufacturers based on specific pipe diameters and CFactors and they require no adjustment. All values for fittings not marked with a * will be adjusted in the calculation for CFactors of other than 120 and diameters other than Sched 40 per NFPA. Computer Proqrams by Hydratec Inc. Route 111 Windham N.H. USA 03087 Pressure I Flow Summary - STANDARD Cosco Fire Protection Page 4 ABBOTT IBIS PREACTION Date Node Elevation K-Fact Pt Pn Flow Density Area Press No. Actual Actual Req. PAl 9.5 14 8.2 na 40.09 0.1 224 8.2 PA2 15.16 11.95 na PA3 9.5 14 8.2 na 40.09 0.1 224 8.2 PA4 15.16 11.95 na PA5 9.5 14 8.33 na 40.41 0.1 224 8.2 PA6 15.16 12.17 na PA7 9.5 14 8.33 na 40.41 0.1 224 8.2 PA8 15.16 12.17 na MA5 15.16 17.6 na MA4 15.16 17.91 na MA3 15.16 22.33 na MA2 2.541 29.35 na MAI 13.625 30.03 na TOR 13.0 30.8 na BOR 2.5 35.42 na 250.0 TEST 0.0 36.5 na The maximum velocity is 15 and it occurs in the pipe between nodes PA5 and PA6 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Cosco Fire Protection Page 5 ABBOTT IBIS PREACTION Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn PAl 40.09 1.049 3E 6.0 7.160 8.200 KFactor = 14.00 to 120.0 0.0 6.000 -2.451 PA2 40.09 0.4710 0.0 13.160 6.199 Vel = 14.88 PA2 0.0 1.049 11 5.0 7.000 11.948 to 120.0 0.0 5.000 0.0 MA5 40.09 0.4711 0.0 12.000 5.653 Vel= 14.88 0.0 40.09 17.601 K Factor = 9.56 PA3 40.09 1.049 3E 6.0 7.160 8.200 KFactor = 14.00 to 120.0 0.0 6.000 -2.451 PA4 40.09 0.4710 0.0 13.160 6.199 Vel = 14.88 PA4 0.0 1.049 IT 5.0 7.000 11.948 to 120.0 0.0 5.000 0.0 MA5 40.09 0.4711 0.0 12.000 5.653 Vel = 14.88 0.0 40.09 17.601 K Factor= 9.56 PA5 40.41 1.049 3E 6.0 7.160 8.331 K Factor = 14.00 to 120.0 0.0 6.000 -2.451 PA6 40.41 0.4780 0.0 13.160 6.291 Vel = 15.00 PA6 0.0 1.049 IT 5.0 7.000 12.171 to 120.0 0.0 5.000 0.0 MA4 40.41 0.4780 0.0 12.000 5.736 Vel = 15.00 0.0 40.41 17.907 K Factor = 9.55 PA7 40.41 1.049 3E 6.0 7.160 8.331 K Factor = 14.00 to 120.0 0.0 6.000 -2.451 PA8 40.41 0.4780 0.0 13.160 6.291 VeI= 15.00 PA8 0.0 1.049 iT 5.0 7.000 12.171 to 120.0 0.0 5.000 0.0 MA4 40.41 0.4780 0.0 12.000 5.736 Vel= 15.00 0.0 40.41 17.907 K Factor = 9.55 MA5 80.18 2.635 0.0 16.000 17.601 to 120.0 0.0 0.0 0.0 MA4 80.18 0.0191 0.0 16.000 0.306 Vel = 4.72 MA4 80.82 2.635 2E 16.474 47.208 17.907 to 120.0 0.0 16.474 0.0 MA3 161.0 0.0695 0.0 63.682 4.427 Vet = 9.47 MA3 0.0 2.635 1E 8.237 14.080 22.334 to 120.0 0.0 8.237 5.465 MA2 161.0 0.0695 0.0 22.317 1.552 Vet = 9.47 MA2 0.0 2.635 2E 16.474 62.420 29.351 to 120.0 0.0 16.474 -4.800 MA1 161.0 0.0695 0.0 78.894 5.483 Vel = 9.47 MAI 0.0 5.047 3E 36.0 131.080 30.034 to 120.0 0.0 36.000 0.271 TOR 161.0 0.0029 0.0 167.080 0.490 Vel = 2.58 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Cosco Fire Protection Page 6 ABBOTT IBIS PREACTION Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn TOR 0.0 6.065 lDvk 49.0 11.500 30.795 to 120.0 0.0 49.000 4.548 BOR 161.0 0.0012 0.0 60.500 0.072 VeI= 1.79 BOR 250.00 6.065 0.0 0.500 35.415 Qa = 250 to 120.0 0.0 0.0 1.083 TEST 411.0 0.0080 0.0 0.500 0.004 Vel = 4.56 0.0 411.00 36.502 KFactor= 68.03 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 - - - Fire Protection by Computer Design Cosco Fire Protection 10695 Treena St, #105 San Diego, CA 92131 858-444-2000 Job Name : ABBOTT IBIS system 2 F Building : MOST DEMANDING Location : 2251 FARADAY AVE System 2 Contract 10.CA_5108 Data File : ABBOTT IBIS system 2f.WXF Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Oosco Fire Protection Page ABBOTT IBIS system 2 F Date Hydraulic Design Information Sheet Name - ABBOT IBIS Date - 8-14-09 Location - 2251 FARADAY AVE Building - MOST DEMANDING System No. - 2 Contractor - TSA/DBC Contract No. - 10.CA 5108 Calculated By - S VERNON Drawing No. - FP-1 Construction: () Combustible ( ) Non-Combustible Ceiling Height - 171 -0" Occupancy - S (X) NFPA 13 ( ) Lt. Haz. Ord.Haz.Gp. (X) 1 ( ) 2 ( ) 3 ( ) Ex.Haz. Y ( ) NFPA 231 ( ) NFPA 231C ( ) Figure Curve S Other T Specific Ruling Made By Date E M Area of Sprinkler Operation - .1 System Type Sprinkler/Nozzle Density - (X) Wet - Make EC-14 D Area Per Sprinkler - 256 ( ) Dry Model TY-6237 E Elevation at Highest Outlet - 10' ( ) Deluge Size 3/4 S Hose Allowance - Inside - ( ) Preaction K-Factor 14 I Rack Sprinkler Allowance - ( ) Other Temp.Rat.155 G Hose Allowance - Outside - 250 N Note Calculation Flow Required - 512.59 Press Required - 26.121 Summary C-Factor Used: Overhead Underground W A T E R S U P P L Y Water Flow Test: Date of Test - Time of Test - Static Press - 94.5 Residual Press - 53.86 Flow - 1079.88 Elevation - ocation - Source of Information - Pump Data: Rated Cap.- @ Press - Elev. - Tank or Reservoir: Cap. - Elev.- Well Proof Flow C Commodity Class Location O Storage Ht. Area Aisle W. M Storage Method: Solid Piled % Palletized % Rack M Single Row ( ) Conven. Pallet ( ) Auto. Storage ( ) Encap. S R ( ) Double Row ( ) Slave Pallet ( ) Solid Shelf ( ) Non T A ( ) Mult. Row ( ) Open Shelf O C R K Flue Spacing Clearance:Storage to Ceiling A Longitudinal Transverse G E Horizontal Barriers Provided: Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 .JUIJIJIy luI vc Cosco Fire Protection Page 2 ABBOTT IBIS system 2 F Date City Water Supply: Demand: Cl - Static Pressure : 94.5 Dl - Elevation : 4.331 02 - Residual Pressure: 53.86 D2 - System Flow : 262.586 C2 - Residual Flow : 1079.88 D2 - System Pressure : 27.209 Hose (Adj City) Hose ( Demand) : 250 D3 - System Demand : 512.586 Safety Margin : 57 .052 150 140 130 p120 R11° E10° -Cl - S90 90 s 80 U 70 i11__ R 60 E5° 40 30 20 — D3 10 200 400 600 800 1000 1200 1400 1600 1800 FLOW (N A 1.85 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 1-Inings usea zwrrlmary Cosco Fire Protection Page 3 ABBOTT IBIS system 2 F Date Fitting Legend Abbrev. Name % % 1 1% 1/2 2 21h 3 3Y2 4 5 6 8 10 12 14 16 18 20 24 E NFPA 13 90 Standard Elbow 1 2 2 3 4 5 6 7 8 10 12 14 18 22 27 35 40 45 50 61 Fsp Flow Switch Potter VSR Fitting generates a Fixed Loss Based on Flow I NFPA 13 90 Flowthru Tee 3 4 5 6 8 10 12 15 17 20 25 30 35 50 60 71 81 91 101 121 Units Summary Diameter Units Inches Length Units Feet Flow Units US Gallons per Minute Pressure Units Pounds per Square Inch Note: Fitting Legend provides equivalent pipe lengths for fittings types of various diameters. Equivalent lengths shown are standard for actual diameters of Sched 40 pipe and CFactors of 120 except as noted with . The fittings marked with a * show equivalent lengths values supplied by manufacturers based on specific pipe diameters and CFactors and they require no adjustment. All values for fittings not marked with a * will be adjusted in the calculation for CFactors of other than 120 and diameters other than Sched 40 per NFPA. Computer Proqrams by Hydratec Inc. Route 111 Windham N.H. USA 03087 Pressire I Flow Summary - STANDARD Cosco Fire Protection Page 4 ABBOTT IBIS system 2 F Date Node Elevation K-Fact Pt Pn Flow Density Area Press No. Actual Actual Req. F01 15.167 17.59 na F02 15.67 17.08 na AOl 15.67 16.09 na A02 15.67 14.62 na A04 15.67 14.36 na A06 15.67 14.53 na A07 15.67 15.62 na F71 15.67 17.16 na F03 15.167 17.59 na F04 15.67 17.29 na A03 15.67 16.11 na A05 15.67 16.21 na F69 15.67 17.44 na P01 10.0 18.55 na P02 10.0 14 7.0 na 37.04 0.1 224 7.0 P03 10.0 14 7.66 na 38.76 0.1 224 7.0 PO4 10.0 14 7.36 na 37.97 0.1 91 7.0 P05 10.0 5.6 15.26 na 21.88 0.1 63.1 7.0 P06 10.0 14 7.45 na 38.21 0.1 108 7.0 P07 10.0 18.07 na F05 15.167 17.61 na F06 15.67 17.14 na A08 15.67 16.17 na A09 15.67 14.84 na A10 15.67 14.83 na F67 15.67 17.42 na P08 0.0 22.95 na P09 0.0 14 10.05 na 44.37 0.1 224 7.0 P10 0.0 14 10.04 na 44.36 0.1 224 7.0 F7 15.167 17.87 na F8 15.67 17.66 na F65 15.67 17.66 na F9 15.167 17.93 na F10 15.67 17.72 na F63 15.67 17.72 na Eli 15.167 17.75 na F12 15.67 17.54 na F61 15.67 17.77 na F13 15.167 17.8 na F14 15.67 17.59 na F59 15.67 17.83 na F15 15.167 17.84 na F16 15.67 17.63 na F57 15.67 17.9 na F17 15.167 17.88 na F18 15.67 17.67 na F55 15.67 17.98 na E19 15.167 17.91 na F20 15.67 17.7 na E53 15.67 18.06 na F21 15.167 17.93 na F22 15.67 17.73 na F51 15.67 18.26 na F23 15.167 18.02 na F24 15.67 17.82 na F49 15.67 18.24 na E25 15.167 18.04 na F26 15.67 17.83 na F47 15.67 18.23 na F27 15.167 18.05 na F28 15.67 17.84 na F45 15.67 18.22 na F29 15.167 18.08 na F30 15.67 17.88 na F43 15.67 18.21 na Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Flow Summary - Standard Cosco Fire Protection Page 5 ABBOTT IBIS system 2 F Date Node Elevation K-Fact Pt Pn Flow Density Area Press No Actual Actual Req. F31 15.167 18.09 na F32 15.67 17.88 na F41 15.67 18.21 na F33 15.167 18.09 na F34 15.67 17.88 na F39 15.67 18.21 na F35 15.167 18.09 na F36 15.67 17.89 na F37 15.67 18.2 na F73 15.167 18.09 na F74 15.67 17.89 na F75 15.167 18.42 na F07 15.167 17.66 na F09 15.167 17.7 na F72 15.167 17.78 na F70 15.167 17.79 na F68 15.167 17.82 na F66 15.167 17.87 na F64 15.167 17.93 na F62 15.167 17.99 na F60 15.167 18.06 na F58 15.167 18.13 na F56 15.167 18.21 na F54 15.167 18.29 na F76 15.167 18.43 na F38 15.167 18.43 na F40 15.167 18.43 na F42 15.167 18.44 na F44 15.167 18.44 na F46 15.167 18.45 na F48 15.167 18.46 na F50 15.167 18.48 na F52 15.167 18.5 na MB1 15.167 18.56 na TOR2 15.167 19.59 na BOR2 2.5 26.12 na 250.0 TEST 0.0 27.21 na The maximum velocity is 16.47 and it occurs in the pipe between nodes P09 and A09 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams V Cosco Fire Protection Page 6 ABBOTT IBIS system 2 F Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn F01 -51.33 2.157 1 12.307 0.500 17.586 to 120.0 0.0 12.307 -0.218 F02 -51.33 -0.0222 0.0 12.807 -0.284 Vel= 4.51 F02 0.0 1.61 0.0 10.708 17.084 to 120.0 0.0 0.0 0.0 AOl -51.33 -0.0925 0.0 10.708 -0.990 Vel = 8.09 AOl 0.0 1.61 0.0 16.000 16.094 to 120.0 0.0 0.0 0.0 A02 -51.33 -0.0924 0.0 16.000 -1.478 Vel = 8.09 A02 37.04 1.61 0.0 29.330 14.616 to 120.0 0.0 0.0 0.0 A04 -14.29 -0.0087 0.0 29.330 -0.254 Vel = 2.25 A04 37.97 1.61 0.0 7.670 14.362 to 120.0 0.0 0.0 0.0 A06 23.68 0.0220 0.0 7.670 0.169 VeI= 3.73 A06 38.21 1.61 0.0 8.330 14.531 to 120.0 0.0 0.0 0.0 A07 61.89 0.1306 0.0 8.330 1.088 Vel = 9.75 A07 0.0 1.61 IT 8.0 3.791 15.619 to 120.0 0.0 8.000 0.0 F71 61.89 0.1306 0.0 11.791 1.540 Vel= 9.75 F71 0.0 2.157 IT 12.307 0.500 17.159 to 120.0 0.0 12.307 0.218 F72 61.89 0.0314 0.0 12.807 0.402 Vel = 5.43 0.0 61.89 17.779 KFactor 14.68 F03 to F04 -26.80 -26.8 2.157 120.0 -0.0066 IT 12.307 0.0 0.0 0.500 12.307 12.807 17.594 -0.218 -0.085 Vel = 2.35 F04 0.0 1.61 0.0 42.708 17.291 to 120.0 0.0 0.0 0.0 A03 -26.8 -0.0278 0.0 42.708 -1.186 Vel = 4.22 A03 38.76 1.61 0.0 16.000 16.105 to 120.0 0.0 0.0 0.0 A05 11.96 0.0062 0.0 16.000 0.100 Vel = 1.88 A05 21.88 1.61 IT 8.0 20.916 16.205 to 120.0 0.0 8.000 0.0 F69 33.84 0.0427 0.0 28.916 1.236 Vel = 5.33 F69 0.0 2.157 1 12.307 0.500 17.441 to 120.0 0.0 12.307 0.218 F70 33.84 0.0102 0.0 12.807 0.131 Vel = 2.97 0.0 33.84 17.790 K Factor = 8.02 P01 0.0 1.049 4E 8.0 11.250 18.550 to 120.0 1 5.0 13.000 -2.456 AOl 0.0 0.0 0.0 24.250 0.0 Vel = 0 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Oosco Fire Protection Page 7 ABBOTT IBIS system 2 F Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn 0.0 0.0 16.094 K Factor =0 P02 37.04 1.049 4E 8.0 11.750 7.000 K Factor = 14.00 to 120.0 1 5.0 13.000 -2.456 A02 37.04 0.4069 0.0 24.750 10.072 Vel = 13.75 0.0 37.04 14.616 K Factor = 9.69 P03 38.76 1.049 4E 8.0 11.625 7.664 K Factor= 14.00 to 120.0 iT 5.0 13.000 -2.456 A03 38.76 0.4425 0.0 24.625 10.897 Vel = 14.39 0.0 38.76 16.105 K Factor= 9.66 PO4 37.97 1.049 4E 8.0 9.208 7.356 K Factor = 14.00 to 120.0 iT 5.0 13.000 -2.456 A04 37.97 0.4261 0.0 22.208 9.462 Vel = 14.10 0.0 37.97 14.362 KFactor= 10.02 P05 21.88 1.049 4E 8.0 9.125 15.262 K Factor= 5.60 to 120.0 iT 5.0 13.000 -2.456 A05 21.88 0.1536 0.0 22.125 3.399 Vel = 8.12 0.0 21.88 16.205 K Factor = 5.44 P06 38.21 1.049 4E 8.0 9.125 7.450 K Factor= 14.00 to 120.0 iT 5.0 13.000 -2.456 A06 38.21 0.4311 0.0 22.125 9.537 Vel = 14.18 0.0 38.21 14.531 K Factor = 10.02 P07 0.0 1.049 4E 8.0 12.621 18.074 to 120.0 iT 5.0 13.000 -2.456 A07 0.0 0.0 0.0 25.621 0.001 Vel = 0 0.0 0.0 15.619 K Factor =0 F05 48.43 2.157 1 12.307 0.500 17.612 to 120.0 0.0 12.307 -0.218 F06 -48.43 -0.0200 0.0 12.807 -0.256 Vel = 4.25 F06 0.0 1.61 0.0 11.708 17.138 to 120.0 0.0 0.0 0.0 A08 -48.43 -0.0830 0.0 11.708 -0.972 Vel = 7.63 A08 0.0 1.61 0.0 16.000 16.166 to 120.0 0.0 0.0 0.0 A09 -48.43 -0.0829 0.0 16.000 -1.327 Vel = 7.63 A09 44.37 1.61 0.0 16.000 14.839 to 120.0 0.0 0.0 0.0 A10 4.06 -0.0009 0.0 16.000 -0.014 Vel = 0.64 A10 44.36 1.61 iT 8.0 35.875 14.825 to 120.0 0.0 8.000 0.0 F67 40.3 0.0591 0.0 43.875 2.591 Vel = 6.35 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Cosco Fire Protection Page 8 ABBOTT IBIS system 2 F Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. licit or Ftng's Pe Pv ******* Notes ****** Point Qt Pf/Ft Eqv. Ln. Total Pf Pn F67 0.0 2.157 IT 12.307 0.500 17.416 to 120.0 0.0 12.307 0.218 F68 40.3 0.0142 0.0 12.807 0.182 Vel = 3.54 0.0 40.30 17.816 KFactor= 9.55 P08 0.0 1.049 4E 8.0 7.375 22.953 to 120.0 IT 5.0 13.000 -6.787 A08 0.0 0.0 0.0 20.375 0.0 Vel = 0 0.0 0.0 16.166 K Factor =0 P09 44.37 1.049 4E 8.0 7.375 10.045 K Factor= 14.00 to 120.0 IT 5.0 13.000 -6.787 A09 44.37 0.5684 0.0 20.375 11.581 Vel = 16.47 0.0 44.37 14.839 KFactor= 11.52 PlO 44.36 1.049 4E 8.0 7.375 10.039 K Factor = 14.00 to 120.0 IT 5.0 13.000 -6.787 A1O 44.36 0.5680 0.0 20.375 11.573 Vel = 16.47 0.0 44.36 14.825 KFactor= 11.52 F7 0.0 2.157 IT 12.307 0.500 17.874 to 120.0 0.0 12.307 -0.218 F8 0.0 0.0001 0.0 12.807 0.001 Vel = 0 F8 0.0 1.61 IT 8.0 79.580 17.657 to 120.0 0.0 8.000 0.0 F65 0.0 0.0 0.0 87.580 0.0 Vel = 0 F65 0.0 2.157 IT 12.307 0.500 17.657 to 120.0 0.0 12.307 0.218 F66 0.0 -0.0001 0.0 12.807 -0.001 Vel = 0 0.0 0.0 17.874 K Factor =0 F9 0.0 2.157 1 12.307 0.500 17.933 to 120.0 0.0 12.307 -0.218 F10 0.0 0.0001 0.0 12.807 0.001 Vel = 0 FlU 0.0 1.61 IT 8.0 79.580 17.716 to 120.0 0.0 8.000 0.0 F63 0.0 0.0 0.0 87.580 0.0 Vel = 0 F63 0.0 2.157 IT 12.307 0.500 17.716 to 120.0 0.0 12.307 0.218 F64 0.0 -0.0001 0.0 12.807 -0.001 Vel = 0 0.0 0.0 17.933 K Factor = 0 FII 7.37 2.157 1 12.307 0.500 17.753 to 120.0 0.0 12.307 -0.218 F12 7.37 0.0006 0.0 12.807 0.008 Vel = 0.65 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Cosco Fire Protection Page 9 ABBOTT IBIS system 2 F Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn F12 0.0 1.61 IT 8.0 79.580 17.543 to 120.0 0.0 8.000 0.0 F61 7.37 0.0025 0.0 87.580 0.223 Vet= 1.16 F61 0.0 2.157 IT 12.307 0.500 17.766 to 120.0 0.0 12.307 0.218 F62 7.37 0.0006 0.0 12.807 0.008 Vel = 0.65 0.0 7.37 17.992 K Factor= 1.74 F13 6.94 2.157 IT 12.307 0.500 17.799 to 120.0 0.0 12.307 -0.218 F14 6.94 0.0005 0.0 12.807 0.007 Vel = 0.61 F14 0.0 1.61 4E 16.0 83.080 17.588 to 120.0 IT 8.0 24.000 0.0 F59 6.94 0.0023 0.0 107.080 0.244 Vel = 1.09 F59 0.0 2.157 IT 12.307 0.500 17.832 to 120.0 0.0 12.307 0.218 F60 6.94 0.0005 0.0 12.807 0.007 Vel = 0.61 0.0 6.94 18.057 KFactor= 1.63 F15 8.15 2.157 IT 12.307 0.500 17.840 to 120.0 0.0 12.307 -0.218 F16 8.15 0.0008 0.0 12.807 0.010 Vel= 0.72 F16 0.0 1.61 IT 8.0 79.580 17.632 to 120.0 0.0 8.000 0.0 F57 8.15 0.0031 0.0 87.580 0.269 Vel = 1.28 F57 0.0 2.157 IT 12.307 0.500 17.901 to 120.0 0.0 12.307 0.218 F58 8.15 0.0007 0.0 12.807 0.009 Vel = 0.72 0.0 8.15 18.128 KFactor= 1.91 F17 7.96 2.157 IT 12.307 0.500 17.876 to 120.0 0.0 12.307 -0.218 F18 7.96 0.0008 0.0 12.807 0.010 Vel = 0.70 F18 0.0 1.61 4E 16.0 82.080 17.668 to 120.0 IT 8.0 24.000 0.0 F55 7.96 0.0029 0.0 106.080 0.311 VeI= 1.25 F55 0.0 2.157 IT 12.307 0.500 17.979 to 120.0 0.0 12.307 0.218 F56 7.96 0.0007 0.0 12.807 0.009 Vel = 0.70 0.0 7.96 18.206 K Factor = 1.87 F19 9.53 2.157 IT 12.307 0.500 17.907 to 120.0 0.0 12.307 -0.218 F20 9.53 0.0010 0.0 12.807 0.013 Vel = 0.84 F20 0.0 1.61 IT 8.0 79.580 17.702 to 120.0 0.0 8.000 0.0 F53 9.53 0.0041 0.0 87.580 0.359 VeI= 1.50 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Cosco Fire Protection Page 10 ABBOTT IBIS system 2 F Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv ******* Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn F53 0.0 2.157 IT 12.307 0.500 18.061 to 120.0 0.0 12.307 0.218 F54 9.53 0.0010 0.0 12.807 0.013 Vel = 0.84 0.0 9.53 18.292 KFactor= 2.23 F21 11.71 2.157 IT 12.307 0.500 17.933 to 120.0 0.0 12.307 -0.218 F22 11.71 0.0015 0.0 12.807 0.019 Vel = 1.03 F22 0.0 1.61 IT 8.0 79.580 17.734 to 120.0 0.0 8.000 0.0 F51 11.71 0.0060 0.0 87.580 0.525 Vel = 1.85 F51 0.0 2.157 IT 12.307 0.500 18.259 to 120.0 0.0 12.307 0.218 F52 11.71 0.0015 0.0 12.807 0.019 Vel = 1.03 0.0 11.71 18.496 K Factor = 2.72 F23 10.28 2.157 IT 12.307 0.500 18.022 to 120.0 0.0 12.307 -0.218 F24 10.28 0.0011 0.0 12.807 0.014 Vel = 0.90 F24 0.0 1.61 IT 8.0 82.250 17.818 to 120.0 0.0 8.000 0.0 F49 10.28 0.0047 0.0 90.250 0.426 Vel = 1.62 F49 0.0 2.157 IT 12.307 0.500 18.244 to 120.0 0.0 12.307 0.218 F50 10.28 0.0011 0.0 12.807 0.014 Vel = 0.90 0.0 10.28 18.476 K Factor = 2.39 F25 9.91 2.157 IT 12.307 0.500 18.037 to 120.0 0.0 12.307 -0.218 F26 9.91 0.0010 0.0 12.807 0.013 Vel = 0.87 F26 0.0 1.61 IT 8.0 82.250 17.832 to 120.0 0.0 8.000 0.0 F47 9.91 0.0044 0.0 90.250 0.398 Vel = 1.56 F47 0.0 2.157 IT 12.307 0.500 18.230 to 120.0 0.0 12.307 0.218 F48 9.91 0.0010 0.0 12.807 0.013 Vel = 0.87 0.0 9.91 18.461 K Factor = 2.31 F27 9.63 2.157 IT 12.307 0.500 18.048 to 120.0 0.0 12.307 -0.218 F28 9.63 0.0009 0.0 12.807 0.012 Vel = 0.85 F28 0.0 1.61 IT 8.0 82.250 17.842 to 120.0 0.0 8.000 0.0 F45 9.63 0.0042 0.0 90.250 0.378 Vel = 1.52 F45 0.0 2.157 IT 12.307 0.500 18.220 to 120.0 0.0 12.307 0.218 F46 9.63 0.0009 0.0 12.807 0.012 Vel = 0.85 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Cosco Fire Protection Page 11 ABBOTT IBIS system 2 F Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. ficil or Ftng's Pe Pv Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn 0.0 9.63 18.450 K Factor = 2.24 F29 9.20 2.157 1 12.307 0.500 18.083 to 120.0 0.0 12.307 -0.218 F30 9.2 0.0009 0.0 12.807 0.012 Vel = 0.81 F30 0.0 1.61 1 8.0 79.625 17.877 to 120.0 0.0 8.000 0.0 F43 9.2 0.0038 0.0 87.625 0.336 Vel = 1.45 F43 0.0 2.157 IT 12.307 0.500 18.213 to 120.0 0.0 12.307 0.218 F44 9.2 0.0009 0.0 12.807 0.012 Vel = 0.81 0.0 9.20 18.443 KFactor= 2.14 F31 9.06 2.157 IT 12.307 0.500 18.088 to 120.0 0.0 12.307 -0.218 F32 9.06 0.0009 0.0 12.807 0.011 Vel= 0.80 F32 0.0 1.61 IT 8.0 79.625 17.881 to 120.0 0.0 8.000 0.0 F41 9.06 0.0037 0.0 87.625 0.327 Vel = 1.43 F41 0.0 2.157 IT 12.307 0.500 18.208 to 120.0 0.01 12.307 0.218 F42 9.06 0.0009 0.0 12.807 0.012 Vel = 0.80 0.0 9.06 18.438 K Factor= 2.11 F33 8.98 2.157 11 12.307 0.500 18.091 to 120.0 0.0 12.307 -0.218 F34 8.98 0.0009 0.0 12.807 0.011 Vel = 0.79 F34 0.0 1.61 IT 8.0 79.625 17.884 to 120.0 0.0 8.000 0.0 F39 8.98 0.0037 0.0 87.625 0.322 Vel = 1.42 F39 0.0 2.157 IT 12.307 0.500 18.206 to 120.0 0.0 12.307 0.218 F40 8.98 0.0009 0.0 12.807 0.011 Vel = 0.79 0.0 8.98 18.435 K Factor = 2.09 F35 8.94 2.157 1 12.307 0.500 18.092 to 120.0 0.0 12.307 -0.218 F36 8.94 0.0009 0.0 12.807 0.011 Vel = 0.78 F36 0.0 1.61 IT 8.0 79.625 17.885 to 120.0 0.0 8.000 0.0 F37 8.94 0.0036 0.0 87.625 0.319 Vel = 1.41 F37 0.0 2.157 IT 12.307 0.500 18.204 to 120.0 0.0 12.307 0.218 F38 8.94 0.0009 0.0 12.807 0.011 Vel = 0.78 0.0 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Càsco Fire Protection Page 12 ABBOTT IBIS system 2 F Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv ******* Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn 8.94 18.433 K Factor= 2.08 F73 8.93 2.157 iT 12.307 0.500 18.092 to 120.0 0.0 12.307 -0.218 F74 8.93 0.0009 0.0 12.807 0.012 Vel = 0.78 F74 0.0 1.61 iT 8.0 79.625 17.886 to 120.0 0.0 8.000 0.218 F75 8.93 0.0036 0.0 87.625 0.318 VeI= 1.41 F75 0.0 2.157 IT 12.307 0.500 18.422 to 120.0 0.0 12.307 0.0 F76 8.93 0.0009 0.0 12.807 0.011 Vel= 0.78 0.0 8.93 18.433 K Factor= 2.08 FOI 51.33 4.26 0.0 10.000 17.586 to 120.0 0.0 0.0 0.0 F03 51.33 0.0008 0.0 10.000 0.008 VeI= 1.16 F03 26.80 4.26 0.0 9.830 17.594 to 120.0 0.0 0.0 0.0 F05 78.13 0.0018 0.0 9.830 0.018 Vel = 1.76 F05 48.43 4.26 0.0 12.000 17.612 to 120.0 0.0 0.0 0.0 F07 126.56 0.0042 0.0 12.000 0.051 Vel = 2.85 F07 0.0 4.26 0.0 9.000 17.663 to 120.0 0.0 0.0 0.0 F09 126.56 0.0043 0.0 9.000 0.039 Vel = 2.85 F09 0.0 4.26 0.0 12.000 17.702 to 120.0 0.0 0.0 0.0 F11 126.56 0.0042 0.0 12.000 0.051 Vel = 2.85 Fli -7.37 4.26 0.0 12.000 17.753 to 120.0 0.0 0.0 0.0 F13 119.19 0.0038 0.0 12.000 0.046 VeI= 2.68 F13 -6.94 4.26 0.0 12.000 17.799 to 120.0 0.0 0.0 0.0 F15 112.25 0.0034 0.0 12.000 0.041 Vel= 2.53 F15 -8.15 4.26 0.0 12.000 17.840 to 120.0 0.0 0.0 0.0 F17 104.1 0.0030 0.0 12.000 0.036 Vel = 2.34 F17 -7.95 4.26 0.0 12.000 17.876 to 120.0 0.0 0.0 0.0 F19 96.15 0.0026 0.0 12.000 0.031 Vel = 2.16 F19 -9.53 4.26 0.0 12.000 17.907 to 120.0 0.0 0.0 0.0 F21 86.62 0.0022 0.0 12.000 0.026 Vel = 1.95 F21 -11.72 4.26 3E 39.501 15.125 17.933 to 120.0 0.0 39.501 0.0 F23 74.9 0.0016 0.0 54.626 0.089 Vel = 1.69 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Cosco Fire Protection Page 13 ABBOTT IBIS system 2 F Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn F23 -10.27 4.26 0.0 12.000 18.022 to 120.0 0.0 0.0 0.0 F25 64.63 0.0012 0.0 12.000 0.015 Vel = 1.45 F25 -9.91 4.26 0.0 12.000 18.037 to 120.0 0.0 0.0 0.0 F27 54.72 0.0009 0.0 12.000 0.011 Vel = 1.23 F27 -9.63 4.26 3E 39.501 15.916 18.048 to 120.0 0.0 39.501 0.0 F29 45.09 0.0006 0.0 55.417 0.035 Vel = 1.01 F29 -9.19 4.26 0.0 12.000 18.083 to 120.0 0.0 0.0 0.0 F31 35.9 0.0004 0.0 12.000 0.005 Vel = 0.81 F31 -9.06 4.26 0.0 12.000 18.088 to 120.0 0.0 0.0 0.0 F33 26.84 0.0002 0.0 12.000 0.003 Vel = 0.60 F33 -8.98 4.26 0.0 12.000 18.091 to 120.0 0.0 0.0 0.0 F35 17.86 0.0001 0.0 12.000 0.001 Vet = 0.40 F35 -8.93 4.26 0.0 12.000 18.092 to 120.0 0.0 0.0 0.0 F73 8.93 0.0 0.0 12.000 0.0 Vet = 0.20 0.0 8.93 18.092 KFactor= 2.10 F72 61.89 4.26 0.0 10.000 17.779 to 120.0 0.0 0.0 0.0 F70 61.89 0.0011 0.0 10.000 0.011 Vel= 1.39 F70 33.84 4.26 0.0 9.830 17.790 to 120.0 0.0 0.0 0.0 F68 95.73 0.0026 0.0 9.830 0.026 Vet = 2.15 F68 40.29 4.26 0.0 12.000 17.816 to 120.0 0.0 0.0 0.0 F66 136.02 0.0048 0.0 12.000 0.058 Vet = 3.06 F66 0.0 4.26 0.0 12.000 17.874 to 120.0 0.0 0.0 0.0 F64 136.02 0.0049 0.0 12.000 0.059 Vel = 3.06 F64 0.0 4.26 0.0 12.000 17.933 to 120.0 0.0 0.0 0.0 F62 136.02 0.0049 0.0 12.000 0.059 Vel = 3.06 F62 7.38 4.26 0.0 12.000 17.992 to 120.0 0.0 0.0 0.0 F60 143.4 0.0054 0.0 12.000 0.065 Vel = 3.23 F60 6.94 4.26 0.0 12.000 18.057 to 120.0 0.0 0.0 0.0 F58 150.34 0.0059 0.0 12.000 0.071 Vel = 3.38 F58 8.14 4.26 0.0 12.000 18.128 to 120.0 0.0 0.0 0.0 F56 158.48 0.0065 0.0 12.000 0.078 Vel = 3.57 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final calculations - Hazen-Williams Cosco Fire Protection Page 14 ABBOTT IBIS system 2 F Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. or Ftng's Pe Pv ******* Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn F56 7.96 4.26 0.0 12.000 18.206 to 120.0 0.0 0.0 0.0 F54 166.44 0.0072 0.0 12.000 0.086 Vet = 3.75 F54 9.53 4.26 IT 26.334 7.750 18.292 to 120.0 0.0 26.334 0.0 M131 175.97 0.0079 0.0 34.084 0.269 Vet = 3.96 0.0 175.97 18.561 K Factor = 40.84 F76 8.93 4.26 0.0 12.000 18.433 to 120.0 0.0 0.0 0.0 F38 8.93 0.0 0.0 12.000 0.0 Vet = 0.20 F38 8.93 4.26 0.0 12.000 18.433 to 120.0 0.0 0.0 0.0 F40 17.86 0.0002 0.0 12.000 0.002 Vet = 0.40 F40 8.98 4.26 0.0 12.000 18.435 to 120.0 0.0 0.0 0.0 F42 26.84 0.0002 0.0 12.000 0.003 Vel = 0.60 F42 9.06 4.26 0.0 12.000 18.438 to 120.0 0.0 0.0 0.0 F44 35.9 0.0004 0.0 12.000 0.005 Vel = 0.81 F44 9.19 4.26 0.0 12.000 18.443 to 120.0 0.0 0.0 0.0 F46 45.09 0.0006 0.0 12.000 0.007 Vet = 1.01 F46 9.63 4.26 0.0 12.000 18.450 to 120.0 0.0 0.0 0.0 F48 54.72 0.0009 0.0 12.000 0.011 Vet = 1.23 F48 9.91 4.26 0.0 12.000 18.461 to 120.0 0.0 0.0 0.0 F50 64.63 0.0012 0.0 12.000 0.015 VeI= 1.45 F50 10.27 4.26 0.0 12.000 18.476 to 120.0 0.0 0.0 0.0 F52 74.9 0.0017 0.0 12.000 0.020 Vet = 1.69 F52 11.72 4.26 IT 26.334 4.250 18.496 to 120.0 0.0 26.334 0.0 MB1 86.62 0.0021 0.0 30.584 0.065 Vet = 1.95 0.0 86.62 18.561 K Factor = 20.11 MB1 262.59 4.26 3E 39.501 22.910 18.561 to 120.0 0.0 39.501 0.0 TOR2 262.59 0.0166 0.0 62.411 1.033 Vet = 5.91 TOR2 0.0 6.065 lFsp 0.0 13.670 19.594 to 120.0 0.0 0.0 6.486 * Fixed loss = 1 BOR2 262.59 0.0030 0.0 13.670 0.041 Vet = 2.92 BOR2 250.00 6.065 0.0 0.500 26.121 Qa = 250 to 120.0 0.0 0.0 1.083 TEST 512.59 0.0100 0.0 0.500 0.005 Vet = 5.69 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Cosco Fire Protection Page 15 ABBOTT IBIS system 2 F Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn 0.0 512.59 27.209 K Factor= 98.27 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 $06990. cosco 00 0 Fire Protection San Diego Branch Office 10695 Treena Street., Suite #105 San Diego, CA 92131 (858) 444-2000 fax: 444-2056 State License No: C-16-577621 www.coscofire.com Aso°tolr+ MATERIAL SUBMITTAL Date: - 8-27-09 ABBOTT IBIS TI 2251 FARADAY AVE. CARLSBAD, CA 92008 JOB # 10.CA_5 108 All material submitted, may be substituted by material of equal performance & design, & shall be deemed acceptable by purchaser. Submitted By: - STUART VERNON Los Angeles • San Francisco • Orange • Fresno • San Diego • Seattle 0 Schedule 1O and Schedule T40 ! FM Approved and UL Listed Sprinkler Pipe Bull Moose Tube Company is a recognized producer of quality pipe products. Our Schedule 10 and Schedule 40 are FM Approved and UL Listed (for U.S. and Canada), even though these products do not require separate approvals and listings. Bull Moose Tube made the decision to have them approved and listed for your peace of mind. Our Sch. 10 and Sch. 40 have been through the same rigorous testing as our other fine pipe products. Schedule 10 Pipe Bull Moose Tube's Sch. 10 and Sch. 40 pipes are made to ASTM A135 and ASTM A795. These products are typically supplied with our protective coating but can be supplied without the coating so they can be hot-dip galvanized to meet FM requirements for use in dry systems in accordance with the zinc coating specifications of ASTM A795 or ASTM A53. Nominal Pipe Size (in) Nominal 0.D. (in) Nominal I D (in) Weight/Ft Bundle Size 1 1.315 1.097 1.41 lbs/ft 91 1-1/4 1.660 1.442 1.81 lbs/ft 61 1-1/2 1.900 1.682 2.09 lbs/ft 61 2 2.375 2.157 2.64 lbs/ft 37 2-1/2 2.875 2.635 3.53 lbs/ft 30 3 3.500 3.260 4.34 lbs/ft 19 4 1 4.500 4.260 1 5.62 lbs/ft 19 Schedule 40 Pipe Nominal Pipe Size (in) Nominal O.D. (in) Nominal I.D. (in) Weight/Ft Bundle Size 1 1.315 1.049 1.68 lbs/ft 70 1-1/4 1.660 1.380 2.27 lbs/ft 51 1-1/2 1.900 1.610 2.72 lbs/ft 44 2 2.375 2.067 3.66 lbs/ft 30 2-1/2 2.875 2.468 5.80 lbs/ft 30 3 3.500 3.068 7.58 lbs/ft 19 4 4.500 4.026 1 10.80 lbs/ft 19 PIPE PREPARATION For proper operation, all pipe surfaces should be cleaned prior to installation. In order to provide a leak-tight seat for the gasket, pipe surfaces should be free from indentations and projections from the end of the pipe to the groove. All loose paint, scale, dirt, chips, grease, and rust must be removed prior to installation. Failure to take these important steps may result in improper coupling assembly, causing leakage. Also, check the manufacturer's instructions for the specific fitting used. 1819 Clarkson Road For additional information, 6 Chesterfield, MO 63017 contact your salesperson C®IJS (800) 325-4467 today at (800) 325-4467 or LISTED U EcONANY FAX: (636) 537-2645 (636) 537-2600 in the USA, www.bullmoosetube.com or from Canada ACA?flROcompany e-mail: sales@bullmoosetube.com call (800) 882666 _______ APPROVED All information contained herein is accurate as known at the time of publication. Bull Moose Tube reserves the right to change product specifications without notice and without incurring obligation. 4/08 S j&-m—ALStar- Threaded Mechanical Branch Tee Fire Products Division of Anvil' International 04~ Submittal Sheet Model MT-30 mechanical tee serves the same function as Mu & MT-8 but uses a steel electro-plated U-Bolt to save space and for easier installation in tight places. It is ideal for direct connections with sprinkler heads and drop nipples. n APPROVED For Listing / Approval details contact your AnvilStar°' Representative. WARNING For dry pipe systems and freezer applications lubrication of the gasket is required, Gruviok® Xtreme Lubricant is recommended. HOUSING: Ductile Iron conforming to ASTM A-536, Grade 65-45-12. U-BOLT & NUTS: U-bolt is carbon steel SAE Grade 2, Zinc Plated with plated hex nuts carbon steel ASTM A- 194, Zinc Plated, THREADS: MT-30 NPT per ANSI/ASME B1 20.1 COATINGS: Ii Zinc Electroplated Other (Specify): Example: RAL3000 or RA19000 Series For other Coating requirements contact an AnvilStor Representative. GASKETS: Materials Properties as designated in accordance with ASTM D-2000. (J Grade "E" EPDM (Green color code) -40°F to 230°F (Service Temperature Range) (-40°C to 110°C) Recommended For water service, diluted acids, alkalies solutions, salts, oil-free air and many chemical services not involving hydrocarbons, oils or gases. NOT FOR USE WITH HYDROCARBONS. Other PROJECT INFORMATION: APPROVAL STAMP: Project: Date: Phone: Architect I Engineer: Contractor: Address: Notes 1: Notes 2: PAGE I OF 2 SPF Couplings, Fittings, Flanges, Clamps For the latest UL/ULC Listed and FM Approved pressure ratings, versus pipe schedule, REV. 03.0306-0033 go to www.anvilstar.com or contact your local AnvilStar representative j&---A - Threaded Mechanical Branch Tee 'Star Fire Products Division of Anvil International Submittal Sheets EL, C A, -- ------- : T ------ M T-30 cjs I 'i : .i I ['Y1 14 * Nominal Hole Diameter Max. Wk. Dimensions Approx. A B c T Size 0. D.Mm. Max. Pressure Wt. En. Diameter Diameter Take-Oct InJDN(mm) in/mm in/turn In/mm PSI/6a in/mm In MM In/mm In/mm thsjkg ½ 1.660 x 0.840 1/l6 1/16 300 2'/8 31/i 21/4 15/4 0.8 32x 12 42.4x21.3 30 33 20] 54 89 51.2 42 0.4 1 '/4x 3/4 1.660e1.050 1 3A 6 1/l6 300 21/8 3½ 21/4 1/8 0.8 32x 19 42.4r26.7 30 33 20.7 54 89 51.2 42 0.4 ]l/4 x 1 1.660s1.315 13A6 ]5/i6 300 21/4 31h 21/4 1/8 1.1 32x25 42.4x33.1 30 33 20.7 58 89 57.2 41 0.5 ½ 1.900x0.840 13A6 1/16 300 21/4 31h 21/4 13/4 0.8 40x12 48.3x213 30 33 20.7 57 89 51.2 48 0.4 1½ x 3/4 1.900x1.050 1/16 '/16 300 21/4 3½ 21/4 13/4 0.9 40x 19 48.3x26.7 30 33 20.7 57 89 51.2 48 0.4 1½ x 1 1.900x1.315 1,1K 1/1 300 23/8 3½ 21/4 1/4 1.1 40x 25 48.3 x33.7 30 33 20.7 61 89 57.2 44 0.5 2 x ½ 2.315 x0.840 13A6 1/16 300 21h 33/4 21/4 2 0.9 50x 12 60.3 x27.3 30 33 20.7 64 95 51.2 57 0.4 2 x 3/4 2.375 x 1.050 13A6 1'/16 300 21h 33/4 21/4 2 0.9 SOn 19 60.3x26.1 30 33 20.7 64 95 51.2 51 0.4 2 x 1 2.315x1.315 13Ae 1/it 300 214 33/4 21/4 2 1.1 50x25 60.3x33.1 30 33 20.7 6/ 95 57.2 50 0.5 2½ x ½ 2.815x0.840 13A6 15A6 300 23/4 41/4 2¼ 2¼ 0.9 65x 72 73.0x21.3 30 33 20.7 70 708 51.2 57 0.4 2½ x 3/4 2.815x1.050 1,4& 1/it 300 23/4 44/4 2¼ 2¼ 0.9 65x 19 13.0 x26.1 30 1 33 20.7 70 1 108 51.2 57 0.4 21/2 x 1 2.815x1.315 1,16 1/16 300 2/ 0/ 2¼ 21/4 1.1 65x25 73.0x33.1 30 1 33 f 201 1 13 1013 1 51.2 56 1 0.5 BSP equivalent is available as a MT-90. NOTE: Tighten nuts alternatively to a recommended torque of 18 -22 1t1bs 125- 30 t'i-ml on pipe wall less than schedule 10 or 23 -27 ft-lbs 131 -37 N-m) on pipe walls schedule 10 and above. PAGE 2 OF 2 SPF Couplings, Fittings, Flanges, Clamps For the latest UL/ULC Listed and FM Approved pressure ratings, versus pipe schedule, REV. 03.03.06.0034 go to www.anvilstar.com or contact your local AnvilStar representative )WWI L S 0 O tqCC /Fire & Building I Products Technical Services: Tel: (800) 381-9312/ Fax: (800) 791-5500 Series TY-FRB - $42 5. 6, andOI(-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. Corrosion resistant coatings, where applicable, are utilized to extend the life of copper alloy sprinklers beyond that which would otherwise be ob- IMPORTANT Always refer to Technical Data Sheet TFP 700 for the "INSTALLER WARNING" that provides cautions with respect to handling and instal- lation of sprinkler systems and com- ponents. Improper handling and in- stallation can permanently damage a sprinkler system or its compo- nents and cause the sprinkler to fail to operate in a fire situation or cause if to operate prematurely. tamed when exposed to corrosive at- mospheres. Although corrosion resis- tant coated sprinklers have passed the standard corrosion tests of the appli- cable approval agencies, the testing is not representative of all possible cor- rosive atmospheres. Consequently, it is recommended that the end user be consulted with respect to the 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 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 Series TY-FRB Sprinklers de- scribed hërein must be installed and maintained in compliance with this document, as well as with the applica- ble standards of the National Fire Pro- tection Association, in addition to the standards of any other authorities hav- ing jurisdiction. Failure to do so may impair the performance of these de- vices. The owner is responsible for maintain- ing their fire protection system and de- vices in proper operating condition. The installing contractor or sprinkler manufacturer should be contacted with any questions. Model/Sprinkler Identification Numbers • The recessed version of the Series TY-FRB Pendent Sprinkler, where ap- plicable, is intended for use in areas with a finished ceiling. It 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 pro- vided by the Recessed Escutcheon re- duces the accuracy to which the fixed pipe drops to the sprinklers must be cut. FY2 endenr12K1rNPT k TY3131 - Upright 5.61K, 1/2"NPT 4' TY3231 - Pendent 5.61K, 1/2"NPT Page 1 of 10 MARCH, 2007 TFPI7I PENDENT Z RECESSED PENDENT UPRIGHT CROSS SECTION H- SSP DEFLECTOR * PENDENT 6* 5 4 2 3 7/16' I (11,1 mm) NOMINAL I MAKE-IN - I 2-3/16" (55,6 mm) 1/2" NPT CROSS SECTION UPRIGHT * Temperature rating is indicated on deflector or adjacent to orifice seat on frame. 1 - Frame 3- Sealing,.— 4 - Bulb 6- Deflector 2 - Button AseThbIy 5 - Compression Screw TFPI7I STYLE 10 or 20 RECESSED * ESCUTCHEON SSU DEFLECTJ If1I 4 _ 11w ..!! I W 5,6 _iiiKI frl SSP DEFLECTOR h7' /8"(73,0 mm) DIA. S 1 - Frame 3 - Sealing,/ 4 - Bulb 6 - Deflector * Temperature rating is indicated on deflector or-adjacent to 2 - Button A$mbly 5 - Compression 7 - Bushing orifice seat on frame. Screw FIGURE 1 RESPONSE SERIES TY-FRB UPRIGHT (TYII3I) AND PENDENT (TY1231) SPRINKLERS 2.8 K-FACTOR, 1/2 INCH NPT ESCUTCHEON PLATE SEATING SURFACE -r- - 2-3/16" (55,6 mm) 1-1/2" (38,1 mm) 7/16" (11,1 mm) 1/2' NOMINAL M01 MAKE-IN STYLE 10 or 20 RECESSED ESCUTCHEON II WRENCH - FLATS (73,0 mm) DIA. --1 SED PENDENT S FIGURE 2 QUICK RESPONSE SERIES TY-FRB UPRIGHT (TY2131) AND PENDENT (TY2231) SPRINKLERS 4.2 K-FACTOR, 1/2 INCH NPT 0 Page 2 of 10 ESCUTCHEON 7/16"(11,1 mm) PLATE SEATING 1/2' NOMINAL SURFACE MAKE-IN NPT _F_ I J 2-1/4" (57,2 mm) 1-9/16" (39,7 mm) SSU * DEFLECTOR 7/16" :11,1 mm) JOMINAL MAKE-IN 2-3/16" (55,6 mm) 6*1 WRENC FLATS 1/2" NPT TFPI7I ESCUTCHEON 7/16 (11,1 mm) PLATE SEATING NOMINAL SURFACE 1/2" MAKE-IN i NPT 2-3/16" 2-3/16" (55,6 mm) 1-1/2" (38,1 mm SSP DEFLECTOR I— 2-7/8" (73,0 mm) DIA. Page 3 of 10 SSU * DEFLECTOR STYLE 100r20 RECESSED ESCUTCHEON PENDENT RECESSED PENDENT UPRIGHT CROSS SECTION 1 - Frame 3 - Sealing 4 - Bulb 6 - Deflector * Temperature rating is indicated on deflector or adjacent to 2 - Button Assembly 5 - Compression orifice seat on frame. Screw FIGURE 3 QUICK RESPONSE SERIES TY-FRB UPRIGHT (TY3131) AND PENDENT (TY3231) SPRINKLERS 5.6 K-FACTOR, 1/2 INCH NPT ESCUTCHEON 1/2" (12,7 mm) PLATE SEATING /4' NOMINAL SURFACE NPT MAKE-IN 2-5/16" (58,7 mm) 1-9/ (39,7 mm) L= SSP DEFLECTOR * 2-7/8" PENDENT RE.GE' STYLE 30 or 40 RECESSED ESCUTCHEON SSU* DEFLECTOR j 6* 1/2" ,mm) OMINAL I MAKE-IN 2 2-1/4" mm) DIA. 3/4" NPT (57,2mm) , 3 PENDENT UPRIGHT CROSS SECTION 1 - Frame 3 - Sealing -'" 4 -Bulb 6 - Deflector * Temperature rating is indicated on deflector or adjacent to 2 - Button Asse9bW 5 - Compression orifice seat on frame. Screw - FIGURE QUICK RESPONSE SERIES TY-FRB UPRIGHT (TY4 131) AND PENDENT (TY4231) SPRINKLERS 8.0 K-FACTOR, 3/4 INCH NPT 0 Page 4oflO TFPI7I 7/16"(11,1 mm) NOMINAL SSU 1/2' NPT MAKE-IN DEFLECTOR *6 2-1/4" (57,2 mm) 1-9/16' WRENCH (39,7 mm) FLATS L , 3 P*- FLECTOR CROSS PEN I UPRIGHT SECTION 1 - Frame 3 - Sealing 4 - 6 - Deflector * Temperature rating is indicated on deflector or adjacent to 2 - Button Assembly - Compression orifice seat on frame. Screw FIGURE 5 Q RESPONSE SERIES TY-FRB UPRIGHT (TY4831) AND PENDENT (TY4931) SPRINKLERS 8.0 K-FACTOR, 1/2 INCH NPT Technical Data Approvals UL and C-UL Listed. FM, LPCB, and NYC Approved. (Refer to Table A and B for complete approval information including corro- sion resistant status.) Maximum Working Pressure Refer to Table C. Discharge Coefficient K = 2.8 GPM/psi1/2 (40,3 LPM/barll2) K = 4.2 GPM/psi112 (60,5 LPMIbari/2) K = 5.6 GPM/psi1l2 (80,6 LPM/barl'2) K = 8.0 GPM/psill2 (115,2 LPM/barl'2) 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 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. o C 0 0 a 4— TFPI7I SPRINKLER FINISH (See Note 7) K TYPE TEMP. BULB NATURAL I CHROME I WHITE" LIQUID BRASS PLATED POLYESTER PENDENT (TY1231) 135°F/57°C Orange 11 155°F/68°C Red 175°F/79°C 1,2and Yellow UPRIGHT 200°F/93°C Green 2.8 (TY1131) 286°F/141°C Blue 1/2" NPT 135°F/57°C Opnfe— RECESSED PENDENT 155F/689 Red 17F19°C Yellow (TY1231)* Figure 6 1, 2, 5 '0O0F/930C Green 135F/57°C Orange / PENDENT 155F/68°C Red 175°F/79°C Yellow (TY1231)** Figure 7 200°F/93°C Green 135°F/57°C Orange PENDENT (TY2231) 155F/68°C Red 175°F/79C Yellow Green and UPRIGHT 200°F/93°C 4.2 1/2" (TY2131) 1,2 286°F/141°C Blue 135°F/57°C nge NPT RECESSED PENDENT 155°F/6e" Red 17F19°C Yellow (TY2231)* Figure 8 200°F/930C Green 135°F/57°C Orange RECESSED ,,,PE NDENT155°F/68°C Red 175°F/79°C Yellow c_ (TY2231) Figure 9 200°F/93C Green NOTES: Listed by Underwriters Laboratories, Inc. (UL) as Quick Response Sprinklers. Listed by Underwriters Laboratories, Inc. for use in Canada (C-UL) as Quick Re- sponse Sprinklers. 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" NPT) or Style 40 (3/4" NPT) 3/4k 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 color (Special Order). N/A: Not Available TABLE A LABORATORY LISTINGS AND APPROVALS 2.8 AND 4.2 K-FACTOR SPRINKLERS Page 5 of 10 Page 6 of 10 TFPI7I SPRINKLER FINISH (See Note 8) K TYPE TEMP. BULB NATURAL I CHROME I WHITE LEAD LIQUID BRASS PLATED POLYESTER COATED 135°F/57°C Orange PENDENT (TY3231) and 1,2,3,4,5,6,7 1,2,3,5 155°F/68"C Red 175°F/79°C Yellow UPRIGHT 200°F/93"C Green 5.6 (TY3131) 1/2" 286"F/141"C Blue NPT 135°F/57°C Orange RECESSED PENDENT (TY3231)* 1,2,4, 5 N/A 155°F/68"C Red 175°F179"C Yellow Figure 10 200"F/93"C Green 135°F/57°C Orange RECESSED PENDENT (1Y3231)** 1,2,3,4,5 1,2,4,5 N/A 155"F/68"C Red 175°F/79°C Yellow Figure 11 200°F/93°C Green 135"F/57°C Orange 8.0 PENDENT (TY4231) and UPRIGHT (TY4131) 3/4" 1,2, 3,4,5,6, 7 2, 5 155°F/68°C Red 175°F/79"C Yellow 200°F/93°C Green 286°F/141°C Blue NPT 135°F/57°C Green RECESSED PENDENT (TY4231)* 1,2,4,5 N/A 155°F/68°C Orange 175°F/79"C Red Figure 12 200°F/93"C 135°F/ Orange RECESSED PENDENT ~(T~Y4 -175"F179"C 1,2, 3,4, 5 N/A 1.68°C Red Yellow 200"F/93"C Green 135°F/57°C Orange 8.0 1/2" NPT PENDENT (TY4931) and UPRIGHT ffyipfl 1,2,4,5,6 1,2, 5 155°F/68"C 175°F/79"C Red XelloW 20"7°C Green 286°F/141"C Blue NOTES: Listed by Underwriters Laboratories, Inc. (UL) as Quick Response Sprinklers. Listed by Underwriters Laboratories, Inc. for use in Canada (C-UL) as Quick Response Sprinklers. Approved by Factory Mutual Research Corporation (FM) as Quick Response Sprinklers. Approved by the Loss Prevention Certification Board (LPCB Ref. No. 007k/04) as Quick Response Sprinklers; however, the LPCB does not rate the thermal sensitivity of recessed sprinklers. Approved by the City of New York under MEA 354-01-E. VdS Approved (For details contact Tyco Fire & Building Products, Enschede, Netherlands, Tel. 31-53-428-4444/Fax 31-53-428-3377). Approved by the Loss Prevention Certification Board (LPCB Ref. No. 094a/06) as Quick Response Sprinklers. Where Polyester Coated and Lead Coated Sprinklers are noted to be UL and C-UL Listed, the sprinklers are UL and C-UL Listed as Corrosion Resistant Sprinklers. Where Lead Coated Sprinklers are noted to be FM Approved, the sprinklers are FM Approved as a ..orrosion 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 color (Special Order). N/A: Not Available TABLE B LABORATORY LISTINGS AND APPROVALS 5.6 AND 8.0 K-FACTOR SPRINKLERS 10 TFPI7I Page 7 of 10 SPRINKLER FINISH K TYPE NATURAL CHROME WHITE LEAD BRASS PLATED POLYESTER I COATED PENDENT(TY3231) and 2.8 UPRIGHT (TY3131) 175 PSI (12,1 BAR) N/A 1/2' REE8SEDENT NPT (1Y323) PENDENT (1Y4231) and 4.2 UPRIGHT (1Y4131) 175 PSI (12,1 BAR),.. - RECESSED PENDENT NPT (TY42511 PENDENT (TY3231) and 250 PSI (17,2 BAR) 175 PSI (12,1 BAR) 5.6 UPRIGHT (TY3131) OR 1/2" 175 PSI (12,1 BAR) RECESSED PENDENT NPT 'TY3231' (SEE NOTE 1) N/A PENDENT (1Y4231) and 175 PSI (12,1 BAR) .. 175.PSI (12,1 BAR) 8.0 UPRIGHT (TY4131) ... ._-- RECESSED PENDENT NPT (421r N/A 80 PENDENT (TY4931) 1/2" 175 PSI (12,1 BAR) 175 PSI (12,1 BAR) UPRIGHT (Th'4831) NOTES: 1. The maximum working pressure of 250 psi (17,2 bar) only applies to the Listing by Underwriters Laboratories Inc. (UL); the Listing by Underwriters Laboratories, Inc. for use in Canada (C-UL); and , the Approval by the City of New York. TABLE C, MAXIMUM WORKING PRESSURE Installation The Series TY-FRB Sprinklers must be installed in accordance with the fol- lowing 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 1350F/57°C to 3/32 inch (2,4 mm) for the 286°F/1410C temperature ratings. tained with a torque of 10 to 20 ft.lbs. (13,4 to 26,8 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 14). With reference to Figures 1, 2, 3, 4, and 5, 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 sprinkler fitting using only the W-Type 7 Recessed Sprinkler Wrench (Ref. Figure 15). With reference to Figure 1, 2, 3, and 4, the W-Type 7 Recessed .A leak tight 1/2 inch NPT sprinklerjoint should be obtained with a torque of 7 to 14 ft.Ibs. (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 1/2 NPT connections. A leak tight 3/4 inch NPT sprinkler joint should be ob- Page 8 of 10 - 2-7/8' DIA. 5/8±1/4' (73,0 mm) 3/4-(1 mm) ,- (15,9±6,4 mm) 2-1/4" DIA. 1/4" (64m FACE OF (57,2 M9tfiING SPRINKLER I _- PLATE FITTING I 1/8" I' (3,2 mm) MOUNTING SURFACE CLOSURE SERIES 1-5/16" (33,3 mm) TY-FRB 13/16" (20.6 mm) FIGURE 6 RIES TY-FRB RECESSED PENDENT WIT TWO-PIECE 3/4 INCH TOTAL ADJUSTMENT STYLE 10 RECESSED ESCUTCHEON 2.8 K-FACTOR, 1/2 INCH NPT 2-718"DIA. 5/8±1/4" (73,0 mm) I 3/4"(19.1 mm (15,9±6,4 mm) -1/4' DIA. 1/4' (6,4 mm) FACE OF (57,2 mm) MOUNTING SPRINKLER PLAT ,/ FITTING MOUNTING SURFACE~~' yr.. r'i*iiii IM:I1 / FIGURE ;SERIE$4Y-FRB RECESSED PENDENT WITHW94"IECE 3/4 INCH TOTAL ADJUSTMENT 'YLE 10 RECESSED ESCUTCHEON 7 4.2 K-FACTOR, 1/2 INCH NPT TFPI7I - 2-7/8" DIA. (73,0 mm) 1/2±1/8" 1/2 (12,7 mm) (12,7±3,2 mm) L..._ 2-1/4" DIA. 1/4" (6,4 mm) FACE OF (57,2 mm) 7 MOUNTING SPRINKLER \ / _ PLATE FITTING / (3, ) T_ II MOUNTING SURFACE CLOSURE S IES 1-5/16" (33,3 mm) -FRB 1-1/16" (27,0 mm) FIGURE 7 SE ES TY-FRB RECESSED PENDENT WITH 0-PIECE 1/2 INCH TOTAL ADJUSTMENT STYLE 20 RECESSED ESCUTCHEON 2.8 K-FACTOR, 1/2 INCH NPT - 2-7/8" DIA. • I (73,0 mm) 1/2±1/8" 1/2(12,7mm) , r (12,713,2 mm) 2-1/4" DIA. I 1/4" (6,4 mm)'] I FACE OF SPRINKLER PCATE FITTING mm1MOuT/ING I 1/8" (3,2 3 __ 2mm) I MOUNTING SURFACE/ SERIES 1-1/4" (31,8 mm) CLOSURE TY.FRB 1" (25,4 mm) / FIGURE 9 ERIES TY-FRB RECESSED PENDENT WITH TWO-PIECE 1/2 INCH TOTAL ADJUSTMENT STYLE 20 RECESSED ESCUTCHEON C. 4.2 K-FACTOR, 1/2 INCH NPT Sprinkler Wrench is to be applied to the sprinkler wrench flats. 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. 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 shut down the affected fire protection system must be obtained from the proper authorities and all personnel who may be affected by this action must be notified. The owner must assure that the sprin- klers are not used for hanging of any objects; otherwise, non-operation in the event of a fire or inadvertent opera- tion may result. 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 like, 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- 0 TFPI7I 2-7/8 DIA. 5/8±1/4' (73,0 mm) 3/4"(19,1 mm) (15,9±6,4 mm) 2-1/4" DIA. 1/4" (6,4 mm) FACE OF MOUNTING SPRINKLER PLATE FITTING 1/8" [(572 mm) (3,2 mm) \ MOUNTING / , SURFACE/ SERIES 1-1/4(31,8mm) CLOSURE TYFRB 3/4" (19,1 mm) FIGURE 10 SERIES TY-FRB RECESSED PENDENT WITH TWO-PIECE 3/4 INCH TOTAL ADJUSTMENT STYLE 10 RECESSED ESCUTCHEON 5.6 K-FACTOR, 1/2 INCH NPT Page 9 of 10 - 2-7/8" DIA. (73,0 mm) 1/2±1/8" 1/2" (12,7 mm) E (12,7±3,2 mm) 2-1/4" DIA. I 1/4" (6,4 mm) FACE OF (572 mm) MOUNTING SPRINKLER I I PLATE 1/8" (3 ) FITTING 2 mm \ MOUNTING SURFACE SERIES 1-1/4" (31,8 mm) CLOSURE 1YFRB 1" (25,4 mm) FIGURE 11 SERIES TY-FRB RECESSED PENDENT WITH TWO-PIECE 1/2 INCH TOTAL ADJUSTMENT STYLE 20 RECESSED ESCUTCHEON 5.6 K-FACTOR, 1/2 INCH NPT 2-7/8"DIA. 5/8±1/4" (73,0 mm) 3/4"(19,1 mm (15,9±6,4 mm) r 2-1/4" DIA. 1/4" (6,4 mm) FACE OF (57,2 mm) PLAT MOUNTING SPRINKLER FITTING MOUNTING SURFACE 1/2±1/8" (12,7±3,2 mm) FACE OF SPRINKLER FITTING I \ - MOUNTING SURFACE 2-7/8" DIA. (73,0 mm) 2-1/4" DIA. (57,2 mm) - , FI,' 1/2" (12,7 mm 1/4(6,4mm) MOUNTING - PLATE 1/8" (3,2 mm) CLOSURE /SERIES / TY-FRB 1-5/16"(33,3 mm) 13/16" (20,6 mm) CLOSURE 1-5/16"(33,3 mm) 1-1/16" (27,0 mm) V FIGURE 12 RtIES TY-FRB RECESSED PENDENT rWO-PIECE 3/4 INCH TOTAL ADJUSTMENT STYLE 40 RECESSED ESCUTCHEON 8.0 K-FACTOR, 3/4 INCH NPT FIGURE 13 01ES TY-FRB RECESSED PENDENT TWO-PIECE 1/2 INCH TOTAL ADJUSTMENT STYLE 30 RECESSED ESCUTCHEON 8.0 K-FACTOR, 3/4 INCH NPT 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- tion and the long term integrity of the corrosion resistant coating, as it may be affected by the corrosive conditions present. The owner is responsible for the in- spection, testing, and maintenance of their fire protection system and de- vices in compliance with this docu- ment, as well as with the applicable standards of the National Fire Protec- tion Association (e.g., NFPA 25), in addition to the standards of any other authorities having jurisdiction. The in- stalling contractor or sprinkler manu- WRENCH RECESS (END "A" USED FOR 1/2" NPT MODELS) WRENCH RECESS (END "B" USED FOR 3/4" NPT MODELS) FIGURE 14 W-TYPE 6 SPRINKLER WRENCH facturer should be contacted relative to any questions. It is recommended that automatic sprinkler systems be inspected, tested, and maintained by a qualified WRENCH RECESS PUSH WRENCH IN TO ENSURE ENGAGEMENT WITH SPRINKLER WRENCHING AREA FIGURE 15 W-TYPE 7 RECESSED SPRINKLER WRENCH Inspection Service in accordance with local requirements and/or national codes. Page 10 of 10 TFPI7I PIN 57-XXX-X-XXX I I I TEMPERATURE L MODEL/SIN I RATING I SPRINKLER 330 2.8K UPRIGHT (1/2NPT) TY113I 135 135°F/57°C 331 2.8K PENDENT (1/2"NPT) 1Y1231 I NATURAL BRASS 155 155F/68°C 340 4.2K UPRIGHT (1/2"NPT) TY2131 4 WHITE POLYESTER 175 175°F/79°C 341 4.2K PENDENT (1/2"NPT) 1Y2231 3 WHITE (RAL90I0)* 200 200°F/93°C 370 5.6K UPRIGHT (1/2"NPT) TY3131 9 CHROME PLATED 286 286°F/141°C 371 5.6K PENDENT (1/2"NPT) 1Y3231 7 LEAD COATED 390 8.0K UPRIGHT (3/4°NPT) TY4131 391 8.0K PENDENT (3/4"NPT) TY4231 * Eastern Hemisphere sales only. 360 8.0K UPRIGHT (1/2"NPT) TY4831 361 8.0K PENDENT (1/2"NPT) 1Y4931 TABLED PART NUMBER SELECTION SERIES TY-FRB PENDENT AND UPRIGHT SPRINKLERS Limited Warranty Products manufactured by Tyco Fire & Building Products (TFBP) are war- ranted solely to the original Buyer for ten (10) years against defects in mate- rial and workmanship when paid for and properly installed and maintained under normal use and service. This warranty will expire ten (10) years from date of shipment by TFBP. No warranty is given for products or com- ponents manufactured by companies not affiliated by ownership with TFBP or for products and components which have been subject to misuse, improper installation, corrosion, or which have not been installed, maintained, modi- fied or repaired in accordance with ap- plicable Standards of the National Fire Protection Association, and/or the standards of any other Authorities Having Jurisdiction. Materials found by TFBP to be defective shall be either repaired or replaced, at TFBP's sole option. TFBP neither assumes, nor authorizes any person to assume for it, any other obligation in connection with the sale of products or parts of prod- ucts. TFBP shall not be responsible for sprinkler system design errors or inac- curate or incomplete information sup- plied by Buyer or Buyer's repre- sentatives. In no event shall TFBP be liable, in contract, tort, strict liability or under any other legal theory, for incidental, indirect, special or consequential dam- ages, including but not limited to labor charges, regardless of whether TFBP was informed about the possibility of such damages, and in no event shall TFBP's liability exceed an amount equal to the sales price. 01 mercnantaDliltv and titness tor a nr- This limited warranty sets forth the ex- clusive remedy for claims based on failure of or defect in products, materi- als or components, whether the claim is made in contract, tort, strict liability or any other legal theory. This warranty will apply to the full ex- tent permitted by law. The invalidity, in whole or part, of any portion of this warranty will not affect the remainder. Ordering Procedure When placing an order, indicate the full product name. Refer to the Price List for complete listing of Part Num- bers. Contact your local distributor for avail- ability. 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), P/N (specify from Table D). Recessed Escutcheon: Specify: Style (10, 20, 30, or 40) Re- cessed Escutcheon with (specify*) fin- ish, P/N (specify*). * Refer to Technical Data Sheet TFP770. Sprinkler Wrench: Specify: W-Type 6 Sprinkler Wrench, P/N 56-000-6-387. Specify: W-Type 7 Sprinkler Wrench, P/N 56-850-4-001. TYCO FIRE & BUILDING PRODUCTS, 451 North Cannon Avenue, Lansdale, Pennsylvania 19446 tqcu Fire & Building IlProducts Technical Services: Tel: (800) 381-9312 / Fax: (800) 791-5500 Series çe1T& EC-14 -,14-.2—and 14,0 K-factor Extended Coverage (Light and Ordinary Hazard) Upright, Pendent, and Recessed Pendent Sprinklers General Description The Tyco® Series EC-11 and EC-14 Extended Coverage Upright and Pen- dent Sprinklers are decorative glass bulb sprinklers designed for use in light or ordinary hazard occupancies. They are intended for use in automatic sprinkler systems designed in accord- ance with standard installation rules (e.g., NFPA 13) for a maximum cover- age area of 400 ft2 (37,2 m2), as com- pared to the maximum coverage area of 130 ft2 (12,1 m2) for standard cover- age sprinklers used in ordinary haz- ard occupancies or 225 ft2 (20,6 m2) for standard coverage sprinklers used in light hazard occupancies. The Series EC-11 and EC-14 Sprin- klrs feature a UL and C-UL Listing that permits their use with unob- structed or non-combustible ob- structed ceiling construction as de- fined and permitted by NFPA 13, as well as a specific application listing for use under concrete tees. The Series EC-11 and EC-14 Ex- tended Coverage Sprinklers have been fire tested to compare their per- formance to that of standard coverage spray sprinklers. These tests have shown that the protection provided is equal to or more effective than stand- ard coverage spray sprinklers. IMPORTANT Always refer to Technical Data Sheet TFP 700 for the "INSTALLER WARNING" that provides cautions with respect to handling and instal- lation of sprinkler systems and com- ponents. Improper handling and in- stallation can permanently damage a sprinkler system or its compo- nents and cause the sprinkler to fall to operate in a fire situation or cause it to operate prematurely. Page 1 of 8 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- rosive atmospheres. Consequently, it is recommended that the end user be consulted with respect to the suitability of these corrosion resistant coatings for any given corrosive environment. The effects of ambient temperature, concentration of chemicals, and gas/chemical velocity, should be con- sidered, as a minimum, along with the corrosive nature of the chemical to which the sprinklers will be exposed. WARNINGS The Series EC-11 and EC-14 Ex- tended Coverage Sprinklers described herein must be installed and main- tained in compliance with this docu- ment, as well as with the applicable standards of the National Fire Protec- tion Association, in addition to the standards of any other authorities hav- ing jurisdiction. Failure to do so may impair the performance of these de- vices. The owner is responsible for maintain- . fire protection system and de- vices in proper operating condition. The installing contractor or sprinkler manufacturer should be contacted with any questions. DECEMBER, 2007 Model/Sprinkler Identification Number TY5137 - Upright, 11.2K TY5237 - Pendent, 11.2K TY6137 - Upright, 14.0K TY6237 - Pendent14.0K TY5137 is a redesignation for C5137, G1894, and S2510. 1Y5237 is a redesignation for C5237, G1893, and S2511. TY6137 is a redesignation for C6137, G1896, and S2610. 1Y6237 is a redesignation for C6237, G1895, and S2611. TFP22O WRENCH FLAT 3/4" ** NPT Page 2 of 8 1 - Frame 2 - Button 3 - Seating Assembly 4 - Bulb 5 - Compression Screw 6 - Deflector* * Temperature rating is indicated on deflector Pipe thread Connections per ISO 7/1 can be provided on special request. 2-7/16" (61,9 mm) UPRIGHT & PENDENT 1/2 (12,7 mm) J NOMINAL MAKE-IN UPRIGHT TFP22O ESCUTCHEON PLATE SEATING SURFACE / 1-11/16" (42,7 mm 6* CROSS PENDENT SECTION n FIGURE 1 SERIES EC-11 AND EC-14 EXTENDED COVERAGE SPRINKLERS 44 R PRfGHTA1g'D-ffq42p&NoEN-- 14.0 K-FACTOR (TY6137) UPRIGHT AND (TY6237) PENDENT SPRINKLER FINISH (See Note 5) HAZARD TYPE TEMP. BULB LIQUID NATURAL BRASS I CHROME PLATED I WHITER IPOLYEST ER I LEAD COATED LIGHT Refer to Table B for UL and C-UL Sensitivity Rating and Refer to Table C for FM Sensitivity Rating UPRIGHT PENDENT K=11.2 (TY5237) K14.0 (TY6237) 135°F/57'C Orange K=11.2 (TY5137) 1, 2, 3**, 4 155"F168°C Red 175°F/79"C Yellow 1,2,4 1,2,4 200*F193*C Green 286°F/141 "C Blue REC. PENDENT K=11.2 (TY5237) K14.0 (TY6237) With Style 30 135°F157°C Orange 1,2,3,4 1, 2, 4 N/A 155"F/68"C Red 175"F/79"C Yellow Escutcheon 200°F/93"C Green 286°F/141 °C Blue ORDINARY Refer to Table B for UL and C-UL Sensitivity Rating and Refer to Table C for FM Sensitivity Rating UPRIGHT K11.2 (TY5137) K=14.0 (TY6137) and PENDENT K11.2 (TY5237) K=14.0 (TY6237) 135"F/57°C Orange 1, 2,3,4 1,2,3,4 155°F/68°C Red 175°F/79°C Yellow 1, 2, 4 200°F/93"C Green 286°F/141°C Blue REC. PENDENT K=1 1.2 (TY5237) K=14.0 (TY6237) With Style 40 Escutcheon 135"F/57°C Orange 1,2,4 N/A 155"F/68"C Red 175"F/79°C Yellow 200°F/93"C Green NOTES: 1.Listed by Underwriters Laboratories, Inc. (UL). 2.1-isted by Underwriters Laboratories, Inc. for use in Canada (C-UL). Approved by Factory Mutual Research Corporation (FM). Approved by the City of New York under MEA 177-03-E. Where Polyester Coated or Lead Coated Sprinklers are noted to be UL and C-UL Listed, the sprinklers are UL and C-UL Listed as Corrosion Resistant Sprinklers. "Frame and Deflector only. Listings and approvals apply to color (Special Order). ** Pendent Only. N/A: Not Available TABLE A, LABORATORY LISTINGS AND APPROVALS 0 14x14 Up. orPend. 14 x 14 Style 30 Recessed 14 x 14 Style 40 Recessed 16x16 Up. orPend. 16 x 16 Style 30 Recessed 16 x 16 Style 40 Recessed 18x18 Up. orPend. 18 x 18 Style 30 Recessed 18 x 18 Style 40 Recessed 20 x 20 Up. or Pend. 20 x 20 Style 30 Recessed 20 x 20 Style 40 Recessed OR: Quick Response SR: Standard Response N/A: Not Applicable * Pendent Only QR* OR* N/A N/A OR OR N/A N/A N/A N/A N/A N/A OR* OR* N/A N/A OR OR N/A N/A N/A N/A N/A N/A QR O1N/A N/A - ThR N/A N/A N/A N/A N/A N/A SR SR SR SR SR N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A SR SR SR SR SR N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A SR SR SR SR SR N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A SR SR SIR N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A TFP22O Page 3 of 8 LIGHT HAZARD 135°F 155°F 175°F 200°F 286°F ORDINARY HAZARD 135°F 155°F 175°F 200°F 286°F AREA STYLE 14 x 14 Up. or Pend. - - - - - QR QR QR OR 14 x 14 Style 30 Recessed - - - - - OR OR OR OR 14 x 14 Style 40 Recessed - - - - - OR OR OR OR 16 x 16 Up. or Pend. QR* OR QR' OR* QR* SR SR SR SR 16 x 16 Style 30 Recessed OR* OR* OR* QR* QR* SR SR SR SR 16 x 16 Style 40 Recessed N/A N/A N/A N/A N/A SR SR SR SR 18 x 18 Up. or Pend. QR* OR* QR* QR* OR* SR SR SR SR 18 x 18 Style 30 Recessed QR* QR* QR* QR QR* SR SR SR SR 18 x 18 Style 40 Recessed N/A N/A N/A N/A N/A SR SR SR SR 20 x 20 Up. or Pend. OR OR* OR* SR* SR* SR SR SR SR 20 x 20 Style 30 Recessed OR SR* OR SR SR* SR SR SR SR 20 x 20 Style 40 Recessed N/A N/A N/A N/A N/A SR SR SR SR OR: Quick Response SR: Standard Response N/A: Not Applicable * Does not apply to Upright K 14.0 TABLE B SENSITIVITY RATING FOR UL AND C-UL LISTING OF SERIES EC-11 OR EC-14 SPRINKLERS (SEE TABLED FOR PERMITTED K-FACTOR/AREA COMBINATIONS) LIGHT HAZARD ORDINARY HAZARD 135°F 155°F 175°F 200°F 286°F 135°F 155°F 175°F 200°F 286°F AREA STYLE SR N/A N/A SR N/A N/A SR N/A N/A SR N/A N/A TABLE C SENSITIVITY RATING FOR FM APPROVAL OF SERIES EC-11 OR EC-14 SPRINKLERS (SEE FM LOSS PREVENTION DATA SHEET 2-8N FOR PERMITTED K-FACTOR/AREA COMBINATIONS) Page 4 of 8 TFP22O Discharge Coefficients K = 11.2 GPM/ps1112 2. (161,3 LPM/bar1/2) K = 14.0 GPM/psi1/2 (201,6 LPM/bar112) Technical Data Approvals The Series EC-11 and EC-14 Ex- tended Coverage Upright, Pendent, and Recessed Pendent Sprinklers are UL and C-UL Listed. (Refer to Table A for complete sprinkler approval infor- mation including corrosion resistant status. The approvals apply to the service conditions indicated in the De- sign Criteria section.) The Series EC-11 and EC-14 Ex- tended Coverage Upright and Pendent Sprinklers are FM Approved. (Refer to Table A for complete sprinkler ap- proval information including corrosion resistant status. The approvals apply to the service conditions indicated in the Design Criteria section.) The Style 60 Two-Piece Flush Es- cutcheon (Ref. Figure 4) is UL Listed and FM Approved for use with the Se- ries EC-1 I and EC-14 Pendent Sprin- klers. Maximum Working Pressure 175 psi (12,1 bar) Pipe Thread Connection 3/4 inch NPT Temperature Ratings 135"F/57°C to 286°F/141°C Finish Sprinkler: Refer to Table A Recessed or Flush Escutcheon: White Coated, Chrome Plated, and Brass Plated Physical Characteristics Frame .............Bronze Button .............Bronze Sealing Assembly .......... Beryllium Nickel w/Tefion t Bulb ........Glass (3 mm dia.) Compression Screw ......... ........Bronze Deflector ............Brass Patents U.S.A. Patent Numbers 5,366,022; 5,579,846; 5,584,344; 5,609,211; 5,862,994; and 5,865,256. 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, which then allows the sprinkler to activate and flow water. Design Criteria The Tyco® Series EC-11 and EC-14 Extended Coverage Sprinklers must only be installed in accordance with the applicable UL and C-UL Listing or FM Approval requirements as indi- cated below. Only the Style 30 or 40 Recessed Escutcheon is to be used for recessed installation, as applicable (Ref. Table A, B, and C). UL and C-UL Listing Requirements 1. The Series EC-il and EC-14 Sprin-klers may be used for the coverage areas shown in Table D, based on maintaining the minimum specified flow rate as a function of coverage area and hazard group for all of the sprinklers in the design area. The Series EC-1 1 and EC-14 Sprin- klers are permitted to be used with unobstructed or non-combustible obstructed ceiling construction as defined and permitted by NFPA 13. For example: Unobstructed, combustible or non- combustible, ceiling construction with a deflector to ceiling/roof deck distance of 1 t 12 inches (25 to 300 mm). Obstructed, non-combustible, ceil- ing construction with a deflector lo- cation below structural members of 1 t 6 inches (25 to 150 mm) and a maximum deflector to ceiling/roof deck distance of 22 inches (550 mm). The Series EC-1 1 and EC-14 Sprin- klers having been specifically tested and listed for non-combustible ob- structed construction are permitted to be used within trusses or bar joists having non-combustible web mem- bers greater than 1 inch (25.4 mm) when applying the 4 times obstruc- tion criteria rule defined under "Ob- structions to Sprinkler Discharge Pattern Development". The minimum allowable spacing be- tween the Series EC-1 1 and EC-14 Sprinklers, to prevent cold solder- ing, is 8 feet (2,4 m) for upright sprin- klers and 9 feet (2,7 m) for pendent sprinklers. The Series EC-1 1 and EC-14 Sprin- klers are to be installed in accord- ance with all other requirements of NFPA 13 for extended coverage up- right and pendent sprinklers. For ex- ample: obstructions to sprinkler dis- charge, obstructions to sprinkler pattern development, obstructions to prevent sprinkler discharge from reaching hazard, clearance to stor- age, etc. UL and C-UL Specific Application Listing Requirements For Installation Under Concrete Tees The Series EC-11 and EC-14 Ex- tended Coverage Upright and Pendent Sprinklers (TY5137, TY5237, TY6137 & TY6237) have a UL and C-UL Spe- cific Application Listing for use under concrete tees when installed as fol- lows: The stems of the concrete tee con- struction must spaced at less than 7.5 feet (2,3 m) on center but more than 3 feet (0,9 m) on center. The depth of the concrete tees must not exceed 30 inches (762 mm). The maximum permitted concrete tee length is 32 feet (9,8 m); however, where the concrete tee length ex- ceeds 32 feet (9,8 m), non-combus- tible baffles, equal in height to the depth of the tees, can be installed so that the space between the tees does not exceed 32 feet (9,8 m) in length. The sprinkler deflectors are to be located in a horizontal plane at or above 1 inch (25,4 mm) below the bottom of the concrete tee stems. When the sprinkler deflectors are located higher than a horizontal plane 1 inch (251,4 mm) beneath the bottom of the concrete tee stems, the obstruction to sprinkler dis- charge criteria requirements of NFPA 13 for extended coverage up- right sprinklers applies. FM Approval Requirements The Series EC-11 and EC-14 Ex- tended Coverage Sprinklers are to be installed in accordance with the appli- cable Factory Mutual Loss Prevention Data Sheet for limited use in buildings of specific roof construction and for the protection of certain specific ordinary hazard (non-storage and/or non-flam- mable or combustible liquid) occupan- cies. Information provided in the FM 0 S 2-718" DIA. 1/2±1/8 (73,0 mm) 1/2" (12,7 mm) [ (12,7±3,2 mm) 2-1/4" DIA. 1/4" (6,4 mm) I FACE OF (57,2 mm) 1/8" SPRINKLER FITTING (3,2 mm) MOUNTING / SURFACE // MOUNTING PLATE CLOSURE 1-1/8"(28,6 mm) FIGURE 2 SERIES EC-1 I AND EC-14 RECESSED PENDENT SPRINKLER ASSEMBLY WITH TWO-PIECE 1/2 INCH TOTAL ADJUSTMENT STYLE 30 RECESSED ESCUTCHEON TFPZ2O Page 5 of 8 2-7/8" DIA. 5/8±1/4" (73,0 mm) 3/4" (19,1 mm) r (15,9±6,4 mm) 2-1/4" DIA. 1/4" (6,4 mm) I FACE OF (57,2 mm) I 1/8" I I FITTING I SPRINKLER (32 mm) MOUNTING MOUNTING 1 SURFACE PLATE CLOSURE 1-3/8"(34,9 mm) 7/8" (22,2 mm) FIGURE 3 SERIES EC-11 AND EC-14 RECESSED PENDENT SPRINKLER ASSEMBLY WITH TWO-PIECE 3/4 INCH TOTAL ADJUSTMENT STYLE 40 RECESSED ESCUTCHEON 0 Loss Prevention Data Sheets relate to, but are not limited to, hydraulic design, ceiling slope and obstructions, mini- mum and maximum allowable spac- ing, and deflector-to ceiling distance. These criteria may differ from UL and/or NFPA criteria, therefore the de- signer should review and become fa- miliar with Factory Mutual require- ments before proceeding with design. Installation The Series EC-11 and EC-14 Sprin- klers must be installed in accordance with the following 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°F157°C to 3/32 inch (2,4 mm) for the 286"F/141°C temperature ratings. A 3/4 inch NPT sprinkler joint should be obtained with a minimum to maxi- mum torque of 10 to 20 ff.lbs. (13,4 to 26,8 Nm). Higher levels of torque may distort the sprinkler inlet with conse- quent leakage or impairment of the sprinkler. Do not attempt to compensate for in- sufficient adjustment in an Escutcheon Plate by under- or over-tightening the Sprinkler. Readjust the position of the sprinkler fitting to suit. Step 1. The sprinkler must be installed with the deflector parallel to the mount- ing surface. Pendent sprinklers must be installed in the pendent position, and upright sprinklers must be in- stalled in the upright position. Step 2. After installing the Style 30,40, or 60 mounting plate (or other escutch- eon, as applicable) over the sprinkler pipe threads and with pipe thread sealant applied to the pipe threads, hand tighten the sprinkler into the sprinkler fitting. Step 3. Wrench tighten upright or pen- dent sprinklers using only the W-Type 3 (End A) Sprinkler Wrench. When in- stalling the pendent sprinkler with Style 30, 40, or 60 Escutcheon, wrench tighten the sprinkler using only the W-Type 22 Sprinkler Wrench. The wrench recess of the applicable sprin- kler wrench (Ref. Figure 5 and 6) is to be applied to the sprinkler wrench flats (Ref. Figure 1). Page 6 of 8 TFP220 2-7/8"DIA. (73,0 mm) I INTERNAL 2-1/4" 01k INTERNAL (57,2 mm) DIMENSIONS OF I STYLE 60 ESCUTCHEON ACCOMMODATE r -i I CLASS 150 MALLEABLE FACE OF IRON REDUCING SPRINKLER FITTING: SPRINKLER FITTING 3/8' (9,5 mm) ABOVE TO 1/8"(3,2 mm) BELOW MOUNTING MOUNTING SURFACE /8" SURFACE ESCUTCHEON PLATE SEATING SURFACE: CLOSURE 1/4' (6,4 mm) ABOVE 2-5/16" (58,7 mm) TO 1/2" (12,7 mm) BELOW 3/4O NPT MOUNTING SURFACE; MOUNTING 3/4"(19,1 mm) TOTAL PLATE ADJUSTMENT . FIGURE 4 SERIES EC-Il AND EC-14 PENDENT SPRINKLER ASSEMBLY WITH 3/4 INCH TOTAL ADJUSTMENT STYLE 60 TWO-PIECE FLUSH ESCUTCHEON Care and Maintenance The Tyco® Series EC-11 and EC-14 Sprinklers must be maintained and serviced in accordance with the follow- ing instructions: NOTE 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 systems must be obtained from the proper authori- ties and all personnel who may be affected by this action must be notified. 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 like, 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- tion and the long term integrity of the corrosion resistant coating, as it may be affected by the corrosive conditions present. The owner is responsible for the in- spection, testing, and maintenance of their fire protection system and de- vices in compliance with this docu- ment, as well as with the applicable standards of the National Fire Protec- tion Association (e.g., NFPA 25), in addition to the standards of any other authorities having jurisdiction. The in- stalling contractor or sprinkler manu- facturer should be contacted relative to any questions. Automatic sprinkler systems should be inspected, tested, and maintained by a qualified Inspection Service in accord- "FITTING SIDE" TOWARDS SPRINKLER FITTING / WRENCH / RECESS (END 'A") FIGURE 5 W-TYPE 3 SPRINKLER WRENCH WRENCH RECESS I WRENCH HEX FIGURE 6 W-TYPE 22 RECESSED SPRINKLER WRENCH ance with local requirements and/or national codes. S TFP220 Page 7 of 8 GROUP I GROUP II LIGHT HAZARD ORDINARY HAZARD ORDINARY HAZARD 0.10 GPM/FT2 0.15 GPM/FT2 0.20 GPM/FT2 DESCRIPTION AREA GPM PSI GPM PSI GPM PSI TY5137 (K=11.2) UPRIGHT 1404 14 - - 30 7.2 39 12.1 16x16 30 7.2 39 12.1 51 20.7 1808 33 8.7 49 19.1 65 33.7 20x20 40 12.8 60 28.7 80 51.0 TY5237 (K=11.2) PENDENT 14 x 14 - - 30 7.2 39 12.1 16x16 30 7.2 39 12.1 51 20.7 1808 33 8.7 49 19.1 65 33.7 20x20 40 12.8 60 28.7 80 51.0 TY6137 (K=14.0) UPRIGHT 14 x 14 N/A N/A - - - - 16x16 N/A N/A 39 7.8 51 13.3 1808 N/A N/A 49 12.3 65 21.6 20 x 20 N/A N/A 60 18.4 80 32.7 TY6237 (K14.0) PENDENT 14 x 14 - - - - - - 16 x 16 37 7.0 39 7.8 51 13.3 ' 1808 37 7.0 49 12.3 65 21.6 20x20 40 8.2 60 18.4 80 32.7 1 ft. = 0.3048 m 1 ft2 = 0.093 m2 1 gpm = 3.785 1pm 1 psi = 0.06895 bar 1 gpm/ft2 = 40.74 mm/mm TABLED FLOW CRITERIA FOR UL AND C-UL LISTING OF SERIES EC-Il AND EC-14 SPRINKLERS Limited Warranty Products manufactured by Tyco Fire & Building Products (TFBP) are war- ranted solely to the original Buyer for ten (10) years against defects in mate- rial and workmanship when paid for and properly installed and maintained under normal use and service. This warranty will expire ten (10) years from date of shipment by TFBP. No warranty is given for products or com- ponents manufactured by companies not affiliated by ownership with TFBP or for products and components which have been subject to misuse, improper installation, corrosion, or which have not been installed, maintained, modi- fied or repaired in accordance with ap- plicable Standards of the National Fire Protection Association, and/or the standards of any other Authorities Having Jurisdiction. Materials found by TFBP to be defective shall be either repaired or replaced, at TFBP's sole sprinkler system design errors or inac- curate or incomplete information sup- plied by Buyer or Buyer's repre- sentatives. In no event shall TFBP be liable, in contract, tort, strict liability or under any other legal theory, for incidental, indirect, special or consequential dam- ages, including but not limited to labor charges, regardless of whether TFBP was informed about the possibility of such damages, and in no event shall TFBP's liability exceed an amount equal to the sales price. This limited warranty sets forth the ex- clusive remedy for claims based on failure of or defect in products, materi- als or components, whether the claim is made in contract, tort, strict liability or any other legal theory. This warranty will apply to the full ex- tent permitted by law. The invalidity, in whole or part, of any portion of this warranty will not affect the remainder. 116 option. TFBP neither assumes, nor authorizes any person to assume for it, any other obligation in connection with the sale of products or parts of prod- ucts. TFBP shall not be responsible for Page 8 of 8 Ordering Procedure When placing an order, indicate the full product name. Please specify the Sprinkler Identification Number (SIN), quantity, and temperature rating. Re- fer to the Price List for complete listing of Part Numbers. Contact your local distributor for avail- ability. Sprinkler Assemblies with NPT Thread Connections: Specify: (specify SIN), (specify K-Fac- tor), (specify temperature rating), (specify Pendent or Upright) Extended Coverage Sprinkler with (specify fin- ish), P/N (specify - from Table E, where applicable). Recessed Escutcheon, Two-Piece: Specify: Style (30 or 40) Two-Piece Recessed Escutcheon with (specify material or finish*), P/N (specify). *Refer to Technical Data Sheet TFP77O. Flush Escutcheon, Two-Piece: Specify: Style 60 Two-Piece Flush Es- cutcheon with (specify finish*), P/N (specify). *Refer to Technical Data Sheet TFP778. Sprinkler Wrench: Specify: W-Type 3 Sprinkler Wrench, P/N 56-895-1-001 Specify: W-Type 22 Recessed Sprin- kler Wrench, P/N 56-665-7-001 TFP22O PIN 51- AAA -B-CCC AAA = 893 (for TY5237 K1 1.2 Pendent) AAA= 894 (for 1Y5137 K1 1.2 Upright) AAA = 895 (for TY6237 K14.0 Pendent) AAA = 896 (for TY6137 K14.0 Upright) B = I (for Natural Brass) B = 3 (for White [RAL9010])* B = 4 (for White Polyester) B = 7 (for Lead Coated B = 9 (for Chrome Plated) CCC = 135 (for 135F/57°C) CCC = 155 (for 155°F/68°C) CCC = 175 (for 175°F/79°C) CCC = 200 (for 200°F/93°C) *Eastern Hemisphere sales only. TABLE PART NUMBERS FOR EC-11 AND EC-14 SPRINKLERS © 2007 TYCO FIRE & BUILDING PRODUCTS, 451 North Cannon Avenue, Lansdale, Penrsylvania 19446 C tqCU /Fire & Building / Products Technical Services: Tel: (800) 381-9312 / Fax: (800) 791-5500 Series DS-1 - 56 K-factor Dry Type Sprinklers Standard Response, Standard Coverage General Description The Series DS-1, 5.6 K-factor, Stand- ard Response, Standard Coverage, Dry Type Sprinklers are decorative 5 mm glass bulb automatic sprinklers designed for the following typical uses: where pendent sprinklers are re- quired on dry pipe systems that are exposed to freezing tempera- tures (e.g. sprinkler drops from un- heated portions of buildings) where sprinklers and/or a portion of the connecting piping may be exposed to freezing temperatures (e.g. sprinkler drops from wet sys- tems into freezers, sprinkler sprigs from wet systems into un- heated attics, or horizontal piping extensions through a wall to pro- tect an unheated area of a build- ing) where sprinklers are used on sys- tems that are seasonably drained to avoid freezing (e.g. vacation re- sort areas) WARNINGS The Series DS-1 Dry Type Sprinklers described herein must be installed and maintained in compliance with this document, as well as with the applica- ble standards of the National Fire Pro- tection Association, in addition to the IMPORTANT Always refer to Technical Data Sheet TFP 700 for the "INSTALLER WARNING" that provides cautions with respect to handling and instal- lation of sprinkler systems and com- ponents. Improper handling and in- stallation can permanently damage a sprinkler system or its compo- nents and cause the sprinkler to fail to operate in a fire situation or cause it to operate prematurely. standards of any other authorities hav- ing jurisdiction. Failure to do so may impair the performance of these de- vices. The owner is responsible for maintain- ing their fire protection system and de- vices in proper operating condition. The installing contractor or sprinkler manufacturer should be contacted with any questions. The Series DS-1 Dry Type Sprinklers must only be installed in fittings that meet the requirements of the Design Criteria section. Model/Sprinkler Identification Numbers TY3255 - (Pendent) Technical Data Approvals UL and C-UL Listed. FM and NYC Approved. (Refer to Table A) Maximum Working Pressure 175 psi (12,1 bar) Inlet Thread Connection 1 inch NPT (Standard Order) ISO 7-Ri Discharge Coefficient K = 5.6 GPM/p5i1'2 (80,6 LPM/barll2) Temperature Ratings Refer to Table A Finishes Sprinkler: Natural Brass, Chrome Plated, White Polyester Escutcheon: White Coated or Chrome Plated Physical Characteristics Inlet ..............Copper Plug .............Copper Yoke .........Stainless Steel Casing . Galvanized Carbon Steel Insert .............Bronze Bulb Seat ......Stainless Steel Bulb ..............Glass Compression Screw .....Bronze Deflector ...........Bronze Frame ............Bronze Guide Tube ......Stainless Steel Water Tube ......Stainless Steel Spring ........Stainless Steel Sealing Assembly .......... Beryllium Nickel w/Teflon* Escutcheon ......Carbon Steel *Registered Trademark of DuPont Patents U.S.A. Patent No. 5,188,185 Page 1 of 8 APRIL, 2004 TFP500 Page 2 of 8 TFP500 SPRINKLER FINISH [1 1Y3255 Pendent wl Standard Recessed Escutcheon (Ref. Fig. 3) w/ Wide Flange Recessed Escutcheon (Ref. Fig. 4) TY3255 Pendent wl Std. Escutcheon (Ref. Fig. 5) w/ Deep Escutcheon (Ref. Fig. 6) w/o Escutcheon (Ref. Fig. 7) 1Y3155 Upright w/o Escutcheon (Ref. Fig. 8) TY3355 Hor. Sidewall with top of Deflector-to-Ceiling distance of 4 to 12 inches (100 to 300 mm) w/ Std. Escutcheon (Ref. Fig. 9) wl Deep Escutcheon (Ref. Fig.10) w/o Escutcheon (Ref. FiQ. 11 Temperature Bulb Natural Chrome White Natural Chrome White Natural Chrome White Rating Color Code Brass Plated Polyester Brass Plated Polyester Brass Plated Polyester 135°F/570C Orange 1,2,3,4 1,2,4 1,2,3,4 1,2,4 1*,2*,3**,4 1*,2*,4 155°F168°C Red 1, 2, 3, 4 1, 2, 4 1, 2, 3, 4 1, 2, 4 1*, 2',3**, 4 j* 2*, 4 175°F/79°C Yellow 1,2,3,4 1,2,4 1,2,3,4 1,2,4 1*,2*,3**,4 1*2*4 200*F/930C Green 1,2,3,4 1,2,4 1,2,3,4 1,2,4 1*2*3**4 1*,2*,4 286*17/141*C Blue N/A 1,2,3,4 1,2,4 1*, 2*, 3** 4 1*, 2*, 4 3600F/1821C Mauve N/A 1,2,3,4 1,2,4 1*, 2*, 4 1*, 2*, 4 Notes: Listed by Underwriters Laboratories, Inc (Maximum order length of 48 inches). Listed by Underwriters Laboratories for use in Canada (Maximum order length of 48 inches). Approved by Factory Mutual Research Corporation (Maximum order length of 48 inches) Approved by the City of New York under MEA 352-01-E. * Light and Ordinary Hazard Occupancies Only. ** Light Hazard Occupancies Only. N/A - Not Available. TABLE A SERIES DS-1, STANDARD RESPONSE - STANDARD COVERAGE, DRY TYPE SPRINKLERS LABORATORY LISTINGS AND APPROVALS S PLUG WITH INLET GASKETED SPRING I PLATE SEAL YOKE SPRING I I CASING WATER -. TUBE H - INSERT GUIDE TUBE SEAT BULB FRAME — -5mm BULB VENT HOLE COMPRESSION DEFLECTOR SCREW FIGURE 1 SERIES DS-1 STANDARD RESPONSE DRY TYPE SPRINKLER ASSEMBLY WRENCH RECESS PUSH WRENCH INTO ENSURE ENGAGEMENT WITH SPRINKLER WRENCHING AREA FIGURE 2 W-TYPE 7 SPRINKLER WRENCH TOP OF DEFLECTOR ORDER LENGTHS: 5' to 48" (127,0 to 1219,2 mm) IN 1/4 (6,4 mm) INCREMENTS FACE OF SPRINKLER FITTING SPRINKLER FITTING (REFER TO DESIGN CRITERIA SECTION) TFP500 Page 3 of 8 0 SPRINKLER FITTING (REFER TO DESIGN CRITERIA SECTION) '-- ---------- FACEOF SPRINKLER FITTING L FITTING L 1L JJ ORDER LENGTHS: 3-1/2 to 48" (88,9 to 1219,2 mm) IN 1/4 (6,4 mm) 2-1/4 DIA. INCREMENTS (57,2 mm) FACE OF CEILING (34,9±2mm) (73,0 mm) FIGURE 3 TY3255 PENDENT wl STANDARD RECESSED ESCUTCHEON SPRINKLER FITTING (REFER TO DESIGN CRITERIA SECTION) ------------ FACE OF OF SPRINKLER L FITTING L-11, LjqJ'_j__- ORDER LENGTHS: _3-1/2 DIA. 1/2 to 46' (88,9 mm) INCREMENTS I _ FACE OF CEILING 4-1/4±1/8' (108,0±3,2 mm) SPRINKLER FITTING (REFER TO DESIGN CRITERIA SECTION) --- FACE OF L-H SPRINKLER FITTING ORDER LENGTHS: LENGTHS: 3-1/2" to 48" (88,9 to 1219,2 mm) IN 1/4"(6,4 mm) 3" DIA. INCREMENTS FACE OF CEILING I ri A 1-3/8" ±1/8 (34,9 ± 3,2 mm) FIGURE 4 TY3255 PENDENT wi WIDE FLANGE RECESSED ESCUTCHEON SPRINKLER FITTING (REFER TO DESIGN CRITERIA SECTION) FACE OF -.ji--- SPRINKLER FITTING -- _______________ L ORDER LENGTHS: 5 to 48 (127,0 to 1219,2 mm) IN 1/4 (6,4 mm) INCREMENTS MINIMUM 1-3/4"(44,5 mm) DEFLECTOR TO CEILING SPRINKLER FITTING (REFER TO DESIGN CRITERIA SECTION) --- --------- FACE OF SPRINKLER H FITTING ORDER LENGTHS: 2-1/2" to 48" 1-3/4' DIA. (63,5 to 1219,2 mm) (44,5 mm) IN 1/4"(6,4 mm) INCREMENTS FACE OF CEILING 3 2-3/16 * 1/8" DIA. (55,6 ± 3,2 mm)j(76,2 mm) FIGURE 5 TY3255 PENDENT wi STANDARD ESCUTCHEON FIGURE 6 FIGURE 7 FIGURE 8 TY3255 PENDENT TY3255 PENDENT T"155 UPRIGHT wi DEEP ESCUTCHEON wlo ESCUTCHEON w/o ESCUTCHEON 0 Page 4 of 8 TFP500 Operation When the Series DS-1 is in service, water is prevented from entering the assembly by the Plug & Belleville Seal- ing Assembly (Ref. Figure 1) in the Inlet of the Sprinkler. The glass Bulb contains a fluid that expands when ex- posed to heat. When the rated tem- perature is reached, the fluid expands sufficiently to shatter the glass Bulb, and the Bulb Seat is released. The compressed Spring is then able to ex- pand and push the Water Tube as well as the Guide Tube outward. This action simultaneously pulls inward on the Yoke, withdrawing the Plug & Belleville Seal from the Inlet allowing the sprin- kler to activate and flow water. Design Criteria The Series DS-1 Sprinklers are in- tended for use in fire sprinkler systems designed in accordance with the standard installation rules recognized by the applicable Listing or Approval agency (e.g., UL Listing is based on NFPA 13 requirements). The Series DS-1 Dry Type Sprinkler is to be installed in the 1 inch NPT outlet or run of malleable or ductile iron threaded tee fittings that meet the di- mensional requirements of ANSI B16.3 (Class 150) or cast iron threaded tee fittings that meet the di- mensional requirements of ANSI B16.4 (Class 125) with the end sprin- kler fitting on a branch line to be plugged as shown in Figures 3 - 11. When installing 1 inch NPT Series DS-1 Dry Type Sprinklers on a dry pipe sprinkler system, only use the side outlet of maximum 2-1/2 inch size re- ducing tee's. For wet pipe sprinkler systems, the Series DS-1 Dry Type Sprinklers may also be installed in the 1 inch NPT outlet of a Central Figure 730 Me- chanical Tee. NOTE Do not install the Series DS- 1 into any other type fitting without first consult- ing the Technical Services Depart- ment. Failure to use the appropriate fitting may result in: failure of the sprin- kler to properly operate due to forma- tion of ice over the inlet Plug or binding of the inlet Plug; or, insufficient en- gagement of the inlet pipe threads with consequent leakage. Branch, cross, and feedmain piping ORDER LENGTHS: 2-1/2" to 48" (63,5 to 1219,2 mm) IN 1/4"(6,4 mm) INCREMENTS (101,6 ± 3,2 mm) FACE OF FACE OF 1-3/4" DIA. MOUNTING (44, MM) ,—SP FITTING RINKLER SURFACE 4 / III (76,2 mm) 3" /SPRINKLER FITRNG (REFER TO DESIGN CENTERLINE 5/16" CRITERIA SECTION) OF WATERWAY (7,9 mm) FIGURE 9 TY3355 HORIZONTAL SIDEWALL W1 STANDARD ESCUTCHEON ORDER LENGTHS: FACE OF 1/2' to 45-3/4' (12,7 to 1162,1 mm) MOUNTING IN 1/4" (6,4 mm) INCREMENTS SURFACE 4,13/16"11/8" F 21/2 DIA. - (122,2 ± 3,2 mm) FACE (63,5 mm) _ SPRINKLER FITTING 3-1/2" DIA, !:SPRINKLERFIUING (REFER TO DESIGN (138,9 mm) iL CENTERLINE 5/16" CRITERIA SECTION) OF WATERWAY (7,9 mm) FIGURE 10 TY3355 HORIZONTAL SIDEWALL W/ DEEP ESCUTCHEON ORDER LENGTHS: 5' to 48"(127,0 to 1219,2 mm) IN 1/4'(6.4 mm) INCREMENTS I MINIMUM 2-1/4" (57,2 mm) FACE OF DEFLECTOR TO - SPRINKLER I MOUNTING SURFACE URFACE 15* 5/16" SPRINKLER FITTING (7,9 mm) (REFER TO DESIGN CENTERLINE CRITERIA SECTION) OF WATERWAY FIGURE 11 TY3355 HORIZONTAL SIDEWALL w/o DEEP ESCUTCHEON ~_ I TFP500 Page 5 of 8 0 Installation The Series DS-1 Dry Type Sprinklers must be installed in accordance with the following instructions: NOTES The Series DS- 1 must only be installed in fittings that meet the requirements of the Design Criteria section. Refer to the Design Criteria section for other important requirements regard- ing piping design and sealing of the clearance space around the Sprinkler Casing. 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 1350F/570C rating to 1/8 inch (3,2 mm) for the 360 °F/182°C rating. A leak tight 1 inch NPT sprinkler joint should be obtained with a torque of 20 to 30 ft.lbs. (26,8 to 40,2 Nm). Higher levels of torque may distort the sprin- kler inlet with consequent leakage or impairment of the sprinkler. Do not attempt to compensate for in- sufficient adjustment in an Escutcheon Plate by under- or over-tightening the Sprinkler. Readjust the position of the sprinkler fitting to suit. Step 1. Pendent sprinklers must be installed only in the pendent position, and upright sprinklers must be in- stalled only in the upright position. The deflector of a pendent or upright sprin- kler is to be parallel to the ceiling. Horizontal sidewall sprinklers are to be installed in the horizontal position with their centerline of waterway perpen- dicular to the back wall and parallel to the ceiling. The word "TOP" on the De- flector is to face towards the ceiling. Step 2. With pipe thread sealant ap- plied to the inlet threads, hand tighten the sprinkler into the sprinkler fitting. Step 3. Wrench tighten the sprinkler by wrenching on the Casing with a pipe wrench whenever the casing is readily accessible. Otherwise, use a W-Type 7 Sprinkler Wrench (Ref. Figure 2). The wrench recess of the W-Type 7 is to be applied to the sprinkler wrench flats (Ref. Figure 2). Step 4. After the ceiling/wall has been installed/finished, slide on the outer piece of the Escutcheon until it comes in contact with the ceiling/wall. Do not lift the ceiling panel out of its normal position. In the case of the outer piece of the Deep Escutcheon, hold the outer piece in contact with the mounting sur- face (ceiling), and then rotate the inner piece approximately 1/4 turn with re- spect to the outer piece, to hold the Deep Escutcheon firmly together. Care and Maintenance The Series DS-1 Dry Type Sprinklers must be maintained and serviced in accordance with the following instruc- tions: NOTES Absence of the outer piece of an es- cutcheon, which is used to cover a clearance hole, may delay the time to sprinkler operation in a fire situation. Before closing a fire protection system main control valve for maintenance work on the fire protection system that it controls, permission to shut down the affected fire protection systems must be obtained from the proper authorities and all personnel who may be affected by this action must be no- tified. A Vent Hole is provided in the Bulb Seat (Ref. Figure 1) to indicate if the Dry Sprinkler is remaining dry. Evi- dence of leakage from the Vent Hole is an indication that there may be weepage past the Inlet seal and that the sprinkler needs to be removed for determining the cause of leakage (e.g. an improper installation or an ice plug). The fire protection system control valve must be closed and the system drained before removing the sprinkler. 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 com- pletely 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 - before, during, and after instal- lation. Sprinklers damaged by drop- ping, striking, wrench twist/slippage, or the like, must be replaced. Also, replace any sprinkler that has a cracked bulb or that has lost liquid from its bulb (Ref. Installation Section). The owner is responsible for the in- spection, testing, and maintenance of their fire protection system and de- vices in compliance with this docu- .connected to Dry Sprinklers and sub- ject to freezing temperatures must be pitched for drainage in accordance with the minimum requirements of the National Fire Protection Association for dry pipe sprinkler systems. When Dry Sprinklers are to be used in wet pipe sprinkler systems protecting areas subject to freezing temperatures (e.g., sprinkler drops into freezers), consideration must be given to the ap- propriate length of the sprinkler that will prevent freezing of the water in the connecting pipes due to conduction. When the temperature surrounding the wet pipe sprinkler system is main- tained at a minimum temperature of 40°F/40C, the following are the mini- mum recommended lengths between the face of the sprinkler fitting and the outside surface of the protected area (i.e., length exposed to minimum am- bient of 40°F/40C): 12 inches (300 mm) when the tem- perature within the protected area is -20°F/-29°C 18 inches (450 mm) when the tem- perature within the protected area is -40°F/-40°C . 24 inches (600 mm) when the tem- perature within the protected area is -60°FI-51 °C For protected area temperatures be- tween those given above, the minimum recommended length from the face of the fitting to the outside of the pro- tected area may be determined by in- terpolating between the indicated val- ues. NOTE When Dry Sprinklers penetrate a ceil- ing or wall into an area subject to freez- ing, the clearance space around the Sprinkler Casing must be completely sealed in order to prevent the leakage of moist air into the freezing area which might result in the formation of condensate around the Frame, Deflec- tor, Bulb Seat, or Bulb. Failure to pre- vent the formation of condensate could result in the build-up of ice around the releasing components. This could re- sult in inadvertent operation of the sprinkler or impaired operation due to reduced thermal sensitivity. Page 6 of 8 TFP500 ment, as well as with the applicable standards of the National Fire Protec- tion Association (e.g., NFPA 25), in addition to the standards of any other authorities having jurisdiction. The in- stalling contractor or sprinkler manu- facturer should be contacted relative to any questions. It is recommended that automatic sprinkler systems be inspected, tested, and maintained by a qualified Inspection Service in accordance with local requirements and/or national codes. Limited Warranty Products manufactured by Tyco Fire Products are warranted solely to the original 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 neither 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- POSE, Ordering Procedure Contact your local distributor for avail- ability, and please specify the follow- ing: 1. Sprinkler. Model/SIN. Standard Response, Standard Coverage, Dry Type Sprinkler Deflector Style. 5.6 K-factor. Order Length. Dry Type Sprinklers are furnished based upon Order Length as measured per Figures 3 through 11, as applicable. After the meas- urement is taken, round it to the nearest 1/4 inch increment. Inlet Connection (1 Inch NPT or ISO 7-Ri) Temperature Rating. Sprinkler Finish. Escutcheon Style and Finish, as applicable. Part Number from Table B. (Part numbers are for 1 inch NPT stan- dar order sprinklers. Orders for all other sprinkler assemblies must be accompanied by a complete description.) 2. W-Type 7 Sprinkler Wrench. Refer to the Price List for complete listing of Part Numbers. ILI fl TFP500 Page 7 of 8 P/N 60- XXX - X - XXX I I SPRINKLER ESCUTCHEON MODEL/SIN FINISH FINISH (2) I I ORDER LENGTH (1) (EXAMPLES) 055 5.50 082 8.25 180 18.00° 187 18.75° 372 37.25 480 48.00° 96 Pendent W/ Standard 1Y3255 Escutcheon (1° NPT) (Fig. 5) 93 Pendent w/ Deep TY3255 Escutcheon (1" NPT) (Fig. 6) 97 Pendent wl Std. Recessed TY3255 Escutcheon (1° NPT) (Fig. 3) 92 Pendent w/o Escutcheon TY3255 (1" NPT) (Fig. 7) 94 Sidewall W/ Standard TY3355 Escutcheon (1° NPT) (Fig. 9) 53 Sidewall wl Deep 1Y3355 Escutcheon (1' NPT) (Fig. 10) 54 Sidewall w/o TY3355 Escutcheon (1 NPT) (Fig. 11) 91 98 J Upright w/o Escutcheon 1Y3155 (1 NPT) (Fig. 8) 1 NATURAL BRASS WHITE 4 WHITE POLYESTER WHITE 9 CHROME PLATED CHROME PLATED 0 1 CHROME PLATED WHITE 3 WHITE (RAL9010)* WHITE (RAL9010)* TEMPERATURE RATING (3) 0 135F/57C T 155F/68C 175F/79C 200F/93C 7 286F/141C 7 360F/1 82C NOTES Dry Type Sprinklers are furnished based upon "Order Length" as measured per Figures 3 through 11, as applicable, and for each individual sprinkler where it is to be installed. After the meas- urement is taken, round it to the nearest 1/4 inch increment. Escutcheon Finish applies to sprinklers provided with escutcheons. 286F/141C and 360/182C temperature ratings apply to non-recessed sprinkler assemblies. "Eastern Hemisphere sales only. TABLE B PART NUMBER SELECTION SERIES DS-1, STANDARD RESPONSE, STANDARD COVERAGE, DRY TYPE SPRINKLERS (Use Prefix "I" for ISO 7-R1 Connection, e.g., 1-60-961-1-180) tqCJJ /Fire & Building I Products Technical Services: Tel: (800) 381-9312 / Fax: (800) 791-5500 Series RFII - 56 K-factor "Royal Flush Il" Pendent Concealed Sprinklers Quick & Standard Response, Standard Coverage General Description The Tyco® Series RFII Quick Response (3 mm bulb) & Standard Response (5 mm bulb), 5.6 K-Factor, "Royal Flush II" Concealed Pendent Sprinklers are decorative sprinklers featuring a flat cover plate designed to conceal the sprinkler. It is the best choice for archi- tecturally sensitive areas such as ho- tel lobbies, office buildings, churches, and restaurants. Each unit includes a Cover Plate As- sembly that conceals the sprinkler op- erating components above the ceiling. The separable two-piece design of the Cover Plate and Support Cup Assem- blies allows installation of the sprin- klers and pressure testing of the fire protection system prior to installation of a suspended ceiling or application of the finish coating to a fixed ceiling. They also permit removal of suspend- ed ceiling panels for access to building service equipment without having to first shut down the fire protection sys- tem and remove sprinklers. Also, the separable two-piece design of the Sprinkler provides for 1/2 inch (12,7 mm) of vertical adjustment, to provide a measure of flexibility with re- gard to which the length of fixed pipe drops to the sprinklers must be cut. The Series RFll Sprinklers are shipped with a Disposable Protective Cap. The IMPORTANT Always refer to Technical Data Sheet TFP700 for the "INSTALLER WARNING" that provides cautions with respect to handling and instal- lation of sprinkler systems and com- ponents. Improper handling and in- stallation can permanently damage a sprinkler system or its components and cause the sprinkler to fail to operate in a fire situation or cause it to operate prematurely. Protective Cap is temporarily removed for installation, and then it can be re- placed to help protect the sprinkler while the ceiling is being installed or finished. The tip of the Protective Cap can also be used to mark the center of the ceiling hole into plaster board, ceiling tiles, etc. by gently pushing the ceiling product against the Protec- tive Cap. When the ceiling installation is complete the Protective Cap is re- moved and the Cover Plate Assembly installed. As an option, the Series RFll Standard Response (5 mm bulb) "Royal Flush II" Concealed Pendent Sprinklers may be fitted with a silicone Air and Dust Seal (Ref. Fig. 5). The Air and Dust Seal is intended for sensitive areas where it is desirable to stop air and dust travel through the cover plate from the area above the ceiling. NOTICE The Series RFII Concealed Pendent Sprinklers described herein must be installed and maintained in compliance with this document and with the appli- cable standards of the National Fire Protection Association, in addition to the standards of any authorities having jurisdiction. Failure to do so may impair the performance of these devices. The owner is responsible for maintain- ing their fire protection system and de- vices in proper operating condition. The installing contractor or sprinkler manufacturer should be contacted with any questions. Model/Sprinkler Identification Number TY3531 (3 mm bulb) Technical Data Approvals: UL and C-UL Listed. FM Approved NYC under MEA 353-01-E. LPCB (Ref. No. 094a/09 for TY3551 & 094a/10 for TY3531) The approvals apply only to the ser- vice conditions indicated in the De- sign Criteria section. Approvals for Air & Dust Seal: (Part# 10908100) UL and C-UL Listed for use with the RFI I (TY3551); Standard Response Concealed Sprinkler. Maximum Working Pressure: Maximum 250 psi (17,3 bar) by UL, C-UL, and NYC. Maximum 175 psi (12,1 bar) by FM and LPCB. Temperature Rating: 1 55°F/68°C - Sprinkler 139°F/59°C - Plate 200°F/93°C - Sprinkler 165°F/74°C - Plate Discharge Coefficient: K= 5.6 GPM/p5i1/2 (80,6 LPM/barl'2) Adjustment: 1/2 inch (12,7 mm) Finishes: Refer to Ordering Procedure section. Page 1 of 4 MAY, 2008 TFPI8I 1/2W NPT SEALING ASSEMBLY FRAME CAP SUPPORT CUP WITH BULB ROLL FORMED THREADS COMPRESSION SCREW GUIDE PINS (2) DEFLECTOR DEFLECTOR POSITION) SPRINKLER/SUPPORT CUP I ASSEMBLY THREAD INTO RETAINER SUPPORT CUP l WITH THREAD UNTIL MOUNTING 0 0 DIMPLES SURFACE IS FLUSH WITH II EJECTION CEILING SPRING SOWER COVER TABS (3) COVER PLATE/RETAINER PLATE ASSEMBLY FIGURE 1 MODEL RFII CONCEALED SPRINKLER ASSEMBLY S S Page 2 of 4 TFPI8I Physical Characteristics: Frame ...................Bronze Support Cup.. . Chrome Plated Steel Guide Pins .........Stainless Steel Deflector.................Bronze Compression Screw.........Brass Blub ......................Glass Cap.............Bronze or Copper Sealing Assembly................ Beryllium Nickel w/Teflont Cover Plate ................ Brass Retainer ..................Brass Ejection Spring......Stainless Steel tDuPont Registered Trademark Patents: U.S.A. Patent No. 4,014,388 Operation When exposed to heat from a fire, the Cover Plate, normally soldered to the Retainer at three points, falls away to expose the Sprinkler Assembly. .At this point the Deflector supported by the Guide Pins drops down to its operational position. The glass Bulb contains a fluid that expands when exposed to heat. When the rated temperature is reached, the fluid expands sufficiently to shatter the glass Bulb, activating the sprinkler and allowing water to flow. Design Criteria The RFII (1Y3551), 5 mm Bulb Type, Concealed Pendent Sprinklers are UL and C-UL Listed as standard response -standard spray sprinklers for use in accordance with the current NFPA standard. They are FM Approved as standard response -standard spray sprinklers for use in accordance with the current FM Loss Prevention Data Sheets. The RFII (TY3531) 3 mm Bulb Type, Concealed Pendent Sprinklers are UL and C-UL Listed as quick response standard spray sprinklers for use in accordance with the current NFPA standard. They are FM Approved as standard response -standard spray sprinklers for use in accordance with the current FM Loss Prevention Data Sheets. The Series RFll Concealed Pendent Sprinklers are only listed and approved with the Series RFII Concealed Cover Plates having a factory applied finish. The Series RFII must not be used in applications where the air pressure above the ceiling is greater than that below. Down drafts through the Support Cup could delay sprinkler operation in a fire situation. Installation The Tyco® Series RFII must be in- stalled in accordance with the follow- ing instructions: A'L•1IM Do not install any bulb type sprinkler if the bulb is cracked or there is a loss of liquid from the bulb. With the sprin- kler held horizontally, a small air bub- ble should be present. The diameter of the air bubble is approximately 1/16 inch (1,6 mm) for the 1550F/680C and 3/32 inch (2,4 mm) for the 200°F/93°C temperature ratings. A 1/2 inch NPT sprinkler joint should be obtained with a minimum to max- imum torque of 7 to 14 ft.lbs. (9,5 to 19,0 Nm). Higher levels of torque may distort the sprinkler inlet with conse- quent leakage or impairment of the sprinkler. Do not attempt to compensate for in- sufficient adjustment in the Sprinkler Assembly by under-or over-tightening the Sprinkler/Support Cup Assembly. Readjust the position of the sprinkler fitting to suit. Step 1. The sprinkler must only be in- stalled in the pendent position and with the centerline of the sprinkler per- pendicular to the mounting surface. Step 2. Remove the Protective Cap. Step 3. With pipe thread sealant ap plied to the pipe threads, hand tighten the sprinkler into the sprinkler fitting. Step 4. Wrench tighten the sprinkler using only the RFII Sprinkler Wrench (Ref. Figure 3). The RFll Sprinkler Wrench is to be applied to the Sprin- kler as shown in Figure 3. Step 5. Replace the Protective Cap (Ref. Figure 4) by pushing it upwards until it bottoms out against the Sup- port Cup. The Protective Cap helps prevent damage to the Deflector and Arms during ceiling installation and/or during application of the finish coating of the ceiling. It may also be used to locate the center of the clearance hole by gently pushing the ceiling material up against the center point of the Pro- tective Cap. WLI1IL11 As long as the Protective Cap remains in place, the system is considered to be "Out of Service' P 3/16to11/16 (4,8 to 17,5 mm) REFERENCE COVER PLATE PROFILE DEPTH DIMENSION B N MANUFACTURER DEFLECTOR COVER PLATE PRESET GAP IN DROPPED RETAINER 3/32' (2,4 mm) POSITION ASSEMBLY COVER PLATE DIAMETER DIMENSION A 3-1/4 inches (82,6 mm) C: 2-3/8 to 2-5/8 inches (60,3 to 66,7 mm) 3/16 inches (4,8 mm) D: 1-3/4 to 2-1/4 inches (44,5 to 57,2 mm) FIGURE 2 SERIES CONCEALED SPRINKLER INSTALLATION DIMENSIONS TFPI8I Page 3 of 4 FACE OF SPRINKLER FITTING SPRINKLER SUPPORT CUP ASSEMBLY 1/2 (12,7 mm) THREADED D ADJUSTMENT FACE OF CEILING, RETAINING RING MOUNTING SURFACE CLEARANCE HOLE - DIAMETER DIMENSION Step 6. After the ceiling has been completed with the 2-1/2 inch (63,5 mm) diameter clearance hole and in preparation for installing the Cover Plate Assembly, remove and discard the Protective Cap, and verify that the Deflector moves up and down freely. If the Sprinkler has been damaged and the Deflector does not move up and down freely, replace the entire Sprin- kler assembly. Do not attempt to mod- ify or repair a damaged sprinkler. Step 7. When installing an Air and Dust Seal, refer to Figure 5, otherwise proceed to Step 8. To attach the Air and Dust Seal, verify the angle of the outside edge of the seal is oriented ac- cording to Figure 5. Start the edge of the Retainer in the grooved slot of the Air and Dust Seal and continue around the retainer until the entire Air and Dust Seal is engaged. Step 8. Screw on the Cover Plate/Re- tainer Assembly until the Retainer Fig- ure 2 (or Air and Dust Seal -Figure 5) contacts with the ceiling. Do not con- tinue tc screw on the Cover Plate/Re- tainer Assembly such that it lifts a ceil- ing panel out of its normal position. If the Cover Plate/Retainer Assembly cannot be engaged with the Support Cup or the Cover Plate/Retainer As- sembly cannot be engaged sufficiently to contact the ceiling, the Sprinkler Fit- ting must be repositioned. Care and Maintenance The Tyco® Series RFll must be maintained and serviced in accordance with the following instructions: Absence of the Cover Plate Assembly may delay sprinkler operation in a fire situation. When properly installed, there is a nom- inal 3/32 inch (2,4 mm) air gap between the lip of the Cover Plate and the ceiling, Page 4 of 4 TFPI8I 0 as shown in Figure 2. This air gap is necessary for proper operation of the sprinkler. If the ceiling is to be repaint- ed after the installation of the Sprinkler, care must be exercised to ensure that the new paint does NOT seal off any of the air gap. Factory painted Cover Plates MUST NOT be repainted. They should be re- placed, if necessary, by factory painted units. Non-factory applied paint may adversely delay or prevent sprinkler operation in the event of a fire. Do not pull the Cover Plate relative to the Enclosure. Separation may result. Before closing a fire protection sys- tem main control valve for maintenance work on the fire protection system that it controls, permission to shut down the affected fire protection system must be obtained from the proper authorities and all personnel who may be affected by this action must be notified. 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 or over heated sprinklers must be replaced. Care must be exercised to avoid dam- age to the sprinklers -before, during, and after installation. Sprinklers dam- aged by dropping, striking, wrench twist/slippage, or the like, must be re- placed. Also, replace any sprinkler that has a cracked bulb or that has lost liquid from its bulb. (Ref. Installation Section). If a sprinkler must be removed, do not reinstall it or a replacement without reinstalling the Cover Plate Assembly. If a Cover Plate Assembly becomes dislodged during service, replace it immediately. The owner is responsible for the in- spection, testing, and maintenance of their fire protection system and devic- es in compliance with this document, as well as with the applicable stan- dards of the National Fire Protection Association (e.g., NFPA 25), in addition to the standards of any other authori- ties having jurisdiction. The installing contractor or sprinkler manufacturer should be contacted relative to any questions. Automatic sprinkler systems should be inspected, tested, and maintained by a qualified Inspection Service in accor- dance with local requirements and/or national code. SUPPORT SPRINKLER FACE OF ORIENT CUP CEILING SEAL BEVEL AS SHOWN COVER PLATE RETAINER ASSEMBLY Ulu 2 I CLEAN ROOM LIP OF COVER SEAL RETAINER PLATE FIGURE 5 OPTIONAL AIR AND DUST SEAL FOR SERIES RFII (TY3551) Limited Warranty Products manufactured by Tyco Fire & Building Products (TFBP) are war- ranted solely to the original Buyer for ten (10) years against defects in mate- rial and workmanship when paid for and properly installed and maintained under normal use and service. This warranty will expire ten (10) years from date of shipment by TFBP. No warran- ty is given for products or components manufactured by companies not af- filiated by ownership with TFBP or for products and components which have been subject to misuse, improper in- stallation, corrosion, or which have not been installed, maintained, modified or repaired in accordance with applicable Standards of the National Fire Protec- tion Association, and/or the standards of any other Authorities Having Juris- diction. Materials found by TFBP to be defective shall be either repaired or re- placed, at TFBP's sole option. TFBP neither assumes, nor authorizes any person to assume for it, any other ob- ligation in connection with the sale of products or parts of products. TFBP 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 TFBP be liable, in contract, tort, strict liability or under any other legal theory, for incidental, indirect, special or consequential dam- ages, including but not limited to labor charges, regardless of whether TFBP was informed about the possibility of such damages, and in no event shall TFBP's liability exceed an amount equal to the sales price. The foregoing warranty is made in lieu of any and all other warranties, ex- press or implied, including warranties of merchantability and fitness for a particular purpose. This limited warranty sets forth the ex- clusive remedy for claims based on failure of or defect in products, materi- als or components, whether the claim is made in contract, tort, strict liability or any other legal theory. This warranty will apply to the full ex- tent permitted by law. The invalidity, in whole or part, of any portion of this warranty will not affect the remainder. Ordering Procedure When placing an order, indicate the full product name. Contact your local distributor for availability. Sprinkler Assembly Specify: (SIN), (specify temperature rating) Series RFll Concealed Pendent Sprinkler, P/N (specify). 155°F/68*C 200F/93C 1Y3551 51-790-1-155 51-790-1-200 TY3531 51-792-1-155 51-792-1-200 Separately Ordered Cover Plate: Specify: (specify temperature rating) Series RFIl Concealed Cover Plate with (specify finish), P/N (specify). 139F/59°C(a) 165°F/74°C(b) Brass..........56-792-1-135 56-792-1-165 Chrome........56-792-9-135 56-792-9-165 Signal White (c) (RAL 9003) 56-792-4-135 56-792-4-165 Grey White (d) (RAL 9002) 56-792-0-135 56-792-0-165 Pure White (e) (RAL 9010) 56-792-3-135 56-792-3-165 Custom ........56-792-X-135 56-792-X-165 For use with 155°F/68°C sprinklers. For use with 200°F/93°C sprinklers. Previously known as Bright White. Previously known as Standard White. Eastern Hemisphere sales only. Sprinkler Wrench: Specify: RFll Sprinkler Wrench, P/N 56-000-1-075. Air and Dust Seal: Specify: Air and Dust Seal, P/N 56-908-1-001. 0 2008 TYCO FIRE & BUILDING PRODUCTS, 451 North Cannon Avenue, Lansdale, Pennsylvania 19446 U 1/4" 8003957 GST 200 1/4 x 2" 1760 (Fir) 25 125 318" 8006957 GST 75 1/4 x 3/4" 564 (3/4" Ply) 25 125 3/8 8007957 GST 10 1/4x1 210)7/16OSB)300 ____ 25' 125 - 3/8" 8008957 GST 20 1/4 x 2 1760 (Fir) 850 1475 25 125 : 8068925GST20-SS :26) Th 25 J 3/8" 8009925 GOT 25-380 3/8x 2-1/2" 2113 (Fir) 1500 25 125 3/8 8010957 GOT 30 1/4 x 3 2060 (Fir) 147559 #14 Black 3/8"8069925 GST 35-SS 1Mx3" 2060 (Fir) 25 125 Nut Driver Part#8113910 3/8 8011925 GOT 40 1/4x4 2180 (Fir) 25 1253 3/8" 8012925 GST 60 1/4 x 6" 2230 (Fir) 25 125 - 1/2 681 GSTf" V4x2 1760 )Fir) 2c" 25T 1/2" 8014925 GST 25-380 3/8x 2-1/2" 2113 (Fir) 25 125 V2 --869K--GST 1/2" 8016925 GST 4 1/4 x 4" 2180 (Fir) 25 125 #14 SW Red [W"17925 ThT 6""" iJ Nut Driver Part # 8114910 Product Features Eliminates distortion of threaded rod. • Saves time from traditional methods. Accommodates up to 3 /z" a 12 pitch roof. • Reduces installation cost. "Allows 17" deflection from vertical. • Made in the U.S.A. 3/8" 8141957 SH-GST30 1/4x3 1720 (Fir) 1500 1475 25 125 SPECIAL NUT DRIVER SYSTEM: The nut drivers were designed with a unique spin-off feature which provides a fast and safe installation each time. When the face of the driver comes into contact with the material you are installing Into, continue drilling until nut driver spins free. Installation is then complete. Warranty requires the use of the appropriate nut driver for installations. For the most up to date information, visit www.sammysuperscrew.com 4-11 01 -A (OMADEINU.S.A 17 (r 4k. Nut Driver Part # 8113910 Fig. 25 - Surge Restrainer c®ususTEo n Size Range — One size fits 3/4 thru 2" pipe. Material - Pre-Galvanized Steel Function - Designed to be used in conjunction with TOLCO® Band Hangers to restrict the upward movement of piping as it occurs during sprinkler head activation or earthquake type activity. The surge restrainer is easily and efficient- ly installed by snapping into a locking position on the band hanger. This product is intended to satisfy the requirements as indicated in the National Fire Protection Association NFPA 13, 2007 edition, 9.2.3.4.4.1 and 9.2.3.4.4.4 Can be used to restrain either steel pipe or CPVC plastic Pipe. Approvals - Underwriters' Laboratories Listed Qfl!y when used with TOLCO band hangers Fig. 2, 2NFPA and 200, in the USA (UL) and Canada (cUL). Finish - Pre-Galvanized Order By - Figure number and TOLCO band hanger, size from 3/4" thru 2'. Patent #5,344,108 OFFICE/MANUFACTURING FACILITY • 1375 SAMPSON AVE • CORONA, CA 92879 • PH: 951.737.5599 • F: 951.737.0330 CUSTOMER SERVICE • 800.786,5266 wwwtofco.com Component of State of California OSHPD Approved Seismic Restraints System •--. FIG. 98 Fig. 98 - Rod Stiffener Fig. 98B - Rod Stiffener w/Break-off Bolt Head Size Range - Secures 3/8 thru 7/8 hanger rod Material - Carbon Steel Function - Secures channel to hanger rod for vertical seismic bracing Approvals - Included in our Seismic Restraints Catalog approved by the State of California Office of Statewide Health Plannino and Development (OSHPD). For additional load, spacing and placement information relating to OSHPD projects, please refer to the TOLCO Seismic Restraint Systems Guidelines Finish - Electro Galvanized Note - Available in HDG finish or Stainless Steel materials. —i-- _----\ Order By — Figure number FIG. 98B Fig. 99 - All Thread Rod Cut to Length Size Range - Secures 3/8 thru 7/8' rod in 1 ' increments Material - Carbon Steel Maximum Temperature — 750°F Finish - Plain Note — Available in Electro-Galvanized and HDG finish or Stainless Steel materials. Order By - Figure number, rod diameter, rod length and finish Dimensions Rod Max. Rec. Load Lbs. Size For Service Temp 650°F 3/8 730 1/2 1350 5/8 2160 3/4 3230 7/8 4480 Size Range - Secures 3/8' thru 11/2" rod in 10' lengths Material - Carbon Steel Maximum Temperature - 750°F Finish - Plain Note — Available in Electro-Galvanized and HDG finish or Stainless Steel materials. Order By - Figure number, rod diameter and finish Fig. 100 -All Thread Rod Full Lnøth Dimensions • Weights Max Rec. Load Lbs. Rod For Service Temps Approx. Size 650°F WtJ100 1/4 240 12 3/8 730 29 1/2 1350 53 5/8 2160 84 3/4 3230 123 7/8 4480 169 1 5900 222 11/4 9500 360 11/2 13800 510 OFFICEIMANUFACTURING FACIUTY • 1375 SAMPSON AVE. • CORONA, CA 92879 • PH: 951.737.5599 • FAX: 951.737.0330 CUSTOMER SERVICE • 800.786.5266 www.tolco.com Fig. 200 - "Trimline" Adjustable Band Hanger Fig. 200R (Import) - "Trimline" Adjustable Band Hanger w/Retainer Ring -o 11 Size Range - 1/2 thru 8' pipe Material - Carbon Steel, Mu. Galvanized to G90 specifications Function - For fire sprinkler and other general piping purposes. Knurled swivel nut design permits hanger adjustment after installation. Features - (1/2' thru 2') Flared edges ease installation for all pipe types and protect CPVC plastic pipe from abrasion. Captured design keeps adjusting nut from separating with hanger. Hanger is eas- ily installed around pipe. (21/2 ' thru 8") Spring tension on nut holds it securely in hanger before installation. Adjusting nut is easily removed. Approvals - Underwriters' Laboratories listed (1/2" thru 8) in the USA (UL) and Canada (cUL) for steel and CPVC plastic pipe and Factory Mutual • Engineering Approved (3/4' thru 8). Conforms to Federal Specifications WW-H-171E, Type 10 and Manufacturers Standardization Society SP-69, Type 10. Maximum Temperature - 650°F Finish - Mil. Galvanized. Stainless Steel materials will be supplied with (2) hex nuts in place of a knurl nub. Order By - Figure number and pipe size Note - Figure 200R (import) with retainer ring and non-captured knurl nut. Dimensions • Weights Pipe Rod Size Max. Rec. Approx. Size Inch Metric A B Load Lbs. Wt./100 1/2 3/8 8mm or 10mm 31/8 25/8 400 11 3/4 3/8 8mm or 10mm 31/8 21/2 400 11 1 3/8 8mm or 10mm 33/8 25/8 400 12 1114 3/8 8mm or 10mm 3-Y4 2% 400 13 1112 3/8 8mm or 10mm 3/8 2/8 400 14 2 3/8 8mm or 10mm 41/2 3 400 15 21/2 3/8 10mm 55/8 41/8 600 27 3 3/8 10mm 5/8 4 600 29 31/2 3/8 10mm 7/8 51/4 600 34 4 3/8 10mm 73/8 5 1000 35 5 • 1/2 12mm 91/8 61/4 1250 66 6 1/2 12mm 101/8 63/4 1250 73 8 1/2 12mm 131/8 83/4 1250 136 OFFICE/MANUFACTURING FACILITY • 1375 SAMPSON AVE. • CORONA, CA 92879 • PH: 951.737.5599 • FAX: 951.737.0330 CUSTOMER SERVICE • 800.786.5266 www.toico.com Fig. 980 - Universal Swivel Sway Brace Attachment c®USUSTEU Size Range - One size fits bracing pipe 1" thru 2", TOLCO 12 gauge channel, and all structural steel up to 1/4" thick. Material - Carbon Steel Component of State of California OSHPD Approved Function - Multi-functional attachment to structure or Seismic Restraints System braced pipe fitting. Features - This product's design incorporates a concen- tric attachment opening which is critical to the performance H of structural seismic connections. NFPA 13 (2002) Figure 9.3.5.9.1 indicates clearly that fastener table load values are based only on concentric loading. Mounts to any surface angle. Break off bolt head assures verification of proper installation. Installation - The Fig.980 is the structural or transitional A attachment component of a longitudinal or lateral sway brace assembly. It is intended to be combined with the B 'bracing pipe and TOLCO braced pipe' attachment, Fig. 1000, 1001, 2002, 4L, 4A or 4B to form a complete bracing assembly. NFPA 13 and/or OSHPD guidelines should be followed. To Install - Place the Fig. 980 onto the 'bracing pipe". Tighten the set bolt until set bolt head breaks off. Attachment can pivot for adjustment to proper brace angle. Approvals - Underwriters Laboratories Listed in the USA (UL) and Canada (cUL). Approved by Factory Mutual Engineering (FM). Included in our Seismic Restraints Catalog approved by the State of California Office of Statewide Health Planning and Development (OSHPD). For additional load, spacing and placement information relating to OSHPD projects, please refer to the TOLCO Seismic Restraint Systems Guidelines. Note - The Fig. 980 Swivel Attachment and the Fig. 1001, Fig. 1000, Fig. 2001 or Fig. 4A Pipe Clamp make up a sway brace system of UL Listed attachments and bracing materials which satisfies the requirements of Underwriters' Laboratories and the National Fire Protection Association (NFPA) Finish - Plain Note - Available in Electro-Galvanized finish. Order By - Figure number and finish. PATENT #6,273,372, PATENT #6,517,030, PATENT #6,953,174, PATENT#6,708,930, PATENT #7,191,987, PATENT #7,441,730 Lateral Brace Dimensions • Weights Max. Design **Max. Design Approx. A B H* Load Lbs. Load Lbs. wtjloo (cULus) (FM) 51/4 1/s 17/32 2765 2800 132 * Available with hole sizes to accommodate up to 3/4' fastener, consult factory. ** Load shown is allowable with brace installed, between 30° - 90°. No reduction of load based on brace angle is required. ToLco® brand bracing components are desgined to be compatible ONLY with other TOLCO® brand bracing components, resulting in a Listed seismic bracing assembly. DISCLAIMER - NIBCO does NOT warrant against the failure of TOLCO® brand bracing components, in the instance that such TOLCO® brand bracing components are used in combination with products, parts or systems which are not manufactured or sold under the TOLCO® brand. NIBCO shall NOT be liable under any circumstance for any direct or indirect, incidental or consequential damages of any kind, including but not limited to loss of business or profit, where non-TOLCO brand bracing components have been, or are used. OFFICE/MANUFACTURING FACILITY • 1375 SAMPSON AVE. • CORONA, CA 92879 • PH: 951.737.5599 • FAX: 951.737.0330 CUSTOMER SERVICE • 800.786 5266 www.tolco.com S Component of State of Fig. 1000 - "Fast Clamp" Sway Brace Attachment California OSHPD Approved Seismic Restraints System Size Range - Pipe size to be braced: 1 thru 6" Schedule 10 thru 40 IPS.* Pipe size used for bracing: 1" and 11/4 Schedule 40 IPS. * Additionally (UL) approved for use to brace Schedule 7 sprinkler pipe up to 4' (maximum horizontal design load 655 lbs.) Torque requirement 6 - 8 ft. lbs. Material - Carbon Steel Function - For bracing pipe against sway and seismic disturbance. The pipe attachment component of a sway brace sys- tem: Fig. 1000 is used in conjunction with a TOLCO Fig. 900 Series Fitting and joined together with bracing pipe per NFPA 13* or TOLCO OSHPD Approved Seismic Manual, forming a complete sway brace assembly. Features - Field adjustable, making critical pre-engineering of bracing pipe unnecessary. Unique design requires no threading of bracing pipe. Can be used as a component of a 4-way riser brace. Can be used as longitudinal brace with Fig. 907. Comes assembled and individually packaged with illustrated installation instructions - sizes are clearly marked. Steel leaf spring insert provided to assure installer and inspector necessary minimum torque has been achieved. • Installation - The Fig. 1000 is the "braced pipe' attachment component of a lateral sway brace assembly. It is intended to be combined with the 'bracing pipe" and TOLCO structural attach- ment component, Fig. 980, 910 or 909 to form a complete bracing assembly. Follow NFPA 13 and/or OSHPD guidelines. To Install - Place the Fig. 1000 over the pipe to be braced, insert bracing pipe through opening leaving a minimum of 1" extension. Brace pipe can be installed on top or bottom of pipe to be braced. Tighten hex nuts until leaf spring is flat. It is recommended that the brace angle be adjusted before hex nuts are fully tightened. Approvals - Underwriters Laboratories Listed in the USA (UL) and Canada (cUL). Approved by Factory Mutual Engineering (FM). Included in our Seismic Restraints Catalog approved by the State of California Office of Statewide Health Planning and Development (OSHPD). For additional load, spacing and placement informa- tion relating to OSHPD projects, please refer to the TOLCO Seismic Restraint Systems Guidelines. Application Note - Position Fast Clamp and tighten two hex nuts until leaf spring flattens. A minimum of 1" pipe extension beyond the Fig. 1000 is recommended. Finish - Plain Note - Available in Electro-Galvanized and HDG finish or Stainless Steel materials. Order By - Order first by pipe size to be braced, followed by pipe size used for bracing, figure number and finish. Maximum Design Load 1 thru 4 pipe size - 2015 lbs. 6' size - 1265 lbs. FM Approved Design Loads* 1 - 21/2 - 600 lbs. 3" - 4" - 700 lbs. TOLCO® brand bracing components are desgined to be compatible ONLY with other TOLCO® brand bracing components, resulting in a Listed • seismic bracing assembly. DISCLAIMER - NIBCO does NOT warrant against the failure of TOLCO® brand bracing components, in the instance that such TOLCO® brand bracing components are used in combination with products, parts or systems which are not manufactured or sold under the TOLCO® brand. NIBCO shall NOT be liable under any circumstance for any direct or indirect, incidental or consequential damages of any kind, including but not limited to loss of business or profit, where non-TOLCO brand bracing components have been, or are used. OFFICE/MANUFACTURING FACILITY • 1375 SAMPSON AVE. • CORONA, CA 92879 • PH: 951737.5599 • FAX: 951.737.0330 CUSTOMER SERVICE • 800.786.5266 www.tolco.com Fig. 4 Fig. 4PVC Fig. 4 - Standard Pipe Clamp Component of State of California OSHPD Approved c us LISTED Fig. 4F - Standard Pipe Clamp Felt Lined Seismic Restraints System Fig. 4PVC - Standard Pipe Clamp PVC Coated Size Range - (Fig. 4) Size 1/2' thru 30" pipe. Size Range - (Fig. 4F) Size 1/2" thru 21/2" copper tubing Material - Carbon Steel Function - Recommended for the suspension of non-insulated pipe or insulated pipe with Fig. 220 shields. (Use Fig. 330 Weldless Eye Nut, Fig. 102 Eye Rod or Fig. 101 Welded Eye Rod.) Also recommended for attachment of sway bracing up to 31/2" pipe size, for larger pipe sizes use Fig. 4A. Fig. 4F and Fig. 4PVC are designed to reduce noise and vibration and/or prevent electrolysis. Approvals - Underwriters' Laboratories Listed in the USA (UL), Canada (cUL) 1/2" - 811 , and approved by Factory Mutual Engineering, 3/4" - 8'. Federal Specification WW-H-171 E, Type 4, 11/2" thru 24" and Manufacturers Standardization Society SP-69, Type 4. Included in our Seismic Restraints Catalog approved by the State of California Office of Statewide Health Planning and Development (OSHPD). For additional load, spac- ing and placement information relating to OSHPD projects, please refer to the TOLCO Seismic Restraint Systems Guidelines. Note - When the Fig. 4 is used as a sway brace, to ensure performance, the UL Listing requires that it must be used with other TOLCO® brace products. Maximum Temperature - 750°F Finish - Plain Note - Available in Electro-Galvanized and HDG finish or Stainless Steel materials. Order By - Figure number, pipe size and finish. Order Note - When ordering Fig. 4F allow for 3/16" felt on each half of clamp. Dimensions • Weights Fig. 4F Max. Design Load Lbs. Pipe For Service Temp. Approx. Size A B C 0 Bolt Size 650° 750°F WtJ100 1/2 37Ae 1/4 11/8 11/8 5/16 500 445 29 3/4 3Wie 1/4 11/4 11/4 5/16 500 445 31 1 39A6 1/4 11/4 1/16 5/16 500 445 35 11/4 4A6 3/8 13/8 111/is 5/16 500 445 40 1112 49A6 3/8 15/8 1/8 5/16 800 715 42 2 59A6 3/8 2 21/4 3/8 1040 930 93 21/2* 67/1e 3/8 21h 2/4 1/2 1040 930 126 — 3* 7 3/8 23/4 31A6 1/2 1040 930 141 31/2* 711A6 3/8 31/8 33/a 1/2 1040 930 154 4 81/2 5/8 3/16 311A6 1/2 1040 930 229 5 93/4 3/4 37/8 43/8 5/8 1040 930 261 6 115/8 3/4 4/8 51/8 3/4 1615 1440 537 8 13,16 1 55/8 6 3/4 1615 1440 625 10 161/2 1 71/4 71/4 7/8 2490 2220 1378 12 181/2 1 81/4 81/4 7/8 2490 2220 1574 14 20 11/8 9 9 7/8 2490 2220 2103 16 23 11/8 101/4 10114 7/8 2490 2220 2314 18 25/ 11/4 111/2 11½ 1 3060 2730 3276 20 28 1Y8 121/2 121/2 11/8 3060 2730 3863 24 331/2 16/8 151/4 151/4 11/4 3060 2730 5222 30 41/8 2 19 19 13/4 3500 3360 10511 'Meets UL 203A requirements for attachment of sway bracing. Horizontal design load for 1/2'-2 - 380#, 21/2' 395#, 3 - 435#, 31,' - 540ff OFFICE/MANUFACTURING FACILITY • 1375 SAMPSON AVE. . CORONA, CA 92879 • PH: 951.737.5599 • FAX: 951.737.0330 CUSTOMER SERVICE • 800.786.5266 www.tolco.com S Series 758-LPA FireLock TM Preaction Valve with Series 776 Low-Pressure Actuator Double. Interlock, Pneumatic/Electric Release Trim Hang these instructions on the installed valve for easy future reference. S Failure to follow instructions and warnings can result in serious personal injury, property damage, and/or product failure. Read and understand all installation instructions before attempting to install any Victaulic piping products. Wear safety glasses, hardhat, and foot protection. If you need additional copies of any literature, or if you have any questions about the safe installation and operation of this product, contact Victaulic Company, P.O. Box 31, Easton, PA 18044.0031, USA, Telephone: 1-800-PICK VIC, e-mail: pickvic@victaulic.com. X 4tauiic® TABLE OF CONTENTS Hazard Identification Installer Safety Instructions .........................2 Introduction......................................3 Trim Dimensions..................................3 Exploded View Drawing - Trim Components...........4 Exploded View Drawing - Internal Valve Components. . .5 Series 758 Preaction Valve with Series 776 Low-Pressure Actuator - Trim Assembly Drawing Numbers ........5 Section View Drawing and Description - Series 776 Low-Pressure Actuator Operation ..................6 Section View Drawing and Description - Series 746 Dry Accelerator..................................7 Compressor and Air Maintenance Trim Requirements . .8 Air Supply Design...............................8 Proper Air Supplies for Series 758 Preaction Valves Used with Series 776 Low-Pressure Actuators......................................9 Proper Air Supplies for Series 758 Preaction Valves Used with Series 776 Low-Pressure Actuators and Series 746 Dry Accelerators ..........9 Important Installation Information....................9 Valve/Trim Installation ............................10 Important Settings ...............................10 Hydrostatic Testing ..............................10 Placing the System in Service ......................11 External Inspection ..............................17 Weekly Inspection.............................17 Monthly Inspection ............................17 Required Tests ..................................18 Main Drain Test...............................18 Water Flow Alarm Test .........................18 Water Level and Low-Air Alarm Tests ............20 Trip Tests ......................................23 Partial Trip Test ...............................23 Full Trip Test .................................24 Required Internal Inspection ......................26 Maintenance ...................................28 Removing and Replacing Clapper Seal............28 Removing and Replacing Clapper Assembly .......30 Installing Cover Plate Gasket and Cover Plate ......31 Removing and Replacing Piston Assembly ........32 Replacing the Strainer Screen for Series 776 Low-Pressure Actuators ........................33 Troubleshooting - Series 776 Low Pressure Actuator .....................................34 Troubleshooting - Series 746 Dry Accelerator ........34 Troubleshooting - System ........................34 Warranty......................................B/C Facilities Locations .............................B/C HAZARD IDENTIFICATION Definitions for identifying the various hazard levels are provided below. A This safety alert symbol indicates important safety messages. When you see this symbol, be alert to the possibility of personal injury. Carefully read and fully understand the message that follows. TAYI1 ;I II [e JCAUTJON _77 The use of the word "WARNING" identifies the presence of hazards or un- The use of the word "CAUTION" identifies possible hazards or unsafe prac- safe practices that could result in death or serious personal injury if in- tices that could result in personal inju and product or property damage if structions, including recommended precautions, are not followed. [instructions, including recommended recautions, are not followed. NOTICE The use of the word "NOTICE" identifies special instructions that are important but not related to hazards. ® Registered Trademark of Victaulic 0 copyright 2002 Victaulic Printed in U.S .A INSTALLER SAFETY INSTRUCTIONS S An experienced, trained installer must install this product in accordance with all instructions. These instructions contain important information. Failure to follow these instructions could result in serious personal injury, property damage, and/or product failure. If you need additional copies of any literature, or if you have any questions about the safe installation and operation of this valve, contact Victaulic Company, P.O. Box 31, Easton, PA 18044-0031 USA, Telephone: 1-800-PICK Vic, e-mail: pickvic@victaulic.com. Depressurize and drain piping systems before attempting to install or remove any Victaulic piping products. Failure to follow this instruction could result in serious personal injury, property damage, and/or product damage. GENERAL Read and understand all instructions before proceeding with the installation, maintenance, and testing of this Victaulic fire protection device. Use only recommended accessories. Use of improper accessories or equipment could result in improper system operation. • 3. Avoid dangerous environments. If using electrically powered tools for installation, make sure the area is moisture-free. Keep work areas well lit. Allow enough space for installing the device, trim, and accessories safely and efficiently. 4. Prevent back injury. Larger and pre-trimmed valves are heavier and may require more than one person or mechanical lifting equipment to position and install the assembly properly. Always practice proper lifting techniques. S. Inspect the shipment. Make sure all components are included with the shipment and that all necessary tools are available for proper installation. 6. Wear safety glasses, hardhat, foot protection, and hearing protection. Protect your hearing if you are exposed to long periods of very noisy job-site operations. 7. Watch for pinch points. Do not put fingers under the valve body where they could be pinched by the weight of the valve. Use caution around spring-loaded components, such as the clapper, the clapper latch, and the piston assembly. S. Keep work areas clean. Cluttered areas, benches, and slippery floors can create hazardous working conditions. 9. Keep visitors away. Keep all visitors a safe distance away from work areas. MAINTENANCE AND TESTING Notify the authority having jurisdiction. Always notify the authority having jurisdiction before taking a fire protection system out of service, or before performing any maintenance that eliminates the fire protection provided by the system. Depressurize and drain the system completely before performing any maintenance. Water under pressure, trapped air, or system air pressure may be present and can create hazardous conditions. Follow NFPA requirements for testing and inspection schedules. Contact the local authority having jurisdiction for any additional requirements. Keep the preaction system away from corrosive atmospheres and foreign matter. Any condition that might degrade the system or affect system performance must be avoided. 0 INTRODUCTION The following instructions are a guide for proper installation of Victaulic Series 758 Preaction Valves. These instructions involve pipe that is properly prepared and grooved in accordance with current Victaulic specifications. S TRIM DIMENSIONS NOTE: The drawings below show a 4-inch (100-mm) configuration. Aprx. Weight Each VALVE SIZE Dimensions inches/mm lbs./kg Nominal I Actual Without Trim With Trim I I I I I I I I I Dia. I Out. Dia. in/mm [ in/mm A B C D f E F G H I Flanged Grooved Flanged I Grooved GROOVED X GROOVED 11/2 1.900 9.00 23.50 13.00 18.00 13.00 10.00 7.00 4.00 4.00 - 16.7 - 43.0 40 48,3 228,60 597 330 457 330 254 178 102 102 - 7,6 - 19,5 2 2.375 9.00 23.50 13.00 18.00 13.00 10.00 7.00 4.00 4.00 - 17.0 - 43.0 50 60,3 228,60 597 330 457 330 254 178 102 102 - 7.7 - 19,5 21/2 2.875 12.61 25.50 14.00 20.00 15.50 11.50 7.50 5.00 5.00 - 41.2 - 65.0 65 73.0 320,29 648 356 508 393 292 191 127 127 - 18,7 - 29,5 76,1 mm 3.000 12.61 25.50 14.00 20.00 15,50 11.50 7.50 5.00 5.00 - 41.2 - 65.0 76,1 320,29 648 356 508 394 292 191 127 127 - 18,7 - 29,5 3 3.500 12.61 25.50 14.00 20.00 15.50 11.50 7.50 5.00 5.00 - 42.1 - 65.0 80 88,9 320,29 648 356 508 394 292 191 127 127 - 19,1 - 29,5 4 4.500 15.03 23.00 15.00 21.00 14.00 12.00 8.00 9.00 6.00 - 55.0 - 95.0 100 114,3 381,76 584 381 533 356 305 203 229 152 - 24,9 - 43,1 6 6.625 16.00 22.00 16.00 22.00 14.00 12.00 8.50 7.00 7.00 - 73.0 - 115.0 150 168,3 406,40 559 406 559 356 305 216 178 178 - 33,1 - 52,2 165.1 mm 6.500 16.00 22.00 16.00 22.00 14.00 12.00 8.50 7.00 7.00 - 73.0 - 115.0 165,1 406,40 559 406 559 356 305 216 178 178 - 33,1 - 52,2 8 8.625 17.50 22.00 16.00 23.00 16.00 12.00 14.00 9.50 7.00 - 142.0 - 182.0 200 219,1 444,50 559 406 584 406 305 356 241 178 - 64,4 - 82,6 GROOVED X FLANGED 4 4.500 15.64 23.00 15.00 21.00 14.00 12.00 8.00 9.00 6.00 65.0 - 105.0 - 100 114,3 397,26 584 356 533 356 305 203 229 152 29,5 - 47,6 - 6 6.625 16.94 22.00 16.00 22.00 14.00 12.00 8.50 7.00 7.00 83.0 - 125.0 - 150 168,3 430,28 559 406 559 356 305 216 178 178 37,6 - 56,7 - 165,1 mm 6.500 16.94 22.00 16.00 22.00 14.00 12.00 8.50 7.00 7.00 83.0 - 125.0 - 165,1 430,28 559 406 559 356 305 216 178 178 37,6 - 56,7 - 8 8.625 19.27 22.00 16.00 23.00 16.00 12.00 14.00 9.50 7.00 155.0 - 195.0 - 200 219,1 489,46 559 406 584 406 305 356 241 178 70,3 - 88,5 - U NOTE: An optional Series 746 Dry Accel- erator assembly adds approximately 13.5" (34 2,9 mm) onto the top of the Series 776 Low-Pressure Actuator. 0 S EXPLODED VIEW DRAWING - TRIM COMPONENTS Series 758 Actuated Valve I With Double-Interlock, Pneumatic/Electric Release - Preaction Trim (Optional Accessories Also Shown) 12 T 13 Vak To Drain To 44,ij., Drain --9 A To 16 Drain 23 J (- 21 To Drain 26 18 - ;U' I Device To Drain 17 33 32 Water Supply 2 1!IJ BILL OF MATERIALS 1 Series 758 FireLock Actuated Check Valve 17 Water Supply Pressure Gauge (0-300 psil0-2068 kPa) with Double-Interlock (pneu/elec) trim 18 Series 749 AutoDrain 2 Piston Charge Line Ball Valve (NO) 19 Series 748 Ball Check Valve 3 Piston Charge Line Strainer (100 Mesh) 20 System Pressure Gauge (0-80 psi/0-552 kPa with retard) 4 Piston Charge Line Swing Check Valve 21 Air Line Strainer (100 Mesh) 5 Piston Charge Line Restrictor (1Ae') 22 Air Line Restrictor (Vie") 6 Piston Charge Line Pressure Gauge (0-300 psi/0-2068 kPa) 23 Series 776 Low Pressure Actuator 7 Gauge Valve 24 Pressure Gauge (0-80 psi/0-552 kPa with retard) 8 Alarm Line Ball Valve (NO) 25 Pressure Bleed Ball Valve 9 Series 729 Drip Check Valve 26 Series 753E Electric Solenoid Valve 10 Alarm Test Line Ball Valve (NC) 27 Series 755 Manual Pull Station 11 Alarm Line Drain Restrictor ('Ae') 28 Series 757 Air Maintenance Device (Optional) 12 Alarm Line Drain Ball Valve (NC) 29 EPS-lO Alarm Pressure Switch (Optional) 13 Main System Drain Valve 30 EPS-40 Supervisory Switch (Optional) 14 Main Drain Valve - Flow Test 31 Series 760 Water Motor Alarm (Optional) 15 Drip Cup 32 Series 705W Butterfly Valve (Optional) 16 Drain Swing Check Valve 33 Style 005 FireLock Rigid Coupling (Optional) NO = Normally Open; NC = Normally Closed Clapper Seal (Deluge and Prenutlon Valves) Exaggerated for Clarity ©N. EXPLODED VIEW DRAWING — INTERNAL VALVE COMPONENTS 1 Valve Body 2 Clapper 3 Clapper Seal 4 Seal Ring 5 Seal Washer 6 Seal Retaining Ring 7 Seal Assembly Bolt BILL OF MATERIALS 8 Bolt Seal 9 Clapper Spring 10 Spacers (Qty. 2) 11 Clapper Shaft 12 Clapper Shaft Retaining Plug (Qty. 2) 13 Cover Plate 14 Cover Plate Gasket 15 Cover Plate Bolts (Qty. 7) 16 Piston 17 Piston 0-ring 18 Latch 19 Latch Spring 20 Latch Shaft 21 Latch Shaft Retaining Plug (Qty. 2) SERIES 758 PREACTION VALVE WITH SERIES 776 LOW-PRESSURE ACTUATOR — TRIM ASSEMBLY DRAWING NUMBERS VALVE SIZE Vertical Trim Horizontal Trim VALVE SIZE Vertical Trim Horizontal Trim Nominal Actual Nominal Actual Outside Dia. Outside Dia. Drawing Drawing Out. Dia. Out.Dia. Drawing Drawing in/mm in/mm Number Number in/mm in/mm Number Number 1 40 100 48.3 Z014758829 Z014758879 4 io 4.500 114,3 Z040758829 Z040758879 2 50 2.375 60,3 Z014758829 Z014758879 6 io 6.625 168,3 Z060758829 Z060758879 1/2 2.875 500 2 65 73.0 Z024758829 Z024758879 165.1 mm Z060758829 Z060758879 76,1 mm 3 76.1 .000 Z024758829 Z024758879 8 200 8.625 219,1 Z080758829 Z080758879 3 3.500 80 889 Z024758829 Z024758879 5 S S S SECTION VIEW DRAWING AND DESCRIPTION — O SERIES 776 LOW-PRESSURE ACTUATOR OPERATION The Series 776 Low-Pressure Actuator is located in the trim of pneumatically released Series 758 Preaction Valves and acts as the trigger for these systems. Diaphragms separate the low-pressure actuator into three chambers. The upper air chamber controls activation, while the middle and lower chambers act as the water valve. During setup, system air is applied to the upper chamber of the low-pressure actuator. When the auto vent knob of the low-pressure actuator is pulled up, the upper chamber manually sets. Air pressure in the upper chamber holds the auto vent closed, while it exerts force on the water seal of the middle chamber. When the piston charge line is opened, water enters the lower chamber of the low-pressure actuator. Water enter- ing the low-pressure actuator flows to the middle cham- ber through the inlet eyelet, which is pressurized by system air pressure in the upper chamber. Since the area of the lower diaphragm (exposed to water pressure in the middle chamber) is greater than the area of the lower chamber, the lower chamber seals off. No water flows to the low-pressure actuator's outlet, and the supply water pressure creates the water seal. When system air pressure decays to 6.5 psi (45 kPa), the force exerted by the compression spring in the auto vent is greater than the force exerted by air in the upper cham- ber. The auto vent opens, and all air pressure in the upper chamber evacuates. The upper diaphragm releases water pressure in the mid- dle chamber of the low-pressure actuator, which allows the lower diaphragm to lift and water to flow from the inlet to the outlet. This water flow releases water pressure from the piston charge line of the preaction valve, thus allowing the piston to retract. The preaction valve's clap- per opens, and water flows into the sprinkler system. BILL OF MATERIALS Item Description Item Description 1 Protective Cap 9 Lower Diaphragm Assembly 2 Auto Vent Knob 10 Strainer Screen 3 Auto Vent Assembly 11 Strainer 0-Ring Seal 4 Upper Chamber 12 Strainer Assembly 5 Upper Diaphragm Wave Spring 13 Inlet Eyelet 6 Lower Diaphragm Wave Spring 14 Middle Chamber 7 Outlet Eyelet 15 Upper Diaphragm Assembly 8 Lower Chamber Ii MOSPHERE WATER IN _-* fl To Pressure from Exaggerated for Clarity SECTION VIEW DRAWING AND DESCRIPTION — SERIES 746 DRY ACCELERATOR The Series 746 Dry Accelerator exhausts air from the actuator to speed the operation of the valve. A diaphragm separates the Series 746 Dry Accelerator into two chambers. The closing chamber contains a compression spring, which maintains this chamber in the closed position. This closed position is maintained as long as the pressure differential between the opening and closing chambers is less than 3 psi (21 kPa). When the system introduces air pressure into the dry accelerator, the air goes into the closing chamber and passes through a built-in check valve to the opening chamber. The built-in check valve, which allows flow into the opening chamber, prevents pressure from escaping the opening chamber. Therefore, air can escape only through the restrictor. When a rapid loss of system air pressure occurs, such as an open sprinkler, air escapes from the closing chamber faster than it does from the opening chamber. As the sprinkler system's pressure continues to decay, a differential pressure develops across the diaphragm. When this differential pressure reaches 3 - 5 psi (21 - 34 kPa), the opening chamber's pressure overcomes the compression spring's closing force, causing the closing chamber to open to the atmosphere. The closing chamber opens immediately and releases pressure from the actuator, resulting in valve operation. BILL OF MATERIALS Item Description Item Description 1 Opening Chamber 9 o-ring 2 Restiictor 10 Seal Support 3 Piston 11 Closing Chamber Seal 4 0-ring 12 Button Head Cap Screw 5 Diaphragm 13 Washer 6 Actuator Shaft 14 Adjustable Seat 7 Closing Chamber 15 Built-In Check Valve 8 Compression Spring 0 20 RECOMMENDED AIR PRESSURES FOR SERIES 758 PREACTION VALVES WITH SERIES 776 LOW-PRESSURE ACTUATORS 5 10 15 20 05 50 75 103 125 120 175 203 225 250 275 203 COMPRESSOR AND AIR MAINTENANCE TRIM REQUIREMENTS NOTICE In the event that a compressor becomes inoperative, a properly sized tank- mounted air compressor provides the greatest protection for systems that use a Series 146 Dry Accelerator. In this situation, air can be supplied continuously to the sprinkler system for an extended time period. If multiple preaction valves are installed with a common air supply, isolate the systems by using a spring-loaded, soft seat-check valve to ensure air integrity for each system. Good practice is to include a control valve for isolation and service of each individual system. MAXIMUM WATER SUPPLY PRESSURE - PSI (Peak) NOTES: The recommended air pressures, shown in the chart above, apply to preaction valves that use a Series 776 Low-Pressure Actuator at 13-psi (90-kPa) minimum and 18-psi (124-kPa) maximum. If the air pressure is higher than 18-psi (124-kPa), a Series 746 Dry Accelera- tor should be installed. For base or riser-mounted compressors, the recommended air pressures are the "on' or "low' pressure settings for the compressor For tank-mounted compressors, the recommended air pressures are the set point for the air regulator. The 'on" pressure of the com- pressor should be at least 5 psi (34 kPa) above the set point of the regulator. The Victaulic air regulator is a relief-type design. Any pressure in the system that is above the set point of the regulator will be released. Therefore, charging the regulator above the set point could cause premature operation of a valve installed with a Series 746 Dry Accelerator. *Air Maintenance Trim Assembly (AMTA) BILL OF MATERIALS Item Description 1 ½-inch (3,2-mm) Restrictor 2 Slow-Fill Ball Valve (Normally Open) 3 Air Regulator 4 Strainer (100 Mesh) 5 Spring-Loaded, Soft-Seated Ball Check Valve 6 Fast-Fill Ball Valve (Normally Closed) COMPRESSOR REQUIREMENTS - - COMPRESSOR REQUIREMENTS 50 150 250 350 450 550 650 750 650 950 1050 1150 1250 1350 1050 1550 1650 1750 System Capacity (in gallons) Air Supply Design Air supply systems must be properly sized. Failure to follow this instruction could cause / improper valve operation, resulting in serious I1M!l personal injury and/or property damage. The engineer/system designer is responsible for sizing the compressor so that it brings the entire system to the required pressure within 30 minutes. DO NOT oversize the compressor to provide more airflow, since it will slow down or possibly prevent valve operation. Continuous service (24 hours per day, 7 days per week) is required to prevent the valve from false tripping due to a loss of air pressure. Regulate the air pressure to the proper system air pres- sure. Air pressure differing from the required system air pressure could adversely affect system operation. Restrict the air supply to ensure that air being exhausted from an open sprinkler or manual release valve is not replaced by the air supply system as fast as it is being exhausted. The inspector's test connection should contain a globe valve (normally closed), which can be opened to simulate the actuation of a sprinkler. I Locate the inspector's test connection at the most hydraulically demanding location in the release system. NOTE: Multiple restrictions on the inspectors test may slow the air decay rate, causing the system to respond slower than required. The inspector's test connection should terminate with an orifice equal to the smallest orifice in the releasing system. The inspector's test connection is used to ensure that water gets to the most remote part of the system within 60 seconds. 6. When shop air or a tank-mounted air compressor is installed, the air maintenance trim assembly MUST be used. The air maintenance trim assembly provides proper air regulation to the sprinkler system. 6a. Set the air regulator to 13 psi (90 kPa). Proper Air Supplies for Series 758 Preaction Valves Used with Series 776 Low-Pressure Actuators: A preaction valve, installed with a Series 776 Low-Pres- sure Actuator, MUST contain an air regulator. When a riser or base-mounted air compressor supplies air to a system using a Series 776 Low-Pressure Actuator, it is not necessary to use the air maintenance trim assem- bly with the air regulator. In this case, the airline of the compressor connects to the trim at the fitting where the air maintenance trim is normally installed (refer to the trim drawing). NOTE: The use of an air regulator with a base or riser-mounted compressor could cause short cycling, resulting in premature wear of the compressor. Due to the large on/off differential available for pressure switches that control base-mounted compressors, adjust the compressor's pressure switch so that the 'ON" con- tact is set at 13 psi (90 kPa). Proper Air Supplies for Series 758 Preaction Valves Used with Series 776 Low-Pressure Actuators and Series 746 Dry Accelerators: When a Series 746 Dry Accelerator is used with the Series 776 Low-Pressure Actuator, the air maintenance trim assembly MUST be used with the air regulator. In the event that a compressor becomes inoperative, a properly sized tank-mounted air compressor provides the greatest protection for systems that use a Series 746 Dry Accelerator. In this situation, air can be supplied continu- ously to the sprinkler system for an extended time period. IMPORTANT INSTALLATION INFORMATION For proper operation and approval, the Series 758 Pre- action Valve must be installed in accordance with the specific trim diagrams. NOTE: Victaulic provides specific trim drawings for installations that involve a Series 746 Dry Accelerator. Before installing the Series 758 Preaction Valve, flush the water supply piping thoroughly to ensure that no for- eign material is present. The Series 758 Preaction Valve MUST NOT be located in an area where the valve is subject to freezing tempera- tures or physical damage. It is the owner's responsibility to confirm material com- patibility of the Series 758 Preaction Valve, trim, and asso- ciated accessories when a corrosive environment or contaminated water is present. Series 758 Preaction Valves can be installed in the ver- tical position with the arrow on the body pointing upward or horizontally with the cover plate facing upward. Air or nitrogen supply to the dry piping system must be clean, dry, and oil-free. Air supplies must be regulated, restricted, and continu- ous. NOTE: Victauhic recommends the use of an air main- tenance device on any system with an automatic air supply. When the Series 758 Preaction Valve is used with a water motor alarm, it is recommended that the valve con- tain an uninterrupted, low-pressure alarm that is installed on the piston charge line downstream of the check valve. For valves installed with a Series 746 Dry Accelerator: 6a. Make sure the Series 746 Dry Accelerator is installed on the Series 776 Low-Pressure Actuator, as shown in the drawing below. The end with the vent seal 'button must be installed toward the actuator. Provide an uninterrupted source of water from upstream of the main control valve to supply pressure to the piston charge line. VALVE/TRIM INSTALLATION Make sure trim drawings match system requirements Refer to page 5 for the listing. + Make sure the foam spacer is removed before attempting to install the valve. , Failure to follow this instruction could cause improper valve operation, resulting in serious personal injury and/ or property damage. Remove all plastic caps and foam spacers from valve. Apply a small amount of pipe joint compound or Teflon* tape to external threads of all threaded pipe connections. Be careful not to get any tape, compound, or other foreign material into valve body, pipe nipples, or valve openings. CAUTION: Make sure no foreign material gets into the valve body, pipe nipples, or valve openings. If using any material other than Teflon tape, use extra caution so that no material gets into the trim. Failure to follow these instructions could cause improper valve operation and/or property damage. 4. For valves 3" (80 mm) or smaller: 4a. Remove piston assembly before trimming valve. 04b. Unscrew piston from valve body, and note position of 0-ring. This 0-ring must be installed in the same position when the piston is reassembled. 4c. Install trim to back of valve, per applicable trim draw- ings. Make sure piston is reassembled and reinstalled correctly. Failure to do so could cause improper valve operation, resulting in serious personal injury and/or property damage. IMPORTANT SETTINGS System and pilot supervisory switches are required for the pneumatic/electric system. Both switches must be set to the notes below. Wire the air supervisory switches to activate a low- pressure alarm signal. NOTE: The authority having juris- diction may also require a high-pressure alarm. Set the air supervisory switches to activate at 2 - 4 psi (14 - 28 kPa) below the minimum air pressure required. Wire the alarm pressure switch to activate a water flow alarm. Set the alarm pressure switch to activate on a pressure rise of 4 -8 psi (28- 55 kPa). Reassemble piston, making sure 0-ring is positioned properly and that the piston rod and latch engage prop- erly. NOTE: It may be necessary to rotate latch inward (toward center of valve body) to ensure proper alignment. Tighten piston until metal-to-metal contact occurs between piston and valve body. 5. Install valve, trim, and accessories per applicable trim drawings. Teflon is a registered trademark of I. E. Dupont de Nemours If air testing is required, DO NOT exceed 50 psi (345 kPa) air pressure. Failure to follow this instruction could result in serious personal injury, property damage, and/or product The Victaulic Series 758 Preaction Valve is manufactured and listed for a maximum working pressure of 300 psi (2065 kPa) and is factory tested to 600 psi (4135 kPa). The valve may be hydrostatically tested to 200 psi (1380 kPa) and/or 50 psi (345 kPa) above the normal water supply pressure (2-hour limited time period) for acceptance by the authority having jurisdiction. 10 Cap Body )ring em al PLACING THE SYSTEM IN SERVICE 11 Make sure the Series 758 Preaction Valve is properly heated and protected from freezing temperatures and physical damage. Failure to follow this instruction could cause improper valve operation, resulting in serious personal injury and/or property damage. 4. If a Series 746 Dry Accelerator is used, confirm that the isolation ball valve to the accelerator is closed. 5. ACTIVATE THE ELECTRICAL PORTION OF THE SYSTEM TO ENERGIZE THE SOLENOID. NOTE: The solenoid must remain open until instructed other- wise. 1. Open the system main drain valve. Confirm that the system is drained. S 6. Open the piston charge line ball valve. SERIES 749 AUTO DRAIN ASSEMBLY Close the system main drain valve. Confirm that system drains are shut and the system is free of leaks. r Drain Hose 11 L-1 7. Remove the protective cap from the Series 749 Auto 8. Close the piston charge line ball valve. 0 Full up on the auto drain knob, and confirm that water is flowing through the Series 776. Replace the protective cap over the auto drain knob. - Fast-Fill Ball Valve £4W/ 4•' V _________ 9. CIarge the system with air by turning on the compres- sor or by opening the fast-fill ball valve on the air mainte- nance device (fast-fill ball valve is shown above). You wil need to charge the system to between 13-psi (90-kPa) minmum and 18-psi (124-kPa) maximum. Confirm that the system is charging by observing the air rressure gauge. If the gauge is not showing an increase in air pressure, there is a leak or an opening in the Ifrie. F air is leaking our of the drip check on the alarm line, close the alarm line ball valve. 9c. While the system is charging, remove the protective cap from the auto vent of the Series 776 Low-Pressure Actuator. 4- r Fast-Fill Ball Valve L- '- _______ $ 9f. When the system reaches a minimum of 13 psi (90 kPa), close the fast-fill ball valve on the air mainte- nance device. S 9d. When the system reaches approximately 8 psi (55 kPa), pull up on the auto vent knob of the Series 776. NOTE: The auto vent should seal and remain in the 'UP position. 10. Open the slow-fill ball valve on the air maintenance device. Piston Charge Line , • Ball Valve • ,, • - - ; 11. Open the piston charge line ball valve. - 9e. Replace the protective cap over the auto vent knob. CAuTIONL Make sure the protective cap is replaced on the Series 776 auto vent knob to avoid accidental contact. Hitting the knob will cause the valve to trip, resulting in property damage. S 13 Open the manual pull station, and bleed off any air that is present. Close the manual pull station. 12a. After a stream of water is established, close the ¼- inch ball valve. r I 'i Ltive cap c I1U clLdifl knob. .:.'..e- "•'.-,- -'- '1'#PN'.- -- ____ CAUTION Make Make sure the protective cap is replaced on the auto drain knob to avoid accidental contact. Hitting the knob will cause the valve to trip, resulting in property damage. CLOSE THE SOLENOID BY RESETTING THE PANEL. 12. Open the ¼-inch ball valve located between the Series 776 and the solenoid so that a stream of water flows from the ball valve. 14. Pull up on the auto drain knob until it is set in the "UP" position. Verify that there is pressure on the piston gauge. 13. Remove the protective cap from the Series 749 Auto Drain. NOTICE If the solenoid is closed unintentionally, it must be reset. Follow steps 16 and 17 to bleed off the pressure and reset the solenoid. 14 1/4-inch - . Ball Valve :4\ \ For water pressures greater than 30 psi (207 kPa): Open and then immediately close the ¼-inch ball valve located between the Series 776 and the solenoid. Confirm that there is zero pressure between the Series 776 and the solenoid. NOTE: Residual pressure between 0 psi and 30 psi (0 kPa - 207 kPa) is acceptable. 17a. For water pressures lower than 30 psi (207 kPa): Move on to step 18. - - -turn Yent,BI'VaI'e If a Series 746 Dry Accelerator is used, open the ¼- turn vent ball valve on the accelerator. - . Accelerator . " ./4-turn * Vent Ball Ball Valve • 18b. Close the ¼-turn vent ball valve on the Series 746 Dry Accelerator. This will set the accelerator. Observe the system air pressure over a 24-hour period to confirm system integrity. If there is degradation in sys- tem air pressure, find the leaks and correct. NOTE: NFPA requires less than 2-psi (14-kPa) leakage in 24 hours. ; -- v' 'Alarm Line Ball Valve ,- Confirm that the alarm line ball valve is open. '— WaterSupplyv1—-. . MamDrain Valve 7 7 !1i Open the water supply i i drain valve. 18a Open the isolation ball valve on the Series 746 Dry CAUTION rii . Accelerator. . Take precautions when opening the water supply main control valve, since water Will flow from all open system valves. Failure to do so could result in personal injury and property damage. 10 15 22. Open the vater supply's main control valve slowly until a steady flow of water flows from the open water supply main drain valve. 24a. If water is flowing from the drip check, close the water supply's main control valve, and start over at step 1. Refer to the "Troubleshooting" section on page 34. When a steady flow of water occurs, close the water supply main drain valve. Confirm that there is no leakage from the drip check located in the alarm line's piping. Open the water supply's main control valve fully. Record the system air pressure anJ water supply pressure. Ensure all valves are in their normal operating posi- tions (refer to table below). Valve Normal Operating Position Piston Charge Line Ball Valve Open Alarm Line Ball Valve Open Alarm Test Ball Valve Closed Alarm Drain Ball Valve Closed 23. Notify the aut:ority having jurisdiction, remote sta- tbn alarm monitors, and those in the affected area that the system is in service. 16 Ll EXTERNAL INSPECTION Any activities that require taking the valve out of service may J eliminate the fire protection provided. Before servicing or testing the system, notify the authority having jurisdiction. Consideration of a fire patrol should be given in the affected areas. Failure to follow these instructions could result in serious personal injury and/or property damage. NOTICE The owner is responsible for maintaining the fire protection system in proper operating condition. It is important that the system is inspected regularly, according to proper procedures. The Victaulic Series 158 Preaction Valve and trim must not be exposed to foreign material, corrosive environments, freezing conditions, contaminated water supplies, or any other condition that could impair proper system operation. Modify the frequency of inspections in the presence of any environmental conditions that could degrade system operation. The National Fire Protection Association pamphlet, which describes the care and maintenance of sprinkler systems, outlines the minimum requirements for inspections and tests. The authority having jurisdiction may have additional maintenance, inspection, and test requirements. Weekly Inspection 1. Perform a visual inspection on the valve and trim on a weekly basis. NOTE: If the preaction system is equipped with a low-pressure alarm, monthly inspections may be sufficient. Consult with the local authority having jurisdic- tion for specific requirements. Monthly Inspection Record the system air pressure and water supply pres- sure. Confirm that the water supply pressure is in the range of normal pressures observed in the area. Signifi- cant loss in water supply pressure could indicate an adverse condition in the water supply. Confirm the proper water-to-air ratio is being maintained. Confirm that there is no leakage from the intermediate valve chamber. No water or air should flow from the drip check. Check for mechanical damage or corrosion. If found, replace any affected parts. Confirm that the preaction valve and trim are not sub- ject to freezing temperatures. Verify that all valves are in their normal operating posi- tions (refer to table below). Valve Normal Operating Position Piston Charge Line Ball Valve Open Alarm Line Ball Valve Open Alarm Test Ball Valve Closed Alarm Drain Ball Valve Closed If the system includes a Series 746 Dry Accelerator, record the pressure in the accelerator's air chamber. This pressure should equal the system air pressure within the allowable tolerances of the gauges. If the air chambers pressure is below the system air pressure, follow the trou- bleshooting procedures on page 34. 17 REQUIRED TESTS W Any activities that require taking the valve out of service may J eliminate the fire protection provided. Before servicing or testing the system, notify the authority having jurisdiction. Consideration of a fire patrol should be given in the affected areas. Failure to follow these instructions could result in serious personal injury and/or property damage. Main Drain Test Perform the main drain test on a frequency required by the current NFPA-25 code. The authority having jurisdic- tion in your area may require that you perform these tests on a more frequent basis. Verify these requirements by contacting the authority having jurisdiction in the affected area. Notify the authority having jurisdiction, remote station alarm monitors, and those in the affected area that the main drain test will be performed. Confirm that sufficient drainage is in place for a full- flow drain test. Record the water supply pressure and system air pres- sure. Verify that the valve's intermediate chamber is dry. No .water should flow from the drip check. Verify that the system is pressurized at the proper air pressure for the local water supply pressure. I- CAUTIPN Be careful not to open the system main drain valve accidentally. I Opening the system main drain valve will cause the valve to operate, resulting in [property damage. Open the water supply main drain valve fully to flush the water supply of any contaminants. With the water supply main drain valve fully open, ecord the water supply pressure (from the water supply gauge) as the residual pressure. Close the water supply main drain valve slowly. Record the water pressures established after closing the water supply main drain valve. Compare the residual pressure reading, taken above, to the residual pressure readings taken in previous main drain tests. If there is degradation in the residual water supply readings, restore the proper water supply pres- sure. Verify that all valves are in their normal operating positions (refer to table below). Valve Normal Operating Position Piston Charge Line Ball Valve Open Alarm Line Ball Valve Open Alarm Test Ball Valve Closed Alarm Drain Ball Valve Closed Confirm that there is no leakage from the valve's inter- mediate chamber. No water or air should flow from the drip check. Notify the authority having jurisdiction, remote sta- tion alarm monitors, and those in the affected area that the valve is back in service. Provide test results to the authority having jurisdic- tion, if required. Water Flow Alarm Test Perform the water flow alarm test on a frequency required by the current NFPA-25 code. The authority having juris- diction in your area may require that you perform these tests on a more frequent basis. Verify these requirements by contacting the authority having jurisdiction in the affected area. 1. Notify the authority having jurisdiction, remote station alarm monitors, and those in the affected area that the water flow alarm test will be performed. Be careful not to open the system main drain valve accidentally. Opening the system main drain valve will cause the valve to operate, resulting in property damage. W. WaterSuppIy . MainDrain Valve Aj i _ ._ Alarm Test Sail Valvi,, y7 2. Open the water supply main drain valve fully to flush 5. Open the alarm test ball valve. Confirm that mechanical the water supply of any contaminants, and electrical alarms provided are activated and that -,..,,-. ,.-i ,--, , 2 - '.,Water Supply Main Drain Valve 3. Close the wter snply main drain valve. I IIIUL I IlUIlILUIlI I LL1UI , JI UV IUU, rece vean 0101111 signal. Alarm Test' Ball Valve' 7LH (k 6. Close the alarm test ball valve after proper operation of all alarms is verified. 4. Close the alarm line ball valve. Open the alarm drain ball valve, as shown above. Verify that all alarms stopped sounding, that the alarm line drained properly, and that remote station alarms reset properly. 19 Alarm Test " - 9. Confirm that the alarm test ball valve is closed. 10. Close the alarm drain bdll vd!ve. Verify that the valve's intermediate chamber is dry. No water should flow from the drip check. Notify the authority having jurisdiction, remote sta- tion alarm monitors, and those in the affected area that the valve is back in service. Provide test results to the authority having jurisdic- tion, if required. Water Level and Low-Air Alarm Tests Perform the water level and low-air alarm tests on a fre- quency required by the current NFPA-25 code. The authority having jurisdiction in your area may require that you perform these tests on a more frequent basis. Verify these requirements by contacting the authority having jurisdiction in the affected area. NOTICE Be sure to notify the authority having jurisdiction that these tests are in progress. Failure to close the isolation ball valve of the Series 746 Dry Accelerator may cause the valve to trip, resulting in a false alarm. 1. Notify the authority having jurisdiction, remote station alarm monitors, and those in the affected area that the water level and low-air alarm tests will be performed. 11. Open the alarm line bai valve. 2. If the valve is equipped with a Series 746 Dry Accelera- tor, close the isolation ball valve. S 20 3. Open the water supply main drain valve fully to flush 6. Partially open the system main drain valve slowly. Con- the water supply of any contaminants, firm that no water is flowing from the drain. NOTE: If WdWI is Iluwlug, 11115 SSL1511I may 1101 11dV15 U1di11'SU prop- erly. If this is the case, follow all steps under the "Placing the System in Service" section, starting on page 11. 7. Record the system air pressure at which the low-air alarm activates. [1 4. Close the water supply main drain valve. 8. Close the system main drain valve. 5. Close the water supply's main control valve. I Fast-Fill Ball Valve I $ -- ''-& .. • 9. Open the fast-fill ball valve on the air maintenance device. Bring the pressure back up to normal system pres- sure. 21 S 10a. Open the isolation ball valve on the Series 746 Dry Accelerator. Accelerator.. 1 1/4-turn Vent Ball Valve ., i - lOb. Close the ¼-turn vent ball valve on the Series 746 Dry Accelerator. This will set the accelerator. Ball s Valve i; 9a. When When the system reachs a minimum of 13 psi (900a), close the fast-fill ball valve on the air mainte- nance device. 9b. Open the slow-fill ball valve on the air maintenance device. .Accelethtor I V&itBalFValve H!. 10. If a Series 746 Dry Accelerator is used, open the ¼- turn vent ball valve on the accelerator. I 11. Open the water supply main drain valve. wCAUTION' -:.... Take precautions when opening the water supply main control valve, since water will flow from all open system valves. Failure to do so could result in personal injury and property damage. 22 :$ '!! Water Supply'log s tt a : Main Contr,9I 12. Open the water supply's main control valve slowly until a steady flow of water flows from the open water supply main drain valve. TRIP TESTS Partial Trip Test Partial trip tests are required to confirm proper valve oper- ation; however, this test does not confirm full system operation. Victaulic recommends that the partial trip test be performed annually. NOTE: The authority having juris- diction in your area may require that you perform this partial trip test on a more frequent basis. Verify these requirements by contacting the authority having jurisdic- tion in the affected area. Notify the authority having jurisdiction, remote station alarm monitors, and those in the affected area that the partial trip test will be performed. Record the water supply pressure and the system air pressure. Notify the authority having jurisdiction, remote sta- tion alarm monitors, and those in the affected area that the valve is back in service. Provide test results to the authority having jurisdic- tion, if required. 0 13. When a steady flow of water occurs, close the water supply main drain valve 3. Open the water supply main drain valve fully to flush the water supply of any contaminants. Open the water supply's main control valve fully. Confirm that all valves are in their normal operating positions (refer tc table below). Valve Normal Operating Position Piston Charge Line Ball Valve Open Alarm Line Ball Valve Open Alarm Test Ball Valve Closed Alarm Drain Ball Valve Closed 4. Close the water supply main drain valve. S 23 6. ACTIVATE THE ELECTRICAL PORTION OF THE SYSTEM TO ENERGIZE THE SOLENOID. 12. SHUT OFF THE AIR SUPPLY. 7. Open the inspector's test connection to simulate an open sprinkler. This can also be done by opening the sys- tem main drain valve, as shown above. Close the piston charge line ball valve. Perform all steps in the "Placing the System in Ser- vice" section, starting on page 11. '10. Confirm that the water supply's main control valve is closed. S 5. Close the water supply's main control valve. 11. Close the system main drain valve. 8. Record the system air pressure when the valve actu- ates. 9. Confirm that the piston charge line pressure drops to zero and that water is flowing through the auto drain to the drip cup. Full Trip Test Victaulic recommends full trip testing every three years. This test allows a full flow of water into the sprinkler sys- tem; therefore, this test must be performed in warm weather when there is no chance of freezing conditions. NOTE: The authority having jurisdiction in your area may require that you perform this full trip test on a more frequent basis. Verify these requirements by contacting the authority having jurisdiction in the affected area. Notify the authority having jurisdiction, remote station alarm monitors, and those in the affected area that the full trip test will be performed. Record the water supply pressure and system air pres- sure. 24 C 3. Open the wa:er supply main drain valve filly to flush the water supply of any contaminants. Close the water supply's main control valve. [IIIJ Close the piston charge line ball valve. 4. Close the water supply main drain valve. 5. ACTIVATE THE ELECTRICAL PORTION OF THE SYSTEM TO ENERGIZE THE SOLENOID. 6. Open the remote system test valve (inspector's test connection) to simulate the operation of a sprirkier. 7. Record the following: Time between opening the remote system test valve (inspector's test connecticn) to the operation of the preaction valve System air pressure when the valve operated Time from oDening the remote system test valve (inspector's test connection) to when water flows from the test connection's outlet All information required by the authority having juris- diction Confirm that all alarms operate properly. Continue to run water until it is clear. Close the slow-fill ball valve. Close the remote system test valve (irspector's test connection). Perform all steps in the "Placing the System in Ser- vice" section, starting on page 11. 25 ,•4 '-f.' Water Supply _• Main Drain Valve j - •1 • • Close the water sur ply main drain valve. Close the water supply's main control valve to take the system out of service. Water Supply Ma Valve w DraIn vT94!J \•; ___ REQUIRED INTERNAL INSPECTION Inspect internal components on a frequency required by the current NFPA-25 code. The authority having jurisdic- tion in your area may require that you perform these inspections on a more frequent basis. Verify these requirements by contacting the authority having jurisdic- tion in the affected area. t Depressurize and drain piping systems before attempting to disassemble any Victaulic piping products. Failure to follow this instruction could result in serious personal injury, property damage, and/or product damage. Any activities that require taking the valve out of service may J eliminate the fire protection provided. Before servicing or testing the system, notify the authority having jurisdiction. Consideration of a fire patrol should be given in the affected areas. Failure to follow these instructions could result in serious personal injury and/or property damage. 1. Notify the authority having jurisdiction, remote station alarm monitors, and those in the affected area that the system is being taken out of service. 2. Open the water supply main drain valve fully to flush the water supply of any contaminants. Open the water supply main drain valve, as showi above. Confirm that no water is flowing from the water supply main drain. KI Make sure valve is depressurized and drained I before removing cover plate bolts. I while the valve is pressurized, resulting in serious I The cover plate will blow off if these bolts are removed I personal injury and/or property damage. 7. Close the piston charge line ball valve. 8. Open the system main drain valve to drain any water that has accumulated and to release system air pressure. NOTE: If the system has operated, open the remote sys- tem test valve (inspector's test connection) and any auxil- iary drain valves. Close the slow-fill ball valve. Activate the electrical portion of the system to energize the solenoid, or push down on the auto drain knob to remove pressure in the piston charge line. After all pressure is released from the system, loosen cover plate bolts, and remove cover plate. LCAUTION Do not use solvents or abrasives on or near the valve body seat ring. Failure to follow this instruction could prevent the clapper from sealing properly, re- sulting in improper operation, valve leakage, and/or property damage. Rotate clapper out of valve body. Inspect clapper seal and seal retaining ring. Wipe away any contaminants, dirt, and mineral deposits. Clean any holes in the valve body seat ring that are plugged. DO NOT USE SOL- VENTS OR ABRASIVES. 27 Inspect clapper for freedom of movement and physical damage. Replace any damaged or worn parts by following the applicable instructions in the "Maintenance" section, starting on this page. Re-install cover plate by following the "Installing Cover Plate Gasket and Cover Plate" section, starting on page 31. MAINTENANCE The following steps instruct on how to remove and replace internal valve components. It is important that care be taken to avoid damage to parts. t products. Depressurize and drain piping systems before attempting to disassemble any Victaulic piping Failure to follow this instruction could result in se- rious personal injury, property damage, and/or product damage. Any activities that require taking the valve out of service may J eliminate the fire protection provided. Before servicing or testing the system, notify the authority having jurisdiction. Consideration of a fire patrol should be given in the affected areas. Failure to follow these instructions could result in serious personal injury and/or property damage. 15. Place the system back in service by following the Removing and Replacing Clapper "Placing the System in Service" section, starting on page 11. Seal 1. Perform steps 1-11 of the "Required Internal Inspec- tion" section, starting on page 26. S Remove seal assembly bolt/bolt seal from clapper seal, as shown above. Remove seal retaining ring. 28 6a. If seal ring was removed from clapper seal in previous step: Re-insert ring carefully underneath outer lip of clapper seal. Make sure smaller diameter of sea. ring is toward sealing surface of clapper seal, as shown above. 4. Pry edge of seal washer from inside of clapper seal, as shown above. DO NOT pry the seal washer out from the inner hole. Dry up any water that is under the seal washer. Insert seal washer carefully underneath sealing l:p of gasket. Make sure clapper is free of contaminants, din, and mineral deposits. 5. Remove seal washer Irom clapper seal. 6. Pry clapper seal, along with seal ring, out of clapper, as shown above. Inspect seal. If seal is torn or worn, replace. 9. Install clapper seal into clapper carefully. Make sure seal ring snaps into clapper completely. /CAUTION DO NOT pry the seal washer Out of the clapper seal from the inner hole. Failure to follow this instruction could damage the seal washer, resulting in improper clapper sealing and property damage. 29 Removing and Replacing Clapper Assembly 1. Perform steps 1-11 of the "Required Internal Inspec- tion' section, starting on page 26. 10. Place seal retaining ring onto seal washer of clapper seal. CAUTION Use only Victaulic-supplied replacement seal assembly bolt/bolt seal when 2. Remove clapper shaft-retaining plugs from valve body reassembling clapper. Failure to follow this instruction could result in property damage and/or valve leak- age. Install seal assembly bolt/bolt seal through seal retain- ing ring and clapper. Tighten seal assembly bolt/bolt seal sufficiently, and apply an additional ¼ turn to ensure a proper seal. Replace the cover plate by following the "Installing Cover Plate Gasket and Cover Plate" section on page 31. Remove clapper shaft, as shown above. NOTE: As the shaft is being removed, the two spacers and clapper spring, shown above, will drop out of position. Keep the spacers and clapper spring for re-installation. Remove clapper from valve body. " .1, 7!1 Place new clapper assembly onto the valve body seat ring so that the holes in the clapper arms align with the holes in the valve body, as shown above. 30 i c.. -. .1 S ii. start clapper shaft into valve body, and place one 9. Install clapper shaft-retan:ng plugs into valve body spacer between clapper and valve body, as shown above. Install spring onto clapper shaft, making sure loop is toward clapper, as shown above. Place other spacer between clapper and valve body, and finish inserting clapper shaft through clapper arm and valve body, as shcwi above. Check clapper for freedbTl of movement Replace the cover plaz€ by following the "Installing Cover Plate Gasket and Cover Plate' section, starting on this page. Installing Cover Plate Gasket and Cover Plate Verify cover plate gasket i5 in good condition. If gasket is torn or worn, replace with a new. Victaulic-supplied gasket. Align cover plate gasket holes with holes in cover plate. 31 3. Insert one cover bolt through cover plate and cover gas- ket to ease alignment. Required Cover Bolt Torque Size Torque Size Torque Size Torque (inches) (ft-Ibs) (inches) (ft.Ibs) (inches) (ft-lbs) 11/2 30 76,1 mm 60 6 115 (40) (41) (81) (150) (156) 2 30 3 60 165,1 mm 115 (50) (41) 1 (80) (81) (156) 21/2 60 1 4 100 8 100 (65) (81) (100) (136) (200) (136) 6. Place system back in service by following the 'Placing the System in Service" section, starting on page 11. Removing and Replacing Piston Assembly t Depressurize and drain piping systems before attempting to disassemble any Victaulic piping products. Failure to follow this instruction could result in serious personal injury, property damage, and/or product dam- Any activities that require taking the valve out of service may J eliminate the fire protection provided. Before servicing or testing the system, notify the authority having jurisdiction. Consideration of a fire patrol should be given in the affected areas. Failure to follow these instructions could result in serious personal injury and/or property damage. S 4. Align cover plate/co'er plate gasket to valve. Make . sue spring arms are rotated to their installed position CAU1rIO.N Insert all cover bolts and hand-tighten. DO NOT extend piston manually. Manually extending the piston could damage the internal diaphragm. CAU 110 P1 Failure to follow this instruction could result in improper valve operation and/or valve DO NOT over-tighten cover bolts. Failure to follow this instruction could cause damage to cover plate gasket, resulting 1. Remove the system from service by following steps 1- in valve leakage. 10 of the "Required Internal Inspection" section, starting on page 26. 2. Disconnect trim from piston. Refer to the "Required Cover Bolt Torque" chart on the text page for the required torque values. DO NOT over- tighten these cover bolts. Unscrew piston from valve body. Clean piston seating area of valve body and threaded hole to make sure any debris is removed. Replace piston with a new, Victaulic-supplied assem- bly. Make sure 0-ring is installed flush to piston body. 32 Make sure piston is reassembled and reinstalled correctly. Failure to do so could cause improper valve operation, resulting in serious personal injury and/or property damage. Screw piston into valve body until metal-to-metal con- tact occurs. Re-attach trim, per the applicable trim drawing. Place the system back in service by following the "Plac- ing the System in Service" section, starting on page 11. Replacing the Strainer Screen for Series 776 Low-Pressure Actuators t Depressurize and drain the piping system before attempting to disassemble any Victaulic piping products. . Failure to follow this instruction could result in serious personal injury, property damage, and/or product damage. Remove the system from service by following steps I- 10 of the "Required Internal Inspection" section, starting on page 26. Remove the Series 776 Low-Pressure Actuator from the trim. Remove the strainer assembly from the Series 776, as shown above. Discard the strainer screen only. 'CAUTION DO NOT reuse strainer screens. When removed, the old strainer screen must be replaced with a new, Victaulic.supplied screen. Failure to follow this instruction could cause improper system operation, resulting in property damage. Use a new, Victaulic-supplied strainer screen. Insert the strainer screen into the strainer assembly. Install the strainer assembly into the Series 776 care- fully. Avoid damage to the 0-ring seals. Re-install the Series 776 into the trim (refer to the appli- cable trim drawing). Place the system back in service by following the "Plac- ing the System in Service" section, starting on page 11. 33 I TROUBLESHOOTING SERIES 776 LOW-PRESSURE ACTUATOR Problem Possible Cause Solution When you pull up on the auto vent knob, the Not enough air is getting to the Series 776. Increase the air pressure going into the Series knob does not stay in the "UP" position. 776. There is a broken seal in the Series 776. If the above procedure does not work, contact Victaulic. Water is leaking through the Series 776 Low- The air chamber is not set. Make sure the air chamber of the Series 776 is Pressure Actuator. set. The strainer on the Series 776 is clogged. Replace the strainer on the Series 776, per the instructions on page 33. There is a ripped diaphragm in the Series 776. If water still leaks through the Series 776, contact Victaulic. No water is passing through the Series 776 Low- The solenoid is not open. Make sure the solenoid is energized OPEN. Pressure actuator. The strainer on the piston charge line is clogged. Disassemble and clean the piston charge line strainer. The solenoid is not energized. Activate the electrical portion of the system to energize the solenoid. TROUBLESHOOTING SERIES 746 DRY ACCELERATOR Problem Possible Cause Solution The system valve operates Loss of air pressure in the lower Check for air loss at lower chamber seal. If a leak is present, turn adjustment without sprinkler activation, inlet chamber, nut counterclockwise to seal. Check for any leaks in system and trim. Confirm proper operation of air maintenance device. Dry accelerator does not Loss of air pressure in upper air Apply soapy water to all dry acceleratorjoints, and check for leaks. Repair any operate within a 5-psi (34 kPa) chamber of dry accelerator, leaks and re-test. pressure drop in system air pressure. Make sure there are no restrictions in the inspector's test connection. Air decay rate of system is too slow. If the above procedures do not work, contact Victaulic. Dry accelerator does not set up Dry accelerator is installed upside Remove dry accelerator from trim, and turn unit around so that the button is properly (cannot get pressure on down. facing down (toward Series 776). upper gauge, and button pops up immediately when pressure is introduced). TROUBLESHOOTING SYSTEM Problem Possible Cause Solution Valve operates without sprinkler activation. Loss of air pressure in system or trim. Check for system leaks. Confirm proper operation of air maintenance device. Consider installing a low-air supervisory switch. Pressure switch on air compressor is set low, or Increase ON setting on pressure switch, and compressor is not operating. check compressor for proper operation. Water leaking from drip check valve. Water is getting past clapper seal and into Check clapper seal and valve body seat ring for intermediate chamber, physical damage or foreign material. Inspect clapper seal to make sure no water is under seal. If water is present, remove and Water is under clapper seal. replace seal, per instructions on page 28. Air leaking from drip check valve. Air is getting past clapper seal and into Check clapper seal and valve body seat ring for intermediate chamber. physical damage or foreign material. Inspect clapper seal to make sure no water is under seal. If water is present, remove and Water is under clapper seal. replace seal, per instructions on page 28. Clapper will not latch closed. No water pressure on piston. Check water pressure in piston charge line. Auto drain is not set. Set auto drain. Water leaking from piston assembly. Diaphragm is damaged. Contact Victaulic. Air leaking from piston assembly. Piston rod seal is damaged. Contact Victaulic. 34 X/ ictaulic® Victaulic Companies WORLD HEADQUARTERS P.O. Box 31 Easton, PA 18044-0031 Phone: 1-800-PICK-VlC (1-800-742-5842) 4901 Kesslersville Road • Easton, PA 18040 USA Phone: 610/559-3300 Fax: 610/250-8817 e-mail: pickvic@victaulic.com VICTAULIC TOOL COMPANY VICTAULIC CONSTRUCTION PIPING SERVICES DIV. P.O. Box 31 • Easton, PA 18044-0031 1818 Vultee Street • Allentown, PA 18103 Phone: 610/559-3300 Fax: 610/923-3090 Phone: 610/559-3488 • Fax: 610/923-3170 e-mail: victools@victaulic.com e-mail: cps@victaulic.com Victaulic Around the World VICTAULIC COMPANY OF AMERICA P.O. Box 31 • Easton, PA 18044-0031 Phone: 610/559-3300 Fax: 610/250-8817 e-mail: victaulic@victaulic.com VICTAULIC COMPANY OF CANADA 65 Worcester Road Rexdale, ON M9W 5N7 Phone: 416/675-5575 • Fax: 416/675-5565 e-mail: viccanada(-alvictaulic,com VICTAULIC AMERICA LATINA P.O. Box 31 • Easton, PA USA 18044-0031 4901 Kesslersville Road Easton, PA USA 18040 Phone: 610/559-3300 Fax: 610/559-3608 e-mail: vical@victaulic.com Victaulic AQUAMINE, LLC 247-A Vance Tank Road • Bristol, TN 37620 Phone: 800/637-0117 • Fax: 423/652-7338 DEPEND-O-LOK, INC. P.O. Box 48776 Atlanta, GA 30362 2681 Pleasantdale Road • Doraville, GA 30340 Phone: 800/841-6624 • Fax: 770/840-8312 VICTAULIC EUROPE Prjkelstraat 36 • 9810 Nazareth, Belgium Phone: 32-9-381-15-00 • Fax: 32-9-380-44-38 e-mail: viceuro@victaulic.be VICTAULIC ASIA-PACIFIC 541 Orchard Road • #14-02, Liat Towers Singapore 238881 Phone: 65-6235-3035 • Fax: 65-6235-0535 e-mail: vicap@victaulic.com Subsidiaries COASTLINE PLASTICS, LLC 674 Coastline Drive • Yulee, FL 32097-3355 Phone: 888/225-5950 Fax: 904/225-8660 GAMMA FOUNDRIES LTD. 75 Newkirk Road • Richmond Hill, ON L4C 3G4 Phone: 905/884-9091 Fax: 905/884-2669 WARRANTY We warrant all products to be free from defects in materials and workmanship under normal conditions of use and service. Our obligation under this warranty is limited to repairing or replacing at our option at our factory any product which shall within one year after delivery to original buyer be returned with transportation charges prepaid, and which our examination shall show to our satisfaction to have been defective. THIS WARRANTY IS MADE EXPRESSLY IN LIEU OF ANY OTHER WARRANTIES, EXPRESS OR IMPLIED, INCLUDING ANY IMPLIED WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. THE BUYER'S SOLE AND EXCLUSIVE REMEDY SHALL BE FOR THE REPAIR OR REPLACEMENT OF DEFECTIVE PRODUCTS AS PROVIDED HEREIN. THE BUYER AGREES THAT NO OTHER REMEDY (INCLUDING, BUT NOT LIMITED TO, INCIDENTAL OR CONSEQUENTIAL DAMAGES FOR LOST PROFITS, LOST SALES, INJURY TO PERSON OR PROPERTY OR ANY OTHER INCIDENTAL OR CON- SEQUENTIAL LOSS) SHALL BE AVAILABLE TO HIM. Victaulic neither assumes nor authorizes any person to assume for it any other liability in connection with the sale of such products. This warranty shall not apply to any product which has been subject to misuse, negligence or accident, which has been repaired or altered in any manner outside of Victaulic's factory or which has been used in a manner contrary to Victaulic's instructions or recommendations. Victaulic shall not be responsible for design errors due to inaccurate or incomplete information supplied by Buyer or its representatives. EFFECTIVE OCTOBER 15, 1997 This product shall be manufactured by Victaulic company. All products to be installed in accordance with current Victaulic installation/assembly instructions. Victaulic reserves the right to change product specifications, designs and standard equipment without notice and without incurring obligations. I-758P-LPA 2994 Rev. E 10/02 ZI0758PLPA /5 2 c 46"Zie7 13-222 INSTALLATION OF SPRINKLER SYSTEMS kSô9.o tt-:1-. CoAtractor's Material andTest Certificate for Aboveground Piping' PROCEDURE S Upon completion of work, Inspection and tests shall be made by the contractor's representative and witnessed by the property owner or their authorized agent All defects shall be corrected and system left in service before contractor's personnel finally leave the job. A certificate shall be filled out and signed by both representatives. Copies shall be prepared for approving authorities, owners, and contractor. It Is understood the owner's representative's signature in no way prejudices any claim against contractor for faulty material, poor workmanship, or failure to comply with approving authority's requirements or local ordinances. Property name p - Date Property address Accepted by approving authorities (names) ,,F 6W5*p..z:,.:,) Address Plans S Installation conforms to accepted plans es' ( No Equipment used is approved U No ,NYes If no, explain deviations S S Has person- in charge of fire equipment been instructed as 0 yes L:JNo to location of control valves and care and maintenance of this new equipment? • lf no, explaln S lnstnrofons Have copies of the following been left on the premises? U Yes Q No System components Instructions S QYes EJ No S Care and maintenance instructions U Yes EJNo • NFPA25 S UYes UNo Location of Supplies uppies buildings • Year of Orifice Temperature Make Modól , manufacture size Quantity rating Spliniders Pipe and type of pipe fittings Typo of fittings 0 5 0 Maximum time to operate OJann valve or flow 'Alarm device through test connection Type Make Model, Minutes Seconds S Indicator S S S Dry valve Q.O.D. Make Model. Serial no. Make Model Serial no. - lime to trip S ' Time water Alarm • Dry pipe ' - through test connectiona,b . Water pressure Air pressure Trip point air pressure reached test outlet operated property opst111g test - - Minutes Seconds ' psi ' ' psi psi Minutes Seconds Yes No. Wthout With ' lf no, explain © 2006 National Fire Protection Association NFPA 13 (p. 1 of 3) a Measured frqm time Inspector's test connection Is opened b NFPA 13 only requires the 60-second limitation In specific sections FIGURE 24.1 Contractor's Material and Test Certificate for Aboveground Piping. 2007 Edition 13-224 INSTALLATION OF SPRINKLER SYSTEMS Cutouts Do you certify that you have a control feature to ensure that es UNo (discs) all cutouts (discs) are retrieved? Hydraulic Nameplateprovided If no explain data nameplate '{es J No 0 Date left in service with all control valves open Remarks Name of spdnlder . contrWtor Tests witnessed by Signatures The property owner or their authorized agent (signed) Title Date For sprin e o C Sl Title Date J aw Additional explanations and notes / or /i 0 • 0 © 2006 National Fire Protection Association NFPA 13 (p. 3 of 3) FIGURE 24.1 Continued 20D7 Edition SYSTEMS ACCEPTANCE 13-223 Operation 'neumatic U Electric U Hydraulics Piping supervised pw~s UNo Detecting media supervised es U No Does valve operate from the manual trip, remote, or both 'Yes U No control stations? Deluge and preaction Is there an accessible facility in each circuit If no, explain valves for testing? Dyes UNo Does each circuit operate Does each circuit operate Maximum time to Make Model supervision loss alarm? valve release? oprate release Yes No Yes No Minutes Seconds Location Make and Residual pressure Pressure and floor. model Setting Static pressure (flowing) Flow rate reducing valve test Inlet (psi) Outlet (psi) __L Inlet (psi) Outlet (psi) Flow (gpm) Hydrostatic: Hydrostatic tests shall be made at not less than 200 psi (13.6 bar) for 2 hours or 50 psi (3.4 bar) above static pressure in excess of 150 psi (10.2 bar) for 2 hours. Differential dry-pipe valve clappers shall be left open during the test to prevent damage. All aboveground piping leakage shall be stopped. Test description Pneumatic: Establish 40 psi (2.7 bar)alr pressure and measure drop, which shall not exceed 1½ psi (0.1 bar) In 24 hours. Test pressure tanks at normal water level and air pressure and measure air pressure drop, which shall not exceed 1½ psi (0.1 bar) in 24 hours. All piping hydrostatically tested at psi (~ bar) for — hours If no, state reason Dry piping pneumatically tested U Yes U No Equipment operates properly U Yes U No Do you certify as the sprinkler contractor thatadditives and corrosive chemicals, sodium silicate or derivatives of sodium silicate, brine, or other corrosive chemicals Were not used for testing systems or stopping, leaks? DYes DNo Drain Reading of gauge located near water Residual pressure with valve Infest Tests test supply test connection: psi ( bar) connection open wide: - psi (_ bar) Underground mains and lead-In connections to system risers flushed before connection made to sprinkler piping Verified by copy of the Contracto?s Material and Test U Yes U No Other Explain Certificate for Underground Piping. Flushed by installer of underground sprinkler piping U Yes U No If powder-driven fasteners are used in- concrete, U Yes U No If no, explain has representative sample testing been satisfactorily completed? . . Blank testing Number used Locations . . Number removed gaskets Welding piping U Yes U No If yes... Do you Certify as the sprinkler contractor that welding procedures used compiled with U Yes U No the minimum requirements of AWS B2.1, ASME Section IX Welding and Brazing Qualifications, or other applicable qualification standard as required by the AHJ? Do you certify that all welding was performed by welders or welding operators U Yes U No qualified in accordance with the minimum requirements of AWS B2.1, ASME Section IX Welding and Brazing Qualifications, or other applicable qualification standard as Welding required by the AHJ? Do you certify that the welding was conducted In compliance with a documented U'rs UNo quality control procedure to ensure that (1) all discs are retrieved; (2) that openings In piping are smooth, that slag and other welding residue are removed; (3) the Internal diameters of piping are not penetrated; (4) completed welds are free from cracks, Incomplete fusion, surface porosity greater-than 1M in. diameter, undercut deeper than the lesser of 25% of the wall thickness or 'M In.; and (5) completed circumferential butt weld reinforcement does not exceed 462 in.? © 2006 National Fire Protection Association . . NFPA 13 (p. 2-of 3) FIGURE 24.1 Continued 2007 Edition