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2548 CAMPBELL PL; ; AS070069; Permit
City of Carlsbad Sprinkler Permit Permit No: AS070069 Job Address: 2548 CAMPBELL PL Permit Type: SPRINK Parcel No: 2132610700 Lot #: 0 Reference No.: Status: ISSUED Applied 3/13/2007 Approved: 3/13/2007 Issued: 3/13/2007 PC #: Inspector: Project Title: ARROWHEAD ISNURANCE THREE FIRE SPRINKLER INSPECTIONS @ $62/EA Applicant: INDUSTRIAL FIRE SPRINKLER CO., 3845 IMPERIAL AV SAN DIEGO CA 619-266-6030 Owner: RED TEXAS REALTY L L C C/O ST. CROIX CAPITAL CORP 4350 EXECUTIVE DR #301. SAN DIEGO CA Fees ($) Add'I Fees ($) Total ($) Balance ($) 186 0 186 0 RN Fire Protection by Computer Design INDUSTRIAL FIRE SPRINKLER Co. 3845 IMPERIAL AVE. SAN DIEGO, CA 92113 619-266-6030 Job Name ARROWHEAD Building BUILDING A Location : 2548 CAMPBELL PLACE System : REMOTE AREAI Contract Data File : Arrowhead Al I .WXF APPROVE9A)$UBMITTED - CARLSBA JARTMEP'3T - Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 INDUSTRIAL FIRE SPRINKLER CO. Page 1 ARROWHEAD Date 2/2/07 Hydraulic Desian Information Sheet Name - ARROWHEAD INSURANCE Date - 2/2/07 Location - 2548 CAMPBELL PLACE Building - BUILDING A System No. - REMOTE AREA1 Contractor - INDUSTRIAL FIRE SPRINKELR CO. Contract No. - Calculated By - M.G. Drawing No. - FP-2 Construction:. ( ) Combustible (X) Non-Combustible Ceiling..Height - 91 -0" Occupancy - LIGHT S (X) NFPA 13 (X) Lt. Haz. Ord.Haz.Gp. ( ) 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 - 1001 System Type Sprinkler/Nozzle Density - .10 (X) Wet Make VIKING D Area Per Sprinkler - 181 x18' ( ) Dry Model VK602 E Elevation at Highest Outlet - 91 -0" ( ) Deluge Size 3/4" S Hose Allowance - Inside - ( ) Preaction K-Factor 8.0 I Rack Sprinkler Allowance - ( ) Other Temp.Rat.155 G Hose Allowance - Outside - 100 N Note Calculation Flow Required - Press Required - Summary C-Factor Used: 120 Overhead 150 Underground W Water Flow Test: Pump Data: Tank or Reservoir: A Date of Test - 9/5/06 Cap. - T Time of Test - Rated Cap.- Elev.- E Static Press - 90 @ Press - R Residual Press - 88 Elev. - Well Flow - 1272 Proof Flow S Elevation - 323.0 U P Location - CAMPBELL PLACE P L Source of Information - PERFORMED BY I.F.S., WITNESSED BY CARLSBAD WATER DIST Y C Commodity Class 0 Storage Ht. Area M Storage Method Solid Piled % M Single Row ( ) Conven. Pallet Double Row ( ) Slave Pallet TA Mult. Row O C R K Flue Spacing A Longitudinal G E Horizontal Barriers Provided: Location Aisle W. Palletized % Rack Auto. Storage ( ) Encap. Solid Shelf ( ) Non Open Shelf Clearance:Storage to Ceiling Transverse Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Water Supply Curve (C) INDUSTRIAL FIRE SPRINKLER CO. Page 2 ARROWHEAD Date 2/2/07 City Water Supply: Demand: Cl -Static Pressure : 90 Dl - Elevation : 12.993 C2 - Residual Pressure: 88 D2 - System Flow : 180.898 C2 - Residual Flow : 1272 D2 - SrAdj sm Pressure : 56.612 Hose City)______Hose Demand) : 100 D3 - System Demand : 280.898 - Safety Margin : 33.266 150 140 130 P 120 R110 100 - ____ C2 S90 ______ _______ _________ S 80 n ---0 ob I u70 R" -e E5° 3 40 30 -- 20 10 --Dl- ... ... .... .. 200 400 600 800 1000. 1200 1400 1600 1800 FLOW (NA 1.85) Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Fittings Used Summary INDUSTRIAL FIRE SPRINKLER CO. Page 3 ARROWHEAD Date 2/2/07 Fitting Legend Abbrev. Name 1/2 % 1 1% 1% 2 214 3 31/2 4 5 6 8 10 12 14 16 18 20 24 E 90' Standard Elbow 2 2 2 3 4 5 6 7 8 10 12 14 18 22 27 35 40 45 50 61 F 45' Elbow 1 1 1 1 2 2 3 3 3 4 5 7 9 11 13 17 19 21 24 28 G Generic Gate Valve 1 1 1 1 1 1 1 1 1 2 2 3 4 5 6 7 8 10 11 13 T 90 Flow Thru Tee 3 4 5 6 8 10 12 15 17 20 25 30 35 50 60 71 81 91 101 121 Z Generic Flow Switch 2 2 2 3 4 5 6 7 8 10 12 14 18 22 27 35 40 45 50 61 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Pressure / Flow Summary - STANDARD INDUSTRIAL FIRE SPRINKLER CO. Page 4 ARROWHEAD Date 2/2/07 Node No. Elevation K-Fact Pt Actual Pn Flow Density Area Press Actual Req. D001 9.0 8 17.02 na 33.0 0.1 330 17.0 79 13.5 K= K@ EQ01 20.11 na 33.39 78 13.5 K=K@EQ01 21.98 na 34.9 71 13.5 K= K@ EQ01 30.65 na 41.22 72 13.17 33.58 na 73 11.0 37.41 na 66 13.5 K= K @ EQOI 26.59 na 38.39 67 13.17 31.6 na 70 13.17 35.78 na 214 13.17 35.94 na 215 13.17 36.15 na 138 25.5 32.32 na 137 25.5 32.31 na 136 25.5 32.29 na 126 25.5 32.36 na 122 25.5 32.34 na 121 25.5 32.3 na 101 25.5 32.37 na 121A 25.5 32.26 na 116 25.5 32.33 na 117 25.0 34.12 na 118 25.0 34.12 na 119 25.0 34.13 na 120 25.0 34.28 na 180 25.5 31.58 na 73A 11.0 37.5 na 111 25.0 34.2 na 112 25.0 34.21 na 113 25.0 34.23 na 114 25.0 34.25 na 115 25.0 34.37 na TRB 25.0 34.55 na 51 13.5 K=K©EQO1 19.65 na 33.0 52 13.17 22.47 na 53 13.17 23.31 na 54 13.17 26.36 na 55 13.17 33.02 na 56 11.0 37.05 na 57 11.0 37.16 na 58 11.0 37.27 na 59 11.0 37.28 na Fl 11.0 40.69 na P2 1.0 45.43 na BRA 1.0 45.56 na A -3.0 47.32 na BF2 -3.0 47.46 na BF1 -3.0 50.56 na B -3.0 50.63 na 100.0 0 -3.0 50.63 na E -3.0 50.68 na TEST -16.5 56.61 na The maximum velocity is 15.96 and it occurs in the pipe between nodes 54 and 55 Computer Programs by Hydratec Inc. Route Ill Windham N.H. USA 03087 Final Calculations - Hazen-Williams INDUSTRIAL FIRE SPRINKLER CO. Page 5 ARROWHEAD Date 2/2/07 Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv ***** Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn DOOI 33.00 1.049 1 E 2.0 2.500 17.016 K Factor = 8.00 to 120 lEqI 9.0 11.000 -1.806 EQOI 33.0 0.3286 0.0 13.500 4.436 Vel = 12.25 0.0 33.00 19.646 K Factor = 7.45 79 33.39 1.049 1 2.0 2.080 20.115 K Factor @ node EQOI to 120 IT 5.0 7.000 0.143 53 33.39 0.3358 0.0 9.080 3.049 Vel = 12.40 0.0 33.39 23.307 K Factor = 6.92 78 34.90 1.049 1 E 2.0 4.620 21.977 K Factor @ node EQOI to 120 IT 5.0 7.000 0.143 54 34.9 0.3645 0.0 11.620 4.236 Vel= 12.96 0.0 34.90 26.356 K Factor = 6.80 71 41.22 1.049 2E 4.0 1.620 30.646 K Factor © node EQOI to 120 0.0 4.000 0.143 72 41.22 0.4957 0.0 5.620 2.786 Vel = 15.30 72 0.0 1.61 2E 8.0 31.000 33.575 to 120 IT 8.0 16.000 0.940 73 41.22 0.0616 0.0 47.000 2.893 Vel = 6.50 73 -71.78 2.635 IT 16.474 25.500 37.408 to 120 0.0 16.474 0.0 58 -30.56 -0.0032 0.0 41.974 -0.135 Vel = 1.80 0.0 -30.56 37.273 K Factor= -5.01 66 38.39 1.049 2E 4.0 7.200 26.588 - K Faôtor @ node EQ01 to 120 0.0 4.000 0.143 67 38.39 0.4347 0.0 11.200 4.869 Vel = 14.25 67 0.0 1.61 4E 16.0 61.420 31.600 to 120 0.0 16.000 0.0 70 38.39 0.0540 0.0 77.420 4.179 Vel = 6.05 70 0.0 2.067 0.0 10.250 35.779 to 120 0.0 0.0 0.0 214 38.39 0.0160 0.0 10.250 0.164 Vel = 3.67 214 0.0 2.067 IT 10.0 2.790 35.943 to 120 0.0 10.000 0.0 215 38.39 0.0160 0.0 12.790 0.205 Vel = 3.67 215 0.0 2.067 IT 10.0 2.170 36.148 to 120 0.0 10.000 0.940 59 38.39 0.0159 0.0 12.170 0.194 Vel = 3.67 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Standard INDUSTRIAL FIRE SPRINKLER CO. Page 6 ARROWHEAD Date 2/2/07 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 38.39 37.282 K Factor = 6.29 138 8.91 1.38 4T 24.0 182.000 32.324 to 120 0.0 24.000 0.217 118 8.91 0.0077 0.0 206.000 1.578 Vel = 1.91 0.0 8.91 34.119 K Factor = 1.53 137 8.51 1.38 3E 9.0 189.000 32.310 to 120 5T 30.0 39.000 0.217 119 8.51 0.0070 0.0 228.000 1.607 Vel = 1.83 0.0 8.51 34.134 K Factor = 1.46 136 8.27 1.38 7E 21.0 225.250 32.294 to 120 3T 18.0 39.000 0.217 120 8.27 0.0067 0.0 264.250 1.767 Vel = 1.77 0.0 8.27 34.278 K Factor = 1.41 126 8.25 1.38 4T 24.0 221.500 32.359 to 120 0.0 24.000 0.217 112 8.25 0.0066 0.0 245.500 1.632 Vel 1.77 0.0 8.25 34.208 K Factor = 1.41 122 8.51 1.38 4T 24.0 213.500 32.339 to 120 0.0 24.000 0.217 113 8.51 0.0070 0.0 237.500 1.672 Vel = 1.83 0.0 8.51 34.228 K Factor = 1.45 121 8.50 1.38 3E 9.0 219.250 32.302 to 120 3T 18.0 27.000 0.217 114 8.5 0.0070 0.0 246.250 1.729 Vel = 1.82 0.0 8.50 34.248 K Factor = 1.45 101 -12.32 2.635 0.0 12.750 32.366 to 120 0.0 0.0 0.0 126 -12.32 -0.0005 0.0 12.750 -0.007 Vel = 0.72 126 -8.25 2.635 0.0 12.750 32.359 to 120 0.0 0.0 0.0 122 -20.57 -0.0016 0.0 12.750 -0.020 Vel = 1.21 122 -8.50 2.635 0.0 12.750 32.339 to 120 0.0 0.0 0.0 121 -29.07 -0.0029 0.0 12.750 -0.037 Vel = 1.71 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Standard INDUSTRIAL FIRE SPRINKLER CO. Page 7. ARROWHEAD Date 2/2/07 Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv ******* Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn 121 -8.50 2.635 0.0 8.250 32.302 to 120 0.0 0.0 0.0 121A -37.57 -0.0047 0.0 8.250 -0.039 Vel = 2.21 121A 71.77 2.635 0.0 8.000 32.263 to 120 0.0 0.0 0.0 136 34.2 0.0039 0.0 8.000 0.031 Vel = 2.01 136 -8.27 2.635 0.0 6.500 32.294 to 120 0.0 0.0 0.0 137 25.93 0.0025 0.0 6.500 0.016 Vel = 1.53 137 -8.51 2.635 0.0 12.750 32.310 to 120 0.0 0.0 0.0 138 17.42 0.0011 0.0 12.750 0.014 Vel = 1.02 138 -8.91 2.635 0.0 12.750 32.324 to 120 0.0 0.0 0.0 116 8.51 0.0003 0.0 12.750 0.004 Vel = 0.50 116 0.0 1.38 4E 12.0 187.000 32.328 to 120 4T 24.0 36.000 0.217 117 8.51 0.0070 0.0 223.000 1.570 Vel = 1.83 117 0.0 2.635 0.0 12.750 34.115 to 120 0.0 0.0 0.0 118 8.51 0.0003 0.0 12.750 0.004 Vel = 0.50 118 8.91 2.635 0.0 12.750 34.119 to 120 0.0 0.0 0.0 119 17.42 0.0012 0.0 12.750 0.015 Vel = 1.02 119 8.51 2.635 2E 16.474 44.250 34.134 to 120 0.0 16.474 0.0 120 25.93 0.0024 -0.0 60.724 0.144 Vel = 1.53 120 8.27 2.635 IT 16.474 6.590 34.278 to 120 0.0 16.474 0.0 115 34.2 0.0039 0.0 23.064 0.091 Vel = 2.01 0.0 34.20 34.369 K Factor = 5.83 121A -71.77 2.635 2E 16.474 10.920 32.263 to 120 IT 16.474 32.948 0.0 180 -71.77 -0.0156 0.0 43.868 -0.684 Vel = 4.22 180 0.0 2.635 1 8.237 14.500 31.579 to 120 0.0 8.237 6.280 73A -71.77 -0.0156 0.0 22.737 -0.355 Vel = 4.22 73A 0.0 2.635 0.0 6.170 37.504 to 120 0.0 0.0 0.0 73 -71.77 -0.0156 0.0 6.170 -0.096 Vel = 4.22 Computer Programs by Hydratec Inc. Route 111 Windharn N.H. USA 03087 Final Calculations - Standard INDUSTRIAL FIRE SPRINKLER CO. Page 8 ARROWHEAD Date 2/2/07 Hyd. Qa Dia. Filling Pipe Pt Pt Ref. "C" or Ftng's Pe Pv Notes ****** Point Qt Pf/Ft Eqv. Ln. Total Pf Pn 0.0 -71.77 37.408 K Factor = -11.73 101 12.32 1.61 41 32.0 213.500 32.366 to 120 0.0 32.000 0.217 111 12.32 0.0066 0.0 245.500 1.617 VeI= 1.94 111 0.0 2.635 0.0 12.750 34.200 to 120 0.0 0.0 0.0 112 12.32 0.0006 0.0 12.750 0.008 Vel = 0.72 112 8.25 2.635 0.0 12.750 34.208 to 120 0.0 0.0 0.0 113 20.57 0.0016 0.0 12.750 0.020 Vel = 1.21 113 8.50 2.635 0.0 7.000 34.228 to 120 0.0 0.0 0.0 114 29.07 0.0029 0.0 7.000 0.020 Vel = 1.71 114 8.50 2.635 iT 16.474 9.160 34.248 to 120 0.0 16.474 0.0 115 37.57 0.0047 0.0 25.634 0.121 Vel = 2.21 115 34.20 3.26 IE 9.408 23.040 34.369 to 120 0.0 9.408 0.0 TRB 71.77 0.0055 0.0 32.448 0.179 Vel = 2.76 TRB 0.0 3.26 0.0 14.000 34.548 to 120 0.0 0.0 6.063 Fl 71.77 0.0056 0.0 14.000 0.078 Vel = 2.76 0.0 71.77 40.689 K Factor = 11.25 51 33.00 1.049 2E 4.0 4.160 19.646 K Factor @ node EQ01 to - 120 0.01 4.000 0.143 - 52 33.0 0.3287 0.0 8.160 2.682 Vel = 12.25 52 0.0 1.61 0.0 20.500 22.471 to 120 0.0 0.0 0.0 53 33.0 0.0408 0.0 20.500 0.836 Vel = 5.20 53 33.39 1.61 0.0 20.500 23.307 to 120 0.0 0.0 0.0 54 66.39 0.1487 0.0 20.500 3.049 Vel = 10.46 54 34.90 1.61 0.0 20.500 26.356 to 120 0.0 0.0 0.0 55 101.29 0.3249 0.0 20.500 6.660 Vel = 15.96 55 0.0 2.067 21 20.0 12.120 33.016 to 120 0.0 20.000 0.940 56 101.29 0.0962 0.0 32.120 3.090 Vel = 9.68 56 0.0 3.26 0.0 11.330 37.046 to 120 0.0 0.0 0.0 57 101.29 0.0105 0.0 11.330 0.119 Vel = 3.89 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Standard INDUSTRIAL FIRE SPRINKLER CO. Page 9 ARROWHEAD Date 2/2/07 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 0.0 3.26 0.0 10.330 37.165 to 120 0.0 0.0 0.0 58 101.29 0.0105 0.0 10.330 0.108 Vel = 3.89 58 -30.55 3.26 0.0 1.660 37.273 to 120 0.0 0.0 0.0 59 70.74 0.0054 0.0 1.660 0.009 Vel = 2.72 59 38.38 3.26 2E 18.815 244.800 37.282 to 120 IT 20.159 38.974 0.0 Fl 109.12 0.0120 0.0 283.774 3.407 Vel = 4.19 Fl 71.78 4.26 IZ 13.167 10.000 40.689 to 120 IT 26.334 39.501 4.331 P2 180.9 0.0083 0.0 49.501 0.412 Vel = 4.07 P2 0.0 4.26 1 13.167 2.000 45.432 to 120 0.0 13.167 0.0 BRA 180.9 0.0083 0.0 15.167 0.126 Vel = 4.07 BRA 0.0 6.16 1 20.084 4.000 45.558 to 140 0.0 20.084 1.732 A 180.9 0.0010 0.0 24.084 0.025 Vel = 1.95 A 0.0 6.09 2F 21.583 81.000 47.315 to 150 2E 43.166 64.749 0.0 BF2 180.9 0.0010 0.0 145.749 0.141 Vel = 1.99 BF2 0.0 .6.16 2E 40.168 16.000 47.456 to 140 IT 43.037 83.205 3.000 * Fixed loss = 3 BFI 180.9 0.0010 0.0 99.205 0.103 Vel 1.95 BFI 0.0 6.09 1G 4.625 20.000 50.559 to 150 IT 46.249 50.874 0.0 B 180.9 0.0010' 0.0 70.874 - 0.068 Vel = B -13.11 9.79 3G 20.242 512.000 50.627 Qa = 100 to 150 1E 29.689 132.249 0.0 E 167.79 0.0001 IF 14.844 644.249 0.054 Vel = 0.72 IT 67.474 0.0 167.79 50.681 K Factor= 23.57 B 113.11 9.79 1 29.689 133.000 50.627 to 150 0.0 29.688 0.0 D 113.11 0.0 0.0 162.688 0.007 Vel = 0.48 D 0.0 9.79 6G 40.485 932.000 50.634 to 150 2E 59.378 241.559 0.0 E 113.11 0.0 5F 74.222 1173.559 0.047 Vel = 0.48 1 67.474 E 167.79 9.79 1E 29.689 272.000 50.681 to 150 IF 14.844 118.754 5.847 TEST 280.9 0.0002 1 6.747 390.754 0.084 Vel = 1.20 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Standard INDUSTRIAL FIRE SPRINKLER CO. Page 10 ARROWHEAD Date 2/2/07 Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv ***** Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn IT 67.474 0.0 280.90 56.612 K Factor= 37.33 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 - - - Fire Protection by Computer Design INDUSTRIAL FIRE SPRINKLER Co. 3845 IMPERIAL AVE. SAN DIEGO, CA 92113 619-266-6030 Job Name : ARROWHEAD Building : BUILDING A Location : 2548 CAMPBELL PLACE System : REMOTE AREA2 Contract : Data File : Arrowhead Al2.WXF Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 INDUSTRIAL FIRE SPRINKLER CO. Page 1 ARROWHEAD Date 2/2/07 Hydraulic Desien Information Sheet Name - ARROWHEAD INSURANCE Date - 2/2/07 Location - 2548 CAMPBELL PLACE Building - BUILDING A System No. - REMOTE AREA2 Contractor - INDUSTRIAL FIRE SPRINKELR CO. Contract No. - Calculated By - M.G. Drawing No. - FP-2 Construction: ( ) Combustible (X)-Non-Combustible Ceiling Height - 9'-0" Occupancy - ORDINARY GROUP 1 (X) NFPA 13 ( ) Lt. Haz. Ord.Haz.Gp. (X) 1 ( ) 2 ( ) 3 ( ) Ex.Haz. NFPA 231 ( ) NFPA 231C Figure Curve Other Specific Ruling Made By Date Area of Sprinkler Operation - 900 System Type Sprinkler/Nozzle Density - .15 (X) Wet Make VIKING Area Per Sprinkler - 130 ( ) Dry Model VK302 Elevation at--Highest Outlet - 91 -0" ( ) Deluge Size 1/2" Hose Allowance - Inside - ( ) Preaction K-Factor 5.6 Rack Sprinkler Allowance - ( ) Other Temp.Rat.155 Hose Allowance - Outside - 250 Note Calculation Flow Required - Press Required - Summary C-Factor Used: 120 Overhead 150 Underground '4 S Y S T E N D E S I G N Water Flow Test: Date of Test - 9/5/06 Time of Test - Static Press - 90 Residual Press - 88 Flow - 1272 Elevation - 323.0 Location - CAMPBELL PLACE Pump Data: Tank or Reservoir: Cap. - Rated Cap.- Elev.- @ Press - Elev. - Well Proof Flow W A T E R S U P P L Y Source of Information - PERFORMED BY I.F.S., WITNESSED BY CARLSBAD WATER DIST C Commodity Class Location 0 Storage Ht. Area Aisle W. M Storage Method: Solid Piled % Palletized % Rack M Single Row ( ) Conven. Pallet ( ) Auto. Storage ( ) Encap. SR Double Row ( ) Slave Pallet ( ) Solid Shelf ( ) Non TA Mult. Row ( ) Open Shelf 0 R 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 Water Supply Curve (C) INDUSTRIAL FIRE SPRINKLER CO. Page 2 ARROWHEAD Date 2/2/07 City Water Supply: Demand: Cl - Static Pressure : 90 Dl - Elevation : 11.044 C2 - Residual Pressure: 88 02 - System Flow : 216.911 C2 - Residual Flow : 1272 02 - System Pressure : 44.178 Hose(Adj City) ______ Hose ( Demand) : 250 D3 - System Demand : 466.911 Safety Margin : 45.509 150 140 130 p120 R110 E 100 Cl C2 S90 S80 u70 R6° E5° —0 - 40 30 20 . DI I 10 - I a_.I ____________________________ I I 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 Fittings Used Summary INDUSTRIAL FIRE SPRINKLER CO. Page 3 ARROWHEAD Date 2/2/07 Fitting Legend Abbrev. Name Yz % 1 14 1% 2 21/2 3 31/2 4 5 6 8 10 12 14 16 18 20 24 E 90' Standard Elbow 2 2 2 3 4 5 6 7 8 10 12 14 18 22 27 35 40 45 50 61 F 45' Elbow I I 1 1 2 2 3 3 3 4 5 7 9 11 13 17 19 21 24 28 G Generic Gate Valve I I 1 .1 1 1 1 1 1 2 2 3 4 5 6 7 8 10 11 13 T 90' Flow Thru Tee 3 4 5 6 8 10 12 15 17 20 25 30 35 50 60 71 81 91 101 121 Z Generic Flow Switch 2 2 2 3 4 5 6 7 8 10 12 14 18 22 27 35, 40 45 50 61 El Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Pressure / Flow Summary - STANDARD INDUSTRIAL FIRE SPRINKLER CO. Page 4 ARROWHEAD Date 2/2/07 Node Elevation K-Fact Pt Pn Flow Density Area Press No. Actual Actual Req. DIOI 9.0 5.6 16.49 na 22.74 0.15 130 7.0 0102 9.0 5.6 16.82 na 22.97 0.15 130 7.0 0103 9.0 5.6 16.95 na 23.05 0.15 130 7.0 D104 9.0 5.6 17.11 na. 23.17 0.15 130 7.0 D105 9.0 5.6 16.66 na 22.85 0.15 130 7.0 D106 9.0 5.6 12.53 na 19.82 0.15 130 7.0 0107 9.0 5.6 12.13 na 19.5 0.15 130 7.0 D108 9.0 5.6 16.99 na 23.08 0.15 130 7.0 0109 9.0 5.6 12.78 na 20.02 0.15 130 7.0 0110 9.0 5.6 12.38 na 19.7 0.15 130 7.0 227 14.0 12.62 na 226 13.5 12.95 na 243 13.5 14.19 na 225 14.0 13.09 na 224 13.5 18.32 na 223 14.0 18.05 na -: 220 13.5 12.47 na 244 13.5 13.68 na 221 13.17 16.24 na 222 13.17 16.81 na 219 13.5 17.6 na 216 13.5 18.13 na 77 13.17 20.34 na 218 13.17 20.39 na 213 13.5 17.79 na 214 13.17 19.7 na 215 13.17 19.98 na 138 25.5 18.74 na 137 25.5 18.72 na 136 25.5 18.7 na 126 25.5 18.78 na 122 25.5 18.76 na 121 25.5 18.71 na 101 25.5 18.79 na 121A 25.5 18.66 na 116 25.5 18.75 na 117 25.0 20.97 na 118 25.0 20.98 na 119 25.0 21.0 na 120 25.0 21.18 na 180 25.5 17.79 na 73A 11.0 23.61 na 73 11.0 23.49 na 111 25.0 21.08 na 112 25.0 21.09 na 113 25.0 21.12 na 114 25.0 21.14 na 115 25.0 21.3 na TRB 25.0 21.53 na 201 13.5 17.98 na 202 13.17 19.23 na 203 13.17 19.42 nä - 204 13.17 20.64 na 57 11.0 22.56 na 58 11.0 22.65 na 59 11.0 22.65 na Fl 11.0 27.69 na Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Flow Summary - Standard INDUSTRIAL FIRE SPRINKLER CO. Page 5 ARROWHEAD Date 2/2/07 Node Elevation K-Fact Pt Pn Flow Density Area Press No. Actual Actual Req. P2 1.0 32.6 na BRA 1.0 32.77 na A -3.0 34.54 na BF2 -3.0 3474 na BF1 -3.0 37.88 na B -3.0 37.98 na 250.0 D -3.0 37.99 na E -3.0 38.12 na TEST -16.5 44.18 na The maximum velocity is 14.79 and it occurs in the pipe between nodes 243 and 222 Computer Programs by Hydrated Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams INDUSTRIAL FIRE SPRINKLER CO. Page 6 ARROWHEAD Date 2/2/07 Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "Co or Ftng's Pe Pv ***** Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn 0101 22.74 1.049 IE 2.0 2.500 16.491 K Factor = 5.60 to 120 lEqI 14.0 16.000 -1.949 219 22.74 0.1650 0.0 18.500 3.053 Vel = 8.44 0.0 22.74 17.595 K Factor= 5.42 0102 22.97 1.049 IE 2.0 2.500 16.823 K Factor = 5.60 to 120 lEqI 14.0 16.000 -1.949 201 22.97 0.1681 0.0 18.500 3.110 Vel = 8.53 0.0 22.97 17.984 K Factor= 5.42 0103 23.05 1.049 IE 2.0 2.500 16.948 K Factor =5.60 to 120 lEqi 14.0 16.000 -1.949 216 23.05 0.1693 0.0 18.500 3.132 Vel = 8.56 0.0 23.05 18.131 KFactor= 5.41 D104 23.17 1.049 1 2.0 2.500 17.113 K Factor 5.60 to 120 lEqi 14.0 16.000 -1.949 224 23.17 0.1708 0.0 18.500 3.160 Vel = 8.60 0.0 23.17 18.324 KFactor= 5.41 0105 22.85 1.049 1 E 2.0 2.500 16.655 K Factor = 5.60 to 120 lEqi 14.0 16.000 -1.949 213 22.85 0.1665 0.0 18.500 3.081 Vel = 8.48 0.0 • 22.85 17.787 K Factor = 5.42 0106 19.82 1.049 1 2.0 2.500 12.530 K Factor = 5.60 to 120 lEqI 14.0 16.000 -1.949 226 19.82 0.1280 0.0 18.500 2.368 Vel 7.36 0.0 19.82 12.949 K Factor = 5.51 D107 19.50 1.049 1 2.0 2.500 12.125 K Factor =5.60 to 120 lEqi 14.0 16.000 -1.949 220 19.5 0.1242 0.0 18.500 2.298 Vel = 7.24 0.0 19.50 12.474 KFactor= 5.52 0108 23.08 1.049 1 2.0 3.000 16.989 K Factor = 5.60 to 120 lEqi 14.0 16.000 -2.166 223 23.08 0.1697 0.0 19.000 3.224 Vel = 8.57 0.0 23.08 18.047 K Factor = 5.43 0109 20.02 1.049 1 E 2.0 3.000 12.779 K Factor = 5.60 to 120 lEqI 14.0 16.000 -2.166 225 20.02 0.1304 0.0 19.000 2.477 Vel = 7.43 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Standard INDUSTRIAL FIRE SPRINKLER CO. Page 7 ARROWHEAD Date 2/2/07 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 20.02 13.090 K Factor= 5.53 DuO 19.70 1.049 IE 2.0 3.000 12.380 KFactor= 5.60 to 120 lEqI 14.0 16.000 -2.166 227 19.7 0.1266 0.0 19.000 2.406 Vel = 7.31 0.0 19.70 12.620 K Factor = 5.55 227 19.70 1.049 1 2.0 4.700 12.620 to 120 0.0 2.000 . 0.217 244 19.7 0.1264 0.0 6.700 0.847 Vel = 7.31 0.0 19.70 13.684 K Factor = 5.33 226 19.82 1.049 IT 5.0 4.670 12.949 to 120 0.0 5.000 0.0 243 19.82 0.1280 0.0 9.670 1.238 Vel = 7.36 243 20.02 1.049 IT 5.0 0.330 14.187 to 120 0.0 5.000 0.143 222 39.84 0.4657 0.0 5.330 2.482 Vel = 14.79 0.0 39.84 16.812 K Factor= 9.72 225 20.02 1.049 1 2.0 4.750 13.090 to 120 0.0 2.000 0.217 243 20.02 0.1304 0.0 6.750 0.880 Vel = 7.43 0.0 20.02 14.187 K Factor = 5.32 224 23.17 1.049 1 2.0 4.290 -18.324 to 120 IT 5.0 7.000 0.143 218 23.17 0.1708 0.0 11.290 1.928 VeI= 8.60 0.0 23.17 20.395 KFactor= 5.13 223 23.08 1.049 IE 2.0 5.620 18.047 to 120 0.0 2.000 0.359 214 23.08 0.1697 0.0 7.620 1.293 Vel = 8.57 0.0 23.08 19.699 K Factor = 5.20 220 19.50 1.049 IT 5.0 4.750 12.474 to 120 0.0 5.000 0.0 244 19.5 0.1241 0.0 9.750 1.210 VeI= 7.24 244 19.70 1.049 IT 5.0 0.330 13.684 to 120 0.0 5.000 0.143 221 39.2 0.4520 0.0 5.330 2.409 Vel = 14.55 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Standard INDUSTRIAL FIRE SPRINKLER CO. Page 8 ARROWHEAD Date 2/2/07 Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv ******* Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn 221 0.0 1.61 0.0 10.250 16.236 to 120 0.0 0.0 0.0 222 39.2 0.0562 0.0 10.250 0.576 Vel = 6.18 222 39.84 1.61 IT 8.0 7.450 16.812 to 120 0.0 8.000 0.0 215 79.04 0.2053 0.0 15.450 3.172 Vel = 12.46 0.0 79.04 19.984 KFactor= 17.88 219 22.74 1.049 IE 2.0 3.200 17.595 to 120 IT 5.0 7.000 0.143 203 22.74 0.1650 0.0 10.200 1.683 Vel = 8.44 0.0 22.74 19.421 K Factor = 5.16 216 23.05 1.049 1 2.0 5.200 18.131 to 120 IT 5.0 7.000 0.143 77 23.05 0.1693 0.0 12.200 2.065 Vel = 8.56 77 0.0 2.067 0.0 9.000 20.339 to 120 0.0 0.0 0.0 218 23.05 0.0062 0.0 9.000 0.056 Vel = 2.20 218 23.17 2.067 IT 10.0 0.950 20.395 to 120 0.0 10.000 0.0 204 46.22 0.0226 0.0 10.950 0.247 Vel = 4.42 0.0 46.22 20.642 K Factor= 10.17 213 22.85 1.049 IT 5.0 5.620 17.787 to 120 0.0 5.000 0.143 214 22.85 0.1666 0.0 10.620 1.769 Vel = 8.48 214 23.09 2.067 IT 10.0 2.790 19.699 to 120 0.0 10.000 0.0 215 45.94 0.0223 0.0 12.790 0.285 Vel = 4.39 215 79.04 2.067 IT 10.0 2.160 19.984 to 120 0.0 10.000 0.940 59124.98 0.1419 0.0 12.160 1.726 Vel = 11.95 0.0 .124.98 . 22.650. KFactor= 26.26 138 10.18 1.38 4T 24.0 182.000 18.741 to 120 0.0 24.000 0.217 118 10.18 0.0098 0.0 206.000 2.021 Vel = 2.18 0.0 10.18 20.979 K Factor = 2.22 137 9.73 1.38 3E 9.0 189.000 18.722 to 120 5T 30.0 39.000 0.217 119 9.73 0.0090 0.0 228.000 2.059 Vel = 2.09 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Standard INDUSTRIAL FIRE SPRINKLER CO. Page 9 ARROWHEAD Date 2/2/07 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 9.73 20.998 K Factor= 2.12 136 9.46 1.38 7E 21.0 225.250 18.702 to 120 3T 18.0 39.000 0.217 120 9.46 0.0086 0.0 264.250 2.263 Vel = 2.03 0.0 9.46 21.182 K Factor = 2.06 126 9.43 1.38 4T 24.0 221.500 18.785 to ... 120 0.0 .24.000 0.217 112 9.43 0.0085 0.0 245.500 2.091 Vel = 2.02 0.0 9.43 21.093 K Factor = 2.05 122 9.73 1.38 4T 24.0 213.500 18.760 to 120 0.0 24.000 0.217 113 9.73 0.0090 0.0 237.500 2.141 Vel = 2.09 0.0 9.73 21.118 K Factor = 2.12 121 9.71 1.38 3E 9.0 219.250 18.712 to 120 31 18.0 27.000 0.217 114 9.71 0.0090 0.0 246.250 2.215 Vel = 2.08 0.0 9.71 21.144 K Factor = 2.11 101 -14.08 2.635 0.0 12.750 18.794 to 120 0.0 0.0 0.0 126 -14.08 -0.0007 0.0 12.750 -0.009 Vel = 0.83 126 -9.43 2.635 0.0 12.750 18.785 to 120 0.0 0.0 0.0 122 -23.51 -0.0020 0.0 12.750 -0.025 Vel = 1.38 122 -9.73 2.635 0.0 12.750 18.760 to 120 0.0 0.0 0.0 121 -33.24 -0.0038 0.0 12.750 -0.048 Vel = 1.96 121 -9.71 2.635 0.0 8.250 18.712 to 120 0.0 0.0 0.0 121A -42.95 -0.0061 0.0 8.250 -0.050 Vel = 2.53 121A 82.05 2.635 8.000 18.662 to 120 0.0 0.0 0.0 136 39.1 0.0050 0.0 8.000 0.040 Vel = 2.30 136 -9.46 2.635 0.0 6.500 18.702 to 120 0.0 0.0 0.0 137 29.64 0.0031 0.0 6.500 0.020 Vel = 1.74 137 -9.73 2.635 0.0 12.750 18.722 to 120 0.0 0.0 0.0 138 19.91 0.0015 0.0 12.750 0.019 Vel = 1.17 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Standard INDUSTRIAL FIRE SPRINKLER CO. Page 10 ARROWHEAD Date 2/2/07 Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv ***** Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn 138 -10.18 2.635 0.0 12.750 18.741 to 120 0.0 0.0 0.0 116 9.73 0.0004 0.0 12.750 0.005 Vel = 0.57 116 0.0 1.38 4E 12.0 187.000 18.746 to 120 4T 24.0 36.000 0.217 117 . 9.73 0.0090 0.0 223.000 2.011 Vel = 2.09 117 0.0 2.635 0.0 12.750 20.974 to 120 0.0 0.0 0.0 118 9.73 0.0004 0.0 12.750 0.005 Vel = 0.57 118 10.18 2.635 0.0 12.750 20.979 to 120 0.0 0.0 0.0 119 19.91 0.0015 0.0 12.750 0.019 Vel = 1.17 119 9.73 2.635 2E 16.474 44.250 20.998 to 120 0.0 16.474 0.0 120 29.64 0.0030 0.0 60.724 0.184 Vel = 1.74 120 9.46 2.635 IT 16.474 6.590 21.182 to 120 0.0 16.474 0.0 115 39.1 0.0051 0.0 23.064 0.117 Vel = 2.30 0.0 39.10 21.299 KFactor= 8.47 121A -82.05 2.635 2E 16.474 10.920 18.662 to 120 iT 16.474 32.948 0.0 180 -82.05 -0.0200 0.0 43.868 -0.876 Vel = 4.83 180 0.0 2.635 1 8.237 14.500 17.786 to 120 0.0 8.237 6.280 73A -82.05 -0.0200 0.0 22.737 -0455 Vel = 4.83 73A 0.0 2.635 0.0 6.170 23.611 to 120 0.0 0.0 0.0 73 -82.05 -0.0199 0.0 6.170 -0.123 Vel = 4.83 73 0.0 2.635 iT 16.474 25.500 23.488 to 120 0.0 16.474 0.0 58 -82.05 -0.0200 0.0 41.974 -0.838 Vel = 4.83 0.0 -82.05 22.650 K Factor = -17.24 101 14.08. 1.61 . 4T 32.0. 213.500 18.794 to 120 0.0 32.000 0.217 111 14.08 0.0084 0.0 245.500 2.072 Vel = 2.22 III 0.0 2.635 0.0 12.750 21.083 to 120 0.0 0.0 0.0 112 14.08 0.0008 0.0 12.750 0.010 Vel = 0.83 112 9.43 2.635 0.0 12.750 21.093 to . 120 0.0 0.0 0.0 113 23.51 0.0020 0.0 12.750 0.025 Vel = 1.38 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Standard INDUSTRIAL FIRE SPRINKLER CO. Page 11 ARROWHEAD Date 2/2/07 Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv ******* Notes ****** Point Qt Pf/Ft Eqv. Ln. Total Pf Pn 113 9.73 2.635 0.0 7.000 21.118 to 120 0.0 0.0 0.0 114 33.24 0.0037 0.0 7.000 0.026 Vel = 1.96 114 9.71 2.635 IT 16.474 9.160 21.144 to 120 0.0 16.474 0.0 115 42.95 0.0060 0.0 25.634 0.155 Vel = 2.53 115 39.10 3.26 IE 9.408 23.040 21.299 to 120 0.0 9.408 0.0 TRB 82.05 0.0071 0.0 32.448 0.230 Vel = 3.15 TRB 0.0 3.26 0.0 14.000 21.529 to 120 0.0 0.0 6.063 Fl 82.05 0.0071 0.0 14.000 0.099 Vel = 3.15 0.0 82.05 27.691 K Factor = 15.59 201 22.97 1.049 2E 4.0 2.540 17.984 to 120 0.0 4.000 0.143 202 22.97 0.1682 0.0 6.540 1.100 Vel = 8.53 202 0.0 1.61 0.0 9.330 19.227 to 120 0.0 0.0 0.0 203 22.97 0.0208 0.0 9.330 0.194 Vel = 3.62 203 22.74 1.61 IT 8.0 8.370 19.421 to 120 0.0 8.000 0.0 204 45.71 0.0746 0.0 16.370 1.221 Vel = 7.20 204 46.22 2.067 IT 10.0 2.160 20.642 to 120 0.0 10.000 0.940 57 91.93 0.0803 0.0 12.160 0.977 Vel = 8.79 57 0.0 3.26 0.0 10.330 22.559 to 120 0.0 0.0 0.0 58 91.93 0.0088 0.0 10.330 0.091 Vel = 3.53 58 -82.05 3.26 0.0 1.660 22.650 to 120 0.0 0.0 0.0 59 9.88 0.0 0.0 1.660 0.0 Vel = 0.38 59 124.98 3.26 2E 18.815 244.800 22.650 to 120 IT 20.159 38.974 0.0 Fl 134.86 0.0178 0.0 283.774 5.041 Vel = 5.18 Fl 82.05 4.26 IZ 13.167 10.000 27.691 to 120 1T 26.334 39.501 4.331 P2 216.91 0016 0.0 49.501 0.576 Vel = 4.88 P2 0.0 4.26 1 13.167 2.000 32.598 to 120 0.0 13.167 0.0 BRA 216.91 0.0116 0.0 15.167 0.176 VeI= 4.88 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Standard INDUSTRIAL FIRE SPRINKLER CO. Page 12 ARROWHEAD Date 2/2/07 Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv ******* Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Fin BRA 0.0 6.16 1 20.084 4.000 32.774 to 140 0.0 20.084 1.732 A 216.91 0.0015 0.0 24.084 0.036 Vel = 2.34 A 0.0 6.09 2F 21.583 81.000 34.542 to 150 2E 43.166 64.749 0.0 BF2 216.91 0.0013 0.0 145.749 0.196 Vel = 2.39 BF2 0.0 6.16 2E 40.168 16.000 34.738 to 140 IT 43.037 83.205 3.000 * Fixed loss = 3 BFI 216.91 0.0015 0.0 99.205 0.144 Vel = 2.34 BFI 0.0 6.09 IG 4.625 20.000 37.882 to 150 iT 46.249 50.874 0.0 B 216.91 0.0014 0.0 70.874 0.096 Vel = 2.39 B 61.99 9.79 3G 20.242 512.000 37.978 Qa = 250 to 150 1 29.689 132.249 0.0 E 278.9 0.0002 1 14.844 644.249 0.137 VeI= 1.19 iT 67.474 0.0 278.90 38.115 KFactor= 45.18 B 188.01 9.79 IE 29.689 133.000 37.978 to 150 0.0 29.688 0.0 D 188.01 0.0001 0.0 162.688 0.017 Vel = 0.80 D 0.0 9.79 6G 40.485 932.000 37.995 to 150 2E 59.378 241.559 0.0 E 188.01 0.0001 5F 74.222 1173.559 0.120 Vel = 0.80 IT 67.474 E 278.90 9.79 IE 29.689 272.000 38.115 to 150 1F. 14.844 118.754 5.847 TEST 466.91 0.0006 IG 6.747 390.754 0.216 Vel = 1.99 IT 67.474 0.0 466.91 44.178 K Factor= 70.25 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 03-08-07 12:09pm From-industrial Fire Sprinkler 619 266 6035 1-567 P.001 F-656 INDUSTRIAL FIRE SPRINKLER CO. 3845 IMPERIAL AVE. SAN DIEGO, CA 92113 619-266-6030 Job Name ARROWHEAD Building : BUILDING A Location : 2548 CAMPBELL PLACE System : REMOTE AREA3 Contract Data File : Arrowhead A13.wxl Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Calculation Flow Required - Press Required - Summary C-Factor Used: 120 Overhead W A T E R S U P P L Y Date of Test - 9/5/06 Time of Test - Static Press - 90 Residual Press - 88 Flow - 1272 Elevation - 323.0 Water Flow Test: Location - CAMPBELL PLACE Source of Information - PERFORMED BY L.F.S., WITNESSED BY CARLSBAD WATER DIST Rated Cap. - 8 Press - Elev. - Pump Data: 150 Underground Tank or Reservoir: Cap. - Elev.- Well Proof Flow 03-08-01 12:09pm From-Industrial Fire Sprinkler 619 266 6035 1-561 P.002/009 F-656 INDUSTRIAL FIRE SPRINKLER CO. Page 1 ARROWHEAD . Date 212/07 Hydraulic Design Information Sheet Name - ARROWHEAD INSURANCE Date - 2/2/07 Location - 2548 CAMPBELL PLACE Building - BUILDING A System No. - REMOTE AREA3 Contractor - INDUSTRIAL FIRE SPRINKELR CO. Contract No. - Calculated By -. M.G. Drawing No. - 12-2 Construction: ( ) Combustible (X) Non-Combustible Ceiling Height - 91 -0" Occupancy - LIGHT S (x) NFPA 13 (X) Lt. Haz. Ord.Haz.Gp. C ) 1 ) 2 C ) 3 ( I Ex.Raz. Y ( ) NFPA 231 ( ) NFPA 231C ( ) Figure Curve S Other T Specific Ruling Made By Date E ____________ M Area of Sprinkler Operation - 1004 System Type Sprinkler/Nozzle Density - .10 C ) Wet Make VIKING D Area Per Sprinkler - 01 MAX. ( ) Dry Model VK302 E Elevation at Highest Outlet - 9'-0" C.) Deluge Size 1/2" S Hose Allowance - Inside - (X) Preaction K-Factor 5.6 I Rack Sprinkler Allowance - ( ) Other Temp.Rat.155 G Hose Allowance - Outside - 100 N Note Commodity Class Location Storage Ht. Area Aisle W. Storage Method: Solid Piled Palletized I Rack Single Row ( )Conven. Pallet C ) Auto. Storage C ) Encap. Double Row ( ) Slave Pallet C Solid Shelf C ) Non Mult. Row ( ) Open Shelf Flue Spacing Clearance tStomge to Ceiling Longitudinal Transverse Horizontal barriers Provided: Computer Programs by Hydratec Inc Route 111 Windham N.H. USA 03087 C 0 M N SR 0 A G E IHH1HIIIHII I1I1III'II1IHI HhIllUIIIIIII IIIIH 'ha" IIlIgIHllInI HhuIuiIHhIHI 111111 111111111 11111111111110 I UUIlEIUiUIIUi Iffi-iiM 0 0 10 I- mw 0 0 "rR o 03-08-07 12:10pm From-Industrial Fire Sprinkler 619 266 6035 1-567 P.003/009 F-656 Fittings Used Summary INDUSTRIAL FIRE SPRINKLER CO. ARROWHEAD : Page Date 3 2/2/07 0 Fitting Legend Abbrev. Name % 1 1Y4 1.4 2 2 3 3% 4 5 6 8 10 12 14 16 18 20 24 E 90' Standard Elbow 2 2 2 3 4 5 . 6 7 8 10 12 14 18 22 27 35 40 45 50 61 F •45'Elbow 1 1 1 1 2 2 3 3 3 4 5 .7 9 11 13 17 19 21 24 28 G Generic Gate Valve I I I I I I I 1 1 2 2 3 4 5 8 7 8 10 11 13 23 S Generic Swing Check VIv 4 5 5 7 9 11 14 18 19 22 27 32 45 55 65 78 87 98 109 130 1 90 Flow Thru Tee 3 4 5 6 8 10 12 15 17 20 25 30 35 50 60 71 81 91 101 121 X '1 -n U) C) C) p.) C) C) 0 Ca C)' Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 03-08-07 12:10pm From-Industrial Fire Sprinkler 619 266 6035 1-567 P.005/009 F-656 INDUSTRIAL FIRE SPRINKLER CO. Page 4 ARROWHEAD - . Date 2/2107 Node Elevation K-Fact Pt Pn Flow Density Area Press No. Actual Actual Req. 0001 9.0 5.6 11.19 no 19.23 0.1 168 7.0 0002 9.0 5.6 12.68 no 20.1 01 201 7.0 0003 9.0 5.6 11.92 na 19.34 0.1 168 7.0 0004 9.0 5.8 13.02 no 20.21 0.1 198 7.0 0005 9.0 5.6 9.34 no 17.11 0.1 168 7.0 0006 9.0 5.6 13.71 no 20.73 0.1 196 7.0. 0007 9.0 5.6 9.59 no 17.34 0.1 127 7.0 0008 9.0 5.6 12.03 no 19.42 0.1 127 7.0 13 11.0 9.13 no 12 11.0 11.65 no 11 11.0 12.54 no 10 11.0 12.69 no 9 11.0 11.54 na 8 11.0 13.4 no 5 11.0 8.86 no 6 10.61 10.4 na 7 . 10.67 12.89 .no 1 11.0 11.41 . no 2 10.67 14.24 no 3 10.67 14.4 no 4 10.67 15.14 no P1 10.87 46.59 no P2 1.0 58.9 na URA 1.0 58.99 na A -.o 60.74 no SF2 -3.0 60.84 no SF1 -30 6392 no 6 -3.0 63.97 no 100.0 0 -3.0 63.97 no E -3.0 64.01 no TEST .18.5 69.93 na The ma,amum velocity is 13.48 and it occurs in the pipe between nodes 4 and P1 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 0.0 20.10 19.34 1.049 120 19.34 0.1222 0.0 19.34 I 2.0 0.0 0.0 1 2.0 0.0 0.0 D002 20.10 1.049 to 120 11 20.1 0.1312 03-08-07 12:10pm From-Industrial Fire Sprinkler 619 266 6035 1-567 P.006/009 F-656 INDUSTRIAL FIRE SPRINKLER CO; Page 5 ARROWHEAD . . ; . . . Date 2/2/07 1-lyd. Qa Dia. Fitthg Pipe Pt Pt Ref. or Ftng's Pe Pv *m,** Notes AAAA* Point Qt Pt/Ft Eqv. Ln. Total Pf Pn D001 19.23 1.049 1 E 20 2.000 11.792 to 120 0.0 2.000 -0.866 1 19.230.1208 0.0 4.000 0.483 0.0 19.23 11.40 2.000 12.883 2.000 -0.866 4.000 0.525 12.542 2.000 11.922 2.000 -0.866 4.000 0.489 K Factor = 5.60 VeI= 7.14 K Factor = 5.69 K Factor = 5.60 VeI = 7.46 K Factor = 5.68 K Factor = 5.60 Vel = 7.18 K Factor 5.69 0004 20.21 1.049 to 120 10 20.21 0.1325 0.0 20.21 0005 17.11 1.049 to 120 17.11 0.0975 0.0 17.11 M 0.0 20.73 0007 to 13 1E 2.0 2.000 13.025 0.0 2.000 -0.866 0.0 4.000 ... 0.530- 12.689 IE 2.0 2.000 9.337 0.0 2.000 -0.866 0.0 4.000 0.390 8.861 13.398 2.000 9.592 2.000 -0.866 4.000 0.399 9.125 2.000 12.025 2.000 -0.866 4.000 0.493 k Factor = 5.60 Ve17 7.50 K Factor= 5.67 K Factor = 5.60 VeI= 6.35 K Factor = 5.75 KEactor5.60 VeI= 7.70 KFactor = 5.66 K Factor = 5.60 VeI= 6.44 K Factor = 5.74 K Factor = 5.60 VeI= 7.21 20.73 1.049 1 2.0 2.000 . 13.707 120 0.0 2.000 -0.866 20.73 0.1393 0.0 4.000 0.557 17.34 1.049 1E 2.0 120 0.0 17.34 0.0998 .. 0:0 0.0 17.34 19.42 1.049 1 2.0 120 0.0 19.42 0.1232 0.0 0.0 19.42 11.652 . K Factor 5.69 13 17.34 1.049 2E 4.0 2.330 9.125 to 120 IT 5.0 9.000 0.143 6 17.34 0.1000 0.0 11330 1.133 Vel = 6.44 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 17.35 1.049 0.0 7.000 10.401 120 0.0 0.0 0.0 34.46 0.3560 0.0 7.000 2.492 19.41 1.38 IT 6.0 4.50G 12.893- 120 0.0 6.000 0.0 53.87 0.2140 0.0 10.500 2.247 0.0 53.87 15.140 6 to 7 7 to 4 Vel =12.79 Vet= 11.56 K Factor= 13.84 03-08-07 12:10pm From-Industrial Fire Sprinkler 619 266 6035 1-567 P.007/009 F-656 INDUSTRIAL FIRE SPRINKLER CO. Page 6 ARROWHEAD : - Date 2007 Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "CIO or Ftng's Pe Pv Notes Point Qt Pt/Ft Eqv. Ln. Total PT Pn 0.0 1734 10.401 K Factor 5.38 12 19.42 1.049 1E 2.0 1.910 11.652 to 120 IT 5.0 7.000 0.143 7 19.42 0.1232 0.0 8.910 1.098 -. Vel 7.21 0.0 19.42 .. 12.893 K Factor = 5.41 11 20.10 1.049 2E 4.0 2.830 12.542 to 120 IT 5.0 9.000 0.143 2 ___20.1 0.1314 _0.0 - 11.830 1.554 Vel = 746 0.0 20.10 . . -- 14.239 K Factor = 5.33 10 20.21 1.049 2E 4.0 2.830 12.689 to 120 IT 5.0 9.000 0.143 3 20.21 0.1327 0.0 11.8301.570 Vel =7.50 0.0 20.21 .. . . 14.402 _K Factor =5.33 9 19.34 1.049 2E 4.0 13.200 11.545 to 120 IT 5.0 9.000 0.143 319.34 01223 0.0 22.200 2.714 VeI=7.18 0.0 19.34 8 20.73 1.049 to 120 4 20.73 0.1390 0.0 20.73 5 17.11 1.049 to 120 6 17.11 0.0975 2E 4.0 2.500 IT 5.0 9.000 0.0 11.500 2E 4.0 5.330 IT 5.0 9.000 0.0 14.330 14.402 K_Factor _5.10 13.398 0.143 1.599 VeI= 7.70 15.140 K Factor = 5.33 8.861 0.143 1.397 Vel = 6.35 1 19.23 1049 to 120 2 19.23 0.1210 2E 4.0 13.200 11.409 IT 5.0 9.000 0.143 0.0 22.200 2.687 Vel= 7.14 Computer Programs by Hythatec Inc. Route 111 Windham N.H. USA 03087 03-08-01 12:10pm From-Industrial Fire Sprinkler INDUSTRIAL FIRE SPRINKLER Co. ARROWHEAD 619 266 6035 1-561 P.008/009 F-656 Page 7 Date 212/07 Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe PV AAAAAAA Notes Point Qt Pf/Ft Eqv. In. Total Pt Pn 2 20.10 2.157 0.0 12.000 14.239 to 120 0.0 0.0 0.0 3 . 39.3.30.0136 0.0 12.000 0.163 3 39.55 2.157 0.0 15.000 14.402 to 120 0.0 0.0 0.0 4 78.88 0.0492 0.0 15.000 0.738 - 4 74.60 2.157 4E 24.613 161.870 15.140 to 120 0.0 24.613 0.0 P1 153.48 0.1687 0.0 186.483 31.453 - P1 0.0 2.167 1 6.153 12.420 46.593 to 120 . is 13.537 35.690 4.188 P2 153.48 0.1687 lEgi 19.691 48.110 8.114 P2 0.0 4.26 1E 13.167 2.000 58.895 to 120 0.0 13.167 0.0 BRA 153.48 0.0061 0.0 15.167 0.093 BRA 0.0 6.16 1 20.084 4.000 58.988 to 140 0.0 20.084 1.732 Vel = 3.45 Vel 6.93 Vet 13.48 Vel= 13.48 Vel= 3.45 A 13.4 0.0008 0.0 24.084 0.019 Val = 1.65 A 0.0 6.09 2F 21.583 81.000 60.739 to 150 2E 43.166 64.749 0.0 BF2 153.48 0.0007 0.0 - 145.749 . 0.104 BF2 0.0 6.16 2E 40.168 16.000 60.843 to 140 IT 43.037 83.205 3.000 BFI 15348 0.0008 0.0 99.205 0.076 BFI 0.0 6.09 16 4.625 20.000 63.919 to 150 IT 46.249 50.874 0.0 B - 153.48 0.0007 00 70.874_0.050 B -2.07 9.79 3(3 20.242 512.000 63.969 to 150 IE 29.689 132.249 0.0 E 151.41 0.0001 IF 14.844 644.249 0.044 IT 67.474 Vel= 1.69 * Fixed loss =3 Vel= 1.65 Vel = 1.69 Qa100 0.0 151.41 B 102.07 9.79 to 150 D 102.07 0.0 0 0.0 9.79 to 150 E 102.07 0.0 E 151.41 9.79 to 150 TEST 253.48 0.0002 1E 29.689 133.000 0.0 29.688 0.0 162.688 66 40.485 932.000 2E 59.378 241.559 SF 74.222 1173.559 IT 67.474 1E 29.689 272.000 IF 14.844 118.754 16 . 6.147 390.754 64.013 63.974 0.0 0.039 64.013 5.847 0.070 W - 10 0,11 Vel = 0.44 Vet = 0.44 Vel = 1.08 Computer Programs by Hydrefec Inc. Route 111 Windham N.H. USA 03037 03-08-0? 12:10pm From-Industrial Firm Sprinkler 619 266 6035 1-567 P.009/009 F-656 INDUSTRIAL FIRE SPRINKLER CO. Page 8 ARROWHEAD -• . Date 212107 Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv Lk&*A.. Notes £1*AL* Point Qt Pt/Ft Eqv. Ln. Total Pt Pn iT67.474 0.0 25348 69.930 K Factor = 3031 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 \JFLJ - - - Fire Protection by Computer Design INDUSTRIAL FIRE SPRINKLER CO. 3845 IMPERIAL AVE. SAN DIEGO, CA 92113 619-266-6030 Job Name : ARROWHEAD Building : BUILDING A Location : 2548 CAMPBELL PLACE System : REMOTE AREA4 Contract Data File : Arrowhead A2.WXF i Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 INDUSTRIAL FIRE SPRINKLER CO. Page 1 ARROWHEAD Date 2/2/07 Hydraulic Design Information Sheet Name - ARROWHEAD INSURANCE Date - 2/2/07 Location - 2548 CAMPBELL PLACE Building - BUILDING A System No. - REMOTE AREA4 Contractor - INDUSTRIAL FIRE SPRINKELR CO. Contract No. - Calculated By - M.G. Drawing No. - FP-3 Construction: ( ) Combustible (X) Non-Combustible Ceiling Height - 23'-6" Occupancy - LIGHT S (X) NFPA 13 (X) Lt. Haz. Ord.Haz.Gp. ( ) 1 ( ) 2 ( ) 3 C ) Ex.Haz. Y ( ) NFPA 231 ( ) NFPA 231C ( ) Figure Curve S Other T Specific Ruling - Made By Date E M Area of Sprinkler Operation - 1249 System Type Sprinkler/Nozzle Density - .10 (X) Wet Make VIKING D Area Per Sprinkler - 18'x18' ( ) Dry Model VK602 E Elevation at Highest Outlet - 23'-6" ( ) Deluge Size 3/4" S Hose Allowance - Inside - ( ) Preaction K-Factor 8.0 I Rack Sprinkler Allowance - ( ) Other Temp.Rat.155 G Hose Allowance - Outside - 100 N Note Calculation Flow Required - Press Required - Summary C-Factor Used: 120 Overhead 150 Underground W Water Flow Test: Pump Data: Tank or Reservoir: A Date of Test - 9/5/06 Cap. - T Time of Test - Rated Cap.- Elev.- E Static Press - 90 8 Press - R Residual Press - 88 Elev. - Well Flow - 1272 Proof Flow S Elevation - 323.0 U P Location - CAMPBELL PLACE P L Source of Information - PERFORMED BY I.F.S., WITNESSED BY CARLSBAD WATER DIST 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 ( ) Slave Pallet ( ) Solid Shelf ( ) Non T A ( ) Mult. Row ( ) Open Shelf 0 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 Water Supply Curve (C) INDUSTRIAL FIRE SPRINKLER CO. ARROWHEAD Page 2 Date 2/2/07 City Water Sypply: CI - Static Pressure : 90 C2 - Residual Pressure: 88 C2 - Residual Flow : 1272 Demand: Dl - Elevation : 19.741 D2 - System Flow : 173.64 : 67.970 D2 - SrAdj sm Pressure Hose City)_______Hose Demand) : 100 D3 - System Demand : 273.64 Safety Margin : 21.914 150 140 130 P 120 R110 E 100 Cl S90 S 80 U70 R6° E 50 40 30 20 DI 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 Fittings Used Summary INDUSTRIAL FIRE SPRINKLER CO. Page 3 ARROWHEAD Date 2/2/07 Fitting Legend Abbrev. Name 1/2 % 1 1% 1Y2 2 214 3 314 4 5 6 8 10 12 14 16 18 20 24 E 90 Standard Elbow 2 2 2 3 4 5 6 7 8 10 12 14 18 22 27 35 40 45 50 61 F 45' Elbow 1 1 1 1 2 2 3 3 3 4 5 7 9 11 13 17 19 21 24 28 G Generic Gate Valve 1 I 1 1 1 1 1 1 1 2 2 3 4 5 6 7 8 10 II 13 T 90' Flow Thru Tee 3 4 5 6 8 10 12 15 17 20 25 30 35 50 60 71 81 91 101 121 Z Generic Flow Switch 2 2 2 3 4 5 6 7 8 10 12 14 18 22 27 35 40 45 50 61 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Pressure I Flow Summary - STANDARD INDUSTRIAL FIRE SPRINKLER CO. Page 4 ARROWHEAD Date 2/2/07 Node Elevation K-Fact Pt Pn Flow Density Area Press No. Actual Actual Req. DRP1 23.5 8 17.02 na 33.0 0.1 330 17.0 DRP2 23.5 8 17.02 na 33.0 0.1 330 17.0 203 29.45 K= K @ EQ1 24.68 na 36.67 204 29.45 K= K @ EQ1 25.23 na 37.08 205 29.08 K= K @ EQ2 20.72 na 33.71 206 29.08 K= K @ EQ2 19.86 na 33.0 207 29.08 K= K @ EQ2 20.07 na 33.18 137 25.5 43.43 na 215 28.75 26.59 na 216 28.75 25.7 na 217 28.75 25.77 na 136 25.5 43.48 na 213 29.12 30.25 na 214 29.12 30.19 na 138 25.5 43.44 na 126 25.5 43.75 na 122 25.5 43.73 na 121 25.5 43.7 na 101 25.5 43.75 na 121A 25.5 43.67 na 116 25.5 43.44 na 117 25.0 44.42 na 118 25.0 44.42 na 119 25.0 44.43 na 120 25.0 44.95 na 180 25.5 44.11 na 73A 11.0 50.62 na 73 11.0 50.68 na 58 11.0 51.1 na 111 25.0 45.28 na 112 25.0 45.29 na 113 25.0 45.3 na 114 25.0 45.32 na 115 25.0 45.42 na TRA 25.0 45.86 na Fl 11.0 52.12 na P2 1.0 56.83 na BRA 1.0 56.95 na A -3.0 58.7 na BF2 -3.0 58.83 na BF1 -3.0 61.93 na B -3.0 61.99 na 100.0 D -3.0 62.0 na E -3.0 62.04 na TEST -16.5 67.97 na The maximum velocity is 13.77 and it occurs in the pipe between- nodes 204 and 214 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams INDUSTRIAL FIRE SPRINKLER CO. Page 5 ARROWHEAD Date 2/2/07 Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv ***** Notes ****** Point Qt Pf/Ft Eqv. Ln. Total Pf Pn DRPI 33.00 1.049 IE 2.0 3.950 17.016 K Factor = 8.00 to 120 lEqI 9.0 11.000 -1.949 EQ1 33.0 0.3286 0.0 14.950 4.913 Vel = 12.25 0.0 33.00 19.980 K Factor= 7.38 DRP2 33.00 1.049 1 2.0 3.580 17.016 K Factor = 8.00 to 120 lEqI 9.0 11.000 -1.949 EQ2 33.0 0.3286 0.0 14.580 4.791 Vel = 12.25 0.0 33.00 19.858 K Factor = 7.41 203 36.67 1.049 2T 10.0 3.580 24.677 K Factor © node EQ1 to 120 0.0 10.000 0.143 213 36.67 0.3996 0.0 13.580 5.426 Vel = 13.61 0.0 36.67 30.246 K Factor = 6.67 204 37.08 1.049 21 10.0 1.830 25.225 K Factor@ node EQ1 to 120 0.0 10.000 0.143 214 37.08 0.4078 0.0 11.830 4.824 Vel = 13.77 0.0 37.08 30.192 K Factor = 6.75 205 33.71 1.049 2T 10.0 6.750 20.721 K Factor @ node EQ2 to 120 0.0 10.000 0.143 215 33.71 0.3419 0.0 16.750 5.726 Vel = 12.51 0.0 33.71 26.590 K Factor = 6.54 206 33.00 1.049 2T 10.0 7.330 19.858 K Factor © node EQ2 to 120 0.0 10.000 0.143 216 33.0 0.3287 0.0 17.330 5.696 Vel = 12.25 0.0 33.00 25.697 K Factor = 6.51 207 33.18 1.049 21 10.0 6.750 20.072 K Factor© node EQ2 to 120 0.0 10.000 0.143 217 33.18 0.3319 0.0 16.750 5.559 Vel = 12.32 0.0 33.18 .25.774 K Factor 6.54., 137 -59.77 1.38 21 12.0 47.500 43.429 to 120 0.0 12.000 -1.408 215 -59.77 -0.2593 0.0 59.500 -15.431 Vel = 12.82 215 33.71 1.38 0.0 16.000 26.590 to 120 0.0 0.0 0.0 216 -26.06 -0.0558 0.0 16.000 -0.893 Vel = 5.59 Computer Programs by Hydratec Inc. Route 111 Windham NH. USA 03087 Final Calculations - Standard INDUSTRIAL FIRE SPRINKLER CO. Page 6 ARROWHEAD Date 2/2/07 Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. 11C11 or Ftng's Pe Pv ***** Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn 216 33.00 1.38 0.0 16.000 25.697 to 120 0.0 0.0 0.0 217 6.94 0.0048 0.0 16.000 0.077 Vel = 1.49 217 33.18 1.38 3E 9.0 110.250 25.774 to 120 3T 18.0 27.000 1.624 119 40.12 0.1241 0.0 137.250 17.028 Vel = 8.61 0.0 40.12 44.426 K Factor = 6.02 136 -42.39 1.38 3E 9.0 69.920 43.477 to 120 IT 6.0 15.000 -1.568 213 -42.39 -0.1373 0.0 84.920 -11.663 Vel = 9.09 213 36.68 1.38 0.0 16.000 30.246 to 120 0.0 0.0 0.0 214 -5.71 -0.0034 0.0 16.000 -0.054 Vel = 1.22 214 37.08 1.38 4E 12.0 140.830 30.192 to 120 2T 12.0 24.000 1.784 120 31.37 0.0787 0.0 164.830 12.970 Vel = 6.73 0.0 31.37 44.946 K Factor = 4.68 138 6.03 1.38 4T 24.0 182.000 43.436 to 120 0.0 24.000 0.217 118 6.03 0.0037 0.0 206.000 0.766 Vel = 1.29 0.0 6.03 44.419 K Factor = 0.90 126 7.50 1.38 4T 24.0 213.500 43.747 to 120 0.0 24.000 0.217 112 7.5 0.0056 0.0 237.500 1.324 Vél = 1.61 0.0 7.50 45.288 K Factor = 1.11 122 7.58 1.38 4T 24.0 214.580 43.730 to 120 0.0 24.000 0.217 113 7.58 0.0057 0.0 238.580 1.357 Vel = 1.63 0.0 7.58 45.304 K Factor = 1.13 121 7.57 1;38 3E 9.0 220.670 43.700 to 120 3T 18.0 27.000 0.217 114 7.57 0.0057 0.0 247.670 1.404 Vel = 1.62 0.0 7.57 45.321 K Factor = 1.12 101 -11.03 2.635 0.0 12.750 43.753 to 120 0.0 0.0 0.0 126 -11.03 -0.0005 0.0 12.750 -0.006 Vel = 0.65 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Standard INDUSTRIAL FIRE SPRINKLER CO. Page 7 ARROWHEAD Date 2/2/07 Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv ******* Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn 126 -7.50 2.635 0.0 12.750 43.747 to 120 0.0 0.0 0.0 122 -18.53 -0.0013 0.0 12.750 -0.017 Vel = 1.09 122 -7.58 2.635 0.0 12.750 43.730 to 120 0.0 0.0 0.0 121 -26.11 -0.0024 0.0 12.750 -0.030 Vel = 1.54 121 -7.57 2.635 0.0 8.250 43.700 to 120 0.0 0.0 0.0 121A -33.68 -0.0039 0.0 8.250 -0.032 Vel = 1.98 121A -56.68 2.635 0.0 8.000 43.668 to 120 0.0 0.0 0.0 136 -90.36 -0.0239 0.0 8.000 -0.191 Vel = 5.32 136 42.38 2.635 0.0 6.500 43.477 to 120 0.0 0.0 0.0 137 -47.98 -0.0074 0.0 6.500 -0.048 Vel = 2.82 137 59.77 2.635 0.0 12.750 43.429 to 120 0.0 0.0 0.0 138 11.79 0.0005 0.0 12.750 0.007 Vel = 0.69 138 -6.03 2.635 0.0 12.750 43.436 to 120 0.0 0.0 0.0 116 5.76 0.0002 0.0 12.750 0.002 Vel = 0.34 116 0.0 1.38 4E 12.0 187.000 43.438 to 120 4T 24.0 36.000 0.217 117 5.76 0.0034 0.0 223.000 0.763 Vel = 1.24 117 0.0 2.635 0.0 12.750 44.418 to 120 0.0 0.0 0.0 118 5.76 0.0001 0.0 12.750 0.001 - Vel = 0.34 118 6.03 2.635 0.0 12.750 44.419 to 120 0.0 0.0 0.0 119 11.79 0.0005 0.0 12.750 0.007 Vel= 0.69 119 40.12 2.635 2E 16.474 44.250 44.426 to 120 0.0 16.474 0.0 120 51.91 0.0086 0.0 60.724 0.520 Vel = 3.05 120 31.37 2.635 iT 16.474 6.590 44.946 to 120 0.0 16.474 0.0 • 115 83.28 0.0206 0.0 23.064 0.474 Vel = 4.90 0.0 83.28 45.420 K Factor= 12.36 121A 56.68 2.635 2E 16.474 10.920 43.668 to 120 iT 16.474 32.948 0.0 180 56.68 0.0101 0.0 43.868 0.442 Vel = 3.33 Computer Programs by Hydratec Inc. Route 111 Windham NH; USA 03087 Final Calculations -Standard INDUSTRIAL FIRE SPRINKLER CO. Page 8 ARROWHEAD Date 2/2/07 Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv ***** Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn 180 0.0 2.635 IE 8.237 14.500 44.110 to 120 0.0 8.237 6.280 73A 56.68 0.0101 0.0 22.737 0.229 Vel = 3.33 73A 0.0 2.635 0.0 6.080 50.619 to 120 0.0 0.0 0.0 73 56.68 0.0100 0.0 6.080 0.061 Vel = 3.33 73 0.0 2.635 IT 16.474 25.500 50.680 to 120 0.0 16.474 0.0 58 56.68 0.0101 0.0 41.974 0.424 Vel = 3.33 58 0.0 3.26 2E 18.815 244.700 51.104 to 120 iT 20.159 38.974 0.0 Fl 56.68 0.0036 0.0 283.674 1.013 Vel = 2.18 0.0 56.68 52.117 K Factor= 7.85 101 11.03 1.61 4T 32.0 212.500 43.753 to 120 0.0 32.000 0.217 111 11.03 0.0054 0.0 244.500 1.312 VeI= 1.74 111 0.0 2.635 0.0 12.750 45.282 to 120 0.0 0.0 0.0 112 11.03 0.0005 0.0 12.750 0.006 Vel = 0.65 112 7.50 2.635 0.0 12.750 45.288 000 to 120 0.0 0.0 0.0 113 18.53 0.0013 0.0 12.750 0.016 Vel = 1.09 113 7.58 2.635 0.0 7.000 45.304 to 120 0.0 0.0 0.0 114 26.11 0.0024 0.0 7.000 0.017 VeI= 1.54 114 7.57 2.635 11 16.474 9.160 45.321 0 to 120 0.0 16.474 0.0 115 33.68 0.0039 0.0 25.634 0.099 Vel = 1.98 115 83.28 3.26 1E 9.408 23.040 45.420 to 120 0.0 9.408 0.0 TRA 116.96 0.0137 0.0 32.448 0.443 Vel = 4.50 TRA 0.0 3.26 0.0 14.000 45.863 to 120 0.0 0.0 6.063 Fl 116.96 0.0136 0.0 14.000 0.191 Vel= 4.50 Fl 56.68 4.26 1Z 13.167 10.000 52.117 to 120 iT 26.334 39.501 4.331 P2 173.64 0.0077 0.0 49.501 0.382 Vel = 3.91 P2 0.0 4.26 1 13.167 2.000 56.830 to 120 0.0 13.167 0.0 BRA 173.64 0.0077 0.0 15.167 0.117 VeI= 3.91 BRA 0.0 6.16 1E 20.084 4.000 56.947 to 140 0.0 20.084 1.732 A 173.64 0.0010 0.0 24.084 0.023 Vel = 1.87 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Standard INDUSTRIAL FIRE SPRINKLER CO. Page 9 ARROWHEAD Date 2/2/07 Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. 11C or Ftng's Pe Pv ******* Notes ****** Point Qt Pf/Ft Eqv. Ln. Total Pf Pn A 0.0 6.09 2F 21.583 81.000 58.702 to 150 2E 43.166 6.4749 0.0 BF2 173.64 0.0009 0.0 145.749 0.131 Vel= 1.91 BF2 0.0 6.16 2E 40.168 16.000 58.833 to 140 IT 43.037 83.205 3.000 * Fixed loss = 3 BF1 173.64 0.0010 0.0 99.205 0.095 Vel = 1.87 BFI 0.0 6.09 1G 4.625 20.000 61.928 to 150 iT 46.249 50.874 0.0 B 173.64 0.0009 0.0 70.874 0.063 Vel = 1.91 B -10.19 9.79 3G 20.242 512.000 61.991 Qa = 100 to 150 IE 29.689 132.249 0.0 E 163.45 0.0001 iF 14.844 644.249 0.051 Vel = 0.70 IT 67.474 0.0 163.45 62.042 K Factor= 20.75 B 110.19 9.79 IE 29.689 133.000 61.991 to 150 0.0 29.688 0.0 D 110.19 0.0 0.0 162.688 0.007 Vel = 0.47 D 0.0 9.79 6G 40.485 932.000 61.998 to 150 2E 59.378 241.559 0.0 E 110.19 0.0 5F 74.222 1173.559 0.044 Vel = 0.47 IT 67.474 E 163.45 9.79 1E 29.689 272.000 62.042 to 150 IF 14.844 118.754 5.847 TEST 273.64 0.0002 iG 6.747 390.754 0.081 Vel = 1.17 iT 67.474 0.0 . 273.64 67.970 KFactor= 33.19 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 I April 10, 2006 Sprinkler 81 a MICROFAsr STANDARD RESPONSE/QUICK RESPONSE W*J EXTENDED COVERAGE PENDENT SPRINKLERS For Light-Hazard Occupancies Only 1. PRODUCT NAME Viking Microfast® Standard Response! Quick Response Extended Coverage Pendent Sprinklers Sprinkler Base Part No. 06778B (SIN VK600t) Sprinkler Base Part No. 07077 (SIN VK602t) t The Sprinkler Identification Number (SIN) is stamped on the sprinkler deflector. MANUFACTURER THE VIKING CORPORATION 210 N. Industrial Park Road Hastings, Michigan 49058, U.S.A. Telephone: (269) 945-9501 (877) 384-5464 Fax: (269) 945-9599 e-mail: techsvcs@vikingcorp.com PRODUCT DESCRIPTION The Viking Microfast® Standard Response/Quick Response Extended Coverage Pendent Sprinklers are small thermosensitive spray sprinklers for use in Light Hazard occupancies. The sprin- klers are available in various finishes and temperature ratings to meet design requirements. Used in conjunction with the special Poly finish, the units provide protection against many corrosive envi- ronments. In addition, the Poly coatings can be used in decorative applications where colors are desired. This sprinkler has both standard response and quick response listings (refer to the approval chart on page 81 b). The fast response glass bulb and spe- cial deflector combine speed of opera- tion and area of coverage to meet quick response extended coverage standards. During fire conditions, the heat-sensitive liquid in the glass bulb expands, caus- ing the bulb to shatter, releasing the pip cap and sealing spring assembly. Water flowing through the sprinkler ori- fice strikes the sprinkler deflector, form- ing a uniform spray pattern to extinguish or control the fire. TECHNICAL DATA LISTINGS AND APPROVALS Refer to the Approval Chart on pg 81 b. Refer to the Approval Chart on page 81 b for minimum water supply requirements and maximum areas of coverage. Glass-bulb fluid temperature rated to -65 °F (-55 °C). Rated to 175 psi (1 207 kPa) water working pressure. Factory tested hydrostatically to 500 psi (3 448 kPa). Testing: U.S.A. Patent No. 4,831,870 Thread Sizes: Part No. 06778B: %" (15 mm) NPT Part No. 07077: 3/4" (20 mm) NPT Nominal K-Factors: Part No. 0677813: 5.6 U.S. (8,1 metric*) Part No. 07077: 8.0 U.S. (11,5 metric*) * Metric K-Factor shown is for use when pres- sure is measured in kPa. When pressure is measured in BAR, multiply the metric K-Factor shown by 10.0. SPRINKLER MATERIALS Frame Casting: Brass UNS-C84400 Deflector Brass UNS-C26000 Bulb: Glass, nominal 3 mm diameter Belleville Spring Sealing Assembly: Nickel Alloy, coated on both sides with Teflon Tape Screw: Brass UNS-C36000 Pip Cap and Insert Assembly: Copper UNS-C11000 and Stainless Steel UNS-530400 Sprinklers with Poly Finishes: Belleville Spring: Nickel Alloy, exposed AVAILABLE FINISHES Brass, ChromeEnloy® (patents pend- ing), and White Poly finish ACCESSORIES (order separately) Sprinkler Cabinets: Six-head capacity: Part No. 01724A Twelve-head capacity: Part No. 01725A Available since 1971. Sprinkler Wrenches: Standard wrench: Part No. 10896W/B (available since 2000) or 05000CW/B (no longer available) Wrench for coated and recessed sprinklers: Part Number 07398W** (available since 1990). **A /2" ratchet is required (not available from Viking). Refer to the "Sp nnklerAccessories" sec- tion of the Viking data book. E to page ECI-2 for general nstallation, and maintenance ation. Sprinkler Temperature Sprinkler Nominal Maximum Ambient Bulb Color Classification Temperature Rating' Ceiling Temperature2 Ordinary 135 'F (57 'C) 100 'F (38 'C) Orange Ordinary 155 'F (68 'C) 100 'F (38 'C) Red Intermediate 175 'F (79 'C) 150 'F (65 'C) Yellow Sprinkler Finishes: Brass, Chrome-Enloy® (patents pending), and White Poly finish Corrosion-Resistant Coating3: White Poly finish Footnotes The sprinkler temperature rating is stamped on the deflector. 2 Based on NFPA-13. Other limits may apply, depending on fire loading, sprinkler location, and other requirements of the Authority Having Jurisdiction. Refer to specific installation standards. 3 The corrosion-resistant coating has passed standard corrosion tests required by particular approving agencies as indicated in the Approval Chart. These tests cannot and do not rep- resent all possible corrosive environments. Prior to installation, verify through the end-user that the coating is compatible with or suitable for the proposed environment. The coating indicated is applied to the exposed exterior surfaces only. NOTE: The spring is exposed on Poly coated sprinklers. Table I Note: Units of measure in parentheses may be approximations. Replaces page 81 a-b, dated March 19, 2004 (updated footnotes in Form No. F080988 the Approval Chart). Refer to technical data page ECI -2 for gen- eral care, installation, and maintenance information. Sprinkler 81 b April 10, 2006 MICROFAST® STAND STANDARD NIKJW*i4 A RESPONSE/QUICK SESPRINKLERSK PENDENT Sprinkler Base NPT Thread Size Nominal K-Factor I Maximum Water I Overall Length I Part Number' SIN I I Working Pressure inches I mm U.S. I metric2 I Inches mm 067788 VK600 I 1/2 I 15 5.6 I 8,1 I 175 psi (1 207 kPa) I 2-5/16 I I 59 07077 VK602 3/4 20 8.0 11,5 2-3/8 61 Approval Chart Temperature KEY I I Microfast® Standard Response/Quick Response Finish I Extended Coverage Pendent Sprinklers (AIX +- Escutcheon (if applicable)I For Light Hazard Occupancies Only Sprinkler Maximum Areas I Nominal K-Factor I I Minimum Water Supply1 Listings and Approvals3 Base Part Number' SIN of Coverages [ Requirements8 j U.S. metric2 cULus5 FM6 NYC? Standard Response Applications4 07077 VK602 16' Wide x 16' Throw 8.0 11,5 26 gpm @ 10.6 psi c1z — (4,9 m x 4,9 m) (98,4 Umin © 72,8 kPa) 06778B VK600 16' Wide x 16' Throw 5.6 8,1 26 gpm @ 21.6 psi c1z - (4,9 m x 4,9 m) (98,4 Umin © 148,6 kPa) 07077 VK602 18' Wide x 18' Throw 8.0 11,5 33 gpm © 17.0 psi C1z - (5,5 m 5,5 m) (124,9 Umin @ 117,3 kPa) — 06778B VK600 18' Wide x 18' Throw 5.6 8,1 33 gpm © 34.7 psi C1z -- (5,5 m x 5,5 m) (124.9 Umin © 239,4 kPa) — 07077 VK602 20' Wide x 20' Throw 8.0 11,5 40 gpm © 25.0 psi BIZ C1Z B1Y (6,1 mx 6,1 m) (151,4 Umin © 172,4 kPa) 06778B VK600 20' Wide x 20' Throw 5.6 8,1 40 gpm @ 51.0 psi BIZ C1Z B1Y (6,1 mx6,i m) (151,4Umin@351,8kPa) Quick Response Applications 07077 VK602 16' Wide x 16' Throw 8.0 11,5 26 gpm © 10.6 psi E1Z A1Z E1Z (4,9 m x 4,9 m) (98,4 Umin @ 72,8 kPa) 06778B VK600 16' Wide x 16' Throw 5.6 8,1 26 gpm @21.6 psi E1Z A1Z E1Z (4,9 m x 4,9 m) _98;4-b/min@.448,6.jPa) 07077 VK602 18' Wide x 18' Throw 8.0 115 33 gpm © 17.0 prz E1Z A1Z E1Z m (5,5 x 5,5 m) ' "(124 9 Umin © 117.,3 kPa) 06778B VK600 18' Wide x 18' Throw 5.6 8,1 33-gpm--34.7-psi--- E1Z A1Z E1Z (5,5 m x 5,5 m) (124.9 Umin © 239,4 kPa) 07077 VK602 20' Wide x 20' Throw 8.0 11,5 40 gpm © 25.0 psi D1Y A1Z D1Z (6,1 mx 6,1 m) (151,4 Umin © 17214 kPa) 06778B VK600 20' Wide x 20' Throw . 5.6 8,1 40 gpm @ 51.0 psi D1Y A1Z D1Z (6,1 mx6,1 m) - (151,4Umin©351,8kPa) Approved Temperature Ratings Approved Escutcheons A - 135 °F (57 °C) and 155 °F (68 °C) Y - Standard surface-mounted escutcheons or the Viking B - 155 ¶ (68 C) and 175 °F (79 °C) Approved Finishes Microfast® Model F-i Adjustable Escutcheo&° C - 175 °F (79 C) 1 - Brass, Chrome-Enloy®, and White Z - Standard surface-mounted escutcheons or the Viking D - 135 F° (57 C) Poly Finish9 Microfast® Model F-i Adjustable Escutcheon10, or E - 135 F (57 °C), 155 °F (68 °C), and recessed with the Micromatic® Model E-i or E-2 175 °F (79 °C) Recessed Escutcheon Footnotes 1 Base part number is shown. For complete part number, refer to current Viking price list schedule. 2 Metric K-factor shown is for use when pressure is measured in kPa. When pressure is measured in bar, multiply the metric K-factor by 10.0. This chart shows listings and approvals available at time of printing. Check with the manufacturer for any additional approvals. Listings and Approvals are limited to Light Hazard Occupancies where allowed by the installation standards being applied. 5 Listed by Underwriters Laboratories Inc. for use in the U.S. and Canada. cULus Listings are limited to Light-Hazard occupancies with ceiling configurations allowed by NFPA 13 for extended coverage sprinklers. 6 FM Approval is limited to ceiling configurations and heights allowed by appropriate FM Loss Prevention Data Sheets. 'Accepted for use, City of New York Board of Standards and Appeals, Calendar Number 219-76-SA. 8 For areas of coverage smaller than shown, use the "Minimum Water Supply Requirement for the next larger area listed with sprinklers of similar K-factor. cULus Listed as corrosion resistant. 10The Viking Microfast® Model F-i Adjustable Escutcheon is considered a surface-mounted escutcheon because it does not allow the fusible element of the sprinkler to be recessed behind the face of the wall or ceiling. Replaces page 81 a-b, dated March 19, 2004 (updated footnotes in the Approval Chart). Refer to Form No. F_080988 technical data page ECI-2 for general care, installation, and maintenance information. PRODUCT NAME MICROMATIC® AND MicromaticHP® STANDARD RESPONSE UPRIGHT AND CONVENTIONAL SPRINKLERS NOTE: The Sprinkler Identification Number (SIN) is stamped on the sprinkler deflector. MANUFACTURER THE VIKING CORPORATION 210 N. Industrial Park Road Hastings, Michigan 49058, U.S.A. Telephone: (269) 945-9501 Technical Services: (877) 384-5464 Fax: (269) 945-9599 e-mail: techsvcsvikingcorp.com August 4, 2006 Sprinkler 11 q PRODUCT DESCRIPTION Viking Micromatic®and MicromaticHP®Standard Response Uprightand Conventional Sprinklersaresmallthermosensitiveglass bulb spray sprinklers available in various finishes, temperature ratings, and orifice sizesto meetdesign requirements. The special Poly finishes and leflon®coatingscan be used in decorative applicationswhere colors are desired. In addition, these finishes have been investigated forinstallation in corrosive atmospheres and are cULus listed ascorrosion resistantas indicated intheApproval Chart. (Note: FM Global has no approval classification for Teflon® and Poly finishes as corrosion resistant.) The pip cap and sealing assembly of the sprinkler are held in place by the glass bulb operating element. During fire con- ditions, the heat-sensitive liquid in the glass bulb expands, causing the bulb to shatter, releasing the pip cap and sealing spring assembly. Water flowing through the sprinkler orifice strikes the sprinkler deflector, forming a uniform spray pattern to extinguish or control the fire. Viking standard response sprinklers may be ordered and/or used as open sprinklers (glass bulb and pip cap assembly removed) on deluge systems. Refer to Ordering Instructions on page 11 r-s. - TECHNICAL DATA LISTINGS AND APPROVALS cULus Listed: Category VNIV FM Approved: Class 2001, 2002, and 2016 Refer the Approval Chart on page 11 t and Design Criteria on page 11 s for cULus and FM approval requirements that must be followed. Minimum Operating Pressure: 7 psi (0,5 bar) Maximum Working Pressure: Upright Sprinklers VK02I and VK124 are rated for use with water working pressures ranging from the minimum 7 psi (0,5 bar) up to 250 psi (17,2 bar) for high-pressure systems. High-pressure (HP) sprinklers can be identified by locating "250" stamped on the deflector. All other Part Nos. not mentioned above are rated to a maximum 175 psi (12 bar) wwp. Factory tested hydrostatically to 500 psi (34,5 bar) Testing: U.S.A. Patent No. 4,831,870 Thread size: Refer to the Approval Chart Nominal K-Factor: Refer to the Approval Chart Glass-bulb fluid temperature rated to -65 °F (-55 °C) Overall Length: Refer to the Approval Chart MATERIALS Frame Casting: Brass UNS-C84400 Deflector. Copper UNS-C19500 for Sprinklers 10138, 10141, 10169, 10174, 10190, 10193, 10220, 10233, and 12106. Note: Units of measure in parentheses may be approximations. New page 11 q-t, issued August 4, 2006 (information Form No. F080106 was previously on data page 11 a-d). 4. Sprinkler 11 r August 4, 2006 TABLE 1: AVAILABLE SPRINKLER TEMPERATURE RATINGS AND FINISHES SprunklerTemperature I Spnnk!erNominal I Maximum Ambient Bulb Color U Classification Temperature Rating' Ceiling Temperatur& Ordinary 135 °F (57 °C) 100 °F (38 °C) Orange Ordinary 155 °F (68 °C) 100 °F (38 °C) Red Intermediate 175 °F (79 °C) 150 °F (65 °C) Yellow Intermediate 200 °F (93 °C) 150 °F (65 °C) Green Intermediate 212°F (100 °C) 150 °F (65 °C) Green High 286 °F (141 °C) 225 °F (107 °C) Blue Extra High 360 °E (182 °C) 300 °F (149 °C) Mauve Ultra High 500 °F (260 °C) 465 °F (240 °C) Black Sprinkler Finishes: Brass, Chrome-Enloy®, White Polyester (White Poly finish for Sprinklers 10138, 10141, and 10220), Black Polyester (Black Poly finish for Sprinkler 10138), and Black Teflon® Corrosion-Resistant Coatings3: White Polyester (White Poly finish for Sprinklers 10138, 10141, and 10220 only), Black Polyester (Black Poly finish for Sprinkler 10138), and Black Teflon® in all temperature ratings. Wax-Coated Brass and Wax over Polyester finish5 for sprin- klers with the following temperature ratings: 135 °F (57 °C) Off-White Wax 155°F (68 °C) Li Brown Wax 175 °F (79 °C) Brown Wax 200 °F (93 °C) Brown Wax 212 °F (100 °C) Brown Wax 286 °F (141 °C) Dk. Brown Wax The sprinkler temperature rating is stamped on the deflector. 2 Based on NFPA-1 3. Other limits may apply, depending on fire loading, sprinkler location, and other requirements of the Authority Having Jurisdiction. Refer to specific installation standards. 3 The corrosion-resistant coatings have passed the standard corrosion test required by the approving agencies indicated on page lit. These tests cannot and do not represent all possible corrosive environments. Prior to installation, verify through the end-user that the coatings are compatible with or suitable for the proposed environment. For automatic sprinklers, the coatings indicated are applied to the exposed exterior surfaces only. Note that the spring is exposed on sprinklers with Poly finishes and Teflon® coatings. For Teflon® coated open sprinklers only, the waterway is coated. - Sprinklers of Ultra-High temperature rating are intended for use inside ovens, dryers, or similar enclosures with normal operating tempera- tures above 300 °F (149 °C). Where the ambient temperature around the Ultra-High temperature rated sprinkler is significantly reduced below 300 °F (149 °C), response time may be severely retarded. Wax Over Polyester is unavailable for Sprinklers VK021 and VK124. Brass UNS-C26000 for all other Sprinklers. Bushing (for Sprinklers 09995, 10191, 10192, 10218, and 10219): Brass UNS-C36000 Bulb: Glass, nominal 5 mm diameter Belleville Spring Sealing Assembly: Nickel Alloy, coated on both sides with Teflon Tape Screw: Brass UNS-C36000 Pip Cap for Sprinklers 09993 and 09995: Bronze UNS-C31400 or UNS-C31600 Pip Cap and Insert Assembly for all other Sprinklers: Copper UNS-C1I000 and Stainless Steel UNS-S30400 Pip Cap Attachment: Brass UNS-C36000 Ejector Spring (for Sprinkler 12106): Stainless Steel For Teflon® Coated Sprinklers: Belleville Spring-Exposed, Screw-Nickel Plated, Pip Cap-Teflon® Coated For Poly Coated Sprinklers: Belleville Spring-Exposed AVAILABLE FINISHES AND TEMPERATURE RATINGS: Refer to Table 1 above. 5. ORDERING INSTRUCTIONS (Also refer to the current Viking price list) Order Micromatic® Standard Response Sprinklers by first adding the appropriate suffix for the sprinkler finish and then the appropriate suffix for the temperature rating to sprinkler base part number. Finish Suffix: Brass = A, Chrome-Enloy® = F, White Poly Finish = M-1W, Black Poly Finish = M-/B, Black Teflon® = N, Wax Coated = C, Wax Over Polyester = V-/W. I August 4, 2006 Sprinkler 11 s MICROMATIC8 AND A, 9A A MicromaticHP61 STANDARD RESPONSE UPRIGHT AND CONVENTIONAL SPRINKLERS Temperature Suffix (°F/°C): 135°/68° = A, 1550/680 = B, 175°/79° = D, 2000/930 = E, 212°/100° = M, 286°/141° = G, 3600/1820 = H, 5000/2600 = L, OPEN = Z (Teflon5 only). For example, Sprinkler VK100 with a 1/2" thread, Brass finish and a 155 °F/68 "C temperature rating = Part No. 10138AB. ACCESSORIES (Also refer to the "Sprinkler Accessories" section of the Viking data book.) Sprinkler Wrenches: Standard Wrench: Part No. 10896W/B (available since 2000). Wrench for wax-coated sprinklers: Part No. 13577W/B** (available since 2006) A %" ratchet is required (not available from Viking). Sprinkler Cabinets: Six-head capacity: Part No. 01724A (available since 1971) Twelve-head capacity: Part No. 01725A (available since 1971) Sprinkler Wench Cap Flat Protective MEN Sprinkler Wrench 13577W/B" for \\ installing wax coated sprinklers. - Step 1: Carefully slide - the wrench sideways ) around the deflector, ensuring engagement with the sprinkler 5 wrench flats. mimm Wax Coated Upright Sprinkler I I Step 2: Carefully press the wrench **A 1/2" ratchet is required downward and ensure engagement (not available from Viking). with the sprinkler wrench flats. Figure 2: Wrench 13577W/B for Wax Coated Sprinklers Figure 1: Standard Sprinkler Wrench 10896W/B DESIGN CRITERIA (Also refer to the Approval Chart on page lit) cULus Listing Requirements: Standard Upright and Conventional Sprinklers are cULus Listed as indicated in the Approval Chart for installation in accordance with the latest edition of NFPA 13 for standard spray sprinklers, or old style (conven- tional) sprinklers. Standard spray sprinklers are designed for use in Light, Ordinary, and Extra Hazard occupancies (exception: small ori- fice sprinklers are limited to Light Hazard where a//owed by the installation standards being applied, with hydraulically calculated wet systems only). The sprinkler installation rules contained in NFPA 13 for standard spray upright sprinklers must be followed. For con- ventional sprinklers, refer to the installation guidelines for old style (conventional) sprinklers. FM ADnroval Requirements: Standard Upright Sprinklers are FM Approved as indicated in the Approval Charts for installa- tion in accordance with the latest applicable FM Loss Prevention Data Sheets and Technical Advisory Bulletins. FM Global Loss Prevention Data Sheets and Technical Advisory Bulletins contain guidelines relating to, but not limited to: minimum water supply requirements, hydraulic design, ceiling slope and obstructions, minimum and maximum allowable spacing, and deflector distance below the ceiling. NOTE: The FM installation guidelines may differ from cULus and/or NFPA criteria. IMPORTANT: Always refer to Bulletin Form No. F_091699 - Care and Handling of Sprinklers. Also refer to page SRI-2 for general care, installation, and maintenance information. Viking sprinklers are to be installed in ac- cordance with the latest edition of Viking technical data, the appropriate standards of NFPA, FM Global, LPCB, Assemblee Pleniere, VdS or other similar organizations, and also with the provisions of governmental codes, ordinances, and standards, whenever applicable. Sprinkler lit August 4, 2006 MICROMATICO AND RESPONSE UPRIGHT AND CONVENTIONAL SPRINKLERS Approval Chart Temperahirn KEY I Micromatic and MicromaticHP Standard Response I Finish I Upright and Conventional Sprinklers IAtX - Escutcheon (if applicable) I Maximum i75'PSI (12,1 bar) WWP. ; Base Part Thread Nominal Overall Listings and Approvals3 Number' SIN Size K-Factor Length (Refer also to Design Criteria on page 11 s.) INPTI BSI U.S.Imetric2 Inches 1mm cULus4 I FM I NYC IVdSI LPCB I CE I 0 Upright-Standard Orifice 10138 VK100I1/2" 15 mm 5.6 80,6 2-3/16 56 B14, Ell, F13,G9A15,D12,Gi5 B14, Ell, F136 - - -I 10233 VK14511/2' 15 mml 5.6 80,6 2-3/16 56 -- A8, D7, G8 - B6 B9, E3 H6121 H614 10174 VK1451 - 15mm1 5.6 2-3/16 56 -- 1 A8, D7, G8 - -- B9, E3 10193 VK1001 - 15 mml 5.6 2-3/16 56 Bi, ElO, F13, G9 I A8, D7, G8 Bi, E10, Fi36 Upright-Large Orifice _____ 10220 VK2001 1/2" 15 mm l 8.0 j.. 2-3/8 60 B2, Eli, F13, G9 B8, E12, G8 B2, El i6 - H912 1 H914 10141 VK20013/4° 20mm1 8.0 1j 2-5/16 59 B2, Eli, F13, G9 I B8, E12, G8 B2, Eli, F136 B6 B5, Eli H912 1 H914 10190 VK2001 - 15 mm 8.0 115,2 1 2-3/8 60 B1, E10, F13, G9 I B8, E12, G8 - - H9l2I H914 10169 vK2ooI - 20 mml 8.0 Jj 2-5/16 59 Bi, ElO, Fi3 BB, Ei2, G8 -..- 89, E3 H912 1 H914 U bright-Small Orifices 102189 Vk001l1/2° 15 mm 2.8 40 2-3/16 56 Bi,Ei0,F13 E9, E12 - - - - 102199 VK00211/2" 15 mm 42 60,5 2-3/161 56 BI,E10,F13 -- -- - -- -- -- 101910 VK0021 - 15 mm 4.2 6015 2-3/161 56 Bi,Ei0,Fl3 - - - - - - 101929 VK001 I - 15mm 2.8 403 2-3/161 56 Bi, E10, F13 -- -- -- -- -- 10176 VK0021 - 10mml 42 60, 2-3/161 56 -- E9, E12 -- 85 B9, E3H512 H514 - Conventional 10227 VK118 1/2" 15 mm 5.6 80,6 2-3/16 56 Bi,Ei0,Fi3 -- Bi,Ei0,Fi3 85 B5, E10 H5 H5 10228 VK120 3/4° 20 mm 8.0 Jjj 2-5/16 59 Bi, El 0, F13 -- Bi, E101 F13 -- B5, E10 H914 1017210 VK118 - 15 mm 5.6 80,6 2-3/16 56 Bi, E10, F13 - - -- B5, EIO -- -- 1016810 VK120 - 20 mm 8.0 jj 2-5/16 59 Bi,Ei0,F13 -- - B5,E10 ji H914 12106 VM203M"20mm 80 Jjj 2-5/16 59 -- -- -- -- Maximum 250 PSI (17,2 bar) WWP Upright-Standard Orifice 09993 IVK124I1/2"I15mmI 5.6 I 80,6 I 2-1/4 1 58 I Cl I - I Upright-Small_Orifice8 099959 IVK021I1/2°I15mmI 2.8 I 40,3 I 2-1/4 58 I Cl I - I Approved Temperature Ratings Approved Finishes A - 135 OF (57 °C), 155 OF (68 °C), 175 OF (79 °C), 1 - Brass, Chrome-Enloy®, White Polyester5, Black Polyester5 and Black Teflon65 200 OF (93 °C), 212 OF (100 °C), 286 OF (141 °C), 2 - Brass, Chrome-Enloy®, 'Mute Poly Finish5 Black Polyester5, and Black Teflon®5 - White Polyester, Black Polyester, Black Teflon®, Wax-Coated Brass, and Wax and 360 OF (182 °C) over Polyester B -135°F (57 °C), 155°F (68 °C), 175°F (79'C), 200°F 4 - White Poly Finish, Black Polyester, Black Teflon®, Wax-Coated Brass, and Wax over (93 °C), 286°F (141 °C), and 360 OF (182 °C) Polyester 5 - Brass, Chrome-Enloy® White Polyester, and Black Polyester °C), °C), °C), C - 135°F (57 155°F (68 175°F (79 200°F 6 - Brass, Chrome-Enloy®, White Poly Finish, and Black Polyester (93 °C), and 286 OF (141 °C) 7 - White Poly Finish and Wax-Coated Brass (corrosion resistant) D - 135°F (57 °C), 155 °F (68 °C), 175°F (79 °C), 200°F 8 - Brass, Chrome-Enloy® and White Poly Finish (93 °C), and 212 OF (100 °C) 9 - Brass and Chrome-Enloy® E -135 °F (57 °C), 155°F (68 °C), 175°F (79 °C), and 10-Wax-Coated Brass and Wax over Polyester5 11-Wax-Coated Brass and Wax over Poly Finish5 200 OF (93 °C) 12-Wax-Coated Brass (corrosion resistant) F - 286 OF (141 °C) 13-200 OF (93 °C) High-Temperature Wax Coating (corrosion resistant); maximum G - 500 OF (260 "C)7 ambient temperature allowed at ceiling = 150 OF (65 °C) H - 155°F (68 °C), 175°F (79 °C), 200°F (93 °C), 286 °F 14-Brass, Chrome-Enloy®, White Poly Finish5, Black Poly Finish5, and Black Teflon®5 15-Brass, Chrome-Enloy'®, White Poly Finish, and Black Poly Finish (141 °C), and 360 °F (182 °C) Footnotes 1 Base part number is shown. For complete part number, refer to Viking's current price schedule. 2 Metric K-factor shown is for use when pressure is measured in bar. When pressure is measured in kPa, divide the metric K-factor shown by 10.0. 3This table shows the listings and approvals available at the time of printing. Check with the manufacturer for any additional approvals. 4Listed by Underwriters Laboratories Inc. for use in the U.S. and Canada. 5cULus Listed as corrosion resistant. 6Accepted for use, City of New York Department of Buildings, MEA Number 89-92-E, Vol. XII. Sprinklers of Ultra-High temperature rating are intended for use inside ovens, dryers, or similar enclosures with normal operating tempera- tures above 300 OF (149 °C). Where the ambient temperature around the Ultra-High temperature rated sprinkler is significantly reduced below 300 OF (149 °C), the response time of the Ultra-High temperature rated sprinkler may be severely retarded. 8 Listings and Approvals limited to Light Hazard Occupancies where allowed by the installation standards being applied, with hydraulically calculated wet systems only. ° The sprinkler orifice is bushed. 10Sprinklers 10168 and 10172 are available on special order. ,Accepted for use, City of New York Department of Buildings, MEA Number 89-92-E, Vol. III. 12 CE Certified, Standard EN 12259-1, EC-certificate of conformity 0832-CPD-2001 and 0832-CPD-2003. 13 (( Certified, Standard EN 12259-1 EC-certificate of conformity 0786-CPD-40142. 14 G MED Certified, Standard EN 12259-1, EC-certificate of conformity 0832-MED-1 003 and 0832-MED-1008. New page ii q-t, issued August 4, 2006 (information Form No. F 080106 was previously on data page 11 a-d). January 16, 2006 Deluge Valves 214a Model F-I STRAIGHT THROUGHDELUGE VALVES ______ Valve Size Inlet Type Outlet Type Pipe O.D. Friction Cv Factor Shipping Part No. Nominal Actual Loss* Weight Grooved Grooved 1. in. 48.2 mm 79 (2,1 m) 66 35 12125 1-112 (DN40) Threaded Threaded 5 . 11 threads 7 (2,1 m) 66 36 12126 BSPT BSPT 11 threads 7 (2,1 m) 66 36 12682 Grooved Grooved 2. in. 13375 93 35.5 12057 60.3 mm (3,9 m) Threaded Threaded 11 5 threads 13. (3,9 m) 93 36.5 12059 2 (DN50) BSPT . BSPT 11 threads 13 (3,9m) 93 36.5 12686 Expressed in equivalent length of Schedule 40 pipe based on Hazen & Williams formula. C120. Figure I PRODUCT NAME Viking Model F-i Deluge Valve Manufactured 2004- MANUFACTURER THE VIKING CORPORATION 210 N. Industrial Park Road Hastings, Michigan 49058 U.S.A. Telephone: (269) 945-9501 (877) 384-5464 Fax Number: (269) 945-9599 email: techsvcs@vikingcorp.com 3. PRODUCT DESCRIPTION The Viking Model F-i Deluge Valve is a quick opening, differential diaphragm, flood valve with one moving mechanism. The Deluge Valve is used to control water flow in Deluge and Preaction sprinkler systems. The valve is held dosed by system water pressure trapped in the priming chamber; keeping the outlet chamber and system piping dry. In fire conditions, when the releasing system operates, pressure is released from the priming chamber. The Deluge Valve clapper opens to allow water to flow into the system piping. 4. TECHNICAL DATA Viking technical data may be found on The Viking Corporation's Web site at http://www.vikingcorp.com. The Web site may include a more recent edition of this technical data page. Listings and Approvals: U.L. Listed Guide No. VLFT & VLJH C-UL Listed FM Approved American Bureau of Shipping (ABS) Certificate No. 05-H5502910C-PDA NYC Department of Buildings - MEA 89- 92-E Vol. XXXI Style: Straight through Connections: Refer to Figure 1 Factory tested: to 500 psi (3 447 kPa) Valve differential: over 2:1 (priming cham- ber to inlet chamber) Priming chamber supply restriction (re- quired): 0.0625" (1,6 mm) Color of Valve: Painted red for identifica- tion purposes Friction loss: Refer to Figure 1 Cv Factor: Refer to Figure 1 Material Standards: Refer to Figure 4 Ordering Information: Refer to Figure 1 Shipping weight: Refer to Figure 1 5. FEATURES 1. VALVE Field replaceable Diaphragm and Seat Rubbers Designed for installation in horizontal or vertical position Designed to be reset without opening the valve Compatible with Hydraulic, Pneumatic and/or Electric Release Systems 2. ACCESSORIES: Refer to Current VIKING PRICE LIST for Part Numbers. A STANDARD TRIM package (conventional and E-Z trim) is available. The trim package includes the VALVE ACCESSORY PACKAGE and the fittings and nipples shown on the Viking Deluge Valve Conventional Trim Chart, or Easy Trim Chart for the valve used. Trim Charts are provided in trim packages and the Viking Engineering Design Data book. For optional factory assembled umoduIa trim packages, refer to the Viking list price schedule or contact the manufacturer. Deluge VALVE ACCESSORY PACKAGE includes required trim components. This package is needed when Viking Trim Packages are not used. Additional accessories are available and may be required for system operation or supervision. Refer to the system description and technical data for complete operating trim requirements for the system used. 6. OPERATION (Refer to Figure 4) The Viking Model F-i Deluge Valve has an inlet chamber, an outlet chamber and a priming chamber. The inlet chamber and outlet chamber are separated from the priming chamber by the clapper (5) and diaphragm (6). In the set condition:. . System' pressure is supplied to the priming chamber through a restricted priming line (trim) equipped with a check valve. System water supply pressure trapped in the priming chamber holds the clapper (5) on seat (2) due to area differential design. Clapper (5) separates the inlet chamber from the outlet chamber, keeping the outlet chamber and system piping dry. In fire conditions: When the release system operates, pressure is released from the priming chamber faster than it is supplied through the restricted priming line. Water supply pressure in the inlet chamber forces the clapper (5) off from seat (2), allowing water to flow through the outlet and into the system and alarm devices. For Deluge Valves equipped with Conventional Trim: When the deluge valve operates, the Form No. F_040104 Replaces page 214a-f dated April 1, 2004. (Added ABS Approval and updated Component Listing.) N IN -15041% B.4 0.3 8.2 B.1 EASY TRIM, HORIZONTAL EASY TRIM. VERTICAL Deluge Valves 214b January 16, 2006 sensing end of the PORV is pressurized, causing the PORV to operate. When the PORV operates, it continually vents the priming chamber to prevent the deluge valve from resetting even if the open releasing devices close. The deluge valve can only be reset after the system is taken out of service, and the outlet chamber of the deluge valve and associated trim piping is depressurized and drained. For Deluge Valves equipped with Easy Trim: When the deluge valve operates, the sensing end of the PSOV is pressurized, causing the PSOV to close. When the PSOV closes, it shuts off the flow of priming water pressure to the priming chamber, preventing the deluge valve from resetting even if the open releasing devices close. The deluge valve can only be reset after the system is taken out of service, and the outlet chamber of the deluge valve and associated trim piping is depressurized and drained. AVAILABILITY AND SERVICE The Viking Deluge Valve and accessories are available through a network of Domestic, Canadian, and International Distributors. For proper operation and approval, the valve must be trimmed in accordance with the current Viking Trim Chart for the valve used. Where difficulty in performance is experienced, verify that the valve is trimmed properly. Contact Viking or Viking's authorized representative before any field adjustments are made. See the Viking Corp. Web site for your closest .distributor or., contact. The Viking Corporation. GUARANTEES For details of warranty, refer to Viking's current list price schedule or contact Viking directly. INSTALLATION A. General Instruction Viking Deluge Valves may be installed in the horizontal or vertical position. The valve must be installed in an area not subject to freezing temperatures or physical damage. The valve must be trimmed according to current Viking Trim Charts and appropriate instructions for the system used. Trim Charts are printed in the Viking Engineering and Design Data book, and are provided with trim packages. A. Remove all plastic protectors from 0.1 Priming Valve (Normally Open) 0.2 Strainer B.3 1/16' Restricted Orifice 3.4 Spring Loaded Check Valve 0.5 Priming Shut-off Valve (P.S.O.V,) 0.6 Alarm Shut-off Valve (Normally Open) 3.7 Priming Pressure Water Gauge and Valve 3,9 Drain Check Valve 3.9 Emergency Release 0.10 Alarm Test Valve (Normally Closed) 0.11 flow Test Valve (Normally Closed) 0.12 Water Supply Pressure Gauge and Valve 0.13 Auxiliary Drain Valve (Normally Closed) 3.14 Grip Check Valve 3.15 Grain Cup 0.1 Water Supply Control Valve the openings of the Deluge Valve. Apply a small amount of pipe joint compound or tape to the external threads of all pipe connections required. Take care not to allow, any. compound, tape, or other foreign matter inside any of the nipples or openings of the valve or trim components. Verify that all system components are rated for the water working pressure of the system. Hydrostatic Test: The Model F-I Deluge Valve is manufactured and listed for use at a maximum Water Working Pressure of 250 PSI (1 724 kPa). The valve is factory tested at 500 PSI (3 447 kPa). Model F-I Deluge Valves may be hydrostatically tested at 300 PSI (2 069 kPa) and/or 50 PSI (345 kPa) above the normal Water Working Pressure, for limited periods of time (two hours), for the purpose of acceptance by the Authority Having Jurisdiction. If air testing is required, do not exceed 60-PSI (415 kPa) air pressure. 8.1 Priming Valve (Normally Open) 8.2 Strainer 8.3 1/16' Restricted Orifice 8.4 Spring Loaded Check Valve B.5 Priming Shut-off Valve (P.S.SLV.) 8.6 Alarm Shut-off Valve (Normally Open) 8.7 Priming Pressure Water Gauge and Valve 8.9 Brain Check Valve B.9 Emergency Release 8.10 -Alarm Teat Valve (Normally Closed) 8.11 Flo,, Test Valve (Normally Closed) 8.12 Water Supply Pressure Gauge and Valve 0.13 Auolllary Drain (Normally Closed) 8.14 Drip Check Valve 8.15 Drain Cup 0.1 Water Supply Control Valve Note: Never conduct the Hydrostatic Test against the Pressure Operated Relief Valve. (PORV) Temporarily remove the PORV from the trim and plug trim openings while conducting the Hydrostatic Test. Trim Note: Discharge piping from the auxiliary drain valve, the flow test valve, and all system drains should be kept separate. DO NOT connect the outlet of the drip check to any other drain. The priming line must be connected upstream of the system water supply main control valve or to a constant source of water at a pressure equal to the system water supply. After the Deluge Valve, is. set, operation of the Deluge Valve requires the release of priming water from the priming chamber. This may be by automatic or manual operation of the release system. Viking Deluge Valves are compatible with hydraulic, pneumatic, and electric release systems. A: Hydraulic Release Systems: For electric, pneumatic, electric/pneumatic, pneumatic/pneumatic and electric/pneu-lectric release, see the proper release module trim. Figure 2 January 16, 2006 Deluge Valves 214c NIKJ DELUGE VALVE MODEL F-I 1-1/2" (DN40) & 2" (DN50) Maximum 250 PSI Water Working Pressure See Figure 3 for the maximum allowable elevation of hydraulic release piping above the Deluge Valve. If the maximum height of hydraulic release piping exceeds the limit shown in Graph A for the valve used, use a Pneumatic or Electric Release System. Pneumatic Release Systems: A Viking Pneumatic Actuator is required between the release system connection provided on deluge valve trim and pneumatic release Piping. Electric Release: Solenoid Valves, System Control Panels, and Electrical Detectors must be compatible. Consult appropriate listing and/or approval guides. Note: For operation at water pressures in excess of 175 PSI, a 250-PSI Rated Solenoid Valve must be used. Refer to appropriate Viking Technical DataPage for type of system used. Caution: Operation of Viking Deluge Valves by pressurizing the priming chamber with air pressure or any other pressurized gas is not recommended or approved. B. Placing the Valve in Service For Deluge Valves equipped with Conventional Deluge Valve Trim, follow steps 1 through 10 (and 11 & 12 if applicable) below. 1. Verify: The system Main Water Supply Control Valve (Dl) is closed and the Deluge Valve is trimmed according to current Viking Trim Charts and schematic drawings for the system used. The system has been properly drained. Auxiliary Drain (B.13) is open. The Emergency Release (13.9) is closed. The system water supply piping is pressurized up to the closed Main Water Supply Control Valve (Dl) and the priming line is pressurized up tothe closed Priming Valve (13.1). 2. For Systems equipped with: a: Hydraulic Release Systems: Verify that all releasing devices are set and that any Inspector's Test Valve and/or auxiliary drain valves are closed. ii: Open Priming Valve (B.1). Allow the hydraulic release system to fill. When priming pressure gauge (13.7) indicates that the release piping and priming chamber pressure is equal to system supply pressure, proceed to step 3. b: Pneumatic Release Systems: Set the release system. Open Priming Valve (13.1). Proceed to step 3 C: Electric Release Systems: Open Priming Valve (B.1). Set the electric release system. Proceed to step 3. Open Flow Test Valve (13.11). Partially open Main Water Supply Control Valve (Dl). When full flow develops from the Flow Test Valve (B.1 1), close the Flow Test Valve. a: Verify that there is no flow from the open Auxiliary Drain (B.13). Close Auxiliary Drain (13.13). Fully open and secure the Main Water Supply Control Valve (Dl). Verify that the Alarm Shut-off Valve (13.6) is open and that all other valves are in their normal operating position. (refer to Figure 1, page 214 b and/or Trim Charts and System Data for the system used) Depress the plunger of Drip Check (13.14). No water should flow from the Drip Check when the plunger is pushed. Check for, and repair all leaks. On new installations, those systems that have been placed out of service, or where new equipment has been installed, trip test the system to verify thatall equipment functions properly. Refer to MAINTENANCE paragraph 10-B-3: ANNUAL maintenance instructions. After completing a trip test, perform SEMI-ANNUAL maintenance. Caution! Performing a trip test results in operation of the Deluge Valve. Water will flow into the sprinkler piping. Take necessary precautions to prevent damage. C. Valve Removed From Service When a valve has been removed from service and is subject to freezing or will be out of service for an extended period of time, all water must be removed from the priming chamber, trim piping, water supply piping and other trapped areas. 10. INSPECTIONS AND TESTS (Refer to Figure 2) A. Inspection It is imperative that the system be inspected and tested on .a regular basis. The frequency of the inspections may vary due to contaminated water supplies, corrosive water supplies or corrosive atmospheres. Also, the alarm devices, detection systems or other connected trim may require a more frequent schedule. For minimum maintenance and inspection requirements, refer to the National Fire Protection Association pamphlet that describes care and maintenance of sprinkler systems. In addition, the Authority Having Jurisdiction may have additional maintenance, testing, and inspection requirements which must be followed. The following recommendations are minimum requirements. Weekly: Weekly visual inspection of the Viking Deluge Valve is recommended. Verify that the Main Water Supply Control Valve (Dl) is open and that all other valves are in their normal operating position and appropriately secured. (refer to Figure 1, page 214 b and/or Trim Charts and System Data for the system used) Checkforsignsofmechanicaldamage, leakage, and/or corrosive activity. If detected, perform maintenance as required. If necessary, replace the device. Verify that the valve and trim are adequately heated and protected from freezing and physical damage. For normal operating position, refer to Figure 2 andior Trim Charts and System Data for the system used. B. Tests Quarterly: Quarterly testing of water flow alarms and performance of a Main Drain Test is recommended and may be required by the Authority Having Jurisdiction. 1: Water Flow Alarm Test Notify the Authority Having Jurisdiction and those in the area affected by the test. To test the local electric alarm (if provided) and/or mechanical water motor alarm (if provided), OPEN the alarm test valve (B.10) in the Deluge Valve trim. Electric alarm pressure switches (if provided) should activate. Electric local alarms should be audible. The local water motor gong should be audible. If equipped with remote station alarm signaling devices, Deluge Valves 214d January 16, 2006 NJ 1 1(1 DELUGE VALVE MODEL F-I 1-1/2" (DN40) & 2" (DN50) Maximum 250 PSI Water Working Pressure verify that alarm signals were received. C. When testing is complete, CLOSE the Alarm Test Valve (B.10). Verify: All local alarms stop sounding and alarm panels (if provided) reset All remote station alarms reset. C: Supply piping to water motor alarm properly drains. Verify that the Alarm Shut-off Valve (B.6) is OPEN, and the Alarm Test Valve (B.10) is CLOSED. Verify that the outlet chamber is free of water. No water should flow from the Drip Check (B.14) when the plunger is pushed. Notify the Authority Having Jurisdiction and those in the affected area that testing is complete. 2: Main Drain Test A. Notify the Authority Having Jurisdiction and those in the area affected by the test B. Record pressure reading from the water supply pressure gauge (B.12). C. Verify that the outlet chamber of the Deluge Valve is free of water. No water should flow from the drip check (6.14) when the plunger is pushed. D. Fully OPEN the Flow Test Valve (B.11). E. When a full flow is developed from the Flow Test Valve (B.11), record the residual pressure from the water supply pressure gauge (6.12). F. When the test is complete, SLOWLY CLOSE the FlowTest Valve (B.11) G. Compare test results with previous flow information. If deterioration of the water supply is detected, take appropriate steps to restore adequate water supply. H. Verify: Normal water supply pressure has been restored to the inlet chamber, the priming chamber, and the release system. The pressure on the priming chamber water pressure gauge should equal the system water supply pressure. All alarm devices and valves are secured in normal operating position (refer to Figure 1, page 214 b and/or Trim Charts and System Data for the system used). I. Notify the Authority Having Jurisdiction that the test is complete. Record and/or provide notification of test results as required by the Authority Having Jurisdiction. Annual: Trip Tests Caution! Performing this test results in operation of the Deluge Valve. Water will flow into the sprinkler piping and from any open sprinklers and/or nozzles. Take necessary precautions to prevent damage. A. Notify the Authority Having Jurisdiction and those in the area affected by the test. B. Fully open the Flow Test Valve (B.11) to flush away any accumulation of foreign material. C. Close the Flow Test Valve (B.11). D. Trip the system by operating the release system. Allow a full flow to pass through the Deluge Valve. Water flow alarms should operate. E. When test is complete: Close the Main Water Supply Control Valve (D.1). Close the Priming Valve (6.1). Open the Auxiliary Drain Valve (6.13). Open all system main drains and auxiliary drains. Allow the system to drain completely. F. Perform semi-annual maintenance. Refer to paragraph 11-B Semi- Annual Maintenance. G. Place the system in service. Refer to Item 9-B. H. Notify the Authority Having Jurisdiction that the test is complete. Record and/or provide notification of test results as required by the Authority Having Jurisdiction. II. MAINTENANCE (Refer to Figure 2) NOTICE: The owner is responsible for maintaining the fire protection system and devices in proper operating condition. The Deluge Valve must be kept from freezing conditions and physical damage that could impair its operation. NOTICE: Where difficulty in performance is experienced, the valve manufacturer or his authorized representative shall be contacted if any field adjustment is to be made. A. After Each Operation: 1. Sprinkler systems that have been WARNING: Any system maintenance which involves placing a control valve or detection system out of service may eliminate the Fire Protection capabilities of that system. Prior to proceeding, notify all Authorities Having Jurisdiction. Consideration should be given to employment of a Fire Patrol in the affected areas. subjected to a fire must be returned to service as soon as possible. The entire system must be inspected for damage, and repaired or replaced as necessary. Deluge Valves and trim that have been subjected to brackish water, saltwater, foam, foam/water solution, or any other corrosive water supply, should be flushed with good quality fresh water before being returned to service. PerformSEMl-ANNUALmaintenance after every operation. B. Semi-Annual Maintenance: 1. Remove the system from service. (Refer to Deluge or Preaction System Data that describes systems with the release system used for additional information.) Close the Main Water Supply Control Valve (Dl) and Priming Valve (6.1). Open the Auxiliary Drain Valve (B.13). Relieve pressure in the priming chamber by opening the Emergency Release Valve (B.9). 2. Inspect all trim for signs of corrosion and/or blockage. Clean and/or relaceag required. 3. Clean and/or replace all strainer screens (including 6.2). 4. Refer to Item 9-B. C. Every Fifth Year Internal inspection of Deluge Valves is recommended every five years unless inspections and tests indicate more frequent internal inspectionsare required. Refer to DISASSEMBLY instructions provided below. Internal inspection of strainers,, and restricted orifices is recommended every five years unless inspections and tests indicate more frequent internal inspections are required. Record and provide notification of inspection results as required by the Authority Having Jurisdiction. D. Valve Disassembly (Refer to Figure 2, page 214 f) 1. Remove the valve from service January 16, 2006 Deluge Valves 214e NIKJW DELUGE VALVE MODEL F-I 1-1/2" (DN40) & 2" (DN50) Maximum 250 PSI Water Working Pressure (see the release system description and Technical Data for additional information). Close the main control valve, open the main drain valve. Release the pressure in the priming chamber by opening the Emergency Release Valve. Remove trim as required to allow removal of cover (4). Remove screws (9). Lift cover (4) from body (1). Remove clapper assembly (No. 3, 5, 6, 7, & 10) by lifting it from the body (1). 6. Inspect seat (2). If replacement is necessary, remove screws (11). Remove old seat (2) and 0-ring (12). Replace with new seat (2) and 0-ring (12). Replace screws (11). 7. To replace the diaphragm rubber (6), remove the circle of screws (10). Remove the clamp ring (3) and remove the diaphragm rubber (6). 8. To replace the seat rubber assembly (7), clapper assembly (3, 5, 6, 7, & 10) must be removed from the valve. Remove the circle of screws (11). Seat rubber assembly (7) can be removed. E. Valve Reassembly Prior to reassembly flush the valve of all foreign matter. To reassemble, reverse disassembly procedure. NOTE: Prior to installing a new clapper rubber (6) or seat rubber assembly (7), make certain that all surfaces are clean and free of foreign matter. The plated sea (2) must be smooth and free of nicks, burn or indentations. -'Ir r I Height I Pilot IHeight P"L1,',1 __ 111111111 liii III IPilot IHeight I I LUlL! liii LULL.. off - - y1 .111i iIMWIIffli!IIINl A l._ ---------------------- ---------------------- ---------------------- ---------------.------- ---------------------- ---------------------- ---------------------- ----;------------------- ---------------------- ----------------------- - I! ' I Deluge Valves 214f January 16, 2006 I—® 9 0 I \/r®r-® 6 -12 /0 10 12 1/4 [311] Figure 4 PART NO REQ'D ITEM NUMBER DESCRIPTION MATERIAL 1-1/2" & 2" 1-1/2" 2" NO. (DN40 &DN50) (DN40) (DN50) - Body Ductile Iron, Grade 65-45-12 1 1 2 12054 Seat Brass, UNS-C84400 1 1 3 * Ring Clamp, Upper Diaphragm Brass, UNS-C84400 1 1 4 - Cover Ductile Iron, Grade 65-45-12 1 1 5 * Clapper Brass, UNS-C84400 1 1 5 * Upper Diaphragm EPDM -ASTM D-2000 1 7 * Rubber Seat Assembly EPDM - ASTM D-2000 1 1 8 - Data Plate Aluminum Etched 1 1 9 * Screw, H.H.C.1., 3/8-16 x 1-1/8 (29 mm) Steel, SAE-Grade 5, ASTMA449 8 10 * Screw, RH.2., 10-24 x 1/2 (12,7 mm) Stainless Steel, UNS-S30200 8 8 11 04505A Screw, R. H.2., 10-24x 5/8 (16 mm) Stainless Steel, UNS-S30200 4 4 12 12052 0-Ring EPDM 1 1 - Indicates no replacement part available * Indicates part available only in a Sub-Assembly, as indicated below ............... . Sub-Assembly 9,10 13602 Maintenance Kit- Includes Water Gauge 13498 Clapper Assembly Kit - Includes Water and Air gauges 1 Hex Head Cap Screw 2 Round Head, Phillips Drive Screw Replaces page 214a-f dated April 1, 2004. (Added Form No. F_040104 ABS Approval and updated Component Listing.) October 12, 2006 Check Valve 804a The Viking Corporation, 210 N Industrial Park Road, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcsvikingcorp.com 1. DESCRIPTION The Viking Spring Loaded In-Line Check Valve is a general purpose rub- ber-faced check valve approved for use in fire-service systems. The Spring Loaded In-Line Check Valve is manufactured with a brass body, brass seat, and a rubber-faced clapper assembly. The valve may be installed vertically or horizontally. For availability of threaded and grooved-grooved options, refer to Table 1. A tapped opening (with plug) is provided on the outlet chamber of the valve for system drain. The 1-1/2" and 2" check valves should be installed on the outlet riser of the 1-1/2" and 2" deluge valve when installing a listed and approved preaction system. Refer to preaction data pages for current riser schematic. FEATURES Low friction loss. Rated to 250 psi (17.2 bar) water working pressure. Can be installed vertically or horizontally. %" NPT drain connection above the clapper. 1 PSI cracking pressure 2. LISTINGS AND APPROVALS Refer to Table I 3. TECHNICAL DATA Specifications Pressure Rating -250 psi (17.2 bar) water working pressure Factory tested - Hydrostatically to 500 psi (34.5 bar). Standard threaded connections - NPT Standard grooved connections - ANSI/AWWA C606-87 Tapped Bosses - One 3/4" (19 mm) NPT: Material Standards Refer to Figure 1 Ordering Information Refer to Table 1 Manufactured 2002 - Viking Technical Data may be found on The Viking Corporation's Web site at http://www.vikingcorp.com. The Web site may include a more recent edition of this Technical Data Page. For piping with grooved connections, the grooved- inlet/grooved-outlet style Spring Loaded In-Line Check Valve may be installed with listed grooved couplings of the appropriate pressure rating. 4. INSTALLATION ,.' .. - The Spring Loaded In-Line Check Valve must be installed in an area not subject to physical damage. When corrosive atmospheres and/or contaminated water supplies are present, it is the owner's responsibility to verify compatibility with the Check Valve and associ- ated equipment. Prior to installing the valve, thoroughly flush the water supply piping to verify that no foreign matter is present. The Check Valve may be installed in the vertical or horizontal position in line with the directional flow arrow. Table I Model Size Valve Connection Type Cv Factor Friction Loss* Shipping Weight Part No. Approvals UL1 FM2 K-i 1-1/2" Threaded 57 7 4 lbs 10659 Yes No- K-1 2" Threaded 105 8 5.5 lbs 10667 Yes No L-1 1-1/2" Groove 68 5 4.5 lbs 11054 Yes Yes L-i 2" Groove 102 8 61bs 11059 Yes Yes Expressed in equivalent length of schedule 40 pipe based on Hazen & Williams formula: C120 1 UL Guide No. - HMER FM Category - Single Check Valves Form No. F_012202 Revised page replaces page 804 a-d dated July 27, 2006 (Added Air Gauge to Check Valve trim) Check Valve 804b October 12, 2006 The Viking Corporation, 210 N Industrial Park Road, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcsvikingcorp.com Hydrostatic Test: The Check Valve is manufactured and listed for use at a maximum water working pressure of 250 psi (17.2 bar). The valve is factory tested at 500 psi (34.5 bar). Check Valves may be hydrostatically tested at 300 psi (20.7 bar) and/or 50 psi (3.4 bar) above the normal water working pressure, for limited periods of time (two hours), for the purpose of acceptance by the Authority Having Jurisdiction. If air testing is required, do not exceed 60 psi (4.1 bar) air pressure. OPERATION (Refer to Figure 1 or Figure 2) Flow through the Viking Spring Loaded In-Line Check Valve lifts the rubber-gasketed clapper (4 and 5) off the seat (7) to enter the sprinkler piping. When flow through the valve stops, the spring loaded clapper (4) closes quickly. The rubber gasket (5) forms a tight seal against the brass water seat (7), trapping pressure above the clapper and preventing reverse flow from sprinkler piping. INSPECTIONS, TESTS AND MAINTENANCE NOTICE: THE OWNER IS RESPONSIBLE FOR MAINTAINING THE FIRE-PROTECTION SYSTEM AND DEVICES IN PROPER.OPERAT- ING CONDITION. The Viking Spring Loaded In-Line Check Valve must be kept free of foreign matter, freezing conditions (when used on wet systems), corrosive atmospheres, contaminated water supplies, and any condition that could impair its operation or damage the device. It is imperative that the system be inspected and tested on a regular basis. The frequency of the inspections may vary due to contami- nated water supplies, corrosive water supplies, and corrosive atmospheres. For minimum maintenance and inspection requirements, refer to NFPA2S. In addition, the Authority Having Jurisdiction may have additional maintenance, testing, and inspection requirements which must be followed. WARNING: ANY SYSTEM MAINTENANCE WHICH INVOLVES PLACING A CONTROL VALVE OR DETECTION SYSTEM OUT OF SER- VICE MAY ELIMINATE THE FIRE-PROTECTION CAPABILITIES OF THAT SYSTEM. PRIOR TO PROCEEDING, NOTIFY ALL THE AU- THORITY HAVING JURISDICTION. CONSIDERATION SHOULD BE GIVEN TO EMPLOYMENT OF A FIRE PATROL IN THE AFFECTED AREAS. A. Five-Year Internal Inspection (Refer to Figure 1 or 2) Internal inspection of Check Valves is recommended every five years unless inspections and tests indicate more frequent inspections are required. Notify the Authority Having Jurisdiction, remote station alarm monitors, and those in the area affected that the system will be taken out of service. Consideration should be given to employment of a fire patrol in the affected areas. Close the water supply Main Control Valve, placing the system out of service. Open the main drain. If necessary, open the system test valve to vent and completely drain the system. Remove necessary fittings and/or piping to allow visual inspection. Inspect the water seat (7). Wipe away all contaminants, dirt, and mineral deposits. Do not use solvents or abrasives. Inspect the clapper for debris. Test th' clapper (4) for freedom of movement. .. CAUTION: NEVER APPLY ANY LUBRICANT TO SEATS, GASKETS, OR ANY INTERNAL OPERATING PARTS OF THE VALVE. PETRO- LEUM-BASED GREASE OR OIL WILL DAMAGE RUBBER COMPONENTS AND MAY PREVENT PROPER OPERATION. B. Valve Maintenance (Refer to Figure 1 or 2) Perform steps 1 through 5 of paragraph 10-A FIVE-YEAR INTERNAL INSPECTION. To remove clapper rubber (5): Use proper wrench and disassemble valve from system piping. Inspect the clapper and rubber from inlet end. If the clapper rubber shows signs of wear, such as cracking, cuts, or exces- sively deep grooves where the rubber contacts the water seat, replace the valve. AVAILABILITY ..., The Viking Check Valve and Accessories are available through a network of domestic and international distributors. See the Viking Corp. Web site for closest distributor or contact The Viking Corporation. GUARANTEES For details of warranty, refer to Viking's current list price schedule or contact Viking directly. 15/1 [49.21] 21/2 19/16 :63.501 1 [39.69] 3/4' NPT Connection 4 5/8 (117.48] 2 5/16 (58.74] 51/4 '_ft 2 5/16 [58.67] October 12, 2006 Check Valve 804c The Viking Corporation, 210 N Industrial Park Road, Hastings MI 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcsvikingcorp.com .)CA,ISUfl Mti 1-1/2' NPT Threaded 2' NPT Threaded - Spring Loaded Spring Loaded In-Line Check Valve Fig. Ia: In-Line Check Valve with 3/4' NPT Drain Connection Threaded with 3/4' NPT Drain Connection 2 5/8' [66.68] 3/4' NPT (I Connection 10 6 1/16' [153.99] T ______ 3&8' 11/16' 3/4' NPT Connectloi 6 5/8' (16907] —r 3 1/16' (78 1/2: 1-1/2' NPT Grooved 2' NPT Grooved 'Spring Loaded Spring Loaded In-line Check Valve Fig. Ib: In-line Check Valve with 3/4' NPT Drain Connection Grooved with 3/4' NPT Drain Connection Item Description Material No. Req'd. 1 Body, Threaded or Grooved Brass, ASTM C-83600 1 2 Guide Pin UNS-530300 Stainless Steel I 3 Spring 302 Stainless Steel 1 Clapper, (2" valve) UNS-C46400 Naval Brass 1 Clapper, (1:1/2" vàlvè) UNS-C83600 Naval Brass 1 5 Seat Rubber EPDM, ASTM D2000 1 6 0-ring Buna-N 1 7 Seat Brass, ASTM C-83600 1 8 Data Plate Aluminum Etched 1 9 Bushing, Guide Rod Stainless Steel, Type 17-4 1 10 3/4" Pipe Plug Brass 1 No replacement parts available. Replace complete valve. Check Valve 804d October 12, 2006 The Viking Corporation, 210 N Industrial Park Road, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcsvikingcorp.com REMOVE PIPE PLUG Note: Water and Air Gauge Provided Wet Systems: Use Water Gauge AT ASSEMBLY Preaction Systems: Use Air Gauge \ Water/Air Gauge Side Outlet Valve 1/4" x 1-1/2" (381) 1/2" Pipe Plug Figure 2: Model L-1 & K-I Check Valve Trim Chart Form No. F_012202 Revised page replaces page 804 a-d dated July 27, 2006 (Added Air Gauge to Check Valve trim) January 12, 2007 Deluge Devices 270a A RELEASE MODEL PANEL 41KJNG* The Viking Corporation, 210 N Industrial Park Road, Hastings MI 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcsvikingcorp.com 1. DESCRIPTION The Viking Model B-I Par-3 Release Control Panel is a supervised, 24 Volt, microprocessor- controlled Release Control Panel. The panel is designed to operate up to two electric release devices (usually solenoid valves) in the release piping of deluge or preaction systems. The panel is available for use with either 120 VAC or 230 VAC power supplies. A built-in battery com- partment holds two 12 Volt batteries that are charged by an internal battery charger. Batteries are available to provide up to 90 hours of backup power during AC power failure. The Model B-i Release Control Panel can be used with a wide range of compatible initiating devices, such as heat (including linear heat detection systems like the Protectowire Systems), photoelectric, ionization, and smoke detectors. A dip switch Function Selector' allows field programming for one of four possible input/output combinations (refer to Table 2). In fire conditions, when an initiating device circuit (or predetermined combination of circuits) is energized, the panel activates a combination of release device circuits and alarm circuits ac- cording to the 'Function Selector' setting. On the panel's display board, the appropriate Alarm, Trouble, and Supervisory LED's will flash until the event has been acknowledged. After depress- ing the Tone or Alarm Silence button, the LED will remain steadily illuminated until the panel is reset. LISTINGS AND APPROVALS Refer to Table 1 TECHNICAL DATA I. Specifications A. Enclosure Dimensions: 16.125" high x 14.625" wide x 5.375" deep (50 cm 37,1 cm 13,7 cm) Weight: 23 lbs. (10,4 kg) Finish: Red Enamel Vented Enclosure Viking Technical Data may be found on B. Environment The Viking Corporation's Web site at Temperature: 32 °F to 120 °F (0 °C to 48 °C) http://www.vikinggroupinc.com. The Web site may include a more recent Humidity: 85% Relative Humidity (non-condensing) at 90 °F (32 °C) maximum edition of this Technical Data Page. C. AC Power Par-3 and Par-3C: 120 VAC, 50/60 Hz, 1.2 amps Par-3E: 230 VAC, 50 Hz, 0.65 amps .. . Wire size: minimum #14AWG with 600 V insulation D. Battery Type- Lead Acid Maximum charging circuit: 27.6V, 1.5 A See ACCESSORIES for batteries available from Viking. E. Initiating Device (Input) Circuits Four style B (Class B)/Style D (Class A) circuits Input 1: Detection Circuit Input 2: Detection Circuit Input 3: Waterfiow (Alarm Pressure Switch) Input 4: Supervisory Circuit F. System Alarm Power limited circuitry Fuses: 2AG, 4 amperes Normal operating voltage: 24VDC (ripple = 10mV peak to peak) Alarm Current: 15mA minimum Short circuit current: 40mA maximum Maximum detector current in standby: 2 milliamps (peak) per zone Maximum loop resistance: 100 ohms End-of-Line resistor. 4.71K (provided) Form No. F_063092 Revised page replaces page 270 a-g dated August 17, 2006 (Added California State Fire Marshal approval) Deluge Devices 270b January 12, 2007 A FRELEASEECONTROL PANEL The Viking Corporation, 210 N Industrial Park Road, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcsvikingcorp.com Note: leave E-O-L resistors provided, on all unused circuits. Detector loop current is sufficient to ensure operation of one alarmed detector per zone. Supervisory current: 5mA (including End-of-Line Resistor) G. Heat Detectors: Detection circuits allow for installation of any number of listed or ap- proved normally open thermal detectors. H. Smoke Detectors: Contact the Viking distributor for a list of compatible smoke detectors, information concerning the maximum number of smoke detectors allowed per zone, and standby power requirements for the smoke detector used. Also, refer to appropriate Fire Protection Equipment Approval Guides. For supervised four-wire smoke detectors, connect the Power Su- pervision Relay to the last detector base 24V screw terminals. See ACCESSORIES. I. Indicating Appliance and Releasing (output) Circuits Two Style V and two Style VIZ circuits Output 1: Alarm Bell(Style VIZ) Output 2: Waterfiow or Trouble Horn (Style VIZ) Output 3: Releasing Circuit I (Style Y) Output 4: Releasing Circuit 2 or Trouble Horn(Style V) Normal operating voltage: 24VDC Total current available to all four circuits + RMS regulated power output circuit, not to exceed: 2.25 AMPS Maximum signaling current per circuit: 2.25 AMPS / AC POWER 0 0 0 ZONE SYSTEM ALARM - 0 RELEASE 0 0 0 ZONE SUPERVISORY 0 SYSTEM TROUBLE Cl iEi ALARM PRESSURE CIRCUIT TROUBLE El ALARM SILENCER POI TROUBLE AUX SUPERVISORY POWER TONE ALARM ALARM SILENCE SILENCE ACTIVATE RESET / Supervised Circuitry Power limited circuitry (except for Municipal Box output) Fuses: 2AG, 4 amperes Maximum allowable voltage drop due to wiring: 2 VDC. End-of-Line resistor 4.71K (provided) Note: leave E-O-L resistors provided, on all unused circuits. Note: Wiring must be configured to maintain a minimum voltage of 20.4V on release circuits. Contact the Viking distributor for a list of compatible indicating appliances and releasing devices. Also, refer to Viking Technical Data and appropriate Fire Protection Equipment Approval Guides. J. Alarm Relay Basic panel includes one non-silenceable Form-C dry alarm contact rated 2 amps at 30 VDC and 0.5 amps at 30 VAC (resis- tive). K. Trouble Relay Basic panel includes one Form-C dry alarm contact rated 2 amps at 30 VDC and 0.5 amps at 30 VAC (resistive). Trouble relay will silence when trouble condition is cleared. L. Zone Relay Module Model B-i Panels include one Zone Relay Module (4XZM) providing dry Form-C contacts controlled by each of the four output circuits plus one general alarm and one panel/field-wiring trouble relay. See Table 2. M. Power Outputs Four-wire Smoke Detector Power (resettable): Up to 200 mA total (four-wire smoke detector power plus non-resettable power combined) DC current available. Maximum ripple voltage: 10mV p/p. Non-resettable Power Up to 200 mA total (four-wire smoke detector power plus non-resettable power combined) DC current available. Maximum ripple voltage: 10mV p/p. RMS Regulated Power Total current available for external devices: 0.5 amp (subtracted from 2.25 A available to indicating ap- pliance circuits) DC current available. - Maximum ripple voltage: 100mV p/p. January 12, 2007 Deluge Devices 270c TECHNICAL A RELEASE CONTROL PANEL -NIKJW*i ~ _I MODEL B-1 The Viking Corporation, 210 N Industrial Park Road, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcs@vikingcorp.com N. Front Panel Control Switches (Refer to Figure 1) Switch 1: Tone Silence Switch 2: Alarm Silence - Tone Silence and Alarm Silence control switches can be activated to acknowledge alarms. A second "trouble" will resound the piezo. Switch 3: Alarm Activate -The Alarm Activate switch may be used to activate indicating circuits and relays. Switch 4: System Reset - The Reset switch clears any activated output circuits. If alarm or trouble conditions exist when the reset switch is pushed, they will re-activate the panel. 0. Front Panel Zone Status LEDs When the panel is activated, zone status LEDs illuminate, to indicate the status of Zone 1, Zone 2, Alarm Pressure, and Auxiliary Supervisory circuits. Alarm (red) LEDs indicate activation of a detection device. Trouble (yellow) LEDs indicate electrical circuit failure, such as short circuits and loose wires. P. Front Panel System Status LEDs The presence of AC Power is indicated by a constant green LED, indicating normal conditions. Alarm (red), Trouble (yellow), and Supervisory (yellow) LEDs activate as required to indicate System Alarm, Release operation, Supervisory Device activation, and Circuit trouble. LEDs also illuminate to indicate when the Alarm Silence switch has been activated. Q. Last Event Recall Follow procedure printed in Par-3 Owner's Manual provided with panel. R. Zone Disable Function Follow procedure printed in Par-3 Owner's Manual provided with panel. S. Battery Fail and Earth Fault supervision See Figure 2 for location of LEDs T. Discharge timer option Latched, 10 or 15 minutes. Refer to Par-3 Owner's manual included with panel. Also refer to installation standards, Technical Data, and all Authorities Having Jurisdiction when using timer configurations. Output circuits protected against false activation by two step command sequence U. Slide in zone identification labels Spare labels included in Par-3 Owner's Manual provided with panel. V. Other Features Piezo Sounder Alarm signals are latching Trouble signals are self restoring Alarm and Trouble resound II. Ordering Information Part Numbers - Refer to Table 1 Available since 1991 A. Modules and Accessories (order separately) 1. Batteries Two batteries of the same AH rating are required. 12V 7 Amp-Hour Viking P/N 07920 12V 12 Amp-Hour Viking P/N 07921 I2V 18 Amp-Hour Viking P/N 09867 Plug-in connector is provided with the Panel. See POWER CALCULATIONS to determine which batteries meet standby battery requirements. 2. Zone Relay Module (4XZM) (Viking Part N(o 07912) Model B-I Panels can accommodate a second 4XZM Zone Relay Module (one included in each panel) or one of the following two Modules: 3. Transmitter Module (4XTM) (Viking P/N 07909) Provides a supervised output for local energy municipal box transmitter and alarm and trouble reverse polarity circuits. 4. LED Interface Module (4XLM) (Viking P/N 07910) For Remote Annunciator (RZA-4X) described below (Required for NYC approval). Deluge Devices 270d January 12, 2007 N$I .AARELEASE CO B-1 NTROL ENEEI The Viking Corporation, 210 N Industrial Park Road, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcsvikingcorp.com 5. Remote Annunciator (RZA-4X) (Viking P/N 07911) Mounts on standard single-gang box. (LED Interface Module (4XLM) described above is required). Provides "System Trouble" LED Local Piezo Sounder Silence Switch (for local sounder) Alarm/Water-flow Bell LED Waterflow/Supervisory Bell LED Releasing Circuit 1 LED Supervisory Bell/Release Circuit 2 LED. 6. End-of-Line resistor (Viking Part No. 07913) 4.7K, % Watt, with terminal connector both ends, (for two-wire supervised circuits) 7. Power Supervisory Relay Coil (Viking Part No. 07919) For four-wire smoke detector circuits - 8. Voltage and Current Meters (4XZMM) (Viking Part No. 07917) Mount inside cabinet 9. Digital Communicator NOTI-FIRE 911 (Viking Part No. 07918) Kit For Central Station service 10. RFI Retrofit Kit (Viking Part No. 12696) Includes Ferrite Beads, Transzorb and Dead Front Protective Panel 4. INSTALLATION Prior to installation, review the Par-3 Owner's Manual and 'liking Field Wiring Diagrams. (See package inside panel.) Observe all instructions provided in the Par-3 Owner's Manual. Field wiring must be according to VIKING FIELD WIRING DIAGRAMS for the specific mode of operation required. See Table I. All wiring should be done in accordance with National and/or Local codes for fire alarm systems. The Authority Having Jurisdiction may have additional requirements. 1. Mount the cabinet in a clean, dry, vibration-free area where temperature and humidity conditions do not exceed limitations indi- cated in TECHNICAL DATA. 2. Verify that all initiating devices (detectors), indicating appliances, and releasing devices are compatible with the Model B-I Par-3 Release Control Panel. Contact the Viking distributor for a list of compatible devices. Also, refer to appropriate Fire Protection Equipment Approval Guides. 3. Wire all alarm initiating devices sequentially for proper supervision. 4. Pull required conductors through the knockouts provided. 5. Prior to connecting to the panel, verify continuity of all circuitry. 6. Prior to connecting to the panel, check for, and correct any short circuits. - 7. Make electrical connections to control panel for the detection, supervisory, alarm, trouble, and release circuits, according to ap- propriate VIKING FIELD WIRING DIAGRAMS for the system used and the Owner's Manual provided with the panel. Where indicated on VIKING FIELD WIRING DIAGRAMS, install the 4.7 K Ohm 1/2 Waft End-of-Line Resistor (provided in panel) at the remote end of circuit. End-of-Line Resistors should NOT be installed across Release Circuits. On all un-used circuits, leave the 4.7 K Ohm 1/2 Waft End-of-Line Resistor (provided in panel) in place. Maintain polarity on alarm bell and trouble bell circuits. Do not energize the panel until all associated, modules, and intercon- necting cables have been connected. 8. Prior to energizing the panel: Verify that dip switches controlling panel operation are in the proper position for the system used. Refer to Table 2 and VIKING FIELD WIRING DIAGRAMS. Verify that all modules are securely and properly positioned on their pins. If a module is loose, carefully align all pins and press firmly into position. 9. Connect non-energized AC power to the panel. Refer to Figure 2 and VIKING FIELD WIRING DIAGRAMS. Connect the wire providing in-coming voltage to the terminal marked "H". Connect the neutral wire to the terminal marked "N". Connect the ground wire to the terminal marked "G". 10. Procedure for connecting Batteries: Note: Two battery plug/wire assemblies (long leads with plug) and jumper (short) wires are provided with each panel. Connectors on one plug/wire assembly fit 7.OAH Batteries. Connectors on the other plug/wire assembly fit 12.0 AH Batteries. a. Position batteries end-to-end with terminals adjacent. Select the proper plug/wire assembly for the batteries used. January 12, 2007 Deluge Devices 270e The Viking Corporation, 210 N Industrial Park Road, Hastings NIl 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcsvikingcorp.com Connect the long RED lead to the positive terminal of one battery, and the long black lead to the negative terminal of the other. Place batteries inside the battery compartment of the Par-3 Release Control Panel with the unused terminals-toward the open door. Install batteries in the upright position only. Plug the plug-in connector to J9 on the main board of the panel. (Refer to Figure 2 and VIKING FIELD WIRING DIAGRAMS.) DO NOT install jumper at this time. To energize the panel and place the system in service: Energize the AC power supply to the panel. The Piezo will sound, and the "System Trouble' and "Power Trouble" LEDs will flash. Use the jumper (short) wire to connect the unused negative terminal of one battery with the unused positive terminal of the other battery. The Piezo should silence, and the "System Trouble" and "Power Trouble' LEDs should stop flashing. Perform appropriate tests to verify proper operation of the system. After placing the system in service, close and lock the panel to prevent tampering with the unit. When installing optional cards, modules, inter-connecting cables, or other associated equipment, refer to MAINTENANCE, technical data for the optional equipment, and Owner's Manual provided with the panel. 6. INSPECTIONS, TESTS AND MAINTENANCE NOTICE: THE OWNER IS RESPONSIBLE FOR MAINTAINING THE FIRE PROTECTION SYSTEM AND DEVICES IN PROPER OPERAT- ING CONDITION. THE VIKING MODEL B-I PAR-3 RELEASE CONTROL PANEL MUST BE KEPT FREE OF FOREIGN MATTER AND ENVIRONMENTAL CONDITIONS THAT COULD IMPAIR ITS OPERATION. For minimum maintenance and inspection requirements, refer to NFPA 25. In addition, the Authority Having Jurisdiction may have ad- ditional maintenance, testing, and inspection requirements that must be followed. WARNING: ANY SYSTEM MAINTENANCE THAT REQUIRES PLACING A CONTROL VALVE OR DETECTION SYSTEM OUT OF SERVICE MAY ELIMINATE THE FIRE PROTECTION CAPABILITIES OF THAT SYSTEM. PRIOR TO PROCEEDING, NOTIFY ALL AUTHORITIES HAVING JURISDICTION. CONSIDERATION SHOULD BE GIVEN TO EMPLOYMENT OF A FIRE PATROL IN THE AFFECTED AREAS. I. Tests A. Prior to-proceeding with tests: Verify that installation complies with instructions in the Owner's Manual provided with the panel and the appropriate VIKING FIELD WIRING DIAGRAMS for the system used. Notify the Authority Having Jurisdiction and all those in the area affected by the test. B. Alarm Activate Switch To test alarm bell, waterflow bell circuits and alarm, detection, and waterflow relays: Push "Alarm Activate' (See Figure 1). Note: "Alarm Activate" is a latching function. "Alarm Silence' will silence indicating circuits and System Alarm Relay and light the Alarm Silenced LED. When test is complete, push "System Reset'. Conditions should return to normal. C. Waterfiow To test waterflow alarm on Viking pre-action and Viking deluge systems, consult technical literature for the system used: Turn the Alarm Test Valve to "Test' position. See Table 2 for output circuits and relays that should activate for the system used. "Waterflow" circuits are latching. When test is complete return the Alarm Test Valve to the normal position and push "System Reset". Conditions should return to normal. C. Detection To test detection circuits: 1. Close main water supply control valve, placing the system out of service. CAUTION! FOR DELUGE AND SINGLE OR NON-INTERLOCKED PREACTION SYSTEMS, PERFORMING THIS TEST RESULTS IN OPERATION OF THE DELUGE VALVE. FAILURE TO CLOSE THE MAIN WATER SUPPLY CONTROL VALVE WILL CAUSE WATER TO FLOW INTO THE SPRINKLER PIPING. CAUTION! FOR DOUBLE-INTERLOCKED SYSTEMS, SIMULTANEOUS OPERATION OF A DETECTOR AND LOWERING OF SUPER- VISORY PRESSURE IN THE SPRINKLER PIPING WILL RESULT IN OPERATION OF THE DELUGE VALVE. FAILURE TO CLOSE THE MAIN WATER SUPPLY CONTROL VALVE WILL CAUSE WATER TO FLOW INTO THE SPRINKLER PIPING. Deluge Devices 270f January 12, 2007 The Viking Corporation, 210 N Industrial Park Road, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcsvikingcorp.com CAUTION! SIMULTANEOUS OPERATION OF BOTH DETECTION CIRCUITS ON ANY SYSTEM UTILIZING CROSS-ZONE DETECTION WILL RESULT IN OPERATION OF THE DELUGE VALVE. FAILURE TO CLOSE THE MAIN WATER SUPPLY CONTROL VALVE WILL CAUSE WATER TO FLOW INTO THE SPRINKLER PIPING. . Operate individual detectors, following instructions listed in technical data for the detector used. See Figure 2 for output circuits and relays that should activate for the system used. "Detection" circuits are latching (except when configured for optional "timed shut-off. See Owner's Manual). When Test is complete, push "System Reset". Conditions should return to normal. Refer to technical data for the system used to open main water supply control valve and place the system back in service. II. Maintenance CAUTION: DISCONNECT ALL POWER SOURCES BEFORE SERVICING. THE PANEL AND ASSOCIATED EQUIPMENT MAY BE DAM- AGED BY REMOVING AND/OR INSERTING CARDS, MODULES, OR INTERCONNECTING CABLES WHILE THE PANEL IS ENER- GIZED. AVAILABILITY The Viking Model B-i Release Control Panel is available through a network of domestic and international distributors. See the Viking Corp. Web site for closest distributor or contact The Viking Corporation. GUARANTEES For details of warranty, refer to Viking's current list price schedule or contact Viking directly. Table I - Part Numbers and Approvals Name Power Supply Approvals Viking Part Par-3 110 VAC 50/60Hz UL1, FM, NYC3 and CSFM4 07907 Par-3C 110 VAC 50/60Hz cUL2 07953 Par-3E 220 VAC 50/60Hz FM 07908 UL listed Releasing Device Control Unit (UOJZ) 2 cUL and CSA approved Par-3C 3Accepted by New York City Department of Buildings (MEA 89-92-E) when configured for SingleHazard-Two Zone operation (See Figure 1) and equipped with LED Interface Module (4XLM) and Remote Annuncitor (RZA-4X) See ACCESSORIES Listed by the California State Fire Marshall (7770-0533:105) January 12, 2007 Deluge Devices 270g The Viking Corporation, 210 N Industrial Park Road, Hastings MI 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcsvikingcorp.com Table 2 - Dip Switch Settings for System Configuration Modes - - DIP SWITCH SETTINGS MODE DESCRIPTION CONFIGURATION OPERATION 1 2 3 4 5 6 Single Hazard - One release circuit. Activation of EITHER detection cir- OFF OFF OFF OFF OFF Two Zone Two detection circuits. cuit energizes the release circuit. - - - - Single Hazard - One release circuit. BOTH detection circuits must acti- 2 Cross Zone Two detection circuits. vate to energize the release circuit. ON - OFF - OFF - OFF OFF 0 Dual Hazard Two release circuits. Activation of EITHER detection - I 3 - Combined Two detection circuits. circuit energizes BOTH release cir- OFF ON OFF OFF OFF C Release cults. - (I) Activation of detection circuit No. fli Dual Hazard - Two release circuits. 1 energizes release circuit No. 1 0 Split Release Two detection circuits. Activation of detection circuit No. 2 ON ON OFF OFF OFF energizes release circuit No. 2 - - - - - - Note: Dip Switches 3, 4 and 5 MUST be OFF to disable timer capabilities of the panel. For information concerning timer capabilities refer to PAR-3 Owners Manual. Also, refer to installation standards, Technical Data, and all Authorities Having Jurisdiction when using timer configurations. Table 3 - Charts show Output and Relay Module OUTPUT CI RCUITS RELAY MODULE _ MODE SINGLE HAZARD TDZ-DNE - w LLC 4L > Li j C 14 L4 Li Li CC 0 INPUT CIRCUITS I DETECTOR CIRCUIT I IT IT IT X IC IC X IT 2 DETECTOR CIRCUIT 2 IC IC X IC IC IC IT IC 3 VATERCLO\J X IC IC IT IC X 4 SUPERVISORY IT IC IT IT 5 ALARM ACTIVATE SWITCH X X - X IT X OUTPUT CIRCUITS RELAY MODULE MODE SINGLE HAZARD CROSS ZONE CC LIT Li9 V Li CC C CC ' - Li 4 0 CC CC C 0 C Li C- CC C Li IT Li IC CC 0 INPUT CIRCUITS ) I DETECTOR CIRCUIT I IT IT IC IT i C IT IT 2 DETECTOR CIRCUIT 2 IT CC x x x CC x x 3 VATERCUIS, x x x x x x 4 SUPERVISORY IC X X 5 ALARM ACTIVATE SIC/ITCH 5 2 5 X X IC OUTPUT CIRCUITS RELAY MODULE Circuits Activated by Detection Circuits 9X MODE3 CC DUAL HAZARD -- - HAZARD C- C- COMBINED Li 0 0 Li C RELEASE INPUT CIRCUITS DETECTOR CIRCUIT X X IC X CI IC IT IC IT X U DETECTOR CIRCUIT 2 X IC IC IT IC IC - X X X X 3 CJATERTLOIS IC #X. 4 SUPERVISORY IC S ALARM ACTIVATE SVITCI4 IC IC OUTPUT CIRCUITS RELAY MODULE MODE4 DUAL HAZARD HAZARD SPLIT RELEASE - CC CC C C- C CC C Li 4 C Li 4 CC CC C CC 0 C CC CC IT CC Li C. C Li 4 C Li 4 CC CC C CC 0 Cl INPUT CIRCUITS I DETECTOR CIRCUIT I K IC IC IC IC X IC IC 2 DETECTOR CIRCUIT IC -. X IT IC IT K IC IC 3 IC/ATERTLOW IC IC IC IT x IC 4 SUPERVISORY K IC x K 5 ALARM ACTIVATE SIC/ITCH IC IC X IT Deluge Devices 270h January 12, 2007 NIKJNG4 TECHNICAL DAT A RELEASE CONTROL PANEL M~ODEL ~B-1 The Viking Corporation, 210 N Industrial Park Road, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcsvikingcorp.com CIRCUIT BREAKER - AC POWER Figure 2 - CONNECTION BATTERY Replacement Parts CONNECTION (J9) ,- 5 0 BATTERY -'OUI FAIL LED FAULT 00 1=0 0 *00# 1N1 Ell (1 $i II goo 1 no OPTIONAl Li!! Li BOARDS BATTERY i 11 BATTERY ITEM NO. PART NUMBER DESCRIPTION QTY NOTES 1 07912 Zone Relay Module 4XZM (Included with Panel)' 1 Optional' 2 07909 Transmitter Module 4XTM 1 Optional 3 - LED Interface Module 4XLM 1 Optional 4 07911 Remote Annunciator Module RZA-4X 1 Optional 5 07917 Voltage, Current Meters 4XMM 1 Optional 07920 Battery, 12V, 7Amp Hr. Capacity2 OR 2 .6 .. . 07921 Battery, 12V, 12 Amp Hr. Capacity2 OR Two Batteries Required2 09867 Battery, 12V, 18 Amp Hr. Capacity2 2 09866 Battery Box, Required when using 18 A Batteries 7 07915 Fuses, 4Amp 4 Included 8a 07914 Resistor, Dummy Load (Notifier 71245) 6 Included 8b 1 08391 Resistor, Dummy Load (Notifier 27072) 2 Included 9 07919 Power Relay I Optional 10a - Battery Plug WireAss'y (7 Amp Battery) 1 Included lOb 08285 Battery Plug Wire Ass'y (12 Amp Battery) 1 Included 11 07913 Resistor, End-of-Line (Notifier 71252) 1 Optional 12a 08389 Mother Board 110 V610 1 Included3 12b 1 08390 Mother Board 220 V610 1 Included3 - Indicates replacement part not available 'This unit can support a second Zone Relay Module 4)(ZM in addition to the one included with the panel. 2Always use two batteries of the same amperage. Order batteries separately after performing power calculations to determine size of battery required to meet standby requirements. 3Voltage of AC Power Supply determines voltage of Mother Board required. Form No. F_063092 Revised page replaces page 270 a-g dated August 17, 2006 (Added California State Fire Marshal approval) September 4, 2001 314a SYSTEM DESCRIPTION (Refer to Figures 1 - 10) Viking supervised, single interlocked preaction systems utilize a Viking De- luge Valve and a pneumatically pressur- ized automatic sprinkler system. The system piping is pneumatically pressur- ized for supervisory purposes only. This feature serves to prevent undetected leaks. If the system piping or sprinkler is damaged, supervisory pressure is re- duced and aglow air" alarm is activated. Electrically controlled preaction systems require an electric solenoid valve con- trolled by an approved system control panel with compatible detection system. In fire conditions, when the detection system operates, system control panel energizes solenoid valve open, causing deluge valve to open. The sprinkler sys- tem fills with water. If any sprinklers have opened, water will flow from the system. If sprinklers have not opened, water will be in the sprinkler system pip- ing when the sprinkler operates. A sprin- kler head must open before water flows from the system. Single interlocked preaction systems are commonly used where the sprinkler system piping and/or sprinkler may be subject to damage. The most common applications are very large dry systems, which exceed the capacity normally per- mitted on a dry valve, and in system ap- plications where it is important to control accidental water discharge due to dam- aged sprinkler piping. FM APPROVAL The Viking supervised, electrically con- trolled single interlocked preaction sys- tem is FM Approved when installed with specific components. Refer to current FM Approval Guide. Consult the manu- facturer for any component approvals too recent to appear in the FM Approval Guide. SYSTEM OPERATION (Refer to Figures 1 -10) In the SET condition: System water supply pressure enters the priming chamber of the deluge valve through the 1/4" (8 mm) priming line which includes a normally open priming valve, strainer, restricted orifice and check valve. In the SET condition, water supply pressure is trapped in the priming chamber by check valve and normally closed solenoid valve. The pressure in the priming chamber holds the deluge valve clapper closed, keeping the outlet chamber and system piping dry. In a fire condition: In a fire condition, when the detection system operates, system control panel activates an alarm and energizes nor- mally closed solenoid valve open. Pres- sure is released from the priming cham- ber to open drain cup faster than it is supplied through restricted orifice. The deluge valve clapper opens to allow wa- ter to flow into the system piping and alarm devices, causing water motor alarm and water flow alarms connected to alarm pressure switch to activate. When a sprinkler head opens, water will flow from the system. For Deluge Valve Easy Trim: (Refer to Figures 1 - 5) When the deluge valve operates, the sensing end of PSOV is pressurized, causing the PSOV to close. When the PSOV closes, it shuts off the flow of priming water pressure to the priming chamber, preventing the deluge valve from resetting even if the open releasing devices close. The deluge valve can only be reset after the system is taken out of service, and the outlet chamber of the deluge valve and associated trim piping is depressurized and drained. For Conventional Deluge Valve Trim: (Refer to Figures 6-10) When the deluge valve operates, the sensing end of PORV is pressurized, causing the PORV to operate. When the PORV operates, it continually vents the priming chamber to prevent the deluge valve from resetting even if the open re- leasing devices close. The deluge valve can only be reset after the system has been taken out of service, and the outlet chamber of the deluge valve and associ- ated trim piping are depressurized and drained. Trouble conditions: If a sprinkler opens prior to operation of the detection system, OR ANY TIME SUPERVISORY PRESSURE IN THE SPRINKLER PIPING IS LOST, alarms connected to Air Supervisory Switch will signal a low air pressure condition but the deluge valve will NOT open. If the detection system operates due to mechanical damage or malfunction, the deluge valve will open but the water will be contained in the sprinkler piping. Water motor alarm and alarms con- nected to alarm pressure switch will ac- tivate. Manual Operation: Any time the handle inside emergency release is pulled, pressure is released from the priming chamber; the deluge valve will open. Water will flow into the system piping, and alarm devices. If a sprinkler head opens, water will flow from the system. INSTALLATION Refer to current Viking Technical Data describing individual components of the Viking Single Interlocked Preaction System. Technical Data de- scribing the Viking Deluge Valve, and other system components are packed with product and in the Viking Engi- neering Design Data book. Also, refer to applicable installation standards, codes, and Authorities Hav- ing Jurisdiction. Important Settings: 1. Recommended supervisory pressure in the closed sprinkler piping is 20 PSI (138 kPa). Where supervisory pressure is maintained at 20 PSI (138 kPa), set Air Supervisory Switch to acti- vate at 15 PSI (172 kPa) on pres- sure drop. Air Supervisory Switch should be wired to activate an alarm to signal a "low air" pressure condi- tion. Activation of an alarm to sig- nal a high pressure condition may be required. Refer to applicable installation standards and the Au- thority Having Jurisdiction. Note: Installation Standards may allow supervisory pressures lower than those recommended above. When using supervisory pres- sures lower than the recom- For Technical Data, Installation, Maintenance and Testing Instructions for individual system components, refer to current Viking Technical Data describing individual components of the Preaction System used. Viking Technical Data may be found on The Viking Corporation's Web site at http://wwwMkingcorp.com. The Web site may include a more recent edition of this Technical Data page. Form No. F_070689 Replaces page 314 a-g dated April 23, 2001. (Added 8" Trim Schematics.) 314 b September 4, 2001 mended setting noted above, ver- ify that air regulation equipment and air supervisory switches used are compatible with the supervi- sory pressure setting used. 2. Alarm pressure switch should acti- vate when pressurized to 4 to 8 PSI (27 to 55 kPa) on pressure rise and should be wired to activate the water flow alarm. Air Supply Design: The air supply compressor should be sized to establish total required air pres- sure in 30 minutes. The air supply must be regulated, restricted and maintained automatically. Air maintenance device is used to regulate and restrict the flow of supervisory air into the sprinkler system piping. The air supply must be regulated to maintain the supervisory pressure de- sired in the sprinkler piping. Pressures other than the pressure settings recom- mended in paragraph C: INSTALLA- TION, may affect operation of the sys- tem. The air supply must be restricted to ensure that the automatic air supply can- not replace air as fast as it escapes when a sprinkler operates. Riser. Mounted Compressors: (Refer to Figures 3, 5, 8 or 10.) A riser mounted compressor may be suitable for small electrically operated single interlocked preaction systems. However, placement of a dehydrator and/or an air maintenance device in the outlet piping of a riser mounted com- pressor may affect operation of the com- pressor. When a dehydrator is not installed, verify that the installation is located in a dry environment (not humid) and that the supervised sprinkler piping is never subject to freezing. When an air maintenance device is not used, verify that the air supply produced is properly "regulated" and "restricted". See Air Supply Design paragraphs above, and paragraph F, INSPECTIONS and TESTS. Do not install an accelerator on the system. Verify system approval. Refer to the Authority Having Jurisdiction. It is recommended practice to provide an inspectors test connection on the su- pervised sprinkler piping. Sprinkler system inspectors test con- nections should terminate in an orifice equal to the smallest sprinkler orifice provided. Inspectors test connections should be equipped with a ball valve (normally locked closed) capable of being opened to simulate the opening of a sprinkler and should be installed at the most hy- draulically demanding location of the system. Inspectors test connections may be used to verify that the automatic air supply cannot replace air as fast as it escapes when a sprinkler operates. Re- fer to paragraph F. INSPECTIONS and TESTS. D. EMERGENCY INSTRUCTIONS (Refer to Figure 1.) To Take System Out of Service: WARNING: Placing a control valve or detection system out of service may eliminate the Fire Protection capabilities of the system. Prior to proceeding, notify all Authorities Having Jurisdiction. Con- sideration should be given to employ- ment of a Fire Patrol in the affected ar- eas. After a fire, verify that the fire is OUT and that placing the system out of service has been authorized by the appropriate Authority Having Jurisdiction. 1. Close water supply valve. 2. Open system main drain. 3. Silence alarms (optional). To silence electric alarms con- trolled by Viking PAR-3 Panel: Open panel and press "ALARM SILENCE" To silence electric alarms con- trolled by pressure switch and to silence water motor alarm :..Close alarm shut-off valve. Note: electric alarms controlled by a pressure switch installed in the 1/2(15 mm) NPT connection for a Non-interuptable alarm pressure switch cannot be shut off until the deluge valve is reset or taken out of service. 4. Shut off the air supply (optional). 5. Open auxiliary drain. 6. Close priming valve (optional). Sprinkler systems that haye been sub- jected to a fire must be returned to ser- vice as soon as possible. The entire system must be inspected for damage, and repaired or replaced as necessary. 7. Replace any detectors that have been damaged. 8. Replace any sprinklers that have opened, been damaged, or have been exposed to fire conditions. Perform all maintenance procedures recommended in Technical Data de- scribing individual components of the system that has operated. Return the system to service as soon as possible. Refer to E: PLACING THE SYSTEM IN SERVICE. E. PLACING THE SYSTEM IN SERVICE (Refer to Figures 1 - 10) Note: Refer to instructions provided in Technical Data describing the Vi- king Deluge Valve, and other system components. To Return the System to Service: Verify that the system has been prop- erly drained. System main drain and auxiliary drain should be open. Verify that emergency release is closed. Close the system main drain. Restore supervisory pressure to sprinkler piping. a: Verify that the 1/2" valve in the air maintenance device by-pass trim is closed and that both 1/4" valves are open. Open priming valve. Reset the system control panel. For Viking Par-3 Panel: Open panel and press "RESEr. Solenoid valve should close. Flow from solenoid valve to drain cup should stop. Open flow test valve. Partially open main water supply con- trol valve. When full flow develops from flow test valve, close the flow test valve. a: Verify that there is no flow from open auxiliary drain. Close auxiliary drain. Fully open and secure the main wa- ter supply control valve. Verify that the alarm shut-off valve is open and that all other valves are in their normal operating position. Depress the plunger of drip check. No water should flow from the drip check when the plunger is pushed. F. INSPECTIONS and TESTS It is imperative that the system be in- spected andtested on a regular basis. Refer to INSPECTIONS and TESTS recommended in current Viking Techni- cal Data describing individual compo- nents of the Viking Single Interlocked Preaction System used. The frequency of the inspections may vary due to contaminated water sup- plies, corrosive water supplies, corro- sive atmospheres as well as the condi- September 4, 2001 314c SINGLE INTERLOCKED I Nlm:m: PREACTION SYSTEM CONTROLLED BY ELECTRIC RELEASE I - When testing is complete, return the To Trip Test the Electrically Con- system to service following steps I trolled Single Interlocked Preaction tion of the air supply to the system. For minimum maintenance and inspection requirements, refer to the National Fire Protection Association Pamphlet that describes care and maintenance of sprinkler systems. In addition, the Au- thority Having Jurisdiction may have ad- ditional maintenance, testing, and in- spection requirements which must be followed. WARNING: Any system maintenance which involves placing a control valve or detection system out of service may eliminate the fire protection capabilities of that system. Prior to proceeding, no-, tify all Authorities Having Jurisdiction. Consideration should be given to em- ployment of a fire patrol in the affected areas. F.1 Low Air Pressure Alarm Test Quarterly testing of low air alarms is rec- ommended. To Test Sprinkler System "Low Su- pervisory Al?' Alarm: To prevent operation of the deluge valve and filling the system with water during the test, do NOT operate the electric detection system during this test. Consider closing the main water supply control valve. Fully open the sprinkler system in- spectors test valve to simulate opera- tion of a sprinkler. Verify that low air alarms operate within an acceptable time period and continue without interruption. Close the inspectors test valve. Establish recommended pneumatic supervisory pressure to be main- tained. Refer to paragraph C: IN- STALLATION. Open the system control panel and press RESET. Alarms should stop. through 9 below. Caution, this procedure applies only when done in conjunction with "Low Al?' Alarm testing described above. Verify that the pressure indicated on priming pressure water gauge indi- cates that the priming chamber is pressurized with system water supply pressure. Depress the plunger of drip check. No water should flow from the drip check when the plunger is pushed. If the main water supply, control valve was NOT closed in step 1, proceed to step 8 below. If the main water supply control valve WAS closed in step 1, proceed with steps 3 through 9 below. Open flow test valve and auxiliary drain. Partially open main water supply con- trol valve When full flow develops from flow test valve, close the flow test valve. a: Verify that there is no flow from open auxiliary drain. Close auxiliary drain. Fully open and secure the main wa- ter supply control valve. Verify that the alarm shut-off valve is open and that all other valves are in their normal operating position. Depress the plunger of drip check. No water should flow from the drip check when the plunger is pushed. F.2 Full Flow Trip test -Performance of a Trip Test isrecom- mended annually during warm weather. Consider coordinating this test with op- eration testing of the detectors. Caution! Performance of this test will cause the deluge valve to open and the sprinkler system to fill with water. System: 1. Notify the Authority Having Jurisdic- tion and those in the area affected by the test. 2. Trip the deluge valve by performing option "a" or "b" below. Operate a detector according to the manufacturers instructions. Open the door of emergency re- lease and pull the handle. 3. The deluge valve should open, filling the sprinkler system with water. a: Water flow alarms should operate. 4. Open the sprinkler system inspectors test valve to verify adequate flow. When Trip Testing is complete: 5. Perform steps I through 10 of para- graph "D" EMERGENCY INSTRUC- TIONS to take the system out of ser- vice. 6. Perform steps I through 12 of para- graph "E" PLACING THE SYSTEM IN SERVICE to return the system to service. 7. Notify the Authority Having Jurisdic- tion and those in the affected area that testing is complete. G. MAINTENANCE NOTICE: The owner is responsible for maintaining the fire protection system and devices in proper operating condi- tion. Refer to MAINTENANCE INSTRUC- TIONS provided in current Viking Tech- nical Data describing individual compo- nents of the Viking Single Interlocked Preaction System used. Where difficulty in performance is expe- rienced, the valve manufacturer or his authorized representative shall be con- tacted if any field adjustment is to be made. II 11 8. 314 d September 4, 2001 EASY TRIM SCHEMATIC 1/2"-" (15 mm) NPT for Non- B 7h1 In terup table Alarm Pressure Switch (Optional) 8.14 To Drain ---Dashed lines indicate pipe required but not listed in "System Components" Table. A SUPERVISED SINGLE INTERLOCKED PREACTION SYSTEM CONTROLLED BY ELECTRIC RELEASE SYSTEM SYSTEM COMPONENTS A. Valve A.1 Deluge Valve * B. Deluge Valve Easy Trim (See Deluge Valve Easy Trim Charts) B.1 Priming Valve (Normally Open) 6.2 Strainer B.3 1/16 Restriction 6.4 Spring Loaded Check Valve 8.5 Alarm Test Valve (Normally Closed) 8.6 Auxiliary Drain Valve ,(Normally Closed) 8.7 Drip Check Valve B.8 Drain Check Valve 8.9 Alarm Shut-Off Valve (Normally Open) 8.10 Prime Shut-off Valve (PSOV) B.11 Emergency Release 8.12 Priming Pressure Water Gauge and Valve B.13 Water Supply Pressure Gauge and Valve 8.14 Drain Cup 6.15 Flow Test Valve (Normally Closed) C. Water Flow Alarm Equipment C.1 Alarm Pressure Switch and/or C.2 Water Motor Alarm (Strainer Required) C.3 Strainer C.4 Electric Alarm Bell D. Riser D.1 Water Supply Control Valve D.2 Easy Riser Check Valve or rubber seated check valve D.3 Sprinkler System Main Drain D.4 90Ell. (Grooved Eli Shown. Deluge Valve also available with Flanged Outlet.) C. Supervisory Air Supply E.1 System Pressure Gauge and Valve E.2 Soft Seat Check Valve E.3 Air Pressure Supervisory Switch F. Release System F.1 Solenoid Valve (Normally Closed) F.2 Electric Release Module Trim P.3 System Control Panel configured for Single Interlocked Preoction operation. P.4 Electric Detection System. Heat Detector shown forclority. G. Air Supply 0.1 Automatic Air Supply. Air Compressor and Tank shown for clarity. To G.2 Air Supervisory Pressure Switch Drain (Compressor On/Off Control Switch) 0.3 Soft Seat Check Valve 0.4 Shut Off Valve (Indicating Boll Valve recommended.) G.5 Dehydrator G.6 Air maintenance Device & By-Pass Trim G.7 1/2" x 1/4" Reducing Coupling 8.6 A.1 13 5l Water Supply Dotted lines indicate electrical detection system wiring required but not listed in "System Components Table. For additional wiring requirements refer to technical data for components used. Viking Deluge Valve Trim Packages contain items 8.1 through B.15 and associated nipples. Viking Accessory Package for Easy Deluge Valve Trim contains 8.2 through 8.5, B7 through 8.11, and 8.14. FIGURE 1 September 4, 2001 314 e EASY TRIM SCHEMATIC W/RISER MOUNTED COMPRESSOR When using a Riser Mounted Air Cc.npressar Placement of a detry*000r and/ar an sir nuinteecece device in the outiet piping at a riser mounted compressor may affect operation of the compressor. When a dehydrator is not ivstoiled, verify that the installation is Located in a dry environment (not hung) and that the supervised sprinkler piping is never subject to Freezing. When on Ok' naintenoece device iS at used, verify that the oil supply produced is property 'regulated, and 're'ltricted'. Refer to paragraph C' INSTALLATIDlA Do not Install an Accelerator on the system. VerIfy system approvals. Refer to the Authority having ju.'lsdiatlaru A SUPERVISED SINGLE INTERLOCKED PREACTION SYSTEM CONTROLLED BY ELECTRIC RELEASE SYSTEM SYSTEM COMPONENTS A. Valve A.) Deluge Valve * B. Deluge Valve Easy Trim (See Deluge Valve Easy Trim Charts) 8.1 Priming Valve (Normally Open) B.2 Strainer 8.3 1/16" Restriction B.4 Spring Loaded Check Valve 8.5 Alarm Test Valve (Normally Closed) 8.6 Auxiliary Drain Valve (Normally Closed) B.7 Drip Check Valve 8.8 Drain Check Valve B.9 Alarm Shut-Off Valve (Normally Open) 8.10 Prime Shut-off Valve (PSOV) 8.11 Emergency Release 8.12 Priming Pressure Water Gauge and Valve 8.13 Water Supply Pressure Gauge and Valve 8.14 Drain Cup 8.15 Flow Test Valve (Normally Closed) C. Water Flow Alarm Equipment C.1 Alarm Pressure Switch and/or C.2 Water Motor Alarm (Strainer Required) C.3 Strainer C.4 Electric Alarm Bell D. Riser D.1 Water Supply Control Valve 0.2 Easy Riser1° Check Valve or rubber seated check valve D.3 Sprinkler System Main Drain 0.4 90°Ell. (Grooved Ell Shown. Deluge Valve also available with Flanged Outlet.) E. Supervisory Air Supply E.1 System Pressure Gauge and Volve E.2 Soft Seat Check Valve E.3 Air Pressure Supervisory Switch F. Release System F.1 Solenoid Valve (Normally Closed) F.2 Electric Release Module Trim F.3 System Control Panel configured for Single Interlocked Preaction operation. F.4 Electric Detection System. Heat Detector shown for clarity. C. Air Supply 0.1 Automatic Air Supply. Air Compressor and Tank shown for clarity. 0.2 Air Supervisory Pressure Switch (Compressor On/Off Control Switch) F3 E3 0.1 lull' G.2 FA BI To Water Drain Supply ik) - - -Dashed lines indicate pipe required but not listed in Systeen Canrpanents' Table. Dotted lines indicate eiectnlcai detection system wiring required but not listed In Systenr Can1paneirts" Table. Far additional o4Asgeequireer.enls rarer to technical data toe conrpacento used. * Viking Deluge VoIce Inn, Packages ao'rrain Items 8.1 through 8.15 and associated nipples. 'liking Accessory Package for Easy Deluge Valve Trim contains 8.2 through 13.5. 87 through 0.11. and 8.14. FIGURE 2 314 f September 4, 2001 SINGLE INTERLOCKED I '.IH(III6i PREACTION SYSTEM I CONTROLLED BY I ELECTRIC RELEASE I 8" DELUGE VALVE HORIZONTAL EASY TRIM SCHEMATIC When using a Riser Mounted Air Compressor Placement of a dehydrator and/Or an air, maintenance device In the outlet piping of a riser mounted compressor may affect operation of the compressor. 1. \.Ihen a dehydrator is not installed, verify that the installation is Located in a dry environment (not humid) and that the supervised sprinkler piping is never subject to freezing. fi. Vhen an air maintenance device is not used, verify that the air supply produced Is properly 'regulated' and 'restricted'. Refer to paragraph C INSTALLATION. 3. Do not install an Accelerator on the system. 4, Verify system approvals. Refer to the Authority having jurisdiction. - D.1 To Drain 14 To 0mm Dotted lines indicate electrical detection system wiring required but not Included with 'System Components'. For additional wiring requirements refer to technical data for components used. Dashed lines indicate pipe required but not Included with Deluge Valve EZ Trim and Easy Riser1° Check Valve Trim Packages. A SUPERVISED SINGLE-INTERLOCKED PRE-ACTION SYSTEM CONTROLLED BY ELECTRIC RELEASE SYSTEM COMPONENTS A. Valve A.1 Deluge Valve * B. Deluge Valve EZ Trim (See Deluge Valve EZ Trim Charts) 8.1 Priming Valve (Normally Open) 8.2 Strainer B.3 1/16" Restriction 8.4 Spring Loaded Check Valve 8.5 Alarm Test Valve (Normally Closed) 8.6 Auxiliary Drain Valve (Normally Closed) 8.7 Drip Check Valve 8.8 Drain Check Valve B.9 Alarm Shut-Off Valve (Normally Open) 8.10 Pressure Shut-Off Valve (P.S.0.V.) 8.11 Emergency Release 6.12 Priming Pressure Water Gauge and Valve B.13 Water Supply Pressure Gauge and Valve B.14 Drain cup 8.15 Flow Test Valve (Normally Closed) C. Water Flow Alarm Equipment C.1 Alarm Pressure Switch and/or C.2 Water Motor Alarm (Strainer Required) C.3 Strainer C.4 Electric alarm Bell D. Riser 0.1 Water Supply Control Valve 0.2 Easy Riser°° Check Valve or rubber seated check valve D.3 Sprinkler System Main Drain E. Supervisory Air Supply E.1 System Pressure Gauge, and Valve E.2 Check Valve with 18" orifice (maximum) opening for air flow. (Provided on Viking Riser Mounted Compressor). E.3 Air Pressure Supervisory Switch F. Release System F.1 Electric Release Module (See Electric Release Module Trim Chart) F.2 System Control Panel configured for Single Interlocked Preaction operation. F.3 Electric Detection System. Heat Detector shown for clarity. * Viking Deluge Valve Trim Packages contain items C Air Supply 2.1 through 2.15 and associated nipples. . G. . Viking Accessory Package for Deluge Valve G.1 Riser Mounted Air Compressor Easy Trim contains 2.2 through 11.5, 2.7 through 2.11, and B.14. G.2 Air Supervisory Pressure Switch ** 1/2' (15 mm) NPT for Non-Interuptable Alarm Pressure (Compressor On/Off Control Switch) Switch <Optional) FIGURE 3 When using a Riser Mounted Air Compressor Placement of a dehydrator and/or an sir maintenance device in the outlet piping of a riser mounted compressor may affect operation of the compressor. When a dehydrator is not installed, verify that the installation is located in a dry environment (mat humid) and that the supervised sprinkler piping is never subject to freezing. When an air maintenance device is not used verify that the air supply produced is properly 'regulated' and'restricted'. Refer, to paragraph C INSTALLATION. Do not install an Accelerator on the system. Verify system approvals. Refer to the Authority having jurisdiction. September 4, 2001 314g SINGLE INTERLOCKED I PREACTION SYSTEM I .J 11(1 IG® ii'& i • CONTROLLED BY I ELECTRIC RELEASE I 8" DELUGE VALVE HORIZONTAL EASY TRIM SCHEMATIC W/RISER MOUNTED COMPRESSOR A SUPERVISED SINGLE-INTERLOCKED PRE-ACTION SYSTEM CONTROLLED BY ELECTRIC RELEASE SYSTEM COMPONENTS A. Valve A.1 Deluge Valve * B. Deluge Valve EZ Trim (See Deluge Valve EZ Trim Charts) 8.1 Priming Valve (Normally Open) 8.2 Strainer 8.3 1/16" Restriction 8.4 Spring Loaded Check Valve 8.5 Alarm Test Valve (Normally Closed) 8.6 Auxiliary Drain Valve (Normally Closed) 8.7 Drip Check Valve 8.8 Drain Check Valve 8.9 Alarm Shut-Off Valve (Normally Open) 8.10 Pressure Shut-Off Valve (P.S.O.V.) 8.11 Emergency Release 8.12 Priming Pressure Water Gouge and Valve 8.13 Water Supply Pressure Gauge and Valve 8.14 Drain cup 8.15 Flow Test Valve (Normally Closed) C. Water Flow Alarm Equipment C.1 Alarm Pressure Switch and/or C.2 Water Motor Alarm (Strainer Required) C.3 Strainer C.4 Electric alarm Bell D. Riser D.1 Water Supply Control Valve D.2 Easy Riser' Check Valve or rubber seated check valve D.3 Sprinkler System Main Drain E. Supervisory Air Supply E.1 System Pressure Gauge, and Valve E.2 Check Valve with 18" orifice (maximum) opening for air flow. (Provided on Viking Riser Mounted Compressor). E.3 Air Pressure Supervisory Switch F. Release System F.1 Electric Release Module (See Electric Release Module Trim Chart) F.2 System Control Panel configured for Single Interlocked Preaction operation. F.3 Electric Detection System. Heat Detector shown for clarity. G. Air Supply G.1 Riser Mounted Air Compressor G.2 Air Supervisory Pressure Switch (Compressor On/Off Control Switch) 14 To Drain Dotted lines Indicate electrical detection system wiring requiredlout not included with'System Components'. For additional wiring requirements refer to technical data for components used. -Dashed lines indicate pipe required but not included with Deluge Valve EZ Trim and Easy Riserm Check Valve Trim Packages. * Viking Deluge Valve Trim Packages contain items 5.1 through B.15 and associated nipples. Viking Accessory Package for Deluge Valve Easy Trim contains 5.2 through 5.5 B.7 through BIt, and 13,14, ** 1/2' (15 mm) NPT for Non-Interuptable Alarm Pressure Switch (Optional) FIGURE 4 314 h September 4, 2001 8" DELUGE VALVE VERTICAL EASY TRIM SCHEMATIC A SUPERVISED SINGLE INTERLOCKED -. PRE-ACTION SYSTEM F2 CONTROLLED BY ELECTRIC RELEASE C.4 SYSTEM COMPONENTS Valve A.1 Deluge Valve Deluge Valve EZ Trim* (See Deluge Valve EZ Trim Charts) 8.1 Priming Valve (Normally Open) 0.2 : 8.2 Strainer B.3 1/16" Restriction 8.4 Spring Loaded Check Valve 03 8.5 Alarm Test Valve (Normally Closed) 8.6 Auxiliary Drain Valve (Normally Closed) 8.7 Drip Check Valve 8.8 Drain Check Valve 8.9 Alarm Shut-Off Valve (Normally Open) .5 -.1 8.10 Pressure Shut-Off Valve (P.S.O.V.) E3 .- . I'... '. - 6.11 Emergency Release 8.12 Priming Pressure Water Gauge and Valve ( l . ""- 8.13 Water Supply Pressure Gauge and Valve 1 ..• ..• 8.14 Drain cup 8.15 Flaw Test Valve (Normally Closed) C. Water Flow Alarm Equipment E.1 I C.1 Alarm Pressure Switch and/or I 0.2 C.2 Water Motor Alarm (Strainer Required) I D. C.3 Strainer C.4 Electric alarm Bell 8.12 I D. Riser To Drain .2 D.1 Water Supply Control Valve D.2 Easy Riser° Check Valve or 811 01 rubber seated check valve D.3 Sprinkler System Main Drain 4B. 03 8.9 c B. E. Supervisory Air Supply ** E.1 System Pressure Gauge, and Valve E.2 Soft Seat Swing Check Valve BAD E.3 Air Pressure Supervisory Switch F. Release System .. F.1 Electric Release Module 0.1 (See Electric Release 14 8.5 Module Trim Chart) .13 F.2 System Control Panel configured for To Drain Sinlge Interlocked Preoction operation. B.6 F.3 Electric Detection System. Heat Detector Water Supply shown for clarity. 015 G. Air Supply G.1 Automatic Air Supply. Air Compressor Dotted lines indicate electrical detection system wiring and Tank shown for clarity. required but not included with'System components. 0.2 Air Supervisory Pressure Switch For additional wiring requirements refer to technical (Compressor On/Off Control Switch) data for components used. 0.3 Soft Seat Check Valve - - - - Dashed lines indicate pipe required but not included with Deluge Valve EZ Trim and Easy Riser TMCteck Valve G.4 Shut Off Valve Trim Packages. . (Indicating Ball Valve recommended.) * Viking Deluge Valve Trim Packages contain Items 0.5 Dehydrator 8.1 through 8.15 and associated nipples. G.6 Air maintenance Device & By-Pass Trim Viking Accessory Package for Deluge Valve Easy Trim contains 8.2 through B.5, 8.7 through B.11, and B.14. ** 1/2' (15 mm) NPT For Non-Interuptoble Alarm Pressure Switch (Optional) FIGURE 5 September 4, 2001 314 i SINGLE INTERLOCKED I \JH(III6i PREACTION SYSTEM I CONTROLLED BY I ELECTRIC RELEASE I 8" DELUGE VALVE VERTICAL EASY TRIM SCHEMATIC W/RISER MOUNTED COMPRESSOR When using a Riser Mounted Air Compressor Placement of a dehydrator and/or on air maintenance device in the outlet piping of a riser mounted compressor may affect operation of the compressor, 1. When a dehydrator is not installed, verify that the installation is located in a dry environment (not humid) and that the supervised sprinkler piping is never subject to freezing. . When an air maintenance device is not used verify that the air supply produced is properly 'regulated' and 'restricted'. Refer to paragraph C: INSTALLATION. D. Do not install an Accelerator on the system. 4. verify system approvals. Refer to the Authority having jurisdiction. Dotted lines indicate electrical detection System wiring required but not included with 'System Components'. For additional wiring requirements refer to technical data For components used. Dashed lines indicate pipe required but not included with Deluge Valve EZ Trim and Easy Riser' Check Valve Trim Packages. * Viking. Deluge Valve Trim Packages contain items D.l through DID and associated nipples. Viking Accessory Package For Deluge Valve Easy Trim contains B.2 through B.5, 5.7 through B.11. and 5.14. ** 1/5' (15 mm) NPT for Non-lnteruptable Alarm Pressure Switch (Optional) FIGURE 6 A SUPERVISED SINGLE INTERLOCKED PRE-ACTION SYSTEM CONTROLLED BY ELECTRIC RELEASE SYSTEM COMPONENTS A. Valve A.1 Deluge Valve * B. Deluge Valve EZ Trim (See Deluge Valve EZ Trim Charts) 8.1 Priming Valve (Normally Open) 8.2 Strainer 8.3 1/16' Restriction B.4 Spring Loaded Check Valve B.5 Alarm Test Valve (Normally Closed) B.6 Auxiliary Drain Valve (Normally Closed) 8.7 Drip Check Valve B.8 Drain Check Valve 8.9 Alarm Shut-Off Valve (Normally Open) B. 10 Pressure Shut-Off Valve (P.S.O.V.) 3.11 Emergency Release 8.12 Priming Pressure Water Gauge and Valve 8.13 Water Supply Pressure Gauge and Valve B.14 Drain cup 6.15 Flow Test Valve (Normally Closed) C. Water Flow Alarm Equipment Ci Alarm Pressure Switch and/or C.2 Water Motor Alarm (Strainer Required) 0.3 Strainer C.4 Electric alarm Bell D. Riser Di Water Supply Control Valve 0.2 Easy Riserw Check Valve or rubber seated check valve 0.3 Sprinkler System Main Drain E. Supervisory Air Supply E.1 System Pressure Gauge, and Valve E.2 Check Valve with 1/8" orifice (maximum) opening for air flow. (Provided on Viking Riser Mounted Compressor). E.3 Air Pressure Supervisory Switch F. Release System F.1 Electric Release Module (See Electric Release Module Trim Chart) F.2 System Control Panel configured for Sinlge l,ntçl.ocked Preaction operation. F.3 Electric Detection System. Heat Detector shown for clarity. C. Air Supply 0.1 Riser Mounted Air Compressor G.2 Air Supervisory Pressure Switch (Compressor On/Off Control Switch) QrC.2 314 September 4, 2001 SINGLE INTERLOCKED N110I'(1G; PREACTION SYSTEM CONTROLLED BY ELECTRIC RELEASE I CONVENTIONAL TRIM SCHEMATIC G. Air Supply Interuptalle, D.4 Alarm F Switch B 15 D To rain 8.14 0.1 Automatic Air Supply. Air Compressor 0.2 Air Supervisory Pressure Switch 0.3 Soft Seat Check Valve and Tank shown for clarity. (Compressor On/Off Control Switch) 6.4- Shut Off Valve (Indicating Ball Valve recommended.) Water Drai T cin Supply 6.5 Dehydrator 6.6 Air maintenance Device & By-Pass Trim 6.7 1/2" x 1/4" Reducing Coupling ---Dashed lines indicate pipe required but not listed in "System Components" Table. Dotted lines indicate electrical detection system wiring required but not listed in "System Components" Table. For additional wiring requirements refer to technical data for components used * Viking Deluge Valve Trim Packages contain items B.1 through 8.15 and associated nipples. Viking Accessory Package for Conventional Deluge Valve Trim contains 8.2 through B.5, B7 through 8.1 1, and 8.14. A SUPERVISED SINGLE INTERLOCKED PREACTION SYSTEM CONTROLLED BY ELECTRIC RELEASE SYSTEM SYSTEM COMPONENTS A. Valve A.1 Deluge Valve B. Deluge Valve Conventional Trim (See Deluge Valve Conventional Trim Charts) 8.1 Priming Valve (Normally Open) 8.2 Strainer 8.3 1/16" Restriction B.4 Spring Loaded Check Valve 8.5 Alarm Test Valve (Normally Closed) B.6 Auxiliary Drain Valve (Normally Closed) B.7 Drip Check Valve 8.8 Drain Check Valve B.9 Alarm Shut-Off Valve (Normally Open) 8.10 Pressure Operated Relief Valve (P.O.R.V.) 8.11 Emergency Release B.12 Priming Pressure Water Gauge and Valve 8.13 Water Supply Pressure Gouge and Valve 8.14 Drain Cup 8.15 Flow Test Valve (Normally Closed) C. Water Flow Alarm Equipment C.1 Alarm Pressure Switch and/or C.2 Water Motor Alarm (Strainer Required) C.3 Strainer C.4 Electric Alarm Bell D. Riser 0.1 Water Supply Control Valve 0.2 Easy Riser" Check Valve or rubber seated check valve 0.3 Sprinkler System Main Drain 0.4 90"Ell. (Grooved Eli Shown. Deluge Valve also available with Flanged Outlet.) E. Supervisory Air Supply E.1 System Pressure Gauge and Valve E.2 Soft Seat Check Valve E.3 Air Pressure Supervisory Switch F. Release System F.1 Solenoid Valve (Normally Closed) F.2 Electric Release Module Trim F.3 System Control Panel configurpd for Single Interlocked Preaction operation. P.4 Electric Detection System. Heat Detector shown for clarity. FIGURE 7 1/2"-" (15 mm) NPT for Non- Interuptoble B.7 Alarm Pressure Switch (Optional) September 4, 2001 314 k SINGLE INTERLOCKED 'J H(II16 A A PREACTION SYSTEM CONTROLLED BY ELECTRIC RELEASE CONVENTIONAL TRIM SCHEMATIC W/RISER MOUNTED COMPRESSOR When using a Riser Mounted Air Compressor A SUPERVISED SINGLE INTERLOCKED Placement of a dehydrator and/or an air maintenance device in the outtet piping of a riser mounted compressor may affect operation of the compressor. CONTROLLED BY ELECTRIC RELEASE SYSTEM PREACTION SYSTEM I. When a dehydrator is not installed verify that the installation is located in a dry environment (not humid) and that the supervised SYSTEM COMPONENTS sprinkler piping is never subject to freezing. When an air maintenance device is not used, verify that the air A. Valve supply produced Is properly regulated and'restricted', Refer A.1 Deluge Valve * to paragraph C' INSTALLATION, Do not install an Accelerator on the system. B. Deluge Valve Conventional Trim VerIfy system approvals. Refer to the Authority having (See Deluge Valve Conventional Trim Charts) jurisdiction. 6.1 Priming Valve (Normally Open) 8.2 Strainer 8.3 1/16 Restriction 8.4 Spring Loaded Check Valve 8.5 Alarm Test Valve (Normally Closed) 6.6 Auxiliary Drain Valve (Normally Closed) 9.7 Drip Check Valve B.8 Drain Check Valve B.9 Alarm Shut-Off Valve (Normally Open) 8.10 Pressure Operated Relief Valve (P.O.R.V.) B.11 Emergency Release 8.12 Priming Pressure Water Gauge and Valve B.13 Water Supply Pressure Gauge and Valve B.14 Drain Cup B.15 Flow Test Valve (Normally Closed) C. Water Flow Alarm Equipment C.1 Alarm Pressure Switch and/or C.2 Water Motor Alarm (Strainer Required) C.3 Strainer C.4 Electric Alarm Bell D. Riser D.1 Water Supply Control Valve D.2 Easy Riser °Check Valve or rubber seated check valve D.3 Sprinkler System Main Drain D.4 90°Ell. (Grooved Eli Shown. Deluge Valve also available with Flanged Outlet.) E. Supervisory Air Supply E.1 System Pressure Gaue and Valve E.2 Check Valve with 1/8' orifice (maximum) opening for air flow. (Provided on Viking D.2 (Riser Mounted Compressor.) E.3 Air Pressure Supervisory Switch D.3 F. Release System F.1 Solenoid Valve (Normally Closed) T F.2 Electric Release Module Trim F.3 System Control Panel configured for To Single Interlocked Preaction operation. Drain F.4 Electric Detection System. Heat Detector shown for clarity. G. Air Supply 0.1 Riser mounted Air Compressor G.2 Air Supervisory Pressure Switch (Compressor On/Off Control Switch) Dotted lines indicate electrical detection system wiring required but not listed in "System Components Table. For additional wiring requirements refer to technical data for components used. * Viking Deluge Valve Trim Packages contain items 8.1 through B.15 and associated nipples. Viking Accessory Package for Conventional Deluge Valve Trim contains 8.2 through 6.5, B7 through 8.11, and 8.14. FIGURE 8 F.3 F.1 - - - Dashed lines indicate pipe required but not listed in "System Components" Table. To Drab Dashed lines indicate pipe required but not included with Deluge Valve Conventional Trim and Easy Riser TuCheck Valve Trim Packages. Dotted lines indicate electrical detection system wiring required but not included with the 'System Components' For additional wiring requirements refer to technical data for components used. * Viking Deluge Valve Trim Packages contain items 8.1 through 8.15 and associated nipples. Viking Accessory Package for Conventional Deluge Valve Trim contains B.2 through B.5, 8.7 through Bit and B.14. ** 1/2' (15 mm) NPT for Non-1nteruptable Alarm Pressure Switch (Optional) 3141 September 4, 2001 8" DELUGE VALVE HORIZONTAL CONVENTIONAL TRIM SCHEMATIC A SUPERVISED SINGLE-INTERLOCKED PRE-ACTION SYSTEM CONTROLLED BY ELECTRIC RELEASE SYSTEM COMPONENTS A. Valve A.1 Deluge Valve * B. Deluge Valve Conventional Trim (See Deluge Valve Conventional Trim Charts) 8.1 Priming Valve, (Normally Open) 8.2 Strainer B.3 1/16" Restriction B.4 Spring Loaded Check Valve B.5 Alarm Test Valve (Normally Closed) 8.6 Auxiliary Drain Valve (Normally Closed) B.7 Drip Check Valve B.8 Drain Check Valve 8.9 Alarm Shut-Off Valve (Normally Open) B.10 Pressure Operated Relief Valve (P.O.R.V.) 8.11 Emergency Release 8.12 Priming Pressure Water Gauge and Valve 8.13 Water Supply Pressure Gauge and Valve 8.14 Drain cup 8.15 Flaw Test Valve (Normally Closed) C. Water Flow Alarm Equipment C.1 Alarm Pressure Switch and/or C.2 Water Motor Alarm (Strainer Required) C.3 Strainer C.4 Electric Alarm Bell D. Riser D.1 Water Supply Control Valve D.2 Easy RiserTu Check Valve or rubber seated check valve D.3 Sprinkler System Main Drain E. Supervisory Air Supply E.1 System Pressure Gauge, and Valve E.2 Soft Seat Swing Check..Valve E.3 Air Pressure Supervisory Switch F. Release System F.1 Electric Release Module (See Electric Release Module Trim Chart) F.2 System Control Panel configured for Single Interlocked Preaction operation. F.3 Electric Detection System. Heat Detector shown for clarity. G. Air Supply 0.1 Automatic Air Supply. Air Compressor and Tank shown for clarity. 0.2 Air Supervisory Pressure Switch (Compressor On/Off Control Switch) G.3 Soft Seat Check Valve G.4 Shut Off Valve (Indicating Ball Valve recommended.) G.5 Dehydrator G.6 Air maintenance Device & By-Pass Trim FIGURE 9 To Drain September 4, 2001 . 314 m 8" DELUGE VALVE HORIZONTAL CONVENTIONAL TRIM SCHEMATIC W/RISER MOUNTED COMPRESSOR SOon using a Riser Mounted Ax Compressor Placement or a dehydrator and/or an air maintenance device or tee Outlet ping or a riser rrounted vonpre500r may affect operation of the compress_ I When a dehydrator is not Installed. veriFy that the Installation is located in a dry sprinkler piping I 2. When an Sir noir supply proouced to paraSrod, C Do not install a, 4. Verify system Jurisdiction. Dashed lines Indicate pipe required but not included with Deluge Valve Conventional Inn and Easy RiserTM Check Valve Trim Packages. Dotted lines indicate electrical detection system wiring required but not Included with the 'System Components'. For additional wiring requirements refer to technical data For components used * Viking Deluge Valve Trim Packages contain items 9.1 through B,15 and associated ripples. Viking Accessory Package For Conventional Deluge Valve trio, contains 9.2 through B.5, 9,7 through B.11, and 9.14. ** 1/2' (15 on) NPI For Non-bnteruptable Alarm Pressure Switch (Optional> A SUPERVISED SINGLE INTERLOCKED PRE-ACTION SYSTEM CONTROLLED BY ELECTRIC RELEASE SYSTEM COMPONENTS A. Valve A.1 Deluge Valve * B. Deluge Valve Conventional Trim (See Deluge Valve Conventional Trim Charts) 0.1 Priming Valve (Normally Open) 8.2 Strainer 8.3 1/16' Restriction B.4 Spring Loaded Check Valve 8.5 Alarm Test Valve (Normally Closed) 8.6 Auxiliary Drain Valve (Normally Closed) 3.7 Drip Check Valve 0.8 Drain Check Valve 8.9 Alarm Shut-Off Valve (Normally Open) 8.10 Pressure Operated Relief Valve (P.O.R.V.) 8.11 Emergency Release 8.12 Priming Pressure Water Gauge and Valve 8.13 Water Supply Pressure Gouge and Valve 8.14 Drain cup 8.15 Flow Test Valve (Normally Closed) C. Water Flow Alarm Equipment C.1 Alarm Pressure Switch and/or C.2 Water Motor Alarm (Strainer Required) C.3 Strainer C.4 Electric Alarm Bell D. Riser 0.1 Water Supply Control Valve D.2 Easy Riser- Check Valve or rubber seated check valve 0.3 Sprinkler System Main Drain E. Supervisory Air Supply E.1 System Pressure Gauge, and Valve E.2 Check Valve with 1/8' orifice (maximum) opening for air flow. (provided on Viking Riser Mounted Compressor). E.3 Air Pressure Supervisory Switch F. Release System P.1 Electric Release Module (See Electric Release Model Trim Chart) P.2 System Control Panel configured for Single interlocked Preoction operation. P.3 Electric Detection System. Heat Detector shown for clarity. C. Air Supply G.1 Riser Mounted Air Compressor C.2 Air Supervisory Pressure Switch (Compressor On/Off Control Switch) FIGURE 10 F4 F3 C4 ()'4 . G.6 - N fG 5 R To ?I System •'-_ B. L'8.12 To Drain B.V L A.1 BE BA 8.8 - - Dashed tines indicate pipe required but not included with Deluge Valve Conventional Inn and Easy RiserTw Check Valve Inn Packages. Dotted tines indicate electrical detection system wiring required but not included with the 'System Conponents. For additional wiring requirements refer to technical data For components used. * Viking Deluge Valve Inn Packages contain itens 5.1 through BID and associated nipples. Viking Accessory Package For Conventional Deluge Valve Inn contains B.2 through B5 B,7 through Bit, and B.14. ** l/' (15 in) NPI For Non-Interuptable Alarm Pressure Switch (Optional) -.1 C.3 314 n September 4, 2001 8" DELUGE VALVE VERTICAL CONVENTIONAL TRIM SCHEMATIC A SUPERVISED SINGLE-INTERLOCKED PRE-ACTION SYSTEM CONTROLLED BY ELECTRIC RELEASE SYSTEM COMPONENTS A. Valve A.1 Deluge Valve * B. Deluge Valve Conventional Trim (See Deluge Valve Conventional Trim Charts) B.1 Priming Valve (Normally Open) 3.2 Strainer 3.3 1/16' Restriction 8.4 Spring Loaded Check Valve 8.5 Alarm Test Valve (Normally Closed) B.6 Auxiliary Drain Valve (Normally Closed) 8.7 Drip Check Valve B.8 Drain Check Valve 8.9 Alarm Shut-Off Valve (Normally Open) B.1O Pressure Operated Relief Valve (P.O.R.V.) 8.11 Emergency Release B.12 Priming Pressure Water Gauge and Valve 6.13 Water Supply Pressure Gauge and Valve 8.14 Drain cup B.15 Flaw Test Valve (Normally Closed) C. Water Flow Alarm Equipment C.1 Alarm Pressure Switch and/or C.2 Water Motor Alarm (Strainer Required) C.3 Strainer C.4 Electric Alarm Bell D. Riser 0.1 Water Supply Control Valve D.2 Easy Riser° Check Valve or rubber seated check valve 0.3 Sprinkler System Main Drain E. Supervisory Air Supply E.1 System Pressure Gauge, and Valve E.2 Soft Seat Swing check Valve E.3 Air Pressure Supervisory Switch F. Release System F.1 Electric Release Module (See Electric Release Module Trim Chart) F.2 System Control Panel configured for Single Interlocked Preaction operation. F.3 Electric Detection System. Heat. Detector shown for clarity. G. Air Supply G.1 Automatic Air Supply. Air Compressor and Tank shown for clarity. 0.2 Air Supervisory Pressure Switch (Compressor On/Off Control Switch) 0.3 Soft Seat Check Valve 0.4 Shut Off Valve (Indicating Ball Valve recommended.) 0.5 Dehydrator 0.6 Air maintenance Device & By-Pass Trim FIGURE 11 P.4 C.4 Dashed lines indicate pipe required but not Included with Deluge Valve Conventional Trim and Easy Riserm Check Valve Trim Packages. Dotted limes indicate electrical detection system wiring required but not included with the 'System Components'. For additional wiring requirements refer to technical data for components used. * Viking Deluge Valve Trim Packages contain items 8.1 through 8.I5 and associated nipples. Viking Accessory Package for Conventional Deluge Valve Trim contains B.0 through 5.5, 8.7 through 8.11, and B.14. September 4, 2001 3140 8" DELUGE VALVE VERTICAL CONVENTIONAL TRIM SCHEMATIC W/RISER MOUNTED COMPRESSOR When using a Riser Mounted Air Compressor Placement of a dehydrator and/or on air maintenance device in the outlet piping of a riser nounted compressor may affect operation of the compressor. When a dehydrator Is not Installed, verify that the Installation Is located In a dry environment (not humid) and that the supervised sprinkler piping is never subject to freezing. When an air maintenance device is not used, verify that the air supply produced is properly'regulated' and 'restricted'. Refer to paragraph C INSTALLATIDIA 3 Do not install an Accelerator on the system. 4. Verify system approvals. Refer to the Authority having Jurisdiction, ** 1/2.' (15 mm) NPT for Non-Interuptable Alarm Pressure Switch (Optional) A SUPERVISED SINGLE INTERLOCKED PRE-ACTION SYSTEM CONTROLLED BY ELECTRIC RELEASE SYSTEM COMPONENTS A. Valve A.1 Deluge Valve * B. Deluge Valve Conventional Trim (See Deluge Valve Conventional Trim Charts) 8.1 Priming Valve (Normally Open) B.2 Strainer B.3 1/16" Restriction B.4 Spring Loaded Check Valve 8.5 Alarm Test Valve (Normally Closed) 8.6 Auxiliary Drain Valve (Normally Closed) 8.7 Drip Check Valve 8.8 Drain Check Valve 8.9 Alarm Shut-Off Valve (Normally Open) 8.10 Pressure Operated Relief Valve (P.O.R.V.) 6.11 Emergency Release 8.12 Priming Pressure Water Gauge and Valve B.13 Water Supply Pressure Gauge and Valve B.14 Drain cup B.15 Flow Test Valve (Normally Closed) C. Water Flow Alarm Equipment C.1 Alarm Pressure Switch and/or C.2 Water Motor Alarm (Strainer Required) C.3 Strainer C.4 Electric Alarm Bell D. Riser 0.1 Water Supply Control Valve D.2 Easy Riser° Check Valve or rubber seated check valve 0.3 Sprinkler System Main Drain E. Supervisory Air Supply E.1 System Pressure Gauge, and Valve E.2 Check Valve with 1/8" orifice (maximum) opening for air flow. (provided on Viking Riser Mounted Compressor). E.3 Air Pressure Supervisory Switch F. Release System F.1 Electric Release Module (See Electric Release Model Trim Chart) F.2 System Control Panel configured for Single Interlocked Preaction operation. F.3 Electric Detection System. Heat Detector shown for clarity. G. Air Supply 0.1 Riser Mounted Air Compressor G.2 Air Supervisory Pressure Switch (Compressor On/Off Control Switch) FIGURE 12. THIS PAGE INTENTIONALLY LEFT BLANK Replaces page 314 a-g dated April 23, 2001. Form No. F_070689 (Added 8" Trim Schematics.) January 19, 2007 Deluge 273a The Viking Corporation, 210 N Industrial Park Road, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcscvikingcorp.com 1. DESCRIPTION The high pressure solenoid valve is a two-way type with one inlet and one outlet. It is a packless, internal pilot operated valve, suitable for use in releasing water pressure from the priming chamber of Viking Model E and F Series Deluge Valves and Viking Model H and J Series Flow Control Valves. The solenoid valve has floating diaphragm construction, which requires a minimum pressure drop across the valve to operate properly. The valves are available with a voltage rating of 24V DC in a normally closed or normally open configuration. These solenoid valves are for use with system control units that are listed and/or approved for releasing service for water based fire protection systems. Features Normally Closed or Normally Open 24 VDC Easy to clean. Body Style: Straight through NEMA 1 through 9. (See Table 1) Required Accessories: A 50 mesh strainer must be installed on the inlet side of the valve at the priming line connection strainer is included as part of the Model E or F Deluge Valve Trim and Model H or J Flow Control Valve Trim. 2. LISTINGS AND APPROVALS (see table 1 for specific model approvals) UL Listed - VLRT FM Approved - Automatic Water Control Valves (Group K) CSA - Standard C22.2 3. TECHNICAL DATA Specifications Body: Brass with %° (15 mm) NPT connections Coil: Class H, Continuous Duty Maximum Operating Pressure: 250 psi (17.2 bar) Minimum Operating Pressure: 5 psi (.35 bar) See Table I for enclosure descriptions and recommended ambient temperatures. Material Standards Seals and Discs: Buna N Core Tube: 305 Stainless Steel Core and Plugnut: 430F Stainless Steel Springs: 302 Stainless Steel Ordering Information Part Numbers: See Table 1 Viking Technical Data may be found on The Viking Corporation's Web site at http://www.vikinggroupinc.com. The Web site may include a more recent edition of this Technical Data Page. Table 1- Part _Numbers _and _Specifications Model Part For Viking Orifice DC Cur- Max. Cv, Listings & Approvals - Description Number System Wattage rent Ambient Factor UL CSA FM LPCB Temp. Normally Closed NEMA 1,2,3,3S,4,4X' 24 VDC 11601 Deluge & 1/2" _____ 9.0 DC _____ 338mA ______ 130°F (54°C) ______ 4.0 Yes yes yes 6 Normally Closed Explosion Proof NEMA 3,3S,4,4X,6,6P,7,9 1 24 VDC 11602 Preaction, SureFire 1/2" 9.0 DC 338mA 130°F 4.0 (54°C) Yes yes yes 5 6 Normally Open NEMA 2,3,3S,4,4X 1 24 VDC 13215 Surefire 1/2' 9.0 DC 338 m A 130°F (54°C) 4.0 Yes" Yes 2 Yes 6 Footnotes: 1 Enclosure types: 1 - General Purpose, 2 - Drip-Proof, 3 and 3s - Rain Tight, 4 and 4X - Water light, 7 - Explosion Proof Class I Groups A, B, C and D, 9 - Dust Ignition Proof Class II Groups E, F & G. 2 CSA recognized to CSA Standards C22.2 number 0 and number 129 3 CSA recognized to CSA Standards C22.2 numbers 0, 139,25 and 30. Certified for hazardous locations Class I, Groups A, B, c and D; Class II, Groups E, F and G. UL Listed - VLTR 5 FM Approved - Automatic Water Control Valves Group [K] 6 LPCB & CE approval in process Form No. F_020101 Revised page replaces page 273 a-c dated September 9, 2006 (Removed Firecycle Ill reference) I12JD2O07 The Viking Corporation, 210 N Industrial Park Road, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcsvikingcorp.com 4. INSTALLATION Check nameplate for correct unit, including voltage and mode of operation. Follow all installation and maintenance instructions enclosed with the valve. Standard solenoids may be mounted in any position. However, for optimum life and performance, solenoids should be mounted vertically and upright with the coil upright. A 50 mesh strainer is required on the inlet side of the valve at the priming line connection. This strainer is included as part of the Model E & F Deluge Valve Trim. Install the strainer as indicated on Viking's trim drawing. Install the solenoid according to mark- ings on the valve body. Apply pipe-joint compound sparingly to male pipe threads only. If applied to valve threads, it may enter the valve and cause operation difficulty or leakage. Avoid putting pipe compound on first two male threads as well. The unit must be wired in accordance with local and national electrical codes. For valves equipped with water tight enclosures, the electrical fittings must be approved for use in the hazardous location. Upon completing the installation, the entire system must be tested for proper operation. See system description and testing instructions for additional information. 5. OPERATION The solenoid valve is an internal pilot operated valve with pilot and bleed orifices utilizing line pressure for operation. Normally closed, de-energized valves open when energized. Power is applied to the solenoid coil, causing the solenoid core to lift, opening the pilot orifice to the outlet side of the valve. This relieves pressure on the top side of the diaphragm and allows the line pressure to open the valve. When de-energized, the solenoid core reseals the pilot orifice, allowing the line pressure to build above the diaphragm, closing the valve. Normally closed solenoid valves are commonly used as releases for Viking deluge and flow control valves. Opening the solenoid valve allows the deluge or flow control valve to open. Note: When using a normally closed solenoid valve as a release, a system will not operate automatically on total loss of power. For this reason, it is recommended and normally required that an emergency battery back-up, supervised power supply be provided to maintain fire protection during interruptions of the main power system and to meet the requirements of appropriate Authorities Having Jurisdiction. 6. INSPECTIONS, TESTS AND MAINTENANCE WARNING: THE OWNER IS RESPONSIBLE FOR MAINTAINING THE FIRE PROTECTION SYSTEM IN PROPER OPERATING CONDI- TION. ANY SYSTEM MAINTENANCE OR TESTING THAT INVOLVES PLACING A CONTROL VALVE OR DETECTION SYSTEM OUT OF SERVICE MAY ELIMINATE THE FIRE PROTECTION OF THAT SYSTEM. PRIOR TO PROCEEDING, NOTIFY ALL AUTHORITIES HAVING JURISDICTION. CONSIDERATION SHOULD BE GIVEN TO EMPLOYMENT OF A FIRE PATROL IN THE AFFECTED AREA. WARNING: PRIOR TO OPERATING THE.SOLENOID VALVE, BE SURE TO CLOSE THE SYSTEM CONTROL VALVE TO AVOID UNIN- TENTIONAL OPERATION OF THE DELUGE VALVE. Inspections: It is imperative that the system be inspected and tested on a regular basis in accordance with NFPA 25. The fre- quency of the inspections may vary due to contaminated water supplies, corrosive water supplies, or corrosive atmospheres. In addition, the alarm devices, detection systems, or other connected trim may require a more frequent schedule. Refer to the system description and applicable codes for minimum requirements. The valve must be operated at least monthly. The valve must open and close freely. When open, the water flow must be clear and clean at the proper flow rate. When closed, a total water shut-off must be observed. After the test, the strainer must be cleaned. Prior to cleaning the strainer, the priming line valve must be closed and the priming line depressurized. After the strainer is cleaned, the priming line valve must be reopened. The valve must be inspected at least monthly for cracks, corrosion, leakage, etc., and cleaned, repaired, or replaced as neces- sary. At least annually, the valve diaphragms and seats must be inspected and if necessary, repaired or replaced. WARNING: CLOSE SYSTEM CONTROL VALVE, TURN OFF POWER SUPPLY, AND DEPRESSURIZE VALVE BEFORE DISASSEM- BLING VALVE. IT IS NOT NECESSARY TO REMOVE THE VALVE FROM THE PIPE LINE TO MAKE INSPECTIONS When lubricating valve components, use a high grade silicone grease (Dow Corning® 111 Compound Lubricant or equal). When reassembling, tighten parts to torque values indicated in ASCO's maintenance instructions (packed with valve). After maintenance is completed, operate the valve a few times to be sure of proper operation. A metallic "click" signifies the so- lenoid is operating. It is recommended that the valve be replaced at seven-year intervals. Shorter intervals may be required if the valve is subject to corrosive water supplies or atmospheres. January 19, 2007 Deluge 273c The Viking Corporation, 210 N Industrial Park Road, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcs@vikingcorp.com All service must be performed by qualified personnel. Upon completion of inspections or replacement of the valve, the entire system must be checked for proper operation. See appropriate system description and testing instructions for additional informa- tion. AVAILABILITY The Viking Solenoid Valve is available through a network of domestic and international distributors. See the Viking Corp. Web site for closest distributor or contact The Viking Corporation. GUARANTEE For details of warranty, refer to Viking's current list price schedule or contact Viking directly. 369 4. 33I 303 H 204 --m- 112 NPT 273 1/2 NPT B LIT H 516 ENDS Figure 1 Dimensions are the same for all models a January 19, 2007 Deluge 273d The Viking Corporation, 210 N Industrial Park Road, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcsvikingcorp.com THIS PAGE INTENTIONALLY LEFT BLANK Form No. F_020101 Revised page replaces page 273 a-c dated December 14, 2005 (Removed Firecycle Ill reference) BB-SCIOO Sizes 1", 1-1/4", 1-1/2", 2", 2-1/2" 4-1/2" - BB-SC ©© K@E2 I'l l' - -12 Approved by: NYC Board of Stds. & Appeals, Cal. #996-81-SM (175psi 720-83-SA (350 & 500 psi SLOW CLOSE BRONZE BUTTERFLY VALVE ONE-PIECE, FULL-PORT 175 PSI -~FM 4j"\ THREADED ENDS Ji' APPROVED USTED DIMENSIONS Valve Size DIM 1" 1-1/4" 1-1/2" 2" 2-1/2" A 2.13 2.63 2.88 3.25 4.13 B' 3.16 3.31 3.41 3.63 3.82 C 1.56 1.94 2.19 2.75 3.19 D 1.72 2.11 2.38 3.07 3.50 j2 4.16 4.16 4.51 4.76 4.66 K .66 .73 .73 .79 1.18 L .83 .90 .10 1.41 1.29 M-403 1.10 1.38 1.61 2.07 2.47 M804 .96 1.28 1.50 1.94 2.32 N.405 2.25 2.00 2.50 2.25 10.00 me1.13 1.25 1.41 1.69 1.75 ALL DIMENSIONS-INCHES 'Pertains to BB-SCI 00 only. Pertains to BB-SCS02 only. 'M-40 ARE DIMENSIONS USING SCHEDULE 40 PIPE a M-80 ARE DIMENSIONS USING SCHEDULE 80 PIPE 'N-40 IS FLOW RESISTANCE EXPRESSEDIN EQUIVALENT LENGTH OF SCHEDULE 40 PIPE 'W IS THE WRENCH MAKE-UP LENGTH FEATURES Slow opening and closing Quarter turn operation Water Hammer elimination Optional internal tamper switch (Indoor use only). - Signals disc movement - Factory or Field installation - 10 Amp 115 VAC-60 Hz -0.5 Amp! 28VDC Grooved Ends Available in Sizes 2" and 2-1/2" MATERIALS LIST ITEM. PART MATERIALS ASTM SPEC. I Indicator Iron F0008P 2 Housing ASTM 584 UNS 3 Body. Bronze C8440 4 Handle Brass ASTM B176 UNS c8 ,00 5 Disk ASTM A276, Stainless Steel Type 304 6 Disk Seal EPDM Switch Housing Aluminum (BB-SCS02) D - . -A - BB-SCSO2 (Includes Switch) The information presented on this sheet is correct at the time of publication. Milwaukee Valve reserves the right to change design, and/or material specifications without notice. For the most current information access wbw/.milwaukeevalve.com. ---..-.-----.----,, -.. - - - - '_J \/ MILWAUKEE VALVE .., October 6, 2006 Sprinkler 54a MIRAGE® QUICK RESPONSE CONCEALED PENDENT SJ I KIISIG SPRINKLER VK462 AND HP SPRINKLER VK463 (K5.6) The Viking Corporation, 210 N Industrial Park Road, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcsvikingcorp.com DESCRIPTION Viking Mirage® Quick Response Concealed Pendent Sprinkler SIN VK462 and HP Sprinkler VK463 are thermosensitive glass-bulb spray sprinkler designed for installa- tion on concealed pipe systems where the appearance of a smooth ceiling is desired. The sprinkler is pre-assembled with a threaded adapter for installation with a low- profile cover assembly that provides up to h/2 (12.7 mm) of vertical adjustment The two-piece design allows installation and testing of the sprinkler prior to installation of the cover plate. The "push-on", "thread-off' design of the concealed cover plate assem- bly allows easy installation of the cover plate after the system has been tested and the ceiling finish has been applied. The cover assembly can be removed and reinstalled, allowing temporary removal of ceiling panels without taking the sprinkler system out of service or removing the sprinkler. LISTINGS AND APPROVALS cULus Listed: Category VNIV NYC Approved: MEA 89-92-E, Volume 32 Refer to the Approval Chart on page 54c and Design Criteria on page 54d for cULus Listing requirements that must be followed. TECHNICAL DATA Specifications: Minimum Operating Pressure: 7 psi (0.5 bar) Maximum Working Pressure: Sprinkler VK463 is rated for use with water Viking Technical Data may be found on working pressures ranging from the minimum 7 psi (0.5 bar) up to 250 psi (17.2 bar) for high-pressure systems. High-pressure (HP) The Viking Corporation's Web site at sprinklers can be identified by locating "250" stamped on the deflec- tor. Sprinkler VK462 is rated to a maximum 175 psi (12 bar) wwp. The Web site may include a more recent Factory tested hydrostatically to 500 psi (34.5 bar) edition of this Technical Data Page. Testing: U.S.A. Patent No. 4,831,870 Thread size: 1/2" (15 mm) NPT Nominal K-Factor: 5.6 U.S. (80.6 metric*) *Metric K-factor measurement shown is when pressure is measured in Bar. M,en pressure is measured in kPa, divide the metric K-factor shown by .10.0. Glass-bulb fluid temperature rated to -65 "F (-55 "C) . Patents Pending Material Standards: Sprinkler Body: Brass UNS-C84400 Deflector: Bronze UNS-051000 Deflector Pins: Stainless Steel UNS-530300 Bulb: Glass, nominal 3 mm diameter Pip Cap and Insert Assembly: Copper UNS-C11000 and Stainless Steel UNS-530400 Button: Brass UNS-C36000 Screws: 18-8 Stainless Steel Belleville Spring Sealing Assembly: Nickel Alloy, coated on both sides with Teflon Tape Yoke: Bronze UNS-051000 Cover Adapter: Cold Rolled Steel UNS-G10080, Finish: Clear Chromate over Zinc Plating Cover Assembly Materials: Cover: Copper UNS-C11000 Base: Brass UNS-C26000 or UNS-C26800 Springs: Nickel Alloy Solder: Eutectic Ordering Information: (Also refer to the current Viking price list.) Viking Mirage® Quick Response Concealed Pendent Sprinklers and Cover Plate Assemblies must be ordered separately: Form No. F_103005 Replaces page 54a-b, dated April 10, 2006 (reformatted and added MENNYC Approval). Sprinkler 54b October 6, 2006 The Viking Corporation, 210 N Industrial Park Road, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcsvikingcorp.com Sprinkler: Base Part No. 13503A or HP Base Part No. 13667A Specify sprinkler temperature rating by adding the appropriate suffix for the temperature rating to the base part number: Temperature Suffix (°F/°C): 155'I680 = B, 175°/79° = 0, 200°I93° = E For example, sprinkler VK462 with a 155 °F/68 'C temperature rating = 13503AB. Cover Plate Assembly: Base Part No. 13504 (2-3/4" diameter) or Base Part No. 13642 (3-5/16" diameter) Specify finish and temperature rating of the cover plate assembly by first adding the appropriate suffix for the finish and then the appropriate suffix for the cover temperature rating to the base part number Finish Suffix: Polished Chrome = F, Painted White = M-/SWI004, Painted Ivory = M-/5W1634, Painted Black = M-/SWI007 Temperature Suffix (°F/'C): 135°/57' =A, 165'I74' = C For example, cover 13504 with a Polished Chrome finish and a 165 ¶174 "C temperature rating = 13504FC. Available Finishes And Temperature Ratings: Refer to Table 1 Accessories: (Also refer to the "Sprinkler Accessories' section of the Viking data book.) Sprinkler Wrenches: Heavy Duty Part No. 14047W/B (available since 2006), or Light Duty Part No. 14031*** (available since 2006) **Requires a 1/2 ratchet (not available from 'liking). """Optional for removal of the protective cap. Ideal for sprinkler cabinets. Sprinkler Cabinet: Part No. 01731A, Capacity: five (5) sprinklers (available since 1971) INSTALLATION Refer to appropriate NFPA Installation Standards. OPERATION During fire conditions, when the temperature around the sprinkler approaches its operating temperature, the cover plate detaches. Continued heating of the exposed sprinkler causes the heat-sensitive liquid in the glass bulb to expand and the bulb to shatter, releasing the yoke, pip-cap and sealing spring assembly. Water flowing through the sprinkler orifice strikes the sprinkler deflector, forming a uniform spray pattern to extinguish or control the fire. INSPECTIONS, TESTS AND MAINTENANCE Refer to NFPA 25 for Inspection, Testing and Maintenance requirements. AVAILABILITY Viking Sprinklers SIN VK462 and VK463 are available through a network of domestic and international distributors. See The Viking Corporation web site for the closest distributor or contact The Viking Corporation. GUARANTEE For details of warranty, refer to Viking's current list price schedule or contact Viking directly. TABLE 1: AVAILABLE SPRINKLER TEMPERATURE RATINGS AND FINISHES Sprinkler Temperature Sprinkler Nominal Maximum Ambient Temperature Rating of Cover Bulb Color Classification Temperature Rating! Ceiling Temperature2 Assembly (Required) Ordinary 155 "F (68 'C) 100 "F (38 "C) 135 'F (57 'C) Red Intermediate 175 'F (79 'C) 150 'F (65 'C) 165 °F (74 'C) Yellow Intermediate 200 'F (93 'C) 150 °F (65 'C) 165 'F (74 'C) Green Cover Plate Finishes: Chrome-Enloy' (patents pending), Painted White, Painted Ivory, or Painted Black Footnotes 1 The sprinkler temperature rating is stamped on the sprinkler deflector. 2 Based on NFPA-1 3. Other limits may apply, depending on fire loading, sprinkler location, and other requirements of the Authority Having Jurisdiction. Refer to specific installation standards. 2-1/4 (57.2 nfl) diameter opening is required in the ceiling. I Sprinkler and Adapter Assembly (Protective Cap Is removed for installation--use Wrench 14031*) Sprinkler Wrench (Part No. 4047 Is shown) Step 11 Carefully slid wrench sideways or the deflector and Step 2 Carefully press the wrench upward and turn slightly to ensure engagement with the sprinkler wrench flats. NEVER install the sprinkler by applying the installation wrench across the frame arms. DO NOT overtighten. Use only the designated sprinkler wrench, Viking Part Number 14047V/B or 14031, DO NOT apply more than 25 ft. lbs, of torquie. A leak tight seal should be achieved by turning the sprinkler clockwise 1 to 1-1/2 turns beyond finger tight, 1 October 6, 2006 Sprinker 54c MIRAGE® QUICK RESPONSE CONCEALED PENDENT F16 SPRINKLER VK462 AND HP SPRINKLER VK463 (K5.6) The Viking Corporation, 210 N Industrial Park Road, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcscvikinqcorp.com Approval Chart SpnnkierTernperatureRating Mirage' Quick Response Concealed Pendent AWJ*-"rP1.teFinish'1~' KEY Sprinklers VK462 and VK463 Sprinkler NPT Thread Nominal Maximum Overall Length Listings and Approvals4 Base Part SIN Size K-Factor Water Working (Sprinkler Body) (Refer also to Design Criteria on page 54d.) Number" Pressure Inch mm U.S. metric2 Inches mm cULus5 FM NYC6 VdS -LPCB 13503A VK462 1/2" 15 5.6 80.6 175 psi (12 bar) 2-3/16" 56 AWl, BX1 -- AWl, BX1 -- - 13667A VK463 1/2" 1 15 5.6 80.6 1 250 psi (17.2 bar)3 2-3/16" 1 56 AWl, BX1 -- AWl, BX1 -- - Sprinkler Temperature Ratings Cover Plate Assembly Temp. Ratings7 Finishes of the Cover Plate Assembly A - 155 °F (68 °C) W - 135 °F (57 °C) cover 135041 or 136421 (large diameter) 1 - Polished Chrome, Painted8 White (No. B - 175 'F (79°C) and 200 °F (93 °C) X - 165°F (74 "C) cover 135041 or 136421 (large diameter) 1004)9, Painted8 Ivory (No. 1634)9, or Painted8 Black (No. 1007) Footnotes 1 Part number shown is the base part number. For complete part number, refer to current Viking price list schedule. 2 Metric K-factor measurement shown is when pressure is measured in Bar. When pressure is measured in kPa, divide the metric K-factor shown by 10.0. 3The Water Working Pressure rating is stamped on the deflector. This chart shows the listings and approvals available at the time of printing. Other approvals may be in process. Check with the manufacturer for any additional approvals. Listed by Underwriter's Laboratories for use in the U.S. and Canada. °Accepted for use, City of New York Department of Buildings, MEA Number 89-92-E, Vol. 32. The 135 "F cover has an orange label. The 165 °F cover has a white label. Painted finish consists of Polyester Baked Enamel. Other paint colors are available on request with the same listings as the standard paint colors. Sherwid-WilliamsP Color AnswersTm Interior Color Number. **A 1/2' ratchet is required (not available from Viking). Figure 1: Sprinkler Installation and Correct Use of Wrenches I Sprinkler 54d October 6, 2006 MIRAGE® QUICK RESPONSE IKJ:W:4j CONCEALED PENDENT SPRINKLER VK462 AND HP SPRINKLER VK463 (K5.6) The Viking Corporation, 210 N Industrial Park Road, Hastings MI 49058 Telephone: 269-945-9501 Technical Services 877-384-5464 Fax: 269-945-4495 Email: techsvcsvikingcorp.com DESIGN CRITERIA (Also refer to the Approval Chart on page 54 c) cULus Listing Reciuirements: Mirage® Quick Response Concealed Pendent Sprinklers VK462 and VK463 are cULus Listed for installation in accordance with the latest edition of NFPA 13 for standard coverage pendent spray sprinklers as indicated below: Must be installed in neutral or negative pressure plenums only. For hazard occupancies up to and including Ordinary Hazard, Group II. Protection areas and maximum spacing shall be in accordance with the tables provided in NFPA 13. Maximum spacing allowed is 15 ft. (4.6 m). Minimum spacing allowed is 6 ft. (1.8 m) unless baffles are installed in accordance with NFPA 13. Minimum distance from walls is 4 in. (102 mm). Maximum distance from walls shall be no more than one-half of the allowable distance between sprinklers. The distance shall be measured perpendicular to the wall. The sprinkler obstruction rules contained in NFPA 13 for standard coverage pendent spray sprinklers must be followed. IMPORTANT: Always refer to Bulletin Form No. F_091699 - Care and Handling of Sprinklers. Also refer to page QRI-2 for general care, installation, and maintenance information. Viking sprinklers are to be installed in ac- cordance with the latest edition of Viking technical data, the appropriate standards of NFPA, FM Global, LPCB, APSAD, VdS or other similar organizations, and also with the provisions of governmental codes, ordinances, and standards, whenever applicable. 1/2- (15 mm) NPT 2-3/16" (56 mm) 2-1/4" (57.2 mm) Minimum 2-3/4" (70 mm) 3-5/16" (84.1 n Notes Upon sprinkler activation, the deflector descends to approximately 13/16' (20.6 mm) below the sprinkler body. Figure 2: Sprinkler Dimensions and Cover Installation Form No. F_103005 Replaces page 54a-b, dated April 10, 2006 (reformatted and added MENNYC Approval). August 4, 2006 Sprinkler 41 a MICROFAST® AND J, MicrofastHPO QUICK RESPONSE PENDENT SPRINKLERS PRODUCT NAME MICROFAST® AND MicrofastHP® QUICK RESPONSE PENDENT SPRINKLERS tThe Sprinkler Identification Number (SIN) is stamped on the sprinkler deflector. MANUFACTURER THE VIKING CORPORATION 210 N. Industrial Park Road Hastings, Michigan 49058, U.S.A. Telephone: (269) 945-9501 Technical Services: (877) 384-5464 Fax: (269) 945-9599 e-mail: techsvcstvikingcorp.com PRODUCT DESCRIPTION Viking Microfast® and MicrofastHP® Quick Response Pendent Sprinklers are small thermosensitive glass bulb spray sprinklers available in various finishes, temperature ratings, and orifice sizes to meet design requirements. The special Poly finishes and Teflon® coatings can be used in decorative applications where colors are desired. In addition, these finishes have been investigated for installation in corrosive atmospheres and are cULus listed as corrosion resistant as indicated in the Approval Chart. (Note: FM Global has no approval classification for Teflon® and Poly finishes as corrosion resistant.) The pip cap and sealing assembly of the sprinkler are held in place by the glass bulb operating element. During fire con- ditions, the heat-sensitive liquid in the glass bulb expands, causing the bulb to shatter, releasing the pip cap and sealing spring assembly. Water flowing through the sprinkler orifice strikes the sprinkler deflector, forming a uniform spray pattern to extinguish or control the fire. TECHNICAL DATA LISTINGS AND APPROVALS cULus Listed: Category VNIV FM Approved: Class 2020 Refer the Approval Chart on page 41 c and Design Criteria on page 41 d for cULus and FM approval requirements that must be followed. CHARACTERISTICS Minimum Operating Pressure: 7 psi (0,5 bar) Maximum Working Pressure: Sprinklers 12282 and 12290 are rated for use with water working pressures ranging from the minimum 7 psi (0,5 bar) up to 250 psi (17,2 bar) for high-pressure systems. High-pressure (HP) sprinklers can be identified by locating "250" stamped on the deflector. All other Part Nos. not mentioned above are rated to a maximum 175 psi (12 bar) wwp. Factory tested hydrostatically to 500 psi (34,5 bar) Testing: U.S.A. Patent No. 4,831,870 Thread size: Refer to the Approval Chart Nominal K-Factor: Refer to the Approval Chart Glass-bulb fluid temperature rated to -65 °F (-55 °C) Overall Length: Refer to the Approval Chart MATERIALS Frame Casting: Brass UNS-C84400 Deflector Brass UNS-051000 or Copper UNS-C19500 for Sprinklers 06662B, 06666B, 06765B, and 12104. Copper UNS-C19500 for Sprinkler 12282. Brass UNS-C26000 for all other Sprinklers. Bushing (for Sprinklers 06718B, 06720B, and 12290): Brass UNS-C36000 Note: Units of measure in parentheses may be approximations. Replaces page 41 a-b, dated November 18, 2005 (Reformatted, added Form No. F_081296 135 °F temperature rating, and added CE approval for sprinkler 0666613.) Sprinkler 41 b August 4, 2006 TABLE 1: AVAILABLE SPRINKLER TEMPERATURE RATINGS AND FINISHES Sprinkler Temperature Sprinkler No r Maximum Ambient U Color Bulb I Classification Temperature Rating' Ceiling Temperature2 Ordinary 135°F (57 °C) 100 °F (38 °C) Orange Ordinary 155 °F (68 °C) 100 °F (38 °C) Red. Intermediate 175 °F (79 °C) 150 °F (65 °C) Yellow Intermediate 200°F (93 °C) 150 °F (65 °C) Green High 286 °F (141 °C) 225 °F (107 °C) Blue Sprinkler Finishes: Brass, Chrome-Enloy®, White Polyester (White Poly finish for Sprinkler 06662B), Black Polyester (Black Poly finish for Sprinkler 06662B), and Black Teflon® Corrosion-Resistant Coatings3: White Polyester (White Poly finish for Sprinkler 06662B only), Black Polyester (Black Poly finish for Sprinkler 06662B), and Black Teflon® 1 The sprinkler temperature rating is stamped on the deflector. 2 Based on NFPA-1 3. Other limits may apply, depending on fire loading, sprinkler location, and other requirements of the Authority Having Jurisdiction. Refer to specific installation standards. 3 The corrosion-resistant coatings have passed the standard corrosion test required by the approving agencies indicated on page 41 c. These tests cannot and do not represent all possible corrosive environments. Prior to installation, verify through the end-user that the coatings are compatible with or suitable for the proposed environment. For automatic sprinklers, the coatings indicated are applied to the exposed exterior surfaces only. Note that the spring is exposed on sprinklers with Poly finishes and Teflon® coatings. Bulb: Glass, nominal 3 mm diameter Belleville Spring Sealing Assembly: Nickel Alloy, coated on both sides with Teflon Tape Screw: Brass UNS-C36000 Pip Cap and Insert Assembly: Copper UNS-C11000 and Stainless Steel UNS-S30400 Pip Cap Attachment: Brass UNS-C36000 Ejector Spring (for Sprinkler 12104): Stainless Steel For Teflon® Coated Sprinklers: Belleville Spring-Exposed, Screw-Nickel Plated, Pip Cap-Teflon® Coated For Poly Coated Sprinklers: Belleville Spring-Exposed AVAILABLE FINISHES AND TEMPERATURE RATINGS: Refer to Table 1 above. 5. ORDERING INSTRUCTIONS (Also refer to the current Viking price list.). . . Order Microfas® Quick Response Pendent Sprinklers by first adding the appropriate suffix for the sprinkler finish and then the appropriate suffix for the temperature rating to sprinkler base part number. Finish Suffix: Brass = A, Chrome-Enloy® = F, White Poly Finish = M-AN, Black Poly Finish = M-/B, and Black Teflon® = N Temperature Suffix (°F/°C): 135°I68° =A, 155°/68° = B, 175°/79° = D, 200°/93° = E, and 286°/141° = G For example, Sprinkler VK302 with a 1/2" thread, Brass finish and a 155 °F/68 °C temperature rating = Part No. 06662BAB. ACCESSORIES (Also refer to the "Sprinkler Accessories" section of the Viking data book.) Sprinkler Wrenches: Standard Wrench: Part No. 10896W/B (available since 2000). . ,,,. Wrench for coated and/or recessed sprinklers: Part No. 12144W/B** (available since 2003) NOTE: Recessed pendent sprinklers with protective caps must use wrench 12144W/B. A 1/2 ratchet is required (not available from Viking). Sprinkler Cabinets: Six-head capacity: Part No. 01724A (available since 1971) Twelve-head capacity: Part No. 01725A (available since 1971) August 4, 2006 Sprinkler 41 c Approval Chart Temperature KEY Microfast® and MicrofastHP® Quick Response Pendent Sprinklers FinisK iEscutcheon (if applicable) Maximum 175 PSI (12,1 bar) WWP Base Part Thread Size Nominal Overall Length Listings and Approvals3 Number' SIN __________ K-Factor (Refer also to Design Criteria on page 41 d.) NPT I BSP U.S. I metric2 Inches mm cULus4 I FM 5 I NYC' JVdSJLPCBJ I Standard Orifice 06662B VK302 1 1/2" 115 mm 1 5.6 I 80,6 1 2-1/4 I 58 AiX, B1YIA4X, B4YIA1X, B1YI F2 I A4X IC4X, D4Y121 C4X, D4Y14 Large Orifice 06666B VK352 3/4" 20 mm 8 115,2 2-3/8 60 A3X, B3Y A2X, B2Y A3X, B3Y - - E412 - 12104 1 VK352 3/4' 120mm 1 8.0 115,2 1 2-1/4 58 1 - - -- F2 - -- - 06765B I VK352 1/2" 115 mm 1 8.0 115,2 r 2-3/8 60 IA3X,B3YI -- A3X, B3Y - - - - Small Orifice8 06718139 VK329 1/2" 15 mm 28 40,3 2-3/16 56 A3X,B3YI A2X A3X, B3Y - - - - 06720B9 I VK331 1/2" 115 mm 1 4.2 60,5 1 2-1/4 58 A3X,B3YI A3X, B3Y - - - - 06932B VK331 - 1 10 mm 1 42 60,5 1 2-3/8 60 - - - F2 - F213 - Maximum 250 PSI (17,2 bar) WWP Standard Orifice Base Part Thread Size Nominal Overall Length Listings and Approvals3 Number1 SIN K-Factor ___________ (Refer also to Design Criteria on page 41 d.) NPT BSP U.S. metric2 Inches mm cULus4 I FM I NYC10 JVdSJLPCBJ CE 12282 VK317 1/2" 115mm 5.6 80,6 2-1/4 1 58 A3X, 133Y -- A3X -- Maximum 250 PSI (17,2 bar) WWP Small Orifice8 122901 1 VK342 I 1/2" 115 mm 1 2.8 I 40.3 1 2-3/16 I 56 IA3X, 133YI - I A3X Approved Temperature Ratings A- 135°F (57 °C), 155°F (68 °C), 175°F (79 °C) Approved Escutcheons 200 °F (93 °C), and 286 °F (141°C) Approved Finishes X - Standard surface-mounted escutcheon B-135°F(57°C), 155°F(68°C), 175°F(79°C), 1 - Brass, Chrome-Enloy®, White Poly Finish7, or the Viking Microfasf® Model F-i and 200 °F (93 °C) Black Poly Finish7, and Black Teflon67 Adjustable Escutcheon" C -155°F (68 °C), 175°F (79 °C), 200°F (93 °C), 2 - Brass and Chrome-Enloy® Y - Standard surface-mounted escutch- and 286 °F (141°C) 3 - Brass, Chrome-Enloy®, White Polyester7, eon or the Viking Microfast® Model 0 - 155 °F (68 °C), 175 °F (79 °C), and 200 °F Black Polyester7, and Black Teflon67 F-i Adjustable Escutcheon or re- (93 °C) 4 - Brass, Chrome-Enloy®, White Poly Finish, cessed with the Viking Micro- E - 155 °F (68 °C), 175 °F (79 °C), and 286 °F and Black Poly Finish matic® Model E-1 or E-2 Recessed (141°C) Escutcheon F-155°F(68°C) Footnotes 1 Base part number is shown. For complete part number, refer to Viking's current price schedule. 2 Metric K-factor shown is for use when pressure is measured in bar. When pressure is measured in kPa, divide the metric K-factor shown by 10.0. 3This table shows the listings and approvals available at the time of printing. Check with the manufacturer for any additional approvals. Listed by Underwriters Laboratories Inc. for use in the U.S. and Canada. FM Approved for use only in wet-pipe sprinkler systems (or preaction systems qualifying as wet systems) for protection of occupancies described in the Factory Mutual Engineering and Research Loss Prevention Data Sheets and Technical Advisory Bulletins. 6 Accepted for use, City of New York Board of Standards and Appeals, Calendar Number 219-76-SA. 7 cULus Listed as corrosion resistant. Listings and Approvals limited to Light Hazard Occupancies where allowed by the installation standards being applied, with hydraulically calculated wet systems only. ' The sprinkler orifice is bushed. 10Accepted for use, City of New York Department of Buildings, MEA 89-92-E, Vol XVI. "The Viking Microfast® Model F-i Adjustable Escutcheon is considered a surface-mounted escutcheon because it does not allow the fusible element of the sprinkler to be recessed behind the face of the wall or ceiling. 12 (( Certified, Standard EN 12259-1, EC-certificate of conformity 0832-CPD-2001 and 0832-CPD-2003. 13 CE Certified, Standard EN 12259-1, EC-certificate of conformity 0786-CPD-401 30. 14 la MED Certified, Standard EN 12259-1, EC-certificate of conformity 0832-MED-1003 and 0832-MED-1 008. Wrench 12144W/B**for installing coated and/or ________ recessed sprinklers [, with protective caps. Carefully slide the wrench. sideways around the protective A 1/2" ratchet is required cap, ensuring engagement (not available from Viking). with the sprinkler wrench flats. Irml Sprinkler 41 d August 4, 2006 DESIGN CRITERIA (Also refer to the Approval Chart on page 41 c) cULus Listing Requirements: Quick Response Pendent Sprinklers are cULus Listed as indicated in the Approval Chart for installation in accordance with the latest edition of NFPA 13 for standard spray sprinklers. Designed for use in Light and Ordinary Hazard occupancies (exception: small orifice sprinklers are limited to Light Hazard where allowed by the installation standards being applied, with hydraulically calculated wet systems only). The sprinkler installation rules contained in NFPA 13 for standard spray pendent sprinklers must be followed. FM Approval Requirements: Quick Response Pendent Sprinklers are FM Approved as indicated in the Approval Chart for use only in wet-pipe sprinkler systems (or preaction systems qualifying as wet systems). For installation in accordance with the latest applicable FM Loss Prevention Data Sheets and Technical Advisory Bulletins. FM Global Loss Prevention Data Sheets and Technical Advisory Bulletins contain guidelines relating to, but not limited to: minimum water supply requirements, hydraulic design, ceiling slope and obstructions, minimum and maximum allowable spacing, and deflector distance below the ceiling. NOTE: The FM installation guidelines may differ from cULus and/or NFPA criteria. IMPORTANT: Always refer to Bulletin Form No. F_091699 - Care and Handling of Sprinklers. Also refer to page 011I-2 for general care, installation, and maintenance information. Viking sprinklers are to be installed in ac- cordance with the latest edition of Viking technical data, the appropriate standards of NFPA, FM Global, LPCB, Assemblee Pleniere, VdS or other similar organizations, and also with the provisions of governmental codes, ordinances, and standards, whenever applicable. Wrench Flat Protective Sprinkler Cap Figure 1: Standard Sprinkler Wrench 10896W/B Figure 2: Wrench 12144W/B for Installing Coated and/or and Recessed Pendent Sprinklers August 4, 2006 Sprinkler 41 e Ceiling Opening Size: 2-5/16" (59 mm) Minimum, 2-1/2" (64 mm) Maximum. 2-1/8" '(54 . mm) _J_W VIL 1-1/2" _LJf 2" (50,8 mm) (38,1 mm) Maximum Minirum Pendent Sprinkler 06662B Installed with the Microfast5 Model F-i Adjustable Escutcheon 1/2"--_\ ______ (15 mm) ___ NPT ______ I— 2-1/4" 1-3/4" (58 mm) (44,5 mm) L ____ Pendent Sprinkler 06662B 1-3/4" (44,5 mm) Pendent Sprinkler 06662B Installed with a Standard 1/8(3,1 mm) Surface-Mounted Escutcheon Figure 3: Sprinkler Dimensions with a Standard Escutcheon and the Model F-I Adjustable Escutcheon Ceiling Opening Size: 2-1/8" 2-5/16" (59 mm) Minimum, 2-1/8" (54 mm) 2-1/2" (64 mm) Maximum. (54 mm) 13 I 1-1/8"(28,6 mm) Minimum (44,5 mm) Maximum ty t Pendent Sprinkler 06662B Installed with the Micromatic® Model E-i Recessed Escutcheoii' 1-1/8" (28,6 mm) (50,8 mm) Minimum Maximum tLi t Pendent Sprinkler 06662B Installed with the Micromatic® Model E-2 Recessed Escutcheon I Figure 4: Sprinkler Dimensions with the Model E-I and E-2 Recessed Escutcheons THIS PAGE INTENTIONALLY LEFT BLANK Replaces page 41 a-b, dated November 18, 2005 (Reformatted, added Form No. F081296 135 °F temperature rating, and added CE approval for sprinkler 06666B.) ISO J UTR4S Patent #6811130 0s us corn 9001 other patents pending FM I us APPROVED LISTED FINALLY, THE ADVANCED FLEXLINE SYSTEM. EASYFLEX Sprinkler Drops. Simply Irresistible! Stop worrying. oStop spending. and start installing. Simplicity Installation is quick & easy. Configuration structures or relocations of previously installed sprinkler systems is simplified. Eliminates labor and time for intensive cutting, threading and measuring of hard pipe armovers. Varieties of EASYFLEX lengths give you comfort choices. Flexibility Corrugated stainless steel flexline was first utilized to protect from earthquake damage. In spite of vibrations, corrugated stainless steel flexline helps to prevent ruptures in the plumbing system. It can withstand wide fluctuations in temperature, and due to its flexible nature is extremely reliable and resistant to abusive -environmental conditions. Now, corrugated stainless steel flexline are used in an wide variety of industrial and residential plumbing applications world widely. rx EASYFLEX., Inc. is an U.S subsidiary of KOFULSO Co., Ltd. in Korea. KOFULSO Co., Ltd. is an world class manufacturer of corrugated stainless steel flexline using AISI 304 and AISI 3161 stainless steel. It is a technological innovator in a wide variety of applications for water and gas distribution utilizing flexibility stainless steel flexline which can be simply bent by hand. KOFULSO Co., Ltd. is an ISO 9001 certified manufacturer which has passed stringent UL testing for flexible fire sprinkler drops. A full line of UL Listed and FM approved flexible fire sprinkler drops are available. EASYFLEX innovative fèaturès save time and money ftir you and your customers. Now favored worldwide by contractors and fire protection engineers. EASYFLEX sprinkler drops are the product of choice for those who used to install conventional rigid pipe sprinkler drops. The ease of installation and significantly reduced labor costs utilizing flexible sprinkler drops make EASYFLEX the smart choice. As the minimum bending radius is 3' (76mm), EASYFLEX can I. be easily installed in narrow or confined spaces, and can be easily bent by hand. Allows you to easily adjust to last minute changes in blue prints or construction obstacles. Profitability Reduce time needed to determining the placement of the sprinkler head in the center-of-tile. Install 4 EASYFLEX Sprinkler Drops in the time it takes only one hard pipe armover sprinkler drop. Fewer people needed to install EASYFLEX as the opposed to hard pipe installations. Simplify and streamline your present labor force. Work more jobs utilizing your same work force since less people and time are needed installing EASYFLEX. iSafety - Stainless steel corrugated flexlineis made with AISI304 and AISI 316L Extremely flexible with a high tensile strength. - Braided flexible sprinkler drops are wrapped with a AISI 304 wire and can withstand high pressure. - Tube connectors are made by brass and rupture pressure is over 1,420 psi. - An EPDM packing is used in the connector to prevent leakage and withstandhigh pressure. It has excellent therthal resistance." - EASYFLEX Sprinkler Drops are 100% factory tested and ready for installation. - i00% corrosion resistant. Cleanroom Ceilihgs Exhaust Ducts EASYFLEX Sprinkler Drops are designed to significantly reduce labor and installation costs. Available in 5 different lengths with either a 1/2" or 3/4" NPT on reducer thread. EASYFLEX has been tested and listed by Underwriters Laboratories and approved by FM, United States and Canada, per NFPA 13, 13R & 130, as well as UL 1474 standards for safety regarding, but not limited to, pressure cycling, corrosion resistance, flow characteristics, vibration resistance, leakage, and mechanical as well as hydrostatic streng t h . EASYFLEX is an active member of AFSA, NFPA and NFSA. I Physical Data ME EFU- Unbraided Type R- AriddTne Fiqting Type Model No. Length Inch /mm Pieces/case Inlet Outlet 1 N P 1/2-NPT EFU/EFB 224 24.0/610 20 EFU/EFB 231 31.0/787 20 u/riB 336 36.0/914 20 EFU/EFB 248 48.0/ 1219 20 EFU/EFB 260 60.0/1524 10 EFU/EFB 275 75.0/1905 10 I 3/4PT EFU/EFB 324 24.0/610 20 EFU/EFB 331 31.0/787 20 EFU/EFB 336 36.0/914 20 EFU/EFB 348 48.0/ 1219 20 EFU/EFB 360 60.0/1524 10 EFU/EFB 375 75.0/1905 10 L. Technical Featurel Temperature Rating: Maximum temperature : 300 F(149° C) Pressure: Maximum Working Pressure: 200 psi, 1375kPa -Test Pressure :1000 psi / 6875kPa (burst) Connection: - To Branch Line (Inlet) : f'NPT male thread. To Splinkler Head (Outlet) : i/f or 3/4" NPT female thread. Minimum bend radius: 3"(76mm). Do not bend within 21/2w from connection nut. Maximum number of bends per flexible tube :3 1 Optional 8o lengths are available upon request. Madmum Working Pressure: 5oopsi(3.45okP PARTS REDUCER so '.1 #R012 #RD34 USNAP CLAMP IISS801 METAL STUD #MS8032 #LR012 #LRD34 .WING CLAMP #SSBWD1 1fl #R01-1 #RD34-1 #R012-1 BOLT CLAMP TM #58803 GASKEF #GRO1 #TBS01 ISOLATION RING j#PR01E U NIPPLE #NP114 #NP34 #NPI : No pipe cutting or Fast installation i00% no corrosion Simplified work less time consume EASYFLX Sprinkler Drops . Variety size of Hard Pipe Multiple pipe cutting Slow installation Corrosion Complicated assembly Traditional hard-pipe reduce Material . StaintessSteatSTS 304 .• 554t EA5YFts.i00%corrOI0nee No. of Connectors 4 Parts 7 Parts Less risk of leakage Life Span l2oyeärs . 6oyears Theoretcallifespan Installation in retrofit areas Easy and simple to work Impossible or hard to work EASYFLEX is easy to bend VI ration E.x.ceUent vibration absorption Weak Excellent for earthquake areas - Installation Quick and easy to install Labor and time intensive Hard Pipe installation conom Materiatcostissliglitlyhigher. but installation and táborcosts are mffth lower and labor costs iuthbghei IY Totalcogt.isbo.u.4o toWer thati e1tard 1p' ' Friction Loss Data and Specifications 16,ftaNldc Maxim um Rated FIEI fModel# I #4o pipe -schedule Pressue 1 schedule #4o pipe Pfeessure EFU(6n4 2ft(1&6m) 8.511(2.64 175ps1(112050) EfLJ(Bp 2ft(o.60) 6.5ft(2.om) 1705i0056) i ERI/B23i 2.6ft(o.8m) 8.9ft(2.7n1) 175ps1(12o5kPa) 3 EfUJBi z6ft(o2iii) ft(m) 175pS,(l2G5kPa) / EFLJ/8236 3ft(O.91n) 13.8ft(4.2rn) 1750(12050) J EFU/B6 3ft(o.9m) 8.9ft(2.7n1) 175p51(12o5kPa) 2 EF1J1B248 41t(L2m) 1&5ft(3.ol1) 175p51(12o5kPa) 4 EfUj8348 4ft(uni) lz6ftf38m) 175ps1(l2Q5kPa) EFlJ/B260 5ft(1.501) .20.54(61n1) 175p51(l2O50) EFU/B6o 50.50 16.8ft(5,im) 175ps(1205kPa) ERJ(&275 63ft(19m) 24Jft Gnu 175pSl(12o5kP ERJ/B375 &3f1(t91n) 2O5ft(62lul) 175psI(12oSkP Certificate of Compliance <-00'*F~M Flexible Sprinkler Hose with Fittings for use in APPROVED Commercial Suspended Ceilings, Circular Ducts, iirrnuv LU Square Ducts and Clean Rooms. Models: COMMERCIAL SUSPENDED CEILINGS: KFB-SP-OIA, KP11-SP-02A,KFB-SP-03A, KFB-SP-04A, KFB.SP.05A, KFB-SP-01AB, KFB-SP-02AB KPB-SP-O3AB, ICFB-SP.04A5, KFB-SP-05AB. CIRCULAR DUCTS: 1CFB-SPDC.01A, ICFB-SPDC.OZA, KFB-SPDC-03A, KFB-SPDC-WA, KFB-SPDC-05A SQUARE DUCTS: KFB-SPDS-01A, KFB-SPDS-02A, ICED-SPDS.03A, KFB-SPDS-04A, KFB-SPDS.OSA. CLEAN ROOMS: JOB-SPC-01A, KFB-.SPC.OZA, KFB-SPC-03A, XFB-SPC-04A, KFB.SPC-OSA Manufactured by: KOFULSO CO., LTD. 377-8 GUMGOKDONG, SEOGU INCHEON, SOUTH KOREA These items have been found to comply with the FM Approvals Standard Class Number 1637. Project Identifiers: 3022507 Date of Approval: September 30,2005 < CFM App rovals", SI Asst. Vice President - FM Approvals Ui Underwriters Laboratories Inc. Northbrook Divson 333 Pllngsian Road MOThbTcck. IL 60062-2096 US& wan.utconi teL 1 547 272 8815 KOFULSO CO LTD UL COORDINATOR 377-8 KUMGOK-DONG SEO-GU INCHEON KOREA RE: Project Number(s) - 01NK52228 Your most recent Certification is shown below. You may also view this information, or a portion of this information (depending on the product category), on UL's Online Certifications Directory at www.ul.com/database. Please review the text and contact the Conformity Assessment Services staff member who handled your project if revisions are required. For instructions on placing an order for this information in a 3 x 5-inch format, you may refer to the enclosed order form for UL Card Service. VENF January 24, 2003 Flexible Sprinkler Rose Fittings KOFULSO Co LTD EX6276 3778 KtJMGOK-DONG SEO-GU, JNCREON KOREA Models 1P-SV-01A SP.O2A. 7-6703A (1-S?-O4A 1SPO5A, 10-SP-01A5 IT-SP-02M, P-03AB KPSP-0 AS, KF.SP-OSAB, ICF-SPN-MA, I0r.SP14.02A, XF-SPN.O3A,l(F5PN-O4A, I(P.SFN-05A, -$FN-OMB. KF-SPAB, KP-SPN-43AB XFSP14-0AS, 1(F-SPN. 05A5 flexible sprinkler base fittings having a .200 psi rated pressure. For use with ordinary and intermediate temperature rated automatic Maximum number of bends maximum bend angler and emaciated pressure imes are shown in the manufacture's installation Instructions. LOOK FOR LIST4G MARK ON FRODUcr Approved by: NYC Board of Stds. & Appeals, Cal. #996-81-SM (175p51 720-83-SA (350 & 500 psi BB-SCIOO Sizes 1", 1-1/4", 1-1/2", 2", 2-1/2" 4-1/2" - BB-SC J@@%,wp, SLOW CLOSE BRONZE BUTTERFLY VALVE ONE-PIECE, FULL-PORT 175 PSI --- 'ir' THREADED ENDS !!! c\/us APPROVED LISTED DIMENSIONS Valve Size DIM 1" 1-114" 1-1/2" 2" 2-1/2" A 2.13 2.63 2.88 3.25 4.13 B' 3.16 3.31 3.41 3.63 3.82 C 156 194 219 275 319 D 1.72 2.11 2.38 3.07 3.50 J2 4.16 4.16 4.51 4.76 4.66 K 66 73 73 79 118 L .83 .90 .10 1.41 1.29 M403 1.10 1.38 1.61 2.07 2.47 M-804 .96 1.28 1.50 1.94 2.32 N-40' 2.25 2.00 2.50 2.25 10.00 w6 1.13 1.25 1.41 1.69 1.75 ALL DIMENSIONS-INCHES Pertains to BS-SC100 only. 'Pertains to BB-SCS02 only. 'M-40 ARE DIMENSIONS USING SCHEDULE 40 PIPE M.80 ARE DIMENSIONS USING SCHEDULE 80 PIPE 'N-40 IS FLOW RESISTANCE EXPRESSEDIN EQUIVALENT LENGTH OF SCHEDULE 40 PIPE 'W IS THE WRENCH MAKE-UP LENGTH FEATURES Slow opening and closing Quarter turn operation Water Hammer elimination Optional internal tamper switch (Indoor use only). - Signals disc movement - Factory or Field installation - 10 Amp 115 VAC-60 Hz - O.5 Amp I28 VOC Grooved Ends Available in Sizes 2' and 2-1/2" MATERIALS LIST ITEM PART MATERIALS ASTM SPEC. I Indicator Iron F0008P 2 Housing ASTM 584 UNS 3 Body Bronze C8440 ASTMB176UNS 4 Handle Brass C85800 5 Disk ASTMA276, Stainless Steel Type 304 6 Disk Seal EPDM Switch Housing Aluminum (BB-SCS02) A BB-SCSO2 (Includes Switch) The information presented on this sheet is correct at the time of publication. Milwaukee Valve reserves the right to change design, and/or material specifications without notice. For the most current information access www.milwaukeevalve.com . r - MILWAUKEE VALVET7V 13-190 INSTALlATION OF SPRINKLER SYSTEMS Contractor's Material and Test Certificate for Aboveground Piping PROCEDURE Upon completion of work, inspection and tests shall be made by the contractor's representative and witnessed by an owner's representative. All defects shall be 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 Ae6LLS fi&ir- Date Property address -, (names) Plans At.'. AMd C4 qz Installation conforms to accepted plans [es [] No Equipment used is approved l'es E No If no, explain deviations Has person in charge of fire equipment been instructed as JErYes No to location of control valves and care and maintenance of this new equipment? lf no, explain. - Instructions Have copies of the following been left on the promises? s-Yes [J No System components instructions Yes El No Care and maintenance instructions Yes El No NFPA25 Yes E] No Location of system Supplies buildings 5t Year of Orifice Temperature Make Model manufacture size Quantity rating V1&1bJ14 W1if2 3/t.# Sprinlders halt ___ j TS V191 hiM Pipe and Type of pipe kZ j) fittings Type of fittings I24' CA7t IAI Alarm . flow valve or Alarm device Maximum time to operate through test connection Type Make Model Minutes Seconds ag Indicator Dry valve 00.D. Make Model Serial no. Make Model _Seiià1 Dry pipe operating test connection1.2 Time to trip through test Water pressure Air pressure Tp.pelnr —eIfpressure ---Time water reached test outlett2 Alarm operated properly Minutes Seconds psi Psi Minutes Seconds Yes No Z.D. If no, explain 'Measured from time Inspector's test connection is opened 2NFPA 13 only requires the 60-second limitation in specific sections FIGURE 16.1 Contractor's Material and Test Certificate for Aboveground Piping. -4 SYSTEMS ACCEPTANCE 13-191 Operation El Pneumatic EiectrIc El Hydraulics Piping supervised EYes El No Detecting media supervised Yes El No Does valve operate from the manual hip, remote, o() Yes El No control stations? Deluge and preaction Is there an accessible facility in each circuit If no, explain valves for testing? LS~-Yes El No Does each circuit operate Does each circuit operate Maximum time to Make Model supervision loss alarm? valve release? operate release fVes No No Minutes Seconds Location Make and Setting Static pressure ual-pl Flow rate Pressure and floor model (flowing) reducing valve test et (psi) Outlet (psi) Inlet (psi) Outlet(psl) Flow (gem) ____ drostatic 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 -PesmaflEstablish 40 psi (2.7 bar) air 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 shalt not exceed l½ psi (O.1 bar) In 24 hours. All piping hydrostatically tested at 206- pal (_ bar) for 2.. hours piping pneumatically El Yes No If no statejeason Dry tested t Equipment operates properly El No Do you certify as the sprinkler contractor that additives and corrosive chemicals, sodium silicate or derivatives of sodm silicate, brine, or other corrosive chemicals were not used for testing systems or stopping leaks? 1Yes No Drain I Reading of gauge located near water Residual pressure with valve In test Tests test supply test connection: £t.- psi (_ bar) connection open wide: C psi (_ bar) Underground mains and lead-In connections to system risers flushed before connection made to sprinkler piping Verified by copy of the Contractors Material and Test Ll Yes El No Other Explain Certificate for Underground Piping. Rushed by installer of underground sprinkler piping f Yes El No - If powder-driven fasteners are used in concrete, El Yes No It no, explain has representative sample testing been satisfactorily completed? Blank testing Number used Locations Number removed gaskets Welding piping Yes El No If yes. Do you certify as the sprinkler contractor that welding procedures comply 9F Yes El No with the requirements of at least AWS 82.1? Welding g Do you certify that the welding was performed by welders qualified in Jf Yes El No compliance with the requirements of at least AWS B2.1? Do you certify that the welding was carried out In compliance with a Yes El No documented quality control procedure to ensure that all discs are retrieved, that openings in piping are smooth, that slag and other welding residue are removed, and that the Internal diameters of piping are not penetrated? Cutouts Do you certify that you have a control feature to ensure that 1 -Yes El No (discs) all Cutouts (diacs) are retrieved? FIGURE 16.1 Continued 2002 Edition. il a 13-192 INSTALLATION OF-SPRINKLER SYSTEMS Hydraulic Nameplate provided data nameplate . . Yes -E No Date left in service with all control valves open Remarks Name of sprinkler contractor If no, explain -e,m. gg CA Tests witnessed by ... . . Signatures For iroperty owner(signed) litle Date I Additional contractor (signed) \ ition'and notes rituis.r. 10.1 connnuea 16.2.1.2 Portions of systems normally subjected to system open sprinklers after the test is completed, or the operat i n g working pressures in excess of 15.0 psi (10.4 bar) s h a l l b e elements of automatic sprinklers shall be removed af t e r t h e tested as described in 16.2.2.1 at a:pressure of.50 psi (9. 5 b a r ) test is completed. . . . . in excess of system working pressure. 16.2.1.12* The trench shall be backfllled between jo i n t s b e - 16.2.1.3 Where cold weather will not permit testing with W a - fore testing to prevent movement of pipe. ter, an interim air test shall be permitted ,. to be conducted as described in 16 2 . ... - . . 16.2.1,13: Where required for safety measures presented b y the.hazards of open trenches, the pipe andjoints shall be p e r 16.2.1.4 Modifications affecting 20 or fewer sprinklers shall mitted to be bacicfihled provided the installing contr a c t o r not require testing in excess of system working pressur e . . takes the responsibility for locating and correcting l e a k a g e i n 16.2.1.5 Where addition or modification is made to an e x i s t - excess of thatpennitted in 16.2.1.8. ing system affecting.more. than. 20 sprinklers, the new p o r t i o n . Provision shall..be made for the proper. disposal of shall be isolated and tested. at not less than 200 psi (1 3 . 8 b a r ) water used for flushing or testing. for 2 hours. . 16.2.1.6 Modifications that cannot be isolated, such as relo- 16.2.1.15* Test Blanks. . cated drops, shall not require testing in excess of system w o r k - 16.2.1.15 11 Test blanks shall have painted lugs protrudin g i n ing pressure. . such a way, as to clearly indicate their presence. 16.2.1.7 Lossshall be determined by a drop in gauge p r e s - 16.2.1.15.2 The test blanks shall be numbered, and the in? sure or visual leakage stalling contractor shall have a recordkeeping method e n s u r - 16.2.1.8 The test pressure shall be read from a gauge l o c a t e d ing their removal after work is completed. at the low elevation point of the system or portion being 16.2.1.16 When subject to hydustatic testpressures, the c l a p - tested. - per of a differential-type valve shall be held off its sea t t o p r e . 16.2.1.9 Additives, corrosive chemicals such as sodium sili- vent damaging the valve. cate, or derivatives of sodium silicate, brine, or other chemi- 16.2.2 Dry Pipe and Double Interlock System(s) Air Test. cals shall not be used while hydrostatically testing system s o r 16.22.1 In addition to the standard hydrostatic test, an air for stopping leaks .. .. pressure leakage test.at 40. psi (2.8 bar) shalibe conducted for 16.2.1.10 Piping between the exterior fire departmen t c o n - 24hours;Anyieaicage:thatresults in.a loss-of pressure. in excess nection and the check valve in the fire department inlet pipe of 1½ psi (0.1 bar) for the 24hoursshall be correcte d . shall be hydrostatically,-tested-in-the-same-manner as--the--hal- ... ----- -- ........................................ --- Where- 16.2.2.2 Where systems are installed in spaces that- are ca- pable of being operated at temperatures.below 32 P (OC),air 16.2.1.11 When deluge systems are being hydrostatically pressure leakage tests required in 16.2.2 shall be cqnducted at tested, plugs shall be installed in fittings and replac e d w i t h the lowest nominal temperature of the space. 2002 EditIon 07/25/2007 12:10 7145320930 DPSI PAGE 02 07/25/2007 12:10 7146320930 DPSI PAGE 03 . ............................:3 ed in 1) - I Il * 1 - 1 .1........ e-4.. . I .. I f 3 1 i 3. L. 3 H 4 1 I I I 3 I 3 3 3 3 4 t 13 3':.:. •r..'$I. 4. 1 ..3. l•••I* 3..& i'.I I 4 1 1 3 1 3 I I .4 .. 1 1 I --- 1 I 3 III I - r - 'I