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Specifications AFP SYSTEMS, INC. fto J I f 19435 S. W. 129 AVENUE A TUALATIN, OREGON 97062 \T " C (503) 692 -9284 Y HYDRAULIC CALCULATIONS FOR B.A.P.S. TEMPLE WEST, INC. ItittS.SW TIGARD STREET //34S OR. 3 -30 -04 -- DESIGN DATA- - AREA OF OPERATION: ATTIC AREA — DRY SYSTEM OCCUPANCY CLASSIFICATION: ORDINARY SPACING / LIGHT DENSITY DENSITY: .10 gpm/sq.ft. AREA OF APPLICATION: 1,950 sq. ft. COVERAGE PER SPRINKLER: 130 sq. ft. — MAX. NUMBER OF SPRINKLERS CALCULATED: 16 heads TOTAL SPRINKLER WATER FLOW REQUIRED: 261.55 gpm TOTAL WATER REQUIRED (include hose) : 511.55 gpm FLOW & PRESSURE (at the base of riser) : 261.55 gpm @ 69.31 psi SPRINKLER ORIFICE SIZE: ' /z" / K= 5.6 NAME OF DESIGNER: Brian Olson AUTHORITY HAVING JURISDICTION: City of Tigard RECE VED APR 01 2UU4 CITY OF TIGAFID BUILDING DIVISION Sigma Dynamics Corporation B.A.P.S. Temple West, Inc. 7700 Supply / Demand Graph 125 120 115 — Margin 110 Pressure 21.78 PSI Flow 1267.69 GPM 105 100 95• — 0 - 90 85 80 75 • os0 65 s 60 ' a 55 50 45 40, m 34 3C`• - 25 2� 15 10 5 N t.e5 o 250 500 750 1000 1250 1500 1750 2000 2250 2500 Water Flow (GPM) System Demand.. Water Supply.. Sprinkler Demand 72.81 PSI @ 261.55 GPM Static 97.00 PSI Additional Flows 0.00 GPM Residual 65.00 PSI @ 2069.40 GPM Hose at Source 250.00 GPM Elevation 0.00 PSI Total Demand 72.81 PSI @ 511.55 GPM SUBMITTAL SERIAL NO:2386HY1 03 -30 -2004 PAGE 1 B.A.P.S. Temple West, Inc. 11435 SW Tigard Street Tigard, Oregon 19,690sf 2 -Story Building Construction Type - V -1 c- Occupancy - A -2.1 / A -3 / R -1 Fully Sprinkled Per NFPA 13 - '99 Edition 2nd Floor Dry System (Upright Sprinklers In Attic Area) Remote 1,950sf (Grids 1 -2 & A -B) Ordinary Haz. Spacing Light Haz. Density - .10gpm / sf 16 Head Remote FLOW TEST RESULTS Water Supply STATIC 97.00 PSI RESIDUAL 65.00 PSI @ 2069.40 GPM CITY PRESSURE AVAILABLE AT 511.6 GPM 94.59 PSI SUMMARY OF SPRINKLER OUTFLOWS ACTUAL MINIMUM SPR FLOW FLOW K- FACTOR PRESSURE 201 18.96 14.85 5.60 11.47 202 18.32 14.85 5.60 10.70 203 18.01 14.85 5.60 10.34 204 17.91 14.85 5.60 10.23 205 17.03 14.85 5.60 9.25 206 16.44 14.85 5.60 8.62 207 16.15 14.85 5.60 8.32 208 16.07 14.85 5.60 8.23 209 16.06 14.85 5.60 8.22 210 15.50 14.85 5.60 7.66 211 15.22 14.85 5.60 7.39 ;;. 212 15.14 14.85 5.60 7.31 213 15.76 14.85 5.60 7.92 214 15.20 14.85 5.60 7.37 215 14.93 14.85 5.60 7.11 216 14.85 14.85 5.60 7.03 SUBMITTAL SERIAL NO:2386HY1 03 -30 -2004 PAGE 2 B.A.P.S. Temple West, Inc. 11435 SW Tigard Street Tigard, Oregon 19,690sf 2 -Story Building Construction Type - V -1 Occupancy - A -2.1 / A -3 / R -1 Fully Sprinkled Per NFPA 13 - '99 Edition 2nd Floor Dry System (Upright Sprinklers In Attic Area) Remote 1,950sf (Grids 1 -2 & A -B) Ordinary Haz. Spacing Light Haz. Density - .10gpm / sf 16 Head Remote TOTAL WATER REQUIRED FOR SYSTEM 261.55 GPM OUTSIDE HOSE STREAMS AT 0 250.00 GPM TOTAL WATER REQUIREMENT 511.55 GPM PRESSURE REQUIRED AT 0 72.81 PSI MAXIMUM PRESSURE UNBALANCE IN LOOPS 0.00 PSI MAXIMUM VELOCITY FROM 3 TO 10 15.39 FPS 4N- ' SUBMITTAL SERIAL NO:2386HY1 03 -30 -2004 PAGE 3 B.A.P.S. Temple West, Inc. 11435 SW Tigard Street Tigard, Oregon 19,690sf 2 -Story Building Construction Type - V -1 Occupancy - A -2.1 / A -3 / R -1 r Fully Sprinkled Per NFPA 13 - '99 Edition 2nd Floor Dry System (Upright Sprinklers In Attic Area) Remote 1,950sf (Grids 1 -2 & A -B) Ordinary Haz. Spacing Light Haz. Density - .10gpm / sf ., 16 Head Remote Location Flow Pipe Fittings Equiv Friction Pressure in Size & Length Loss Summary From To GPM IN Devices Ft PSI /Ft PSI 212 216 1.442 L 10.83 C =100 PT 7.03 (216) Q 14.85 F =0 F 0.00 PE 0.03 BN T 10.83 0.0223 PF 0.24 208 212DQ 15.14 1.442 L 10.83 C =100 PT 7.30 (212) Q 29.99 F =0 F 0.00 PE 0.03 BN T 10.83 0.0819 PF 0.89 204 208DQ 16.07 1.442 L 10.83 C =100 PT 8.22 (208) Q 46.05 F =0 F 0.00 PE 0.03 BN T 10.83 0.1811 PF 1.96 124 204DQ 17.91 1.442 L 24.58 C =100 PT 10.21 (204) Q 63.96 F =T F 5.40 PE 0.11 BN T 29.98 0.3326 PF 9.97 24 124 1.442 L 1.00 C =100 PT 20.29 (124) Q 63.96 F =T F 5.40 PE 0.43 NR T 6.40 0.3326 PF 2.13 PT 22.85 ( 24) 211 215 1.442 L 10.83 C =100 PT 7.11 (215) Q 14.93 F =0 F 0.00 PE 0.03 BN T 10.83 0.0226 PF 0.24 207 211DQ 15.22 1.442 L 10.83 C =100 PT 7.38 (211) Q 30.16 F =0 F 0.00 PE 0.03 BN T 10.83 0.0828 PF 0.90 203 207DQ 16.15 1.442 L 10.83 C =100 PT 8.31 (207) Q 46.31 F =0 F 0.00 PE 0.03 BN T 10.83 0.1830 PF 1.98 123 203DQ 18.01 1.442 L 24.58 C =100 PT 10.32 (203) Q 64.32 F =T F 5.40 PE 0.11 BN T 29.98 0.3361 PF 10.08 SUBMITTAL SERIAL NO:2386HY1 03 -30 -2004 PAGE 4 c B.A.P.S. Temple West, Inc. 11435 SW Tigard Street Tigard, Oregon P 19,690sf 2 -Story Building Construction Type - V -1 Occupancy - A -2.1 / A -3 / R -1 r_ Fully Sprinkled Per NFPA 13 - '99 Edition 2nd Floor Dry System (Upright Sprinklers In Attic Area) Remote 1,950sf (Grids 1 -2 & A -B) Ordinary Haz. Spacing Light Haz. Density - .10gpm / sf 16 Head Remote Location Flow Pipe Fittings Equiv Friction Pressure in Size & Length Loss Summary From To GPM IN Devices Ft PSI /Ft PSI 23 123 1.442 L 1.00 C =100 PT 20.51 (123) Q 64.32 F =T F 5.40 PE 0.43 NR T 6.40 0.3361 PF 2.15 PT 23.09 ( 23) 210 214 1.442 L 10.83 C =100 PT 7.37 (214) Q 15.20 F =0 F 0.00 PE 0.03 BN T 10.83 0.0233 PF 0.25 206 210DQ 15.50 1.442 L 10.83 C =100 PT 7.65 (210) Q 30.70 F =0 F 0.00 PE 0.03 BN T 10.83 0.0856 PF 0.93 T , 202 206DQ 16.44 1.442 L 10.83 C =100 PT 8.61 (206) Q 47.14 F =0 F 0.00 PE 0.03 BN T 10.83 0.1892 PF 2.05 122 202DQ 18.32 1.442 L 24.58 C =100 PT 10.69 (202) Q 65.46 F =T F 5.40 PE 0.11 BN T 29.98 0.3472 PF 10.41 22 122 1.442 L 1.00 C =100 PT 21.21 (122) Q 65.46 F =T F 5.40 PE 0.43 NR T 6.40 0.3472 PF 2.22 PT 23.86 ( 22) 209 213 1.442 L 10.83 C =100 PT 7.92 (213) Q 15.76 F =0 F 0.00 PE 0.03 BN T 10.83 0.0249 PF 0.27 _ 205 209DQ 16.06 1.442 L 10.83 C =100 PT 8.22 (209) Q 31.81 F =0 F 0.00 PE 0.03 BN T 10.83 0.0914 PF 0.99 201 205DQ 17.03 1.442 L 10.83 C =100 PT 9.24 (205) y Q 48.84 F =0 F 0.00 PE 0.03 BN T 10.83 0.2020 PF 2.19 SUBMITTAL SERIAL NO:2386HY1 03 -30 -2004 PAGE 5 B.A.P.S. Temple West, Inc. 11435 SW Tigard Street Tigard, Oregon r 19,690sf 2 -Story Building Construction Type - V -1 Occupancy - A -2.1 / A -3 / R -1 (- Fully Sprinkled Per NFPA 13 - '99 Edition 2nd Floor Dry System (Upright Sprinklers In Attic Area) Remote 1,950sf (Grids 1 -2 & A -B) Ordinary Haz. Spacing Light Haz. Density - .10gpm / sf 16 Head Remote Location Flow Pipe Fittings Equiv Friction Pressure in Size & Length Loss Summary From To GPM IN Devices Ft PSI /Ft PSI 121 201DQ 18.96 1.442 L 24.58 C =100 PT 11.46 (201) Q 67.81 F =T F 5.40 PE 0.11 BN T 29.98 0.3705 PF 11.11 21 121 1.442 L 1.00 C =100 PT 22.68 (121) Q 67.81 F =T F 5.40 PE 0.43 NR T 6.40 0.3705 PF 2.37 PT 25.48 ( 21) 23 24 2.635 L 11.50 C =100 PT 22.87 ( 24) Q 63.96 F =0 F 0.00 PE 0.03 FM2 T 11.50 0.0177 PF 0.20 22 23DQ 64.32 2.635 L 11.50 C =100 PT 23.10 ( 23) Q 128.28 F =0 F 0.00 PE 0.03 FM2 T 11.50 0.0640 PF 0.74 21 22DQ 65.46 2.635 L 11.50 C =100 PT 23.87 ( 22) Q 193.75 F =0 F 0.00 PE 0.03 FM2 T 11.50 0.1372 PF 1.58 15 21DQ 67.81 2.635 L 31.00 C =100 PT 25.48 ( 21) Q 261.55 F =T F 10.80 PE 0.07 FM2 T 41.80 0.2390 PF 9.99 10 15 2.635 L 64.00 C =100 PT 35.54 ( 15) , Q 261.55 F =2E F 8.60 PE 0.22 FM T 72.60 0.2390 PF 17.35 3 10 2.635 L 20.00 C =100 PT 53.11 ( 10) Q 261.55 F= BV,DPV F 7.00 PE 7.80 ;, FR T 27.00 0.2390 PF 6.45 Victaulic Model 756 1.95 c ` 2 3 6.340 L 160.00 C =140 PT 69.31 ( 3) Q 261.55 F =2E F 24.00 PE 0.00 UN T 184.00 0.0018 PF 0.33 - w • SUBMITTAL SERIAL NO:2386HY1 03 -30 -2004 PAGE 6 B.A.P.S. Temple West, Inc. 11435 SW Tigard Street Tigard, Oregon 19,690sf 2 -Story Building Construction Type - V -1 Occupancy - A -2.1 / A -3 / R -1 Fully Sprinkled Per NFPA 13 - '99 Edition 2nd Floor Dry System (Upright Sprinklers In Attic Area) Remote 1,950sf (Grids 1 -2 & A -B) Ordinary Haz. Spacing Light Haz. Density - .10gpm / sf 16 Head Remote Location Flow Pipe Fittings Equiv Friction Pressure in Size & Length Loss Summary From To GPM IN Devices Ft PSI /Ft PSI 1 2 6.340 L 10.00 C =140 PT 69.64 ( 2) Q 261.55 F =DDC F 0.00 PE 0.00 UN T 10.00 0.0018 PF 0.02 Ames Model 3000ss 2.95 0 1 6.340 L 50.00 C =140 PT 72.62 ( 1) Q 261.55 F =T,BV F 53.30 PE 0.00 UN T 103.30 0.0018 PF 0.19 PT 72.81 ( 0) >r• • c_ AFP SYSTEMS, INC. 19435 S. W. 129 AVENUE TUALATIN, OREGON 97062 (503) 692-9284 HYDRAULIC CALCULATIONS FOR B.A.P.S. TEMPLE WEST, INC. 11435 SW TIGARD STREET TIGARD, OR. 3 -30 -04 — DESIGN DATA — AREA OF OPERATION: L2 — WET SYSTEM — PENDENT SPRINKLERS - SABHA HALL OCCUPANCY CLASSIFICATION: LIGHT HAZARD DENSITY: .10 gpm/sq.ft. AREA OF APPLICATION: 1,500 sq. ft. COVERAGE PER SPRINKLER: 225 sq. ft. — MAX. NUMBER OF SPRINKLERS CALCULATED: 7 heads TOTAL SPRINKLER WATER FLOW REQUIRED: 183.57 gpm TOTAL WATER REQUIRED (include hose) : 283.57 gpm FLOW & PRESSURE (at the base of riser) : 183.57 gpm @ 55.06 psi SPRINKLER ORIFICE SIZE: %2" / K= 5.6 NAME OF DESIGNER: Brian Olson AUTHORITY HAVING JURISDICTION: City of Tigard ;,,, Sigma Dynamics Corporation B.A.P.S. Temple West, Inc. 7700 Supply / Demand Graph 125 120 115 — Margin 110 Pressure 37.59 PSI F low 1999.93 GPM 105 100 95 • — 90'I 85 ' 75 11 70 I I • 65 • 6� p 3 a 55 it 50 45 40 35 3CY c 2f� 2I � 1 D 10 5 N 1.85 o 250 500 750 1000 1250 1500 1750 2000 2250 2500 Water Flow (GPM) System Demand.. Water Supply.. Sprinkler Demand 58.60 PSI @ 183.57 GPM Static 97.00 PSI Additional Flows 0.00 GPM Residual 65.00 PSI @ 2069.40 GPM Hose at Source 100.00 GPM Elevation 0.00 PSI Total Demand 58.60 PSI @ 283.57 GPM 1 SUBMITTAL SERIAL NO:2386HY1 03 -30 -2004 PAGE 1 B.A.P.S. Temple West, Inc. 11435 SW Tigard Street Tigard, Oregon 19,690sf 2 -Story Building Construction Type - V -1 Occupancy - A -2.1 / A -3 / R -1 Fully Sprinkled Per NFPA 13 - '99 Edition 2nd Floor Wet System (Pendent Sprinkler Caic.) . Sabha Hall Area - Remote 1,500sf Light Hazard - .10gpm / sf 7 Head Remote FLOW TEST RESULTS Water Supply STATIC 97.00 PSI RESIDUAL 65.00 PSI @ 2069.40 GPM CITY PRESSURE AVAILABLE AT 283.6 GPM 96.19 PSI SUMMARY OF SPRINKLER OUTFLOWS ACTUAL MINIMUM SPR FLOW FLOW K- FACTOR PRESSURE 301 23.43 22.50 5.60 17.51 302 22.60 22.50 5.60 16.29 303 22.60 22.50 5.60 16.29 304 23.35 22.50 5.60 17.39 305 23.33 22.50 5.60 17.35 306 22.50 22.50 5.60 16.14 307 22.50 22.50 5.60 16.14 308 23.25 22.50 5.60 17.23 TOTAL WATER REQUIRED FOR SYSTEM 183.57 GPM OUTSIDE HOSE STREAMS AT 0 100.00 GPM TOTAL WATER REQUIREMENT 283.57 GPM PRESSURE REQUIRED AT 0 58.60 PSI MAXIMUM PRESSURE UNBALANCE IN LOOPS 0.00 PSI MAXIMUM VELOCITY FROM 3 TO 10 16.12 FPS €" \ f' • SUBMITTAL SERIAL NO:2386HY1 03 -30 -2004 PAGE 2 B.A.P.S. Temple West, Inc. c; 11435 SW Tigard Street Tigard, Oregon 19,690sf 2 -Story Building Construction Type - V -1 Occupancy - A -2.1 / A -3 / R -1 Fully Sprinkled Per NFPA 13 - '99 Edition 2nd Floor Wet System (Pendent Sprinkler Calc.) Sabha Hall Area - Remote 1,500sf Light Hazard - .10gpm / sf 7 Head Remote Location Flow Pipe Fittings Equiv Friction Pressure in Size & Length Loss Summary From To GPM IN Devices Ft PSI /Ft PSI 207 307 1.109 L 1.00 C =150 PT 16.14 (307) Q 22.50 F =T,2E F 13.60 PE -0.43 DR T 14.60 0.0817 PF 1.19 PT 16.90 (207) 208 308 1.109 L 1.00 C =150 PT 17.23 (308) Q 23.25 F =T,2E F 13.60 PE -0.43 DR T 14.60 0.0868 PF 1.27 PT 18.07 (208) 206 306 1.109 L 1.00 C =150 PT 16.14 (306) Q 22.50 F =T,2E F 13.60 PE -0.43 DR T 14.60 0.0817 PF 1.19 PT 16.90 (206) 205 305 1.109 L 1.00 C =150 PT 17.35 (305) Q 23.33 F =T,2E F 13.60 PE -0.43 DR T 14.60 0.0873 PF 1.27 PT 18.19 (205) 204 304 1.109 L 1.00 C =150 PT 17.39 (304) Q 23.35 F =T,2E F 13.60 PE -0.43 ;= DR T 14.60 0.0875 PF 1.28 PT 18.24 (204) ' 203 303 1.109 L 1.00 C =150 PT 16.29 (303) Q 22.60 F =T,2E F 13.60 PE -0.43 DR T 14.60 0.0824 PF 1.20 ,,- PT 17.06 (203) 202 302 1.109 L 1.00 C =150 PT 16.29 (302) Q 22.60 F =T,2E F 13.60 PE -0.43 DR T 14.60 0.0824 PF 1.20 PT 17.06 (202) 201 301 1.109 L 1.00 C =150 PT 17.51 (301) Q 23.43 F =T,2E F 13.60 PE -0.43 , DR T 14.60 0.0880 PF 1.28 1 PT 18.36 (201) 1 1 r o SUBMITTAL SERIAL NO:2386HY1 03 -30 -2004 PAGE 3 B.A.P.S. Temple West, Inc. 11435 SW Tigard Street Tigard, Oregon 19,690sf 2 -Story Building Construction Type - V -1 Occupancy - A -2.1 / A -3 / R -1 . Fully Sprinkled Per NFPA 13 - '99 Edition 2nd Floor Wet System (Pendent Sprinkler Calc.) Sabha Hall Area - Remote 1,500sf Light Hazard - .10gpm / sf 7 Head Remote Location Flow Pipe Fittings Equiv Friction Pressure in Size & Length Loss Summary From To GPM IN Devices Ft PSI /Ft PSI 208 207 1.109 L 15.00 C =150 PT 16.90 (207) Q 21.88 F =0 F 0.00 PE 0.00 BL T 15.00 0.0776 PF 1.16 39 208DQ 23.25 1.109 L 34.00 C =150 PT 18.06 (208) Q 45.13 F =0 F 0.00 PE 0.00 BL T 34.00 0.2960 PF 10.06 38 39 2.157 L 14.50 C =120 PT 28.12 ( 39) Q 45.13 F =0 F 0.00 PE 0.00 CM2 T 14.50 0.0175 PF 0.25 PT 28.37 ( 38) 206 207 1.109 L 15.00 C =150 PT 16.90 (207) Q 0.62 F =0 F 0.00 PE 0.00 BL T 15.00 0.0001 PF 0.00 �,; 205 206DQ 22.50 1.109 L 15.00 C =150 PT 16.90 (206) '"-�- Q 23.12 F =0 F 0.00 PE 0.00 BL T 15.00 0.0859 PF 1.29 29 205DQ 23.33 1.109 L 31.00 C =150 PT 18.19 (205) Q 46.44 F =T F 7.60 PE 0.00 BL T 38.60 0.3121 PF 12.05 28 29 2.157 L 14.50 C =120 PT 30.24 ( 29) Q 46.44 F =0 F 0.00 PE 0.00 CM1 T 14.50 0.0185 PF 0.27 PT 30.51 ( 28) 204 203 1.109 L 15.00 C =150 PT 17.06 (203) Q 21.99 F =0 F 0.00 PE 0.00 BL T 15.00 0.0783 PF 1.17 38 204DQ 23.35 1.109 L 34.00 C =150 PT 18.23 (204) Q 45.34 F =0 F 0.00 PE 0.00 BL T 34.00 0.2986 PF 10.15 µ v SUBMITTAL SERIAL NO:2386HY1 03 -30 -2004 PAGE 4 B.A.P.S. Temple West, Inc. 11435 SW Tigard Street Tigard, Oregon 19,690sf 2 -Story Building Construction Type -'V -1 Occupancy - A -2.1 / A -3 / R -1 Fully Sprinkled Per NFPA 13 - '99 Edition . 2nd Floor wet System (Pendent Sprinkler Calc.) Sabha Hall Area - Remote 1,500sf Light Hazard - .10gpm / sf 7 Head Remote Location Flow Pipe Fittings Equiv Friction Pressure in Size & Length Loss Summary From To GPM IN Devices Ft PSI /Ft PSI 37 38DQ 45.13 2.157 L 14.50 C =120 PT 28.38 ( 38) U Q 90.47 F =0 F 0.00 PE 0.00 CM2 T 14.50 0.0634 PF 0.92 PT 29.30 ( 37) 202 203 1.109 L 15.00 C =150 PT 17.06 (203) Q 0.61 F =0 F 0.00 PE 0.00 BL T 15.00 0.0001 PF 0.00 " 201 202DQ 22.60 1.109 L 15.00 C =150 PT 17.06 (202) Q 23.22 F =0 F 0.00 PE 0.00 BL T 15.00 0.0866 PF 1.30 28 201DQ 23.43 1.109 L 31.00 C =150 PT 18.36 (201) Q 46.65 F =T F 7.60 PE 0.00 BL T 38.60 0.3147 PF 12.15 27 28DQ 46.44 2.157 L 14.50 C =120 PT 30.51 ( 28) Q 93.09 F =0 F 0.00 PE 0.00 CM1 T 14.50 0.0669 PF 0.97 PT 31.48 ( 27) 27 37 1.109 L 110.00 C =150 PT 29.31 ( 37) Q 10.08 F =T F 7.60 PE 0.00 BL T 117.60 0.0185 PF 2.18 26 27DQ 93.09 2.157 L 14.50 C =120 PT 31.49 ( 27) Q 103.17 F =0 F 0.00 PE 0.00 CM1 T 14.50 0.0809 PF 1.17 25 26DQ 11.12 2.157 L 13.50 C =120 PT 32.66 ( 26) Q 114.29 F =0 F 0.00 PE 0.00 CM1 T 13.50 0.0977 PF 1.32 24 25DQ 12.84 2.157 L 12.75 C =120 PT 33.98 ( 25) Q 127.13 F =0 F 0.00 PE 0.00 CM1 T 12.75 0.1190 PF 1.52 • , 'w SUBMITTAL SERIAL NO:2386HY1 03 -30 -2004 PAGE 5 B.A.P.S. Temple West, Inc. 11435 SW Tigard Street Tigard, Oregon 19,690sf 2 -Story Building Construction Type - V -1 Occupancy - A -2.1 / A -3 / R -1 . Fully Sprinkled Per NFPA 13 - '99 Edition 2nd Floor Wet System (Pendent Sprinkler Calc.) Sabha Hall Area - Remote 1,500sf Light Hazard - .10gpm / sf 7 Head Remote Location Flow Pipe Fittings Equiv Friction Pressure in Size & Length Loss Summary From To GPM IN Devices Ft PSI /Ft PSI 15 24DQ 13.91 2.157 L 1.00 C =120 PT 35.50 ( 24) `-> Q 141.04 F =0 F 0.00 PE 0.00 CM1 T 1.00 0.1442 PF 0.14 PT 35.64 ( 15) 36 37 2.157 L 14.50 C =120 PT 29.31 ( 37) Q 80.40 F =0 F 0.00 PE 0.00 CM2 T 14.50 0.0510 PF 0.74 26 36DQ -69.28 1.109 L 110.00 C =150 PT 30.05 ( 36) Q 11.12 F =T F 7.60 PE 0.00 BL T 117.60 0.0222 PF 2.61 PT 32.66 ( 26) 35 36 2.157 L 13.50 C =120 PT 30.05 ( 36) Q 69.28 F =0 F 0.00 PE 0.00 CM2 T 13.50 0.0387 PF 0.52 25 35DQ -56.43 1.109 L 110.00 C =150 PT 30.57 ( 35) Q 12.84 F =T F 7.60 PE 0.00 BL T 117.60 0.0289 PF 3.40 PT 33.97 ( 25) 34 35 2.157 L 12.75 C =120 PT 30.57 ( 35) Q 56.43 F =0 F 0.00 PE 0.00 CM2 T 12.75 0.0265 PF 0.34 24 34DQ -42.52 1.109 L 117.00 C =150 PT 30.91 ( 34) Q 13.91 F =T,4E F 19.60 PE 0.00 BL T 136.60 0.0336 PF 4.59 PT 35.50 ( 24) 33 34 2.157 L 12.00 C =120 PT 30.91 ( 34) Q 42.52 F =0 F 0.00 PE 0.00 CM2 T 12.00 0.0157 PF 0.19 23 33DQ -28.75 1.109 L 113.00 C =150 PT 31.10 ( 33) Q 13.77 F =T,4E F 19.60 PE 0.00 BL T 132.60 0.0329 PF 4.36 1-4:_,--) PT 35.46 ( 23) 1 r • SUBMITTAL SERIAL NO:2386HY1 03 -30 -2004 PAGE 6 B.A.P.S. Temple West, Inc. 11435 SW Tigard Street Tigard, Oregon 19,690sf 2 -Story Building Construction Type - V -1 Occupancy - A -2.1 / A -3 / R -1 • Fully Sprinkled Per NFPA 13 - '99 Edition 2nd Floor Wet System (Pendent Sprinkler Calc.) Sabha Hall Area - Remote 1,500sf Light Hazard - .10gpm / sf 7 Head Remote Location Flow Pipe Fittings Equiv Friction Pressure in Size & Length Loss Summary From To GPM IN Devices Ft PSI /Ft PSI • 32 33 2.157 L 10.00 C =120 PT 31.09 ( 33) Q 28.75 F =0 F 0.00 PE 0.00 CM2 T 10.00 0.0076 PF 0.08 22 32DQ -14.34 1.109 L 110.00 C =150 PT 31.17 ( 32) Q 14.42 F =T F 7.60 PE 0.00 BL T 117.60 0.0358 PF 4.21 PT 35.38 ( 22) 31 32 2.157 L 10.25 C =120 PT 31.17 ( 32) Q 14.34 F =0 F 0.00 PE 0.00 CM2 T 10.25 0.0021 PF 0.02 21 31 1.109 L 110.00 C =150 PT 31.19 ( 31) Q 14.34 F =T F 7.60 PE 0.00 BL T 117.60 0.0355 PF 4.17 22 21 2.157 L 10.25 C =120 PT 35.36 ( 21) Q 14.34 F =0 F 0.00 PE 0.00 CM1 T 10.25 0.0021 PF 0.02 23 22DQ 14.42 2.157 L 10.00 C =120 PT 35.38 ( 22) Q 28.75 F =0 F 0.00 PE 0.00 CM1 T 10.00 0.0076 PF 0.08 15 23DQ 13.77 2.157 L 11.00 C =120 PT 35.46 ( 23) Q 42.52 F =0 F 0.00 PE 0.00 CM1 T 11.00 0.0157 PF 0.17 10 15DQ 141.04 2.157 L 3.00 C =120 PT 35.63 ( 15) Q 183.57 F =T F 8.50 PE 0.00 " FM T 11.50 0.2349 PF 2.70 3 10 2.157 L 20.00 C =120 PT 38.33 ( 10) Q 183.57 F= T,E,BV F 18.00 PE 7.80 FR T 38.00 0.2349 PF 8.93 • SUBMITTAL SERIAL NO:2386HY1 03 -30 -2004 PAGE 7 B.A.P.S. Temple West, Inc. 11435 SW Tigard Street Tigard, Oregon 19,690sf 2 -Story Building Construction Type - V -i a Occupancy - A -2.1 / A -3 / R -1 Fully Sprinkled Per NFPA 13 - '99 Edition 2nd Floor Wet System (Pendent Sprinkler Calc.) Sabha Hall Area - Remote 1,500sf Light Hazard - .10gpm / sf 7 Head Remote Location Flow Pipe Fittings Equiv Friction Pressure in Size & Length Loss Summary From To GPM IN Devices Ft PSI /Ft PSI 2 3 6.340 L 160.00 C =140 PT 55.06 ( 3) Q 183.57 F =2E F 24.00 PE 0.00 UN T 184.00 0.0009 PF 0.17 1 2 6.340 L 10.00 C =140 PT 55.23 ( 2) Q 183.57 F =DDC F 0.00 PE 0.00 UN T 10.00 0.0009 PF 0.01 Ames Model 3000ss 3.27 0 1 6.340 L 50.00 C =140 PT 58.50 ( 1) Q 183.57 F =T,BV F 53.30 PE 0.00 UN T 103.30 0.0009 PF 0.09 PT 58.59 ( 0) 1 • AFP SYSTEMS, INC. 19435 S. W. 129 AVENUE TUALATIN, OREGON 97062 (503) 692-9284 HYDRAULIC CALCULATIONS FOR B.A.P.S. TEMPLE WEST, INC. 11435 SW TIGARD STREET TIGARD, OR. 3 -30 -04 -- DESIGN DATA- - AREA OF OPERATION: L I — WET SYSTEM — ENTRY / CORRIDOR OCCUPANCY CLASSIFICATION: LIGHT HAZARD DENSITY: .10 gpm/sq.ft. AREA OF APPLICATION: 7 HEAD CORRIDOR COVERAGE PER SPRINKLER: 225 sq. ft. — MAX. NUMBER OF SPRINKLERS CALCULATED: 7 heads TOTAL SPRINKLER WATER FLOW REQUIRED: 174.55 gpm TOTAL WATER REQUIRED (include hose) : 274.55 gpm FLOW & PRESSURE (at the base of riser) : 174.55 gpm @ 64.35 psi SPRINKLER ORIFICE SIZE: '/" / K= 5.6 NAME OF DESIGNER: Brian Olson AUTHORITY HAVING JURISDICTION: City of Tigard Temple West, Inc. 7700 Supply / Demand Graph h • p 7700 Supply /Demand Grap �'� B.A.P.S. Tem 125 120 11 moimmm� Margin Pressure 28.34 PSI ■ Flow 1691.41 GPM 105 100 90 1I1■■■-_-- Ern 80 1111111I 75 MEM a. so MENE. EIMIEMMINEI 50 45 40 3L 3(c, 2 2 O 1 � 10 5 N1.85 0 250 500 750 1000 1250 1500 1750 2000 2250 2500 Water Flow (GPM) System Demand.. Water Supply.. Sprinkler Demand 67.90 PSI @ 174.55 GPM Static 97.00 PSI Additional Flows 0.00 GPM Residual 65.00 PSI @ 2069.40 GPM Hose at Source 100.00 GPM Elevation 0.00 PSI Total Demand 67.90 PSI @ 274.56 GPM , SUBMITTAL SERIAL NO:2386HY1 03 -30 -2004 PAGE 1 B.A.P.S. Temple West, Inc. 11435 SW Tigard Street Tigard, Oregon 19,690sf 2 -Story Building Construction Type - V -1 Occupancy - A -2.1 / A -3 / R -i Fully Sprinkled Per NFPA 13 - '99 Edition 1st Floor Wet System Entry & Corridor Calc. Light Hazard - .10gpm / sf 7 Head Remote FLOW TEST RESULTS Water Supply STATIC 97.00 PSI RESIDUAL 65.00 PSI © 2069.40 GPM CITY PRESSURE AVAILABLE AT 274.6 GPM 96.24 PSI SUMMARY OF SPRINKLER OUTFLOWS ACTUAL MINIMUM SPR FLOW FLOW K- FACTOR PRESSURE 301 28.30 22.50 5.60 25.54 302 27.48 22.50 5.60 24.09 303 23.19 22.50 5.60 17.15 304 22.50 22.50 5.60 16.14 305 26.86 22.50 5.60 23.01 ' 306 23.37 22.50 5.60 17.42 307 22.85 22.50 5.60 16.65 TOTAL WATER REQUIRED FOR SYSTEM 174.55 GPM OUTSIDE HOSE STREAMS AT 0 100.00 GPM TOTAL WATER REQUIREMENT 274.55 GPM PRESSURE REQUIRED AT 0 67..90 PSI MAXIMUM PRESSURE UNBALANCE IN LOOPS 0.00 PSI MAXIMUM VELOCITY FROM 54 TO 33 25.29 FPS , SUBMITTAL SERIAL NO:2386HY1 03 -30 -2004 PAGE 2 B.A.P.S. Temple West, Inc. 11435 SW Tigard Street Tigard, Oregon 19,690sf 2 -Story Building Construction Type - V -1 Occupancy - A -2.1 / A -3 / R -1 . Fully Sprinkled Per NFPA 13 - '99 Edition 1st Floor Wet System Entry & Corridor Calc. Light Hazard - .10gpm / sf 7 Head Remote Location Flow Pipe Fittings Equiv Friction Pressure in Size & Length Loss Summary From To GPM IN Devices Ft PSI /Ft PSI 204 304 1.109 L 2.00 C =150 PT 16.14 (304) Q 22.50 F =T,E F 10.60 PE - 0.22 AO 'T 12.60 0.0817 PF 1.03 203 204 1.109 L 13.00 C =150 PT 16.95 (204) Q 22.50 F =0 F 0.00 PE 0.00 BN T 13.00 0.0817 PF 1.06 PT 18.01 (203) .. 207 307 1.109 L 2.00 C =150 PT 16.65 (307) Q 22.85 F =T,E F 10.60 PE -0.22 AO T 12.60 0.0840 PF 1.06 62 207 1.109 L 11.50 C =150 PT 17.49 (207) Q 22.85 F =T F 7.60 PE 0.00 BN T 19.10 0.0840 PF 1.60 61 62 1.109 L 10.50 C =150 PT 19.09 ( 62) , Q 22.85 F =0 F 0.00 PE 0.00 BN T 10.50 0.0840 PF 0.88 PT 19.97 ( 61) 206 306 1.109 L 2.00 C =150 PT 17.42 (306) Q 23.37 F =T,E F 10.60 PE -0.22 AO T 12.60 0.0876 PF 1.10 61 206 1.109 L 11.50 C =150 PT 18.30 (206) Q 23.37 F =T F 7.60 PE 0.00 BN T 19.10 0.0876 PF 1.67 54 61DQ 22.85 1.109 L 22.00 C =150 PT 19.97 ( 61) Q 46.22 F =T,E F 10.60 PE -3.90 BN T 32.60 0.3094 PF 10.09 L PT 26.16 ( 54) 205 305 1.109 L 2.00 C =150 PT 23.01 (305) Q 26.86 F =T,E F 10.60 PE -0.22 { AO T 12.60 0.1134 PF 1.43 v. SUBMITTAL SERIAL NO:2386HY1 03 -30 -2004 PAGE 3 B.A.P.S. Temple West, Inc. 11435 SW Tigard Street Tigard, Oregon 19,690sf 2 -Story Building Construction Type - V -1 Occupancy - A -2.1 / A -3 / R -1 Fully Sprinkled Per NFPA 13 - '99 Edition 1st Floor Wet System Entry & Corridor Calc. `r Light Hazard - .10gpm / sf 7 Head Remote Location Flow Pipe Fittings Equiv Friction Pressure in Size & Length Loss Summary From To GPM IN Devices Ft PSI /Ft PSI 53 205 1.109 L 19.00 C =150 PT 24.22 (205) Q 26.86 F =T,2E F 13.60 PE -3.90 BN T 32.60 0.1134 PF 3.70 PT 24.02 ( 53) 203 303 1.109 L 2.00 C =150 PT 17.15 (303) Q 23.19 F =T,E F 10.60 PE -0.22 AO T 12.60 0.0864 PF 1.09 52 203DQ 22.50 1.109 L 19.00 C =150 PT 18.02 (203) 'w J Q 45.69 F =T,2E F 13.60 PE -3.90 BN T 32.60 0.3028 PF 9.87 PT 23.99 ( 52) 202 302 1.109 L 2.00 C =150 PT 24.09 (302) Q 27.48 F =T,E F 10.60 PE -0.22 AO T 12.60 0.1183 PF 1.49 : : ; J. : 201 202 1.109 L 13.00 C =150 PT 25.36 (202) ' . Q 27.48 F =0 F 0.00 PE 0.00 BN T 13.00 0.1183 PF 1.54 PT 26.90 (201) 201 301 1.109 L 2.00 C =150 PT 25.54 (301) Q 28.30 F =T,E F 10.60 PE -0.22 AO T 12.60 0.1249 PF 1.57 51 201DQ 27.48 1.109 L 17.00 C =150 PT 26.89 (201) Q 55.79 F =T,2E F 13.60 PE -3.90 BN T 30.60 0.4381 PF 13.41 _ 32 51DQ -33.45 1.109 L 59.00 C =150 PT 36.40 ( 51) Q 22.34 F =0 F 0.00 PE 0.00 BL T 59.00 0.0806 PF 4.76 33 32DQ -16.08 2.157 L 10.00 C =120 PT 41.16 ( 32) V Q 6.26 F =0 F 0.00 PE 0.00 . CM2 T 10.00 0.0005 PF 0.01 SUBMITTAL SERIAL NO:2386HY1 03 -30 -2004 PAGE 4 B.A.P.S. Temple West, Inc. 11435 SW Tigard Street Tigard, Oregon 19,690sf 2 -Story Building Construction Type - V -1 Occupancy - A -2.1 / A -3 / R -1 - Fully Sprinkled Per NFPA 13 - '99 Edition 1st Floor Wet System Entry & Corridor Calc. Light Hazard - .10gpm / sf 7 Head Remote Location Flow Pipe Fittings Equiv Friction Pressure in Size & Length Loss Summary From To GPM IN Devices Ft PSI /Ft PSI 34 33DQ 76.15 2.157 L 12.00 C =120 PT 41.17 ( 33) Q 82.41 F =0 F 0.00 PE 0.00 CM2 T 12.00 0.0534 PF 0.64 - ''' 55 34DQ -67.15 1.109 L 51.75 C =150 PT 41.81 ( 34) t- U Q 15.26 F =0 F 0.00 PE 0.00 BL T 51.75 0.0398 PF 2.06 24 55 1.109 L 65.25 C =150 PT 43.87 ( 55) Q 15.26 F =T,4E F 19.60 PE 0.00 BL T 84.85 0.0398 PF 3.38 PT 47.25 ( 24) 53 52 1.109 L 13.00 C =150 PT 23.99 ( 52) Q 3.07 F =0 F 0.00 PE 0.00 BL T 13.00 0.0021 PF 0.03 54 53DQ 26.86 1.109 L 15.50 C =150 PT 24.02 ( 53) Q 29.93 F =0 F 0.00 PE 0.00 BL T 15.50 0.1385 PF 2.15 33 54DQ 46.22 1.109 L 19.25 C =150 PT 26.17 ( 54) . Q 76.15 F =0 F 0.00 PE 0.00 BL T 19.25 0.7793 PF 15.00 PT 41.17 ( 33) 35 34 2.157 L 12.75 C =120 PT 41.80 ( 34) ;•! - Q 67.15 F =0 F 0.00 PE 0.00 CM2 T 12.75 0.0365 PF 0.47 36 35DQ -14.95 2.157 L 13.50 C =120 PT 42.27 ( 35) . Q 52.20 F =0 F 0.00 PE 0.00 CM2 T 13.50 0.0229 PF 0.31 t• 37 36DQ -13.81 2.157 L 14.50 C =120 PT 42.58 ( 36) - Q 38.39 F =0 F 0.00 PE 0.00 CM2 T 14.50 0.0130 PF 0.19 S . • . SUBMITTAL SERIAL NO:2386HY1 03 -30 -2004 PAGE 5 B.A.P.S. Temple West, Inc. 11435 SW Tigard Street • . Tigard, Oregon "''' 19,690sf 2 -Story Building Construction Type - V -1 j _ . Occupancy - A -2.1 / A -3 / R -1 Fully Sprinkled Per NFPA 13 - '99 Edition 1st Floor Wet System V Entry & Corridor Calc. Light Hazard - .10gpm / sf 7 Head Remote Location Flow Pipe Fittings Equiv Friction Pressure in Size & Length Loss Summary From To GPM IN Devices Ft PSI /Ft PSI • 38 37DQ -13.07 2.157 L 14.50 C =120 PT 42.77 ( 37) Q 25.32 F =0 F 0.00 PE 0.00 CM2 T 14.50 0.0060 PF 0.09 39 38DQ -12.71 2.157 L 14.50 C =120 PT 42.86 ( 38) Q 12.61 F =0 F 0.00 PE 0.00 /} CM2 T 14.50 0.0017 PF 0.02 `J 29 39 1.109 L 110.00 C =150 PT 42.88 ( 39) Q 12.61 F =T F 7.60 PE 0.00 BL T 117.60 0.0280 PF 3.29 .,i;, 28 29 2.157 L 14.50 C =120 PT 46.17 ( 29) Q 12.61 F =0 F 0.00 PE 0.00 CM1 T 14.50 0.0017 PF 0.02 27 28DQ 12.71 2.157 L 14.50 C =120 PT 46.19 ( 28) Q 25.32 F =0 F 0.00 PE 0.00 CM1 T 14.50 0.0060 PF 0.09 26 27DQ 13.07 2.157 L 14.50 C =120 PT 46.28 ( 27) } Q 38.39 F =0 F 0.00 PE 0.00 CM1 T 14.50 0.0130 PF 0.19 25 26DQ 13.81 2.157 L 13.50 C =120 PT 46.47 ( 26) Q 52.20 F =0 F 0.00 PE 0.00 CM1 T 13.50 0.0229 PF 0.31 24 25DQ 14.95 2.157 L 12.75 C =120 PT 46.78 ( 25) Q 67.15 F =0 F 0.00 PE 0.00 CM1 T 12.75 0.0365 PF 0.47 15 24DQ 15.26 2.157 L 1.00 C =120 PT 47.25 ( 24) Q 82.41 F =0 F 0.00 PE 0.00 CM1 T 1.00 0.0534 PF 0.05 PT 47.30 ( 15) 28 38 1.109 L 110.00 C =150 PT 42.86 ( 38) Q 12.71 F =T F 7.60 PE 0.00 BL T 117.60 0.0284 PF 3.34 PT 46.20 ( 28) •• • • SUBMITTAL SERIAL NO:2386HY1 03 -30 -2004 PAGE 6 B.A.P.S. Temple West, Inc. `, 11435 SW Tigard Street Tigard, Oregon 19,690sf 2 -Story Building Construction Type - V -1 Occupancy - A -2.1 / A -3 / R -1 . Fully Sprinkled Per NFPA 13 - '99 Edition 1st Floor Wet System Entry & Corridor Calc. Light Hazard - .10gpm / sf 7 Head Remote ;,* Location Flow Pipe Fittings Equiv Friction Pressure in Size & - Length Loss Summary From To GPM IN Devices Ft PSI /Ft PSI 27 37 1.109 L 110.00 C =150 PT 42.77 ( 37) Q 13.07 F =T F 7.60 PE 0.00 BL T 117.60 0.0299 PF 3.52 PT 46.29 ( 27) 26 36 1.109 L 110.00 C =150 PT 42.58 ( 36) Q 13.81 F =T F 7.60 PE 0.00 BL T 117.60 0.0331 PF 3.89 PT 46.47 ( 26) 25 35 1.109 L 110.00 C =150 PT 42.27 ( 35) Q 14.95 F =T F 7.60 PE 0.00 BL T 117.60 0.0384 PF 4.52 PT 46.79 ( 25) 23 52 1.109 L 65.25 C =150 PT 23.99 ( 52) Q 42.62 F =T,4E F 19.60 PE 0.00 BL T 84.85 0.2662 PF 22.59 PT 46.58 ( 23) :' 22 51 1.109 L 51.00 C =150 PT 36.40 ( 51) Q 33.45 F =T F 7.60 PE 0.00 BL T 58.60 0.1701 PF 9.97 PT 46.37 ( 22) 31 32 2.157 L 10.25 C =120 PT 41.16 ( 32) Q 16.08 F =0 F 0.00 PE 0.00 CM2 T 10.25 0.0026 PF 0.03 21 31 1.109 L 110.00 C =150 PT 41.19 ( 31) Q 16.08 F =T F 7.60 PE 0.00 BL T 117.60 0.0439 PF 5.16 22 21 2.157 L 10.25 C =120 PT 46.35 ( 21) Q 16.08 F =0 F 0.00 PE 0.00 CM1 T 10.25 0.0026 PF 0.03 a rrti-; w . • SUBMITTAL SERIAL NO:2386HY1 03 -30 -2004 PAGE 7 B.A.P.S. Temple West, Inc. 11435 SW Tigard Street Tigard, Oregon 19,690sf 2 -Story Building Construction Type - V -1 Occupancy - A -2.1 / A -3 / R -1 - Fully Sprinkled Per NFPA 13 - '99 Edition 1st Floor Wet System Entry & Corridor Calc. Light Hazard - .10gpm / sf 7 Head Remote Location Flow Pipe Fittings Equiv Friction Pressure in Size & Length Loss Summary From To GPM IN Devices Ft PSI /Ft PSI 23 22DQ 33.45 2.157 L 10.00 C =120 PT 46.38 ( 22) Q 49.53 F =0 F 0.00 PE 0.00 CM1 T 10.00 0.0208 PF 0.21 15 23DQ 42.62 2.157 L 11.00 C =120 PT 46.59 ( 23) Q 92.14 F =0 F 0.00 PE 0.00 CM1 T 11.00 0.0656 PF 0.72 10 15DQ 82.41 2.635 L 3.00 C =120 PT 47.31 ( 15) Q 174.56 F =T F 10.80 PE 0.00 FM T 13.80 0.0807 PF 1.11 3 10 2.157 L 20.00 C =120 PT 48.42 ( 10) Q 174.56 F= T,E,BV F 18.00 PE 7.80 FR T 38.00 0.2140 PF 8.13 r 1/2 3 6.340 L 160.00 C =140 PT 64.35 ( 3) Q 174.56 F =2E F 24.00 PE 0.00 UN T 184.00 0.0008 PF 0.15 1 2 6.340 L 10.00 C =140 PT 64.50 ( 2) Q 174.56 F =DDC F 0.00 PE 0.00 UN T 10.00 0.0008 PF 0.01 Ames Model 3000ss 3.30 0 1 6.340 L 50.00 C =140 PT 67.81 ( 1) Q 174.56 F =T,BV F 53.30 PE 0.00 UN T 103.30 0.0008 PF 0.08 PT 67.89 ( 0) • • 0 • AFP SYSTEMS, INC. 19435 S. W. 129 AVENUE TUALATIN, OREGON 97062 (503) 692-9284 HYDRAULIC CALCULATIONS FOR B.A.P.S. TEMPLE WEST, INC. 11435 SW TIGARD STREET TIGARD, OR. 3 -30 -04 — DESIGN DATA- - AREA OF OPERATION: LI — WET SYSTEM — KITCHEN AREA OCCUPANCY CLASSIFICATION: ORDINARY HAZARD DENSITY: .20 gpm/sq.ft. AREA OF APPLICATION: KITCHEN COVERAGE PER SPRINKLER: 130 sq. ft. — MAX. NUMBER OF SPRINKLERS CALCULATED: 7 heads TOTAL SPRINKLER WATER FLOW REQUIRED: 172.16 gpm TOTAL WATER REQUIRED (include hose) : 422.16 gpm FLOW & PRESSURE (at the base of riser) : 172.16 gpm @ 66.56 psi SPRINKLER ORIFICE SIZE: Y2" / K= 5.6 NAME OF DESIGNER: Brian Olson AUTHORITY HAVING JURISDICTION: City of Tigard B.A.P.S. Temple West, Inc. Sigma Dynamics Corporation • p ( a r 7700 Supply / Demand Graph - 125 120 115 — Margin 110 Pressure 25.20 PSI Flow 1461.79 GPM 105 100 95 90 80 75 '■ 70 .os _! • 65 g 60 0 a 55 50 45 404 3Y 3a 2 2# D 10 5 N1.85 o 250 500 750 1000 1250 1500 1750 2000 2250 2500 Water Flow (GPM) System Demand.. Water Supply.. Sprinkler Demand 70.11 PSI @ 172.16 GPM Static 97.00 PSI Additional Flows 0.00 GPM Residual 65.00 PSI @ 2069.40 GPM Hose at Source 250.00 GPM Elevation 0.00 PSI Total Demand 70.11 PSI @ 422.16 GPM • • ', : r ; ; SY; SUBMITTAL SERIAL NO:2386HY1 03 -30 -2004 PAGE 1 B.A.P.S. Temple West, Inc. 11435 SW Tigard Street Tigard, Oregon 19,690sf 2 -Story Building Construction Type - V -1 Occupancy - A -2.1 / A -3 / R -1 Fully Sprinkled Per NFPA 13 - '99 Edition 1st Floor Wet System Kitchen Area Calc. Ordinary Hazard - .20gpm / sf 7 Head Remote FLOW TEST RESULTS Water Supply STATIC 97.00 PSI RESIDUAL 65.00 PSI @ 2069.40 GPM CITY PRESSURE AVAILABLE AT 422.2 GPM 95.31 PSI SUMMARY OF SPRINKLER OUTFLOWS • ACTUAL MINIMUM SPR FLOW FLOW K- FACTOR PRESSURE 301 28.11 19.50 5.60 25.21 302 27.24 19.50 5.60 23.66 303 22.93 19.50 5.60 16.76 304 19.75 19.50 5:60 12.44 305 19.50 19.50 5.60 12.13 306 27.76 19.50 5.60 24.57 3'07 26.88 19.50 5.60 23.03 TOTAL WATER REQUIRED FOR SYSTEM 172.16 GPM ;c:- OUTSIDE HOSE STREAMS AT 0 250.00 GPM ` - TOTAL WATER REQUIREMENT 422.16 GPM PRESSURE REQUIRED AT 0 70.11 PSI MAXr1UM PRESSURE UNBALANCE IN LOOPS 0.00 PSI • MAXIMUM VELOCITY FROM 42 TO 52 20.65 FPS * I i SUBMITTAL SERIAL NO:2386HY1 03 -30 -2004 PAGE 2 B.A.P.S. Temple West, Inc. 11435 SW Tigard Street Tigard, Oregon 19,690sf 2 -Story Building Construction Type - V -1 Occupancy - A -2.1 / A -3 / R -1 • Fully Sprinkled Per NFPA 13 - '99 Edition 1st Floor Wet System Kitchen Area Calc. Ordinary Hazard - .20gpm / sf 7 Head Remote Location Flow Pipe Fittings Equiv Friction Pressure in Size & Length Loss Summary From To GPM IN Devices Ft PSI /Ft PSI 205 305 1.109 L 1.50 C =150 PT 12.13 (305) Q 19.50 F =T,E F 10.60 PE -0.22 DR T 12.10 0.0627 PF 0.76 204 205 1.109 L 5.25 C =150 PT 12.67 (205) Q 19.50 F =0 F 0.00 PE 0.00 BN T 5.25 0.0627 PF 0.33 ; PT 13.00 (204) rte: 207 307 1.109 L 1.50 C =150 PT 23.03 (307) Q 26.88 F =T,E F 10.60 PE -0.22 DR T 12.10 0.1135 PF 1.37 206 207 1.109 L 14.25 C =150 PT 24.18 (207) Q 26.88 F =0 F 0.00 PE 0.00 BN T 14.25 0.1135 PF 1.62 PT 25.80 (206) 206 306 1.109 L 1.50 C =150 PT 24.57 (306) Q 27.76 F =T,E F 10.60 PE -0.22 DR T 12.10 0.1204 PF 1.46 i 53 206DQ 26.88 1.109 L 19.50 C =150 PT 25.81 (206) Q 54.63 F =E F 3.00 PE 0.00 BN T 22.50 0.4215 PF 9.48 43 53 1.109 L 9.00 C =150 PT 35.29 ( 53) Q 54.63 F =T,2E F 13.60 PE -3.90 DR T 22.60 0.4215 PF 9.53 PT 40.92 ( 43) 204 304 1.109 L 1.50 C =150 PT 12.44 (304) Q 19.75 F =T, E F 10.60 PE -0.22 ,:;;; �' DR T 12.10 0.0642 PF 0.78 203 204DQ 19.50 1.109 L 17.00 C =150 PT 13.00 (204) Q 39.25 F =E F 3.00 PE 0.00 BN T 20.00 0.2286 PF 4.57 PT 17.57 (203) i SUBMITTAL SERIAL NO:2386HY1 03 -30 -2004 PAGE 3 B.A.P.S. Temple West, Inc. 11435 SW Tigard Street Tigard, Oregon 19,690sf 2 -Story Building Construction Type - V -1 Occupancy - A -2.1 / A -3 / R -1 Fully Sprinkled Per NFPA 13 - '99 Edition 1st Floor Wet System Kitchen Area Calc . - &r = Ordinary Hazard - .20gpm / sf 7 Head Remote Location Flow Pipe Fittings Equiv Friction Pressure in Size & Length Loss Summary From To GPM IN Devices Ft PSI /Ft PSI 203 303 1.109 L 1.50 C =150 PT 16.76 (303) Q 22.93 F =T,E F 10.60 PE -0.22 DR T 12.10 0.0846 PF 1.02 t 52 203DQ 39.25 1.109 L 19.50 C =150 PT 17.56 (203) Q 62.18 F =E F 3.00 PE 0.00 BN T 22.50 0.5355 PF 12.05 42 52 1.109 L 9.00 C =150 PT 29.61 ( 52) IP Q 62.18 F =T,2E F 13.60 PE -3.90 DR T 22.60 0.5355 PF 12.10 tt- PT 37.81 ( 42) .e' 202 302 1.109 L 1.50 C =150 PT 23.66 (302) Q 27.24 F =T,E F 10.60 PE -0.22 DR T 12.10 0.1163 PF 1.41:.x j 201 202 1.109 L 14.00 C =150 PT 24.85 (202) Q 27.24 F =0 F 0.00 PE 0.00 BN T 14.00 0.1163 PF 1.63 PT 26.48 (201) 201 301 1.109 L 1.50 C =150 PT 25.21 (301) Q 28.11 F =T,E F 10.60 PE -0.22 DR T 12.10 0.1233 PF 1.49 • 51 201DQ 27.24 1.109 L 14.25 C =150 PT 26.48 (201) Q 55.36 F =E F 3.00 PE 0.00 BN T 17.25 0.4319 PF 7.45 41 51 1.109 L 9.00 C =150 PT 33.93 ( 51) Q 55.36 F =T,2E F 13.60 PE -3.90 DR T 22.60 0.4319 PF 9.76 PT 39.79 ( 41) 35 43 1.109 L 71.00 C =150 PT 40.92 ( 43) Q 20.73 F =0 F 0.00 PE 0.00 BL T 71.00 0.0702 PF 4.98 PT 45.90 ( 35) • • 'kJ • SUBMITTAL SERIAL NO:2386HY1 03 -30 -2004 PAGE 4 B.A.P.S. Temple West, Inc. 11435 SW Tigard Street Tigard, Oregon 19,690sf 2 -Story Building Construction Type - V -1 Occupancy - A -2.1 / A -3 / R -1 Fully Sprinkled Per NFPA 13 - '99 Edition 1st Floor Wet System Kitchen Area Calc. Ordinary Hazard - .20gpm / sf 7 Head Remote Location Flow Pipe Fittings Equiv Friction Pressure in Size & Length Loss Summary • From To GPM IN Devices Ft PSI /Ft PSI 4 r 34 42 1.109 L 78.00 C =150 PT 37.82 ( 42) Q 25.49 F =0 F 0.00 PE 0.00 BL T 78.00 0.1029 PF 8.03 PT 45.85 ( 34) a 33 41 1.109 L 74.00 C =150 PT 39.79 ( 41) U ' ' Q 22.52 F =0 F 0.00 PE 0.00 BL T 74.00 0.0818 PF 6.05 , PT 45.84 ( 33) 35 34 2.157 L 12.75 C =120 PT 45.84 ( 34) Q 22.19 F =0 F 0.00 PE 0.00 CM2 T 12.75 0.0047 PF 0.06 36 35DQ 20.73 2.157 L 13.50 C =120 PT 45.90 ( 35) Q 42.92 F =0 F 0.00 PE 0.00 CM2 T 13.50 0.0160 PF 0.22 37 36DQ - 11.35 2.157 L 14.50 C =120 PT 46.12 ( 36) Q 31.57 F =0 F 0.00 PE 0.00 CM2 T 14.50 0.0090 PF 0.13 1` 38 37DQ -10.74 2.157 L 14.50 C =120 PT 46.25 ( 37) Q 20.82 F =0 F 0.00 PE 0.00 CM2 T 14.50 0.0042 PF 0.06 tAltai 39 38DQ -10.45 2.157 L 14.50 C =120 PT 46.31 ( 38) Q 10.37 F =0 F 0.00 PE 0.00 CM2 T 14.50 0.0012 PF 0.02 " 29 39 1.109 L 110.00 C =150 PT 46.33 ( 39) Q 10.37 F =T F 7.60 PE 0.00 BL T 117.60 0.0195 PF 2.29 28 29 2.157 L 14.50 C =120 PT 48.62 ( 29) Q 10.37 F =0 F 0.00 PE 0.00 CM1 T 14.50 0.0012 PF 0.02 • + PZ I. SUBMITTAL SERIAL NO:2386HY1 03 -30 -2004 PAGE 5 B.A.P.S. Temple West, Inc. 11435 SW Tigard Street . Tigard, Oregon 44 19,690sf 2 -Story Building Construction Type - V -1 Occupancy - A -2.1 / A -3 / R -1 ' Fully Sprinkled Per NFPA 13 - '99 Edition 1st Floor Wet System Kitchen Area Calc. Ordinary Hazard - .20gpm / sf 7 Head Remote Location Flow Pipe Fittings Equiv Friction Pressure • in Size & Length Loss Summary From To GPM IN Devices Ft PSI /Ft PSI 27 28DQ 10.45 2.157 L 14.50 C =120 PT 48.64 ( 28) Q 20.82 F =0 F 0.00 PE 0.00 0 • CM1 T 14.50 0.0042 PF 0.06 ,e 26 27DQ 10.74 2.157 L 14.50 C =120 PT 48.70 ( 27) `41 Q 31.57 F =0 F 0.00 PE 0.00 Q; CM1 T 14.50 0.0090 PF 0.13 1 ` ` 25 26DQ 11.35 2.157 L 13.50 C =120 PT 48.83 ( 26) Q 42.92 F =0 F 0.00 PE 0.00 CM1 T 13.50 0.0160 PF 0.22 , 24 25DQ 33.90 2.157 L 12.75 C =120 PT 49.05 ( 25) Q 76.82 F =0 F 0.00 PE 0.00 CM1 T 12.75 0.0469 PF 0.60 15 24DQ 36.68 2.157 L 1.00 C =120 PT 49.65 ( 24) Q 113.51 F =0 F 0.00 PE 0.00 CM1 T 1.00 0.0965 PF 0.10 PT 49.75 ( 15) 28 38 1.109 L 110.00 C =150 PT 46.31 ( 38) Q 10.45 F =T F 7.60 PE 0.00 0 BL T 117.60 0.0198 PF 2.33 PT 48.64 ( 28) 27 37 1.109 L 110.00 C =150 PT 46.25 ( 37) ` Q 10.74 F =T F 7.60 PE 0.00 BL T 117.60 0.0208 PF 2.45 PT 48.70 ( 27) ^^ `vY 26 36 1.109 L 110.00 C =150 PT 46.12 ( 36) Q 11.35 F =T F 7.60 PE 0.00 BL T 117.60 0.0230 PF 2.70 PT 48.82 ( 26) • i4:) 25 43 1.109 L 39.00 C =150 PT 40.92 ( 43) 1; Q 33.90 F =T F 7.60 PE 0.00 BL T 46.60 0.1744 PF 8.13 PT 49.05 ( 25) t. o SUBMITTAL SERIAL NO:2386HY1 03 -30 -2004 PAGE 6 B.A.P.S. Temple West, Inc. 11435 SW Tigard Street Tigard, Oregon 19,690sf 2 -Story Building v Construction Type - V - Occupancy - A -2.1 / A -3 / R -1 Fully Sprinkled Per NFPA 13 - '99 Edition 1st Floor. Wet System ° Kitchen Area Calc. Ordinary Hazard - .20gpm / sf 7 Head Remote Location Flow Pipe Fittings Equiv Friction Pressure <::f; in Size & Length Loss Summary • From To GPM IN Devices Ft PSI /Ft PSI �" 24 42 1.109 L 39.00 C =150 PT 37.82 ( 42) '�� €:.y Q 36.68 F =T, 4E F 19.60 PE 0.00 BL T 58.60 0.2018 PF 11.83 51a,0, PT 49.65 ( 24) .23 41 1.109 L 39.00 C =150 PT 39.79 ( 41) Q 32.84 F =T,4E F 19.60 PE 0.00 BL T 58.60 0.1644 PF 9.63 PT 49.42 ( 23) 33 34 2.157 L 12.00 C =120 PT 45.84 ( 34) Q 3.30 F =0 F 0.00 PE 0.00 CM2 T 12.00 0.0001 PF 0.00 32 33DQ 22.52 2.157 L 10.00 C =120 PT 45.84 ( 33) Q 25.82 F =0 F 0.00 PE 0.00 CM2 T 10.00 0.0062 PF 0.06 22 32DQ -12.87 1.109 L 110.00 C =150 PT 45.90 ( 32) Q 12.95 F =T F 7.60 PE 0.00 00 BL T 117.60 0.0294 PF 3.46 ''' PT 49.36 ( 22) 31 32 2.157 L 10.25 C =120 PT 45.91 ( 32) Q 12.87 F =0 F 0.00 PE 0.00 CM2 T 10.25 0.0017 PF 0.02 r 21 31 1.109 L 110.00 C =150 PT 45.93 ( 31) Q 12.87 F =T F 7.60 PE 0.00 BL T 117.60 0.0291 PF 3.42 22 21 2.157 L 10.25 C =120 PT 49.35 ( 21) Q 12.87 F =0 F 0.00 PE 0.00 CM1 T 10.25 0.0017 PF 0.02 23 22DQ 12.95 2.157 L 10.00 C =120 PT 49.37 ( 22) Q 25.82 F =0 F 0.00 PE 0.00 CM1 T 10.00 0.0062 PF 0.06 () Lj „.. iiapt( Jam ifr !1 I I , i , m E • SUBMITTAL SERIAL NO:2386HY1 03 -30 -2004 PAGE 7 • . B.A.P.S. Temple West, Inc. P 11435 SW Tigard Street Tigard, Oregon '19,690sf 2 -Story Building Construction Type - V -1 Occupancy - A -2.1 / A -3 / R -1 Fully Sprinkled Per NFPA 13 - '99 Edition 1st Floor Wet System Kitchen Area Calc. Ordinary Hazard - .20gpm / sf 7 Head Remote Location Flow Pipe Fittings Equiv Friction Pressure . in Size & Length Loss Summary • From To GPM IN Devices Ft PSI /Ft PSI ,! . r,s1 �15 23DQ 32.84 2.157 L 11.00 C =120 PT 49.43 ( 23) !0: Q 58.66 F =0 F 0.00 PE 0.00 CMl T 11.00 0.0285 PF 0.31 I 10 15DQ 113.51 2.635 L' 3.00 C =120 PT 49.74 ( 15) Q 172.16 F =T F 10.80 PE 0.00 ,! FM T 13.80 0.0787 PF 1.09 • 3 10 2.157 L 20.00 C =120 PT 50.83 ( 10) Q 172.16 F= T,E,BV F 18.00 PE 7.80 FR T 38.00 0.2086 PF 7.93 2 3 6.340 L 160.00 C =140 PT 66.56 ( 3) Q 172.16 F =2E F 24.00 PE 0.00 UN T 184.00 0.0008 PF 0.15 1 2 6.340 L 10.00 C =140 PT 66.71 ( 2) Q 172.16 F =DDC F 0.00 PE 0.00 UN T 10.00 0.0008 PF 0.01 Ames Model 3000ss 3.31 `N '' 0 1 6.340 L 50.00 C =140 PT 70.03 ( 1) . Q 172.16 F =T,BV F 53.30 PE 0.00 UN T 103.30 0.0008 PF 0.08 PT 70.11 ( 0) l a i , AFP SYSTEMS, INC. 19435 S. W. 129 AVENUE TUALATIN, OREGON 97062 (503) 692 -9284 HYDRAULIC CALCULATIONS FOR B.A.P.S. TEMPLE WEST, INC. 11435 SW TIGARD STREET TIGARD, OR. 3 -30 -04 -- DESIGN DATA- - AREA OF OPERATION: L1 — WET SYSTEM — UNDER STAGE OCCUPANCY CLASSIFICATION: ORDINARY SPACING / LIGHT DENSITY DENSITY: .10 gpm/sq.ft. AREA OF APPLICATION: UNDER STAGE FRAMING COVERAGE PER SPRINKLER: 130 sq. ft. — MAX. NUMBER OF SPRINKLERS CALCULATED: 12 heads TOTAL SPRINKLER WATER FLOW REQUIRED: 191.37 gpm TOTAL WATER REQUIRED (include hose) : 441.37 gpm FLOW & PRESSURE (at the base of riser) : 191.37 gpm @ 76.65 psi SPRINKLER ORIFICE SIZE: ' /z" / K= 5.6 NAME OF DESIGNER: Brian Olson AUTHORITY HAVING JURISDICTION: City of Tigard - ci .. . • S. B.A.P.S. Ten We West, Inc. 6 o 4. v Sigma Dynamics Corpo a:tton '•y 7700 Supply / Demand Ozaph , 125 120 110 ".■■-- --______ -. Margin ■ C Pressure 14.98 PSI Flow 1020.81 GPM 105 100 • 95 111:1N 85 "1;■■-._- a 1 6° 55 1111U --_____ -- MEM 80 ME.. iiiigag01111 75 11111.111M IIIIIRMEN E mintimm ■.1=1. �� 50 45 4L Y 3r. 3 III . 25 I I 24i) 15 10 5 N ' o 250 500 750 1000 1250 1500 1750 2000 2250 2500 Water Flow (GPM) System Demand.. Water Supply.. Sprinkler Demand 80.18 PSI @ 191.37 GPM Static 97.00 PSI Additional Flows 0.00 GPM Residual 65.00 PSI @ 2069.40 GPM Hose at Source 250.00 GPM Elevation 0.00 PSI Total Demand 80.18 PSI @ 441.37 GPM r., • SUBMITTAL SERIAL NO:2386HY1 03 -30 -2004 PAGE 1 B.A.P.S. Temple West, Inc. 11435 SW Tigard Street Tigard, Oregon 19,690sf 2 -Story Building Construction Type - V -1 Occupancy - A -2.1 / A -3 / R -1 Fully Sprinkled Per NFPA 13 - '99 Edition 1st Floor Wet System Protection Under Sta ?e - Sabha Hall Area Ordinary Hazard Spacing Light Hazard Density - .10gpm / 1,500sf . 12 Head Remote FLOW TEST RESULTS Water Supply STATIC 97.00 PSI RESIDUAL 65.00 PSI @ 2069.40 GPM f (2 CITY PRESSURE AVAILABLE AT 441.4 GPM 95.16 PSI . SUMMARY OF SPRINKLER OUTFLOWS ACTUAL MINIMUM SPR FLOW FLOW K- FACTOR PRESSURE 201 18.16 14.85 5.60 10.52 202 18.16 14.85 5.60 10.52 203 - 16.75 14.85 5.60 8.95 204 16.75 14.85 5.60 8.95 205 15.79 14.85 5.60 7.95 206 15.79 14.85 5.60 7.95 207 15.20 14.85 5.60 7.37 208 15.20 14.85 5.60 7.37 -209 14.93 14.85 5.60 7.11 210 14.93 14.85 5.60 7.11 211 14.85 14.85 5.60 7.03 212 14.85 14.85 5.60 7.03 TOTAL WATER REQUIRED FOR SYSTEM 191.37 GPM OUTSIDE HOSE STREAMS AT 0 250.00 GPM " <. TOTAL WATER REQUIREMENT 441.37 GPM PRESSURE REQUIRED AT 0 80.18 PSI MAXIMUM PRESSURE UNBALANCE IN LOOPS 0.00 PSI MAXIMUM VELOCITY FROM 16 TO 17 27.63 FPS • `�;JSUBMITTAL SERIAL NO:2386HY1 03 -30 -2004 PAGE 2, • . B.A.P.S. Temple West, Inc. 11435 SW Tigard Street Tigard, Oregon . 19,690sf 2 -Story Building Construction Type - V -1 . Occupancy - A -2.1 / A -3 / R -1 Fully Sprinkled Per NFPA 13 - '99 Edition "- 1st Floor Wet System Protection Under Stake - Sabha Hall Area Ordinary Hazard Spacing Light Hazard Density - .10gpm / 1,500sf 12 Head Remote Location Flow Pipe Fittings Equiv Friction Pressure in Size & Length Loss Summary From To GPM IN Devices Ft PSI /Ft PSI 209 211 1.682 L 9.75 C =120 PT 7.03 (211) Q 14.85 F =0 F 0.00 PE 0.00 BN T 9.75 0.0075 PF 0.07 207 209DQ 14.93 1.682 L 9.75 C =120 PT 7.10 (209) Q 29.78 F =0 F 0.00 PE 0.00 BN T 9.75 0.0273 PF 0.27 205 207DQ 15.20 1.682 L 9.83 C =120 PT 7.37 (207) Q 44.98 F =0 F 0.00 PE 0.00 BN T 9.83 0.0585 PF 0.58 203 205DQ 15.79 1.682 L 9.83 C =120 PT 7.95 (205) Q 60.77 F =0 F 0.00 PE 0.00 4 BN T 9.83 0.1020 PF 1.00 201 203DQ 16.75 1.682 L 9.83 C =120 PT 8.95 (203) Q 77.52 F =0 F 0.00 PE 0.00 BN T 9.83 0.1601 PF 1.57 %. 51 201DQ 18.16 1.682 L 3.00 C =120 PT 10.52 (201) Q 95.68 F =T F 6.40 PE 0.00 BN T 9.40 0.2363 PF 2.22 PT 12.74 ( 51) 210212 1.682 L 9.75 C =120 PT 7.03 (212) r •'. 0 Q 14.85 F =0 F 0.00 PE 0.00 BN T 9.75 0.0075 PF 0.07 208 210DQ 14.93 1.682 L 9.75 C =120 PT 7.10 (210) Q 29.78 F =0. F 0.00 PE 0.00 ; BN T 9.75 0.0273 PF 0.27 „ ,, V , 206 208DQ 15.20 1.682 L 9.83 C =120 PT 7.37 (208) Q 44.98 F =0 F 0.00 PE 0.00 , BN T 9.83 0.0585 PF 0.58 • 4. , SUBMITTAL SERIAL NO:2386HY1 03 -30 -2004 PAGE 3 B.A.P.S. Temple West, Inc. 11435 SW Tigard Street Tigard, Oregon 19,690sf 2 -Story Building Construction Type - V -1 Occupancy - A -2.1 / A -3 / R -1 Fully Sprinkled Per NFPA 13 - '99 Edition 1st Floor Wet System Protection Under Stave - Sabha Hall Area Ordinary Hazard Spacing , Light Hazard Density - .10gpm / 1,500sf 12 Head Remote Location Flow Pipe Fittings Equiv Friction Pressure in Size & Length Loss Summary From To GPM IN Devices Ft PSI /Ft PSI 204 206DQ 15.79 1.682 L 9.83 C =120 PT 7.95 (206) Q 60.77 F =0 F 0.00 PE 0.00 BN T 9.83 0.1020 PF 1.00 202 204DQ 16.75 1.682 L 9.83 C =120 PT 8.95 (204) Q 77.52 F =0 F 0.00 PE 0.00 BN T 9.83 0.1601 PF 1.57 52 202DQ 18.16 1.682 L 3.00 C =120 PT 10.52 (202) Q 95.68 F =T F 6.40 PE 0.00 CG BN T 9.40 0.2363 PF 2.22 PT 12.74 ( 52) • 3% 16 2.157 L 8.25 C =120 PT 44.83 ( 16) Q 82.63 F =0 F 0.00 PE 0.00 CM2 T 8.25 0.0536 PF 0.44 ar45 37 36DQ -21.86 2.157 L 14.50 C =120 PT 45.27 ( 36) io Q 60.78 F =0 F 0.00 PE 0.00 CM2 T 14.50 0.0304 PF 0.44 38 37DQ -20.69 2.157 L 14.50 C =120 PT 45.71 ( 37) Q 40.09 F =0 F 0.00 PE 0.00 CM2 T 14.50 0.0141 PF 0.20 } 09 38DQ -20.12 2.157 L 14.50 C =120 PT 45.91 ( 38) Q 19.97 F =0 F 0.00 PE 0.00 CM2 T 14.50 0.0039 PF 0.06 o 29 39 1.109 L 110.00 C =150 PT 45.97 ( 39) Q 19.97 F =T F 7.60 PE 0.00 - BL T 117.60 0.0655 PF 7.70 ` 28 29 2.157 L 14.50 C =120 PT 53.67 ( 29) Q 19.97 F =0 F 0.00 PE 0.00 CM1 T 14.50 0.0039 PF 0.06 } SUBMITTAL SERIAL NO:2386HY1 03 -30 -2004 PAGE 4 B.A.P.S. Temple West, Inc. 11435 SW Tigard Street Tigard, Oregon 19,690sf 2 -Story Building : Construction Type - V -1 Occupancy - A -2.1 / A -3 / R -1 Fully Sprinkled Per NFPA 13 - '99 Edition 1st Floor Wet System Protection Under Sta ?e - Sabha Hall Area Ordinary Hazard Spacing Light Hazard Density - .10gpm / 1,500sf 12 Head Remote I Location Flow Pipe Fittings Equiv Friction Pressure in Size & Length Loss Summary From To GPM IN Devices Ft PSI /Ft PSI 27 28DQ 20.12 2.157 L 14.50 C =120 PT 53.73 ( 28) '',..,�t + Q 40.09 F =0 F 0.00 PE 0.00 CM1 T 14.50 0.0141 PF 0.20 26 27DQ 20.69 2.157 L 14.50 C =120 PT 53.93 ( 27) Q 60.78 F =0 F 0.00 PE 0.00 CM1 T 14.50 0.0304 PF 0.44 25 26DQ 21.86 2.157 L 13.50 C =120 PT 54.37 ( 26) Q 82.63 F =0 F 0.00 PE 0.00 CM1 T 13.50 0.0536 PF 0.72 24 25DQ 22.75 2.157 L 12.75 C =120 PT 55.09 ( 25) � G Q 105.38 F =0 F 0.00 PE 0.00 CM1 T 12.75 0.0841 PF 1.07 15 24DQ 21.36 2.157 L 1.00 C =120 PT 56.16 ( 24) Q 126.74 F =0 F 0.00 PE 0.00 CM1 T 1.00 0.1184 PF 0.12 PT 56.28 ( 15) 28 38 1.109 L 110.00 C =150 PT 45.92 ( 38) Q 20.12 F =T F 7.60 PE 0.00 BL T 117.60 0.0664 PF 7.81 1 PT 53.73 ( 28) : ±P +"' 27 37 1.109 L 110.00 C =150 PT 45.72 ( 37) Q 20.69 F =T F 7.60 PE 0.00 1. BL T 117.60 0.0699 PF 8.22 PT 53.94 ( 27) F Fs 26 36 1.109 L 110.00 C =150 PT 45.27 ( 36) I'_ Q 21.86 F =T F 7.60 PE 0.00 BL T 117.60 0.0774 PF 9.10 k' PT 54.37 ( 26) 35 16 2.157 L 5.25 C =120 PT 44.83 ( 16) Q 108.73 F =0 F 0.00 PE 0.00 CM2 T 5.25 0.0891 PF 0.47 xj 009 r SUBMITTAL SERIAL NO:2386HY1 03 -30 -2004 PAGE 5 B.A.P.S. Temple West, Inc. 11435 SW Tigard Street ; .,,.4.a Tigard, Oregon ' 19,690sf 2 -Story Building Construction Type - V -i Occupancy - A -2.1 / A -3 / R -1 Fully Sprinkled Per NFPA 13 - '99 Edition 1st Floor Wet System Protection Under Sta9 - Sabha Hall Area Ordinary Hazard Spacing 3 Light Hazard Density - .10gpm / 1,500sf 12 Head Remote Location Flow Pipe Fittings Equiv Friction Pressure in Size & Length Loss Summary From To GPM IN Devices Ft PSI /Ft PSI 25 35DQ -85.99 1.109 L 110.00 C =150 PT 45.30 ( 35) Q 22.75 F =T F 7.60 PE 0.00 • BL T 117.60 0.0833 PF 9.80 . i PT 55.10 ( 25) 34 35 2.157 L 12.75 C =120 PT 45.30 ( 35) l'..) Q 85.99 F =0 F 0.00 PE 0.00 CM2 T 12.75 0.0577 PF 0.74 24 34DQ -64.62 1.109 L 117.00 C =150 PT 46.04 ( 34) ;;40 Q 21.36 F =T,4E F 19.60 PE 0.00 BL T 136.60 0.0742 PF 10.14 PT 56.18 ( 24) ' 6 33 34 2.157 L 12.00 C =120 PT 46.04 ( 34) Q 64.62 F =0 F 0.00 PE 0.00 CM2 T 12.00 0.0340 PF 0.41 • 23 33DQ -43.69 1.109 L 113.00 C =150 PT 46.45 ( 33) Q 20.93 F =T,4E F 19.60 PE 0.00 BL T 132.60 0.0714 PF 9.47 PT 55.92 ( 23) 32 33 2.157 L 10.00 C =120 PT 46.45 ( 33) Q 43.69 F =0 F 0.00 PE 0.00 CM2 T 10.00 0.0165 PF 0.16 22 32DQ -21.79 1.109 L 110.00 C =150 PT 46.61 ( 32) Q 21.91 F =T F 7.60 PE 0.00 BL T 117.60 0.0777 PF 9.14 PT 55.75 ( 22) 31 32 2.157 L 10.25 C =120 PT 46.61 ( 32) Q 21.79 F =0 F 0.00 PE 0.00 , j.f{t'% CM2 T 10.25 0.0046 PF 0.05 • • 1' , , • V SUBMITTAL SERIAL NO:2386HY1 03 -30 -2004 PAGE 6 B.A.P.S. Temple West, Inc. 11435 SW Tigard Street ' Tigard, Oregon 19,690sf 2 -Story Building Construction Type - V -1 Occupancy - A -2.1 / A -3 / R -1 Fully Sprinkled Per NFPA 13 - '99 Edition 1st Floor Wet System Protection Under Stage - Sabha Hall Area ,r Ordinary Hazard Spacing Q Light Hazard Density - .10gpm / 1,500sf �, 12 Head Remote ' ��` y Location Flow Pipe Fittings Equiv Friction Pressure in Size & Length Loss Summary From To GPM IN Devices Ft PSI /Ft PSI 1 21 31 1.109 L 110.00 C =150 PT 46.66 ( 31) `, C^ Q 21.79 F =T F 7.60 PE 0.00 BL T 117.60 0.0770 PF 9.06 1 22 21 2.157 L 10.25 C =120 PT 55.72 ( 21) Q 21.79 F =0 F 0.00 PE 0.00 CM1 T 10.25 0.0046 PF 0.05 • 23 22DQ 21.91 2.157 L 10.00 C =120 PT 55.77 ( 22) i Q 43.69 F =0 F 0.00 PE 0.00 CM1 T 10.00 0.0165 PF 0.16 ri 15 23DQ 20.93 2.157 L 11.00 C =120 PT 55.93 ( 23) • Q 64.62 F =0 F 0.00 PE 0.00 CM1 T 11.00 0.0340 PF 0.37 PT 56.30 ( 15) ,A, 17 52 1.682 L 6.25 C =120 PT 12.74 ( 52) Q 95.68 F =T F 6.40 PE 0.00 •r FM3 T 12.65 0.2363 PF 2.99 PT 15.73 ( 17) 17 51 1.682 L 6.25 C =120 PT 12.74 ( 51) `, Q 95.68 F =T F 6.40 PE 0.00 FM3 T 12.65 0.2363 PF 2.99 • 16 17DQ 95.68 1.682 L 29.42 C =120 PT 15.73 ( 17) Q 191.37 F =T,3E F 13.90 PE -7.80 FM2 T 43.32 0.8518 PF 36.90 PT 44.83 ( 16) 10 15 2.157 L 3.00 C =120 PT 56.29 ( 15) Q 191.37 F =T F 8.50 PE 0.00 FM T 11.50 0.2537 PF 2.92 • 3 10 2.157 L 20.00 C =120 PT 59.21 ( 10) Q 191.37 F= T,E,BV F 18.00 PE 7.80 FR T 38.00 0.2537 PF 9.64 a • 4 I \� rf0 kD SUBMITTAL SERIAL NO:2386HY1 03 -30 -2004 PAGE 7 ° B.A.P.S. Temple West, Inc. 11435 SW Tigard Street Tigard, Oregon 19,._690sf 2 -Story Building Construction Type - V -1 Odttpancy - A -2.1 / A -3 / R -1 Fully Sprinkled Per NFPA 13 - '99 Edition 1st Floor Wet System Protection Under Stage - Sabha Hall Area Ordinary Hazard Spacing Light Hazard Density - .10gpm / 1,500sf 12 Head Remote Location Flow Pipe Fittings Equiv Friction Pressure in Size & Length Loss Summary From To GPM IN Devices Ft PSI /Ft PSI 2 3 6.340 L 160.00 C =140 PT 76.65 ( 3) Q 191.37 F =2E F 24.00 PE 0.00 • UN T 184.00 0.0010 PF 0.18 1 2 6.340 L 10.00 C =140 PT 76.83 ( 2) Q 191.37 F =DDC F 0.00 PE 0.00 UN T 10.00 0.0010 PF 0.01 - Ames Model 3000ss 3.23 0 1 6.340 L 50.00 C =140 PT 80.08 ( 1) Q 191.37 F =T,BV F 53.30 PE 0.00 UN - T 103.30 0.0010 PF 0.10 PT 80.18 ( 0) OviVeoz/-- or /y5 AFP SYSTEMS, INC. C AUTOMATIC FIRE PROTECTION : 19435 S.W. 129th Avenue IflF1IA� Tualatin, OR 97062 (503) 692 -9284 .� FAX (503) 692 -1186 Fed. Tax #93- 1011903 B.A.P.S. Temple West, Inc. 1SW Tigard Street igard, Oregon Product Data FOR: Fire Protection System TABLE OF CONTENTS 1) Sprinklers & Accessories 2) Valves 3) Pipe 4) Water Flow Switch 5) Misc. Product Data RECBV E APR ®1 100 CITY OF T IGARI BUILDING DIVI% F i ' ii February 27, 2004 Sprinkler 41 a ( NIKING® MICROFAST AND MicrofastHP TECHNICAL DATA QUICK RESPONSE PENDENT SPRINKLERS ' 1. PRODUCT NAME , ,— SPRINKLER MATERIALS . Viking Microfast® and MicrofastHP® = Frame. Brass Castings UNS- C84400 •-' q Deflector. Brass UNS- C51000 or Co Model M Quick Response Pendent >=.;� P 4-: per UNS-C19500 for Sp Sprinkler Base Sprinklers r .. ' , k,; - ` , � P 2. MANUFACTURER ' = "' ' , • • - Part Nos. 06662B, 06666B, and ,.0 - 1,v 06765B. Copper UNS- C19500 for The Viking Corporation i Sprinklers 12104 and 12282. Brass 210 N. Industrial Park Road � ' UNS- C26000 for all other Part Nos. Hastings, Michigan 49058 U.S.A. '., i Bushing (for Sprinkler Base Part Nos. Telephone: (269) 945 -9501 {� f 'i 06718B, 06720B, and 12290): Brass (877) 384 -5464 � UNS- C36000 Fax: (269) 945 -9599 r 1 Bulb: Glass, nominal 3 mm diameter e -mail: techsvcs @vikingcorp.com Belleville Spring Sealing Assembly: 3. PRODUCT DESCRIPTION 4. TECHNICAL DATA Nickel Alloy, coated on both sides Viking Microfast® and MicrofastHP® LISTINGS AND APPROVALS wis Tape Quick Response Pendent Sprinklers Referto the Approval Chart on page 41 b. Screww : B Braasss UNS - C36000 are small, thermosensitive spray sprin- Glass -bulb fluid temperature rated to Pip Cap and Insert Assembly: Copper klers available with several finishes, 65 °F ( -55 °C). UNS - 011000 and Stainless Steel UNS- S30400 temperature ratings, and onfice sizes to Minimum Operating Pressure: 7 psi Pip Cap Attachment: Brass UNS-C36000 meet design requirements. The special (48,3 kPa) Ejector Spring (Part Part No. 12104): Stain - Poly finishes and Teflon® coatings can RATED WATER WORKING PRES- ) less Steel be used in decorative applications SURE Sprinklers with Teflon ® Coating where colors are desired. In addition, Sprinklers VK317 and VK342 are these two finishes are corrosion resis- rated for use with water working Belleville Spring: Nickel Alloy, exposed tant and provide protection against pressures ranging from the mini- Screw: Brass UNS-C36000, Nickel many corrosive environments. mum 7 psi (48,3 kPa) up to 250 psi (1 plated The pip cap and sealing assembly of the 724 kPa) for high - pressure sys- Pip Cap: Teflon® Coated spnnkler is held in place by a 3 mm glass tems. High - pressure (HP) sprin Sprinklers with Polyester Coating or bulb. During fire conditions, when the klers can be identified by locating Poly Finish temperature around the sprinkler the number "250" on the deflector. Belleville Spring: Nickel Alloy, exposed reaches its operating temperature, the All Other Sprinklers: Maximum 175 AVAILABLE FINISHES heat - sensitive liquid in the glass bulb ex- psi (1 207 kPa) wwp. Brass, Chrome- Enloy® (patents pend- pands, causing the bulb to shatter, re- Factory tested hydrostatically to 500 psi ing), White Polyester (White Poly finish leasing the pip -cap and sealing spring (3 448 kPa). for Sprinkler 06662B), Black Polyester assembly. Water flowing through the Spring: U.S.A. Patent No. 4,167,974 (Black Poly finish for Sprinkler 06662B), sprinkler orifice strikes the sprinkler de- Bulb: U.S.A. Patent No 4,796,710 and Black Teflon® flector, forming a uniform spray pattern Testing: U.S.A. Patent No. 4,831,870 ACCESSORIES to extinguish or control the fire. Sprinkler Cabinets (Available since Sprinkler Temperature 1 Nominal Sprinkler Temp. ; Maximum Ambient I Bulb 1971): Classification I Rating,Fusing Point) I Ceiling Temperatures ■ Color2 A. Six - head capacity: Part No. Ordinary_ 155 °F 68 °C 100 °F - -( 38 °C Red 01724A - - - - - - -`- -- °F__(79 ( - - - - - — B. Twelve -head capacit Part No. Intermediate _ 175 °C) - _ - I_ 150 ° (65 °C) ____! Yellow _ 01725A y Intermediate 200 °F (93 °C) 150 °F (65 °C) ) Green H i g h ___ 286 ° 141 °C) I 225 °F (107 °CZ I Blue Sprinkler Wrenches: A. Standard Wrench: Part No. Sprinkler Finishes: Brass, Chrome - Enloy® (patents pending), White Polyester (White Poly 10896W/B (available since 2000) finish for P/N 06662B), Black P olyester (Black Poly finish for P/N 06662B), and Black Teflon or 05000CW /B (no longer avail - Corrosion Resistant Coatings 3 : White Polyester (White Poly finish for P/N 06662B), Black Polyester (Black Poly finish for P/N 06662) and Black Teflon® _ able). Footnotes B. Wrench for coated and recessed 1 Based on NFPA -13. Other limits may apply, depending on fire loading, sprinkler location, Viking Microfast® and MicrofastHP® and other requirements of the Authority Having Jurisdiction. Refer to specific installation QR Pendent Spnnklers: Part No. standards. 07398W' (available since 1990), 2 The temperature rating is stamped on the deflector. or Part No. 12144W/B*, available - 3 The corrosion - resistant coatings have passed standard corrosion tests required by particu- since 2003. NOTE: Recessed lar approving agencies. Refer to the approval chart on page 41 b. These tests cannot and pendent sprinklers with protec- do not represent all possible corrosive environments. Pnor to installation, verify through the tive caps must use wrench end -user that the coatings are compatible with or suitable for the proposed environment. 12144W/B. The coatings indicated are applied to the exposed exterior surfaces only. • A W ratchet is required (not available through NOTE: The spring is exposed on sprinklers with Teflon Coating or Poly finishes. Viking). Refer to the "SPRINKLER ACCES- I- SORIES" section of the Viking Engi- neering and Design Data book. Note: Units of measure in parentheses may be approximations. Replaces page 41 a-b, dated Jan. 16, 2004 (updated LPCB /added Form No. F_081296 CE approval for sprinkler 06662B). Refer to technical data page QR1 -2 for care, installation, and maintenance Information. .. t. (, Sprinkler 41 b February 27, 2004 1- MICROFAST MicrofastHP TECHNICAL DATA QUICK RESPONSE PENDENT SPRINKLERS Approval Chart I Temperature KEY Microfast and MicrofastHP Quick Response v i Finish Pendent Sprinklers A1X 4— Escutcheon (if applicable) Maximum 175 PSI WWP .Standard_Oriflce- — - - - - -- -- -- - - - --- - - - --- - - --- - -- - _Thread_Size_; Max. P_ressur_e I Base Part I Nominal K- Factor _Overali.Length;______ _Llstings.andApprov_ale ?____ __, NPBSP ! _ � Number PSIG ' 1 SIN Tr* U.S. ;metrics ` Inches I mm' cULusl FM° NYC' IVdSI LPCB; CE 5 _1 _Lt5_rnm ' 1.7.5_ I 066628 I A902.1 8,1_ ' 2:1/.4___1_5_8 Al X,313EA4X._114_Y_'R1X,i3LY■ C2! A_4X1A4X_ _ _ _ _ Large Orifice - I _3/4 1.15 06666B VK352 8 .. 11.5 I 2_ 3/ 8J __60LA3X_B3Y_;A2X_B2YJA3X_B3Y� I - , - _3/4" 20 mm 175 12104 I VK352.L_8,0 ; 11,5 2.1/_4 1 58_ - I - - J W _ L 1 5 _ m m I 175 1 0 6 7 6 5 B � . K 3 5 2 8,0 ' 11- 5 . 2 -3/8 L 601A3X 13.3Y I - 'A3X,113YI - I - . - _Small Orifice? 1 _1/2:___I 151n.m__I _115_ 1 06718B ° VJ(329 2- 3/16_L5f�A3X_B3Y�__A2X__ IA3X,_B3_Y_ - _W 1.5_mm _____175_- -_ L067.2QB �T 8 VK3311 4,2______6.0 — __2_1/_4_ 58__ A3X, B3_Y_:_— _— _ .1__ - _;__ -_ _=L1.0 nm! __]_7_5_�_Q6932Bi[YK3291- 4.,2__! __6,0___L __223( 8___1_60_ - 1 - - 1_C2_ - i - _ Maximum 250 PSI WWP Standard Orifice - Thread SIze i Max._P_ressure T _ Base Part I_ Nominal ,.K- Factor_Overall Length_ _ . Llstings_andpprpvals NPT BSP 1 PSIG I Number" SIN 1 U.S. I metrics Inches I mm . cULuss ; FM I NYC IVdSj LPCB; CE W 1 1.5_mm 1 2-50 I 12282_LVK317 f 5.6 1 1____2 -1/4 1 58_;_A3X�B3Y I - I A3X I - I - I - Small Orifice? _Y: _L15 mm I 250 0 VK342 2,8 4,0 1 2.3/16__±,56_LA3X.A3Y I - ! A3X I - I I - Approved Finishes I Approved Escutcheons" Approved Temperature Ratings 11 IX- Standard mountedescutcheon 1 - Brass, Chrome - Enlo White P ®y Finish , Black I or the Viking Microfast Model F -1 Ad- A - 155 °F (68 °C). 175 °F (79 °C), 200 °F Poly Finish and Black Teflon " justable Escutcheon (93 °C), and 286 °F (141°C) 2 - Brass and Chrome -Enloe Y - Standard surface- mounted escutch- B -155 °F (68 °C), 175 °F(79 °C), and 200 °F 3 - Brass, hite Polyester Black ® �� ®�� eon or the Viking Microfast Model F -1 (93 °C) Polyester 11 , and Black Te ®on Adjustable Escutcheon or recessed C - 155 °F (68 °C) 4 - Brass, Chrome -Enloe , White Poly Finish, and I wi�1 the Viking Mirsomatic Model E -1 or Black Poly Finish _ . E -2 Recessed_ Escutcheon Footnotes 1 Base part number is shown. For complete part number, refer to Viking's current price schedule. 2 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. 3 Accepted for use, City of New York Board of Standards and Appeals, Calendar Number 219- 76 -SA. 4 The sprinkler orifice is bushed. 5 CE Certified, Standard EN 12259 -1, EC- certificate of conformity 0832 -CPD -2001. 6 Listed by Underwriters Laboratories Inc. for use in the U.S. and Canada. 7 cULus Listings and NYC Approvals limited to Light- Hazard Occupancies with hydraulically calculated wet systems. s Metric K -Factor shown is for use when pressure is measured in kPa. When pressure is measured in BAR, multiply the metric K -Factor shown by 10.0. 9 FM Approved for use only in wet -pipe sprinkler systems (or preaction systems qualifying as wet systems) for protection of occupancies de- scnbed in the Factory Mutual Engineenng and Research Loss Prevention Data Sheets and Technical Advisory Bulletins. 10 The Viking Microfast Model F -1 Adjustable Escutcheon is considered a surface-mounted escutcheon because it does not allow the fusibleele- ment of the spnnkler to be recessed behind the face of the wall or ceiling. 11 cULus Listed as corrosion resistant. 12Acce for use, City of New York Department of Buildings, MEA 89 -92 -E, Vol XVI. 13 Refer to the "Sprinkler Accessories" section of the Viking Engineenng and Design Data book for technical data on approved escutcheons and other accessories. Quick Response Pendent Spnnkler i 2-1/8" with a Standard 1/8" (3,1 mm) (54 mm) 1 2 -1/8" = Surface- Mounted Escutcheon (54 mm) - R xr . 2- _ - s am - --_ m — -. ( L 3 .- 58 mm) �I� _ Imo I avk si 2" 1 -1/2" (32 mm) - �� - � 1 - 3/4" (51 mm) - Minimum I nmm) I j (45 mm) Maximum j 1 3/4" (45 mm) A' Mllmum + �,_ Maximum a - Quick Response Pendent Sprinkler Quick Response Pendent Sprinkler Installed with the Viking Microfast Ceiling Opening Size: 2 - 5/16" (59 mm) Minimum, Model F -1 Adjustable Escutcheon Quick Response Pendent Sprinkle® Installed with the Viking Micromatic 2 -1/2" (64 mm) Maximum. Model E -1 Recessed Escutcheon . Figure 1 Replaces page 41 a -b, dated Jan. 16, 2004 (updated LPCB /added CE approval for sprinkler 06662B). Form No. F_081296 Refer to technical data page QR1 -2 for care, installation, and maintenance information. - . ,. . March 26, 2004 Sprinkler 101 a NIIKING STANDARD RESPONSE TECHNICAL DATA DRY PENDENT SPRINKLERS 1. PRODUCT NAME Viking Model M Standard Response Dry Adjustable Pendent Sprinklers Standard • Adjustable Recessed, Adjustable Stan- _ dard, or Plain Barrel • 2. MANUFACTURER The Viking Corporation 210 N. Industrial Park Road Hastings, Michigan 49058, USA Telephone (269) 945 -9501 (877) 384-5464 Fax. (269) 945 -9599 i e -mail: techsvcs @vikingcorp.com � ,_ 3. PRODUCT DESCRIPTION Viking Standard Response Dry Pendent Sprinklers are thermosensitive glass -bulb ..... ; _; spray sprinklers suitable for use in areas Adjustable Plain subject to freezing. The sprinklers are de- Recessed Barrel signed for dry systems and preaction sys - tems where it is necessary to prevent wa- —__ —__ ter or condensation from entering the drop Sprinkler Temperature; Nominal Sprinkler Temp. I Maximum Ambient , Bulb nipple before sprinkler operation. They Classification ■ Rating (Fusing Point) Ceiling Temp . 1 Color may also be installed in spaces subject to Ordina 155 °F 68 °C ) 100 F 38 C i Red freezing and supplied from a wet system in --- — ry - ( — — --- ( -- an adjacent heated area. Inte ____175 °F (79 °C) 150 °F (65 °C) a Yellow , The pendent sprinkler is of the familiar Intermediate 200 °F (93 °C) I 150 °F (65 °C) I Green Model M design with a 5 mm glass bulb _ High 286 °F (141 °C) 225 °F (107 °C) 1 Blue Viking Standard Response Dry Pendent 1 Based on NFPA -13 Other limits may apply, depending on fire loading, sprinkler location, and Sprinklers are available in several finishes other requirements of the Authority Having Jurisdiction. Refer to specific installation standards. and temperature ratings, standard or large 2 Temperature rating is stamped on the deflector. _ _ i orifice, to meet design requirements. The ceiling escutcheon" style, and the plain SPRINKLER MATERIALS large orifice dry pendent sprinkler allows barrel style, installed with no escutcheon. Frame: Brass Castings UNS- C84400 greater flows at lower pressures than star- These sprinklers may be ordered in mini- Deflector: Brass UNS- C26000 dard orifice dry pendent sprinklers. mum lengths from 1 -1/2" (38,1 mm) for the Bulb: Glass, nominal 5 mm diameter The assembly features a sealed brass inlet adjustable standard style, 3" (76,2 mm) for Belleville Spring Sealing Assembly: Nickel and a durable, threaded steel barrel with the plain barrel style, and 3-1/4" (82,5 mm) Alloy, coated on both sides with Teflon an ele alatth osite epoxy base coating. for the adjustable recessed style. They Tape The seal at the threaded end of the assem- have listings and approvals with a maxi- Spring Base' Brass UNS- C31400 or bly is held in place by force transmitted mum length of 48" (1 219 mm)•. UNS- C31600 from the compression screw, through the • Lengths over 4s• (1 219 mm) are available, with Screw: Brass UNS- C36000 glass bulb and internal parts, onto a spe- no approvals, on a'made- toorder basis: Pip Cap: Brass UNS- C31400 or cial sealing spnng. • Recessed Dry Pendent up to 65-1/2' (1 664 mm) During fire conditions, the heat - sensitive • Adjustable Standard Dry Pendent up to 63-1/2' UNS- C31600 liquid in the glass bulb expands, causing (1 613 mm) Seat: Copper UNS- C21000 the glass to shatter, releasing the internal • Plain Barrel Dry Pendent up to 65' (1 651 mm) Orifice: Copper UNS- C21000 parts to open the waterway. Water flowing Contact the manufacturer for more information Washer: Stainless Steel UNS- S30400 through the spnnkler orifice strikes the 4. TECHNICAL DATA Gasket: Buna -N sprinkler deflector, forming a uniform spray LISTINGS AND APPROVALS Tube: ERW Hydraulic Steel Tube pattern to extinguish or control the fire. Refer to the chart on page 101 d. Inlet: Brass UNS- C31600 The Viking Standard Response Dry Pen- Glass -bulb fluid temperature rated to Support (Internal): Stainless Steel UNS - dent Sprinkler may be installed with the -65 °F ( -55 °C). S30400 barrel exposed, or with one of two escutch- Rated to 175 psi (1 207 kPa) water work- Spring (Internal): Stainless Steel eon styles. ing pressure. UNS- S30200 • A recessed style escutcheon with up to Thread Size: 1" NPT or 25 mm BSP Barrel: Steel Pipe UNS-G10260, Electro- 5/8" (15,8 mm) adjustment (see Figure Nominal K- Factors deposited Epoxy Base finish 3) provides an aesthetically pleasing re- For Standard Onfice Sprinklers VK150, Sleeve (for Adjustable Standard style cessed appearance. VK151, VK154, VK155, VK158, and only): Brass UNS-C26000 or • For standard installations, the sprinkler VK159: 5.6 U.S. (8,1 metric") for all UNS- C26800 is available with an adjustable surface- listed and approved lengths. ESCUTCHEON MATERIALS mounted ceiling escutcheon, finished to For Large Orifice Sprinklers VK163, 1 •Adjustable Standard Dry Escutcheons: allow up to 2" (51 mm) of adjustment. VK164, and VK166: K -Factor varies Brass UNS-C26000 or UNS- C26800 Refer to Figure 1. with length —see Figure 4 on page 101 d. 2. Recessed Dry Escutcheons: Cold Both styles of escutcheons slip on from be- "'Metric K -Factor shown is for use when Ares- Rolled Steel UNS - 610080 low the ceiling to allow installation of the sure is measured in kPa. When pressure is AVAILABLE FINISHES sprinkler prior to ceiling construction. measured in BAR, multiply the metnc Recessed Style: Chrome -Enloya (patents Viking Standard Response Dry Pendent K- Factor shown by 10.0 pending) or White Polyester Sprinklers are available in 1/4" (6,35 mm) in- Min. operating pressure: 7 psi (48,3 kPa) Standard Adjustable: Chrome -Enloy crements for the recessed style, and in Y2" Factory tested pneumatically at 100 psi Plain Barrel Style (sprinkler only): (12,7 mm) increments for the "adjustable (685 kPa). Chrome Enloy® or Brass Note: Units of measure in parentheses may be approximations. Replaces page 101 a-d, dated January 9, 2004 Form No. F_071591 (LO sprinklers not listed). ' Sprinkler 101 b March 26, 2004 NIKING TECHNICAL DATA STANDARD RESPONSE DRY PENDENT SPRINKLERS SPRINKLER TEMPERATURE RATINGS the sprinkler prior to ceiling installation. For B. Sprinklers must be handled with care. Refer to the chart on page 101 a. limits of adjustment for the recessed es- They must be stored in a cool, dry place ACCESSORIES cutcheon, see Figure 3. Details and limits of in their original container. Never install Dry Sprinkler Wrenches: adjustment for the standard ceiling es- sprinklers that have been dropped or A. Standard: Part No. 07297W/B cutcheon style, with 2" (51 mm) of adjust- damaged in any way. Never install any B. Recessed: Part No. 07565W/Bf ment, are shown in Figure 1. glass -bulb sprinkler if the bulb is tRequires a separate 'A" ratchet (not available 6. INSTALLATION cracked or if there is a loss of liquid from from Viking). the bulb. If a glass bulb lacks the listings Guard: Chrome, with no appro- Sprinkler WARNING: Viking sprinklers are manu- p g factured and tested to meet the rigid re- priate amount of fluid, it should be set or approvals, for installation on dry pen aside and returned to Viking (or an au- quirements of approving agencies The dent sprinklers manufactured after May sprinklers are designed to be installed in ac- thorized Viking distributor) for analysis 1994 only (Part Number 08954). cordance with recognized installation stan as soon as possible. If the sprinkler is Replacement Escutcheons. cards. Deviation from the standards or any not returned to Viking, it should be de- 1. Adjustable Standard Dry Escutcheon alteration to the sprinkler after it leaves the stroyed. Never install sprinklers that Base Part Number 07741 factory including, but not limited to, paint- have been exposed to temperatures in 2. Recessed Dry Escutcheon excess of the maximum ambient tem- Cu Base Part Number 05459A ing, plating, coating, or modification, may Cup: render the spnnkler inoperative and will au- perature allowed. Such sprinklers 5. ORDERING INFORMATION tomatically nullify the approval and any should be destroyed immediately. For proper shipment, specify model, orifice guarantee made by Viking. C. Viking dry pendent sprinklers are not in- size, finish, temperature rating, A. Viking sprinklers are to be installed tended for use in corrosive environ- escutcheon type, and length ( "A" dimen- in accordance with the latest edition ments. Use only sprinklers listed for sion). Dry pendent sprinklers are ordered in of Viking technical data, the latest corrosive environments when subject specific lengths noted as the "A" dimension standards of the National Fire Pro- to corrosive atmospheres. (see Figures 1 through 3). The "A" dimen- tection Association, Factory Mutual, WARNING: Dry pendent sprinklers sion is the distance from the face of the fit- Loss Prevention Council, MUST be installed into the 1" outlet of a ting (tee) to the desired finished ceiling lo- Assemblee Pleniere, VdS or other cast iron or malleable iron tee fitting cation. The dry pendent sprinkler must be similar organizations, and also with only. The threaded end of the dry pendent ordered and manufactured specifically for the provisions of governmental sprinkler is designed to allow the seal to one of three styles of installation: with the codes, ordinances, and standards, penetrate and extend into the fitting to a adjustable recessed escutcheon (see Fig- whenever applicable. The use of dry preset o accumulating depth. prevents con- g ovr the sprinkler 3), with the adjustable standard es- sprinklers may be limited due to oc- er cum let ri and cutcheon (see Figure 1), or with the plain cupancy and hazard. Refer to the s eal. the dry pendent sprin- barrel (see Figure 2). Escutcheons slip on AHJ prior to installation. 1. DO NOT in stall er from below the ceiling to allow installation of kler into a threaded elbow, coupling, For "A" Dimension: 1. Determine distance from the face of the tee to the finished ceiling. 2. Round to nearest 'A" (12,7 mm) between 1 - 1/2" and 48" (38,1 mm and 1 219 mm). NOTE: The deflector will be located approximately 3 -7/16" (87,3 mm) below the ceiling with 1" (25,4 mm) upward and 1" (25,4 mm) downward adjustment. 4 �1 ' .1 1I .0 NOTE: ...■ To locate the deflector I _ I I I Is-1.11i W at the minimum distance below the ceiling, with I 7/16" no upward adjustment 1. (62 mm) available, order the dry A I min. pendent sprinkler 1" II I i Minimum ceiling hole ( (25,4 mm) shorter than i i m ho I diameter: 1 -3/4" (44,45 mm) Deflector at Minimum the "A" dimension. Maximum ceiling hole Distance Below Ceiling diameter: 2-1/4" (57 mm). N EW 13/16" 1 = NOTE: Finished Ceiling (20,6 mm) To locate the deflector at the maximum distance below the ceiling, with no / � 4 - 7/1 6" downward adjustment 1 -1/2" (38,1 mm) a Sleeve finish (113 mm) available, order the dry - diameter II matches escutcheon max. pendent sprinkler 1" h. (25,4 mm) longer than 3- 1/16" the "A" dimension. . II ___1_ (77,8 mm) Deflector at Maximum Distance Below Ceiling ` - Figure 1: Adjustable Standard Dry Pendent Sprinkler with up to 2" (51 mm) of adjustment. March 26, 2004 Sprinkler 101 c VIKING® TECHNICAL DATA STANDARD RESPONSE DRY PENDENT SPRINKLERS _.i IIII 111 . _ ��III� I �I �� ii , 1 --III, i rM imixi� For "A" i -r For "A" Dimension: _ Dimension: I 1. Determine the distance from face �1. Determine dis- A of tee to finished ceiling lance from face I 2. Round to nearest 1/4" (6,35 mm) of tee to base of I between 3-1/4" and 48" (82,5 sprinkler. Minimum ceiling hole size: I mm and 1 219 mm). Outside 2. Round up to the 2-1/8" (54 mm) diameter I NOTE: The sprinkler will be re- diameter • next higher ' /;' Ma ximum ceiling hole size: cessed approximately 5/16" 1- 5/16" (12,7 mm) in- 2-1/2" (63,5 mm) diameter. (7,9 mm) above the finished (33,4 mm) crement be- I ceiling with 5/8" (15,8 mm) of [same as tween 3" (76,2 Adjustment: vertical adjustment available. 1 "(25mm) -. mm) and 48" 5/16 "(7,9 mm) � c-- Lb Schedule •'!" Schedule ( ) 1 219 mm). - -`�� --` 40 pipe]. 5/16" (7,9 mm) — q p 1 -5/8" c 11 Finished Ceiling u (48,3 mm) Minimum: 1" (25,4 mm)- _ .11 _ ri Maximum: 1 -5/8" (41,2 mm) i 3- 1/16" Figure 2 (77,8 mm) Plain Barrel Dry Pendent Sprinkler Figure 3: Adjustable Recessed Dry Pendent Spnnkler with up to 5/8" (15,8 mm) of Adjustment or any other fitting that could interfere E. After installation, the entire sprinkler with thread penetration. Such instal- system must be tested. The test must etc. The frequency of the inspections lation would damage the brass seal. be conducted to comply with the Instal- may vary due to corrosive atmo- 2. DO NOT install the dry pendent sprin- lation Standards. spheres, water supplies, and activity kler into a coupling or fitting that will Make certain the unit has been properly around the device. allow condensation to accumulate tightened. If a thread leak should occur, B. Sprinklers that have been field painted, above the seal, when located in an normally the unit must be removed, new caulked, or mechanically damaged area subject to freezing. pipe-joint compound or tape applied, and must be replaced immediately. Sprin- 3. NEVER try to modify the dry pendent then reinstalled. This is due to the fact klers showing signs of corrosion shall sprinkler. The sprinklers are manu- that when the joint seal leaks, the sealing be tested and /or replaced immediately factured for a specific "A" dimension compound is washed out of the joint. as required. Installation standards re- and cannot be modified. F. Remove plastic protective sprinkler quire sprinklers to be tested and, if nec- D. The sprinkler must be installed after the caps or bulb shields AFTER the ceil- essary, replaced after a specified term piping is in place to prevent mechanical ing finish work is completed where of service. Refer to the installation damage. Before installation, be sure to the sprinkler is installed and there no standards (e.g., NFPA 25) and the AHJ have the appropriate model and style, longer is a potential for mechanical for the specified period of time after with the correct "A" dimension, orifice damage to the glass bulbs. To remove which testing and /or replacement is re- size, temperature rating, and response the bulb shields, simply pull the ends of quired. Never attempt to repair or reas- characteristics. Keep spnnklers with the shields apart where they are semble a dry pendent sprinkler. Sprin- protective caps or bulb shields con- snapped together To remove caps, tum klers that have operated cannot be re- tained within the caps or shields during the caps slightly and pull them off the assembled or re -used, but must be re- installation and testing, and any time sprinklers. SPRINKLER CAPS OR placed. When replacing sprinklers, use the sprinkler is shipped or handled. BULB SHIELDS MUST BE REMOVED only new sprinklers. 1. Apply a small amount of pipe -joint FROM SPRINKLERS BEFORE C. The sprinkler discharge pattern is crib- compound or tape to the male PLACING THE SYSTEM IN SERVICE! cal for proper fire protection. Nothing threads only, taking care not to al- G. Wet pipe systems supplying dry pen- should be hung from, attached to, or low a build -up of compound over the dent sprinklers must be provided with otherwise obstruct the discharge pat - brass inlet and seal. adequate heat. Refer to appropriate in- tern. All obstructions must be immedi- 2. Install the sprinkler on the piping staliation standards. ately removed or, if necessary, addi- P P P 9 us tional spnnklers installed. ing the special dry sprinkler wrench 7. MAINTENANCE D. When replacing existing sprinklers, the only, while taking care not to dam- NOTICE: The owner is responsible for system must be removed from service. age the sprinkler. DO NOT use a maintaining the fire- protection system and Refer to the appropriate system de- pipe wrench on the barrel of the dry devices in proper operating condition. For scription and/or valve instructions. pendent sprinkler. NOTE: Sprin- minimum maintenance and inspection re- Prior to removing the system from ser- klers with protective caps or bulb quirements, refer to the National Fire Pro- vice, notify all AHJs. Consideration - shields must be contained within the tection Association standard that de- should be given to employment of a fire caps or shields before applying scribes care and maintenance of sprinkler patrol in the effected area. pipe -joint compound or tape. systems. In addition, the Authority Having 1. Remove the system from service, 3. Escutcheons for adjustable standard Jurisdiction may have additional mainte- drain all water, and relieve all pres- nance, testing, and inspection require- sure on the i and adjustable recessed dry pen- piping. 9• ments that must be followed. dent sprinklers can be installed after Using 2. Usin the special sp nnkler wrench, A. The sprinklers must be inspected on a remove the olds sprinkler and install the sprinkler has been installed onto P regular basis for signs of corrosion, me the new unit. Care must be taken to ,. the piping. Escutcheons slip on chanical damage, obstructions, paint, from below the ceiling. ensure that the replacement sprin- I Sprinkler 101 d March 26, 2004 VIKING® STANDARD RESPONSE TECHNICAL DATA DRY PENDENT SPRINKLERS Approval Chart _Temperature KEY Standard Response Dry Pendent Sprinklers 1 A Escutcheon (if applicable) Standard Orifice __ ___ __ _- --- • ' j — TOrder Length 2 Thread Size ; Sprinkler Description ! Nominal K- factor . I Listings and Approvals Increment _ _ NPT I _ __ BSP ; Style I Base Part Number SIN U.S. � metric I mm ! cULus ! FM ; NYC6 I LPCB __," - i Adjustable i - — 0 7740i VK154i 5_ ; - 4 '/: — __ L 1_2 A l A1 I Al - -- ustae --- -- - - -- — __ + 25 mm _ , S tandard - 07854 _ VK154_ �_ 8,1 W 12,7i_A1 L ; _A1� I - - 1 j I - 09341 I VK155 ' - ! 8.1 Y:" 12,7 - I - - Al -_ 1" —j___ I I 06530__, _V ,_ 5.6 ;_ 1/4" I 6,35 I B2 B2 ; B2 I - Adjustable i "" - 07853 I VK158 - 8,1 1/4" 1 6,35 I B2 B2 - I 25 mm _ Recessed - 125 mm 09342 — I VK159 - ± 8,1 ! 1/4" _ 6,35 . _ I - _— I B2 1' ---1 _ 07852 I VK160 5.6 - 1 /2" 12,7 A3 A3 A3 i - - • 25 mm _ i Plain Barrel _ 07855 I VK150 ' - I 8,1 i '/:" I 12,7 A3 A3 _- I - - 125 mm I 09343 I VK151 1 - _8 1 _'�:" i 12,7 ! - I - - i A3 Large Orifice Thread Size I Sprinkler Description I Nominal K-factor I Increment Order Length3 Listings and Approvals _NPT - — BSP Style Number I SIN I U,S,_i_metdc I Inches I mm cULys I FMS NYC I LPOB 1" I - Adjustable 08223 VK163 ' - - - - 1 25 mm I Standard 08226 VK163 ! Vanes -see Figure 41 ." i ,� - _ ! _ i___ 1" I - 1— Adjustable 08224 VK164 1 1/4" 35 1 - I _I - - !Vanes -see Figure ! 6, gure 4, _ - I -25 mm Recessed 08227 VK164 1/4" ! 6,35 L _`__.__. 1' - I 08225 I VK166_� 1�%<" _ 12,7 I - - ' - I Pla Barrel Varies-se 4 , _ _ I _ - 25 mm I _ 08228 I VK166 I — /2 " 12,7 I _ - Approved Temperature Ratings Approved Finishes and "A" Dimensions A -155 °F (68 °C), 175 °F (79 °C), 200 °F (93 °C), and 286 °F , 1 - Chrome-Enloy with "A" dimensions " to 48" (38,1 mm to 1 219 mm) (141 °C) 2 -Chrome-Enloy or White Polyester with "A" dimensions 3 -1/4" to 48" (82,5 B - 155 °F (68 °C), 175 °F (79 °C), and 200 °F (93 °C) mm to 1 219 mm) 3_ Chrome= EnloesorQratS_ with"A"dimensions.no_48"Q6,2.mm1 1.21.9 mm)_ Footnotes 1 Base part number is shown. For complete part number, refer to Viking's current price schedule. 2 This table 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. 3 Minimum length ("A" Dimension) = 1-1/2" (38,1 mm) for Adjustable Standard Dry Pendent Sprinklers, 3" (76,2 mm) for Plain Barrel Dry Pendent Sprin- klers, and 3-1/4" (82,5 mm) forAdjustable Recessed Dry PendentSprinlders. Maximum standard (listed) length ("A" Dimension) = 48" (1 219 mm). 4 K- factor applies for all lengths indicated in Footnote 3 Metric K -Factor shown is for use when pressure is measured in kPa. When pressure is measured in BAR, multiply the metnc K -Factor shown by 10.0. 5 Accepted for use, City of New York Department of Buildings, MEA 89 -92 -E, Vol. II. 6 Listed by Underwriters Laboratories Inc. for use in the U.S. and Canada. 7 K- factor varies with length of Standard Response Large Orifice Dry Pendent Sprinklers. Refer to graph shown in Figure 4. Metric K -Factors shown in Figure 4 are for use when pressure is measured in kPa. When pressure is measured in BAR, multiply the met ric K-Factor shown by 10.0. kier is the proper model and style, with the appropriate "A" dimension, 8.0- 11.5 orifice size, temperature rating, and 4 ppn;p , ®;;` �i ■°■CCCCCCCCCCCCCCCC�"i: 3. response Place the system - back in service 1 } j �g �,$ 11 • t- I -.. 111111111111111111111 and secure all valves. Check for and o C ■`- ■ ■ uu ■ .■ rJ ■uu■■■■■■■ ■ repair all leaks. 7.s ■ '_■ ' C � '� �`- C pppp E _ C M III ■■ = 1 o a3 E. Sprinkler systems that have been sub _ p + e C V a l i = 1 pp = C ; u_ ■n■ jetted to a fire must be returned to ser- {{ i-i- iC C r■p R ■ 1 ��uuu _ Il vice as soon as possible. The entire - I ' ' ■ system must be inspected for damage w- -j- ++ C p .. p �: G p C i p� '.' i .. • C C ■C■ m and repaired or replaced as necessary. 7. ■ ■■■■■■■■■■■.■ MUM m ■ ■■■■■■c■ ■m■ 10.09 Sprinklers that have been exposed to ■ ■ ■ ■u■■ ■ ■ ■■■u ■■n \ ■ ■■aC ■ ■ ■ ■■C ■■■■ ■ ■ a■u corrosive products of combustion or ffil i+�-i + ;- 1 ilibli' i�'CplpACliiii;i e C- -j hi ambient temperatures, but have - + ■CC C ■ ■ C CO C CC CC ■C not operated, should be replaced. Re- -' fer to the AHJ for minimum replace- 4" 8" 12" 16" 20" 24" 28" 32" 36" 40" 44" 48" 52" 56" 60" - ment requirements. (102) (204) (305) (406) (509) (610) (711) (813) (914)(1 016)(1 118)(1 219)1 321X1 422)(1 524) Lengths over 48" (1 219 mm) are available, with no approvals, on a "made- to-order" basis. Contact the manufacturer. Metnc K -Factors are for use when pressure is measured in kPa. When pressure is measured in BAR, multiply the metric K -Factor shown by 10 0. Figure 4: K- factor /Length Graph for Large Orifice Dry Pendent Sprinklers Replaces page 101 a-d, dated January 9, 2004 Form No. F_071591 (LO dry sprinklers not listed). March 12, 2004 Sprinkler 11 a NIIKING® MICROMATIC AND TECHNICAL DATA MicromaticHP STANDARD RESPONSE SPRINKLERS 1. PRODUCT NAME �� ,_ Viking Micromatic Model M and Micro- , A � maticHP® Model M Standard Response F Sprinklers 1 • • • Available Styles: Upright, Pendent, and` � ,1 Conventional i + 2. MANUFACTURER 11 1 The Viking Corporation 210 N. Industrial Park Road . --.v _ Hastings, Michigan 49058, U.S.A. %i Telephone: (269) 945 -9501 (877) 384 -5464 Upright Pendent Conventional Fax: (269) 945 -9599 Sprinkler Temperature; Nominal Sprinkler Temperature; Max. Ambient , Bulb e -mad: techsvcs ©vikingcorp.com Classification _ i Rating_(Fusing 'Ceiling Temperatures' Color? 3. PRODUCT DESCRIPTION Ordinary _ 155 °F (68 °C) 100 °F(38 °C) ; Red _ Viking Micromatic ® and MicromaticHP® Intermediate i 175 °F (79 °C) • 150 °F (65 °C) 1 Yellow Standard Response Sprinklers are small Intermediate _I 200 °F (93 °C) 150 °F (65 °C)__' Green thermosensitive spray sprinklers available Intermediate I 212 °F (100 °C) i 150 °F (65 °C) _I Green in several finishes, temperature ratings, High i 286 °F (141 °C) ' 225 °F (107 °C) I Blue and orifice sizes to meet design require- Extra High I 360 °F (182 'C) 300 °F (149 °C) !Mauve ments. The small frame and 5 mm glass Ultra High I 500 °F (260 °C) 465 °F (240 °C) 1 Black bulb provide a pleasing appearance Used Sprinkler Finishes: Brass, Chrome - Enloy White Polyester (White Poly finish for Spnnkler in conjunction with one of the various cor- Base Part Nos. 10138, 10139, 10141, 10173, and 10220), Black Polyester (Black Poly finish rosion- resistant coatings, the units provide for Sprinkler Base Part Nos. 10138, 10139, and 10173), and Black Teflon® protection against many corrosive envi- Corrosion - Resistant Coatings White Polyester (White Poly finish for Sprinkler Base Part ronments. In addition, the Polyester fin- Nos. 10138, 10139, 10141, 10173, and 10220 only), Black Polyester ( Poly finish for fishes and Teflon® coating also fin- Spnnkler Base Part Nos. 10138, 10139, and 10173), and Black Teflon in all temperature rat - g can ings. Wax- Coated Brass and Wax over Polyester finishs for sprinklers with the following tern- used in decorative applications where col- perature ratings: ors are desired. 155 °F (68 °C) Lt. Brown Wax 200 °F (93 °C) Brown Wax 286 °F (141 °C) Dk. Brown Wax During fire conditions, the heat - sensitive 175 °F (79 °C) Brown Wax 212 °F (100 °C) Brown Wax liquid in the glass bulb expands, causing 1 Based on NFPA -13. Other limits may apply, depending on fire loading, spnnkler location, and the bulb to shatter, releasing the pip cap other requirements of the Authonty Having Jurisdiction. Refer to speafic installation standards. and sealing spring assembly. Water flowing 2 The temperature rating is stamped on the deflector. through the spnnkler orifice strikes the 3 The corrosion - resistant coatings have passed the standard corrosion test required by the ap- sprinkler deflector, forming a uniform spray proving agencies indicated on pages 11 b -d. These tests cannot and do not represent all pattern to extinguish or control the fire. possible corrosive environments. Prior to installation, verify through the end -user that the Viking Standard Response Glass -Bulb Style coatings are compatible with or suitable for the proposed environment. The coatings indi- Sprinklers may be ordered and/or used as cated are applied to the exposed exterior surfaces only and, therefore, the sprinklers cannot open spnnklers (glass bulb and pip cap as be used as open sprinklers. Note that the spnng is exposed on spnnklers with Poly finishes and Teflon coatings. sembly removed) on deluge systems. 4 Sprinklers of Ultra -High temperature rating are intended for use inside ovens, dryers, or simi- 4. TECHNICAL DATA lar enclosures with normal operating temperatures above 300 °F (149 °C). Where the ambi- LISTINGS AND APPROVALS ent temperature around the Ultra -High temperature rated sprinkler is significantly reduced Refer to the charts on pages 11 b-d. a below 300 °F (149 °C), response time may be severely retarded. Spacing Requirements: Max spacing 15 Wax Over Polyester unavailable for Sprinkler Base P/Ns09992, 09993, 09994, and 09995. ft. (4,6 m), min. spacing 6 ft. (1,8 m). for Sprinkler Base Part No. 09992. Pip Cap and Insert Assembly for all other Glass bulb fluid temperature rated to -65 °F Brass UNS- 051000 or Copper Sprinkler Part Nos: Copper UNS - 011000 ( -55 °C). UNS - 019500 for Sprinklers 10139, and Stainless Steel UNS- S30400 Spring: U.S.A. Patent No. 4,167,974 Pip Cap Attachment: Brass UNS- C36000 Min. Operating Pressure: 7 psi (48,3 kPa). 10142, 10170, 10173, and 10223. Cop Ejector Spring (Part Nos. 12105 and RATED WATER WORKING PRESSURE per UNS - 019500 for Sprinkler Base 12106): Stainless Steel Sprinklers 09992, 09993, 09994, and Part Nos. 10138, 10141, 10169, 10174 Sprinklers with Teflon Coating 10187, 10190, 10193, 10220, 10233, 09995 are rated for use with water Belleville Spring Sealing Assembly. Ex- working pressures ranging from the 12105, and 12106 Brass UNS-C26000 posed minimum 7 psi (48,3 kPa) up to 250 for all other Part Nos Screw. Nickel plated psi 1 724 kPa for high-pressure s s Bushing (for Sprinkler Base Part Nos. Pip Cap: Teflorf� Coated P ( ) Y - 09994, 09995, 10188, 10189, 10191, P tems. High - pressure (HP) sprinklers Sprinklers with Poly Finishes 10192, 10218, 10219, 10221, and can be identified by locating "250" Belleville Spring Sealing Assembly' Ex- 10222): Brass UNS - 036000 stamped on the deflector. posed Bulb: Glass, nominal 5 mm diameter All other Part Nos. not mentioned AVAILABLE FINISHES Belleville Spring Sealing Assembly: Nickel above are rated to a maximum 175 Alloy, coated on both sides with Teflon Brass, Chrome -Enloe (patents pending), psi (1 207 kPa) wwp. Tape White Polyester (White Poly finish for _ Factory tested hydrostatically to 500 psi (3 Screw: Brass UNS 036000 Sprinkler Base Part Nos. 10138, 10139, 448 kPa Pip Cap for Sprinklers 09992, 09993, 10141, 10173, and 10220), Black Polyes- SPRINKLER MATERIALS 09994, 09995, and 10221: Bronze ter (Black Poly finish for Sprinkler Base Frame: Brass Castings UNS-C84400 Part Nos. 10138, 10139, and 10173), and Deflector: Brass UNS- C51000, Brass UNS - 031400 or UNS - 031600 Black Teflon® in all temperature ratings; UNS- C26000, or Copper UNS- C19500 Wax- Coated Brass or Wax over Polyes- Note. Units of measure in parentheses may be approximations. Replaces page 11 a-d, dated November 21, 2003 (updated Approvals Form No. F_100397 for Sprinkler 10173). Refer to technical data page SR1 -2 for general care, installaion, and maintenance information. Sprinkler 11 b March 12, 2004 ® MICROMATIC AND _ NIKING TECHNICAL DATA MicromaticHP STANDARD RESPONSE SPRINKLERS Approval Chart I I Temperature KEY ! v, Finish ' Micromatic Standard Response Pendent Sprinklers Al Maximum 175 PSI WWP Standard Orifice Thread I Max. i - - - -- Nominal j Overall - - -- - - - - Size Pressure Sprinkler Description K- Factor I Length I Listings and Approvals i I Base Part' s i 1 4 i s NPT; BSP 1 PSIG - ; Style I- Number? SIN j U.S. ;metric Inch mm! cULus FM NYC VdS� LPCB ' / : " i 15 mm I 175 i Pendent( 10139 ' VK1025.6 _ 8,1 12-3/16, 56 1132 D9 E 1 1 . F7I B5, C6, F5 182, D9,_E11 B51 B2 D9 - '15 mm i 175 ' Pendent L 1017372 VK102 ' 5 6 ! 8,1 i 2 -3/16. 56 ' B2 D9, Ell F7 C6, F5 1132, D9,511! 85 ; B2, D9 Large Orifice ' /: " 15 mm _175__rt Pendentr _ 10223 _, VK202 _ 8 0 T11,5 - 60 181, D8, E11, F7 B7, C10 F7! B1, D8 E11_ - ' - 3/4 "i20mm 175 1Pendentll 10142 ;VK202' 8.0 i 11,5 12- 5/16,59TB 8 1, D El1.F7'B7 C10 - B4, D8 - !15 mm! 175 I P e n d e n t 10187 ; VK202 I 8.0 1 1 1 , 5 1 2 -3/8 60 I B1, D8, E11, F71 C10 ! - 1 - I - - '20 mm)_175 1 Pendent)_. 10170 ' V K 2 0 2 1 8.0 I 1 1 , 5 1 2 -3/8 _ 6 0 1 B1, D8 E11 i C10, A7 -i - _ -;_ - - I B7 03_ 3/4" 120 mm! 175 I Pendent! 12105 VK202 1 8.0 1 11.5 ;2-3/161561 - 1 - I - . 84 ! - Small Orifice - _Y2”:11 mmi 175 [Pendent 10221 VK003 1 2.8 4,0 12_3/16 l 81 D8 Ell 1 B7,1110_4 - I _ _ '/:" 1 15 m711 ;Pendent (10222 I VK004 I 4.2 66 0 - T - 2-1/4 , 5,5_1 B1, D8, E11 1 - _ � - - - 110 mm i 175 I Pendent ] 10175 1 VK003 1 4.2 ! 6.0 T2 -1/4 ' 58 I - 1 - 1 - B4 ! B7, D3 - 115 mmi 175 !Pendent 10188 VK004 I 4.2 I 6 0 1 2 -1/4 ; 58 B1, D8 Ell _ I - I - - _ mm _ 175 I Pendentj10189 VK0031 2.8 14,0 12- 3116156 B1, D8 E11 i 87, D10_ 1 7_1 — _ Installed with the Viking Micromatic Model E -1 or E -2 Recessed Escutcheon '/ :" 115 mm 175 I Pendent - 10139 i VK102 1 5.6 I 8,1 12 -3/161 56 I D2 j C5 ; D2 i D5_ __D2 ' / 4 " ' 15 mm I 175 I Pendent 10223 V K 2 0 2 ; 8,0 - 1 ,5 2_3/8. 601 D1 1 07 ! D1I- - 'A 115 mm4175 I Pendent W221 ; VK 003 2.8 0r2 -3/16+ 56 D1 1C7_ - 1 _ D1 D1 '/_" 115 mmi 175 I Pendent 10222 VK004 I 4.2 ; 6,0 ' 58 D1 - I D1 - I D1 3/4120 mmi 175 I Pendent _10142 ; VK202 I 8_0 , 111 5 12_5/16159 I D1 I D7 _ ! D1 I - I D4 - 115mmil 175 Pendent _ 10173 ' VK102 1 5.6 1 8,1 1 2- 3/16_56 D1 1 C7 I - i - I D1 - 12020 mm 1 175 ? Pende_r tl 10170 1 VK202 1 8.0 1 11.5 12 -3/8 160 D1 1 D7 I - i I D1 3/4°120 mm I 175 'Pendent I 12105 • VK202 1 8.0 1 11,5 12 -3/161 56 I - I - - 1 04 I - Installed with the Viking Microfast Model F -1 Adjustable Escutcheon" W 115 mm 175 I Pendent 10139 LVK1021 5.6� 8,1 r2 -3%161 5 D2 i - 1 D2 I E5 D2__ 'A i F 175 I Pendent 10223 i VK2021 8.0 I 11 5 ; 2-3/8 ! 601 D1 1 - 1 D1 I - - W 115 mm 175 I Pendent, 10221 VK003 I 2.87 - 4.0 F2-3/16; 56 1 D1 I - I D1 - 1 - D1 'Y2" 115 mmj 175 ;Pendent 10222 VK004T-4.2 6 0 1 D1 1 - I D1 . - I D1 - —r I I 2 -1/4 1 58 3/4"120 mm l 175 I Pendent -, 10142 VK202 I 8.0 I 11 5 12- 5/161 591 D1 1 - I D1 1 - I D4 115 mm I 175 I Pendent 10173 I VK102 I 5.6 1 8,1 12 -3/161 56 I - I - I - 1 - D1 - 120 mm I 175 1 Pendentl 10170 ! VK2021 8_0 1 11.5 2-3/8 1 60 1 - 1 - 1- 1 - D1 3/4° 120 mmi_ 175 I Pendent 1 - 12105 ; VK202 1 8.0 1 11 5 2- 3/161 56 _ I = I = E4 I _ _ Approved Temperature Ratings I Approved Finishes 1 - Brass, Chrome- Enloy White Polyester Black Polyester and Black Teflon A -155 °F (68 °C), 175 °F (79 °C), 200 °F (93 °C), 1 2 - Brass, Chrome-Enloe; , White Poly Finish Black Poly Finish and Black Te Ions 212 °F (100 °C), 286 °F (141 °C), and 360 °F ; 3 -White Polyester, Black Polyester, Black Teflon ® , Wax- Coated Brass, and Wax over Polyester (182 °C) 1 4 - Brass, Chrome- Enloy ® , White Polyester, and Black Polyester B- 155 °F (68 °C), 175 °F (79 °C), 200 °F (93 °C), ; 5 - Brass, Chrome- Enloy White Poly Finish, and Black Poly Finish 286 °F (141 °C), and 360 °F (182 °C) 6 - White Poly Finish, Black Poly Finish, and Wax- Coated Brass (corrosion resistant) C -155 °F (68 °C), 175 °F (79 °C), 200 °F(93 °C), 7 - Brass and Chrome- Enloy and 212 °F (100 °C) 8 - Wax- Coated Brass and Wax Over Polyester D -155 °F (68 °C), 175 °F (79 °C), and 200 °F ; 9 - Wax- Coated Brass and Wax Over Poly Finish (93 °C) ' 10 - Wax- Coated Brass (corrosion resistant) E - 286 °F (141 °CI 111 - High Temperature 200 °F (93 °C) Wax Coating (corrosion resistant); maximum ambient F - 500 °F (260 °C) temperature allowed at ceiling = 150 °F (65 °C) 1 Base part number shown. For complete part number, refer to Viking's current price schedule. 2 This table shows the listings and approvals available at the time of printing. Other approvals may be in process. 3 Accepted for use, City of New York Department of Buildings, MEA Number 89 -92 -E, Vol. XII. ° Listed by Underwriters Laboratones Inc. for use in the U.S. and Canada. 5 cULus Listed as corrosion- resistant. 6 Metric K- factor shown is for use when pressure is measured in kPa. When pressure is measured in BAR, multiply the metric K- factorshown by 10.0. 7 Spnnklers of Ultra-High temperature rating are intended for use inside ovens, dryers, or similar endosures with normal operating temperatures above 300 °F (149 °C). Where the ambient temperature around the Ultra -High temperature rated spnnkler is significantly reduced below 300 °F - (149 °C), the response time of the Ultra -High temperature rated spnnkler may be severely retarded. 8 FM Approval of Viking Micromatic Standard Response Recessed Pendent Sprinklers installed with the Viking Micromatic Model E -1 or E -2 Recessed Escutcheon is limited to wet systems and preaction systems qualifying as wet systems, for hazard occupancies up to and including Ordinary Hazard, Group II. - 9 Listings and Approvals limited to Light -Hazard Occupancies with hydraulically calculated wet systems only. ' sprinkler orifice is bushed. "Refer to the "Sprinkler Accessories" section for technical data on approved escutcheons and other accessories Escutcheons must be ordered separately from sprinklers. Refer to Viking's current price schedule. 12 Sprinkiers 10173, 10189, and 10188 are available on special order. Spacing Requirements: Maximum spacing 15 ft. (4,6 m), minimum spacing 6 ft. (1,8 m). March 12, 2004 Sprinkler 11 c - NIKING® MICROMATIC AND TECHNICAL DATA MicromaticHP STANDARD RESPONSE SPRINKLERS -- Temperature KEY Approval Chart ' Finish ! MicromaticHP Standard Response Pendent Sprinklers i A � - Maximum 250 PSI WWP - -- - - - - -- - - -- - ------- - - - - - - -- - - --- __ Standard Orifice i Thread Size I Pressure ure Sprinkler Description i Nominal K- Factor ;Overall Length Listings and Approvals r -- ■ NPT ; BSP I PSIG T Style Base Part Numbers; SIN ! U.S. I metrics j Inch I mm i cULus ; FM I NYC ■ VdS i L '/2" i 15 mm I 250 ! Pendent 09992 1 VK122 I 5.6 I 8,1 I 2 -1/4 ; 58 1 --- Al - - - ' - - - 1 - - Small Orifice - -- - -- - - - -- - - -- -- --- - - - - -- '/2" ; 15 mm j 250 ; Pendent 099947 I VK023 i 2.8 I 4,0 - I 2 -1/4 58 Al - I - ; - Installed with the Viking Micromatic Model E -1 or E -2 Recessed Escutcheon W ; 15 mm i 250 i Pendent : 09992 I VK122 ; 5.6 j 8,1 ! 2 -1/4 ; 58 I B1 - I - I - I - - -- W 115 mm I 250 Pendent ' 09994 1 VK023 I 2.8 I 4,0 I 2 -1/4 1 581 B1 I - I - I - installed with the Viking Microfast Model F -1 Adjustable Escutcheon '/2" 115 mm, 250 Pendent I 09992 I VK122 I 5.6 8,1 I 2 -1/4 158 Al ; - i - - j - '' /2" 115 mm 250 [Pendent . 09994 VK023 I 2.8 4,0 I 2 -1/4 158 Al I - - I - i - Approved Temperature Ratings Approved Finishes A - 155 "F (68 "C), 175 °F (79 °C), 200 °F �93 °C), and 286 °F (141 °C) 1 - Brass, Chrome- Enloy White Polyester Black Polyester B - 155 °F (68 °C), 175 °F (79 °C), and 200 F (93 °C) and Black Teflon Footnotes 1 Base part number shown. For complete part number, refer to Viking's current price schedule. 2 This table shows the listings and approvals available at the time of printing. Other approvals may be in process. 3 Listed by Underwriters Laboratories Inc. for use in the U.S. and Canada. cULus Listed as corrosion- resistant. 5 Metnc K- factor shown is for use when pressure is measured in kPa. When pressure is measured in BAR, multiply the metric K-factor shown by 10.0. 6 Listings and Approvals limited to Light -Hazard Occupancies with hydraulically calculated wet systems only. 7 The sprinkler orifice is bushed. 8 The Microfast® Model F -1 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. 9 Refer to the "Sprinkler Accessories" section for technical data on approved escutcheons and other accessones. Escutcheons must be ordered separately from sprinklers. Refer to Viking's current price schedule. Spacing Requirements: Maximum spacing 15 ft. (4,6 m), minimum spacing 6 ft. (1,8 m). Sprinkler Base Part No. 10139 Ceiling Opening Size: 2 -5/16" (59 mm) Minimum, 2-1/2" (64 mm) Maximum. with a standard 1/8" (3,1 mm) 2 -1/8" surface- mounted escutcheon. r 2 -1/8" (54 mm) (S4 mm) r a+ - mr;zsal _ r3� t� T .'. ------------ — ,�-, 58 1/4 L`� (44,5 mm) 2' 1 -1/2' (38 mm) / " �, 1 -1/8" (28,6 mm) ( ) (51 mm) I 1 -3 d ` p• minimum ' Minimum j Maximum• (445 mm) j t � f Maximum Sprinkler Base Sprinkler Base Part No. 10139 Sprinkler Base Part No. 10139 installed with a Microfast installed with a Micromatic Part No. 10139 Model F -1 Adjustable Escutcheon. Model E -1 Recessed Escutcheon. Figure 1 ter* for sprinklers with temperature rat B. Wrench for coated and recessed "a^.' ratchet is required (not available from Vi ings through 286 °F (141 °C). Micromatic and MicromaticHP Stan- 9) • • Wax Over Polyester unavailable for Spnnlder dard Response Sprinklers' Part Refer to the "Sprinkler Accessories" sec- - Base Pad Nos. 09992, 09993, 09994, and 09995. No. 07398W" (available since 1990), or lion of the data book. ACCESSORIES Part No. 12144W/B ", available since Sprinkler Wrenches: 2003. NOTE: Recessed pendent A. Standard wrench: Part No. 10896W/B sprinklers with protective caps must (available since 2000) or 05000CW /B use wrench 12144W/B. (no longer available). Sprinkler 11 d March 12, 2004 • NIIKING® MICROMATIC ® AND TECHNICAL DATA MicromaticHP STANDARD RESPONSE SPRINKLERS A Chart I -_ T emperature K EY - Finish Micromatic and MicromaticHP Standard Response A T I Upright and Conventional Sprinklers Maximum 176 PSI WWP Standard Orifice I Max. Nominal ' Overall ' 2 Thread Size! Pressure' Sprinkler Description K_Factor _Length Listings and Approvals ' _ 'Base Part ' -' NPTI BSP I PSIG Style I Numbers I SIN :U.S.,metric Inch i mmi cULus I FM NYC ;VdSI LPCB '/:" 115 mmL IUprighti 10138 IVK100_5.6 1 _8 1 2_3/16156 .B14, E11 F13, G9A16, D15, G161814, E11, F13 - ' - '/: 15 mm! 175Uprightr10233_jVK145' 5.6 I8,1 2-3/161 66 : - A8 D7, G8 I - I_B6 ; B9, E3 _U - 115 mmi 175 pright) 10174 !VK100' 5.6 8 1 1 2-3/16; 56_ - A8, D7, G81 - , - I B9 E3 - 115 mm; 175 IUprighti 10193 1VK100 5.6 8 1 1 2-3/16; 56 I B1 E10, F13, G9 A8, D7, G8 B1, E10, F13 _ _!___ Large Orifice W 115 mm; 175 ;Upright' 10220 1VK200'' 8.01 11,5_2 -3/81 60 1 B2, E11, F13, G9: B8, E12, G8 I B2, El1 i - ' - 3/4"120 mmi 175_1Upright 10141 i !VK200; 8.0 ; 11,5 _2- 5/16 1 B2, Ell, F13, G9 B8, E12, G8l B2, El1,_F13 ; - 115 mm] 175 ;Upright' 10190 IVK200 8.01 11,5 ' 2 -3/8 1 601 B1 E10, F13 G9' B8, E12, G8 I - i - ' - - 120 mmi 175 'Upright] 10169 IVK200' 8.0 11,5 !2-5/161 ' B1, E10, F13 ; B8, El 2,_G8 I _____I - 1 B9, E3 Small Orifice W 115 mm] 175 IUp righ _ t 10218 IVK0011 2.8 4,0 ;2 -3/16j 56 I B1, E10, F13 ' E9, E12 I - 1 - - '/_ " ;15mmI 175 flprighti 10219 IVK0021 4.2 60 '23 /1161_56 ' B1,E10,F13 1 - - 1 - I - - 115mmi 175 IUprighti 10191 IVK0021 4.2 6S 12_3/161 56 I B1, E10 F13 - - !_;___ - 115 mmi 175 IUprighti 10192 IVK0011 2.8 I 4,0 12 -3/161 56 1 B1. E10, F13 E9, E12 - 1 - 1 - - 110 mmi 175 IUprighti 10176 IVK0011 4.21 6,0 12_3/161_56 I - - I B171 B9,13 Conventional W 115 mmi 175 I Cony. I 10227 'VK118i 5.6 1 8,1 '2 -3/161 56 l B1, E10, F13 - B1, E10, F13 B17'B5 El0 3/4 "120 mmi 175 ! Cony. I 10228 IVK120� 8.0 11,5 '2 -5/161 59. 131,E10 F13 - B1 E10,_F13 - 85 E10 - 115 mmi 175 I Cony. 1 10172 rVK118 5.6 8,1 .2 -3/161 56 r 61, E10, F13 - - ! - 185, El0 - 1 20 mmi 175 I Cony. ! 10168 IVK120' 8.0 ; 11,5 ;2-5/161 59 1 B1 E10 F13 : - - 1 - 185 E10 3/4"120 mm: 175 2, Cony L 12106 IVK120, 8.0 ' 11 5 ;2-5/16; 59 I _ - - _ '' B17171 - Maximum 250 PSI WWP ___ _ __ _Standard Orifice_____ _ _ _ �_ T y: "11 mmi 250 1Upright1L09993_VK1241 5.6 ; 8,1 ; 2 -1/4 1 58 Cl - I - 1 - 1 - Small Orifice '/2" I15 mm1 250 'Upright] 09995 R/K0211 2.8 I 4.0 i 2 -1/4 1 58 , C1 - - 1 - 1 - 1 - Apprgved Finishes 1 - Brass, Chrome - Enloe, White Polyester', Black Polyester and Black Teflon Approved Temperature Ratings 2 - Brass, Chrome -Enloe White Poly Finish', Black Polyester and Black Teflon 3- White Polyester, Black Polyester, Black Teflon Wax - Coated Brass, and Wax over Polyester A- 155 °F (68 °C), 175 °F (79 °C), 200 °F 4- White Poly Finish, Black Polyester, Black Teflon Wax- Coated Brass, and Wax over Polyester (93 °C), 212 °F (100 °C), 286 °F (141 °C), 5 - Brass, Chrome- Enloy White Polyester, and Black Polyester and , 175 175°F (79 °C), 200 200°F °C) B -155 °F F ( (68 8 °C), 6 - Brass, Chrome -Enlo� White Poly Finish, and Black Polyester 7 - White Poly Finish and Wax- Coated Brass (corrosion resistant) 93 °C), 286 °F (141 °C), and 360 °F 8 - Brass, Chrome -Enloe and White Poly Finish 182 °C) 9 - Brass and Chrome - Enloy C 155 °F (68 °C), 175 °F (79 °C), 200 °F 10 - Wax- Coated Brass and Wax over Polyester (93 °C), and 286 °F (141 °C) 11 - Wax- Coated Brass and Wax over Poly Finish D -155 °F (68 °C), 175 °F (79 °C), 200 °F 12 - Wax-Coated Brass (corrosion resistant) (93 °C), and 212 °F (100 °C) 13 - 200 °F (93 °C) High- Temperature Wax Coating (corrosion resistant); maximum ambient tern- E -155 °F 68 °C), 175 °F (79 °C), and 200 °F 93 'C perature allowed at ceiling = 150 °F (65 °C F - 286 °F (141 °C) 14 - Brass, Chrome -Enloe White Poly Finish', Black Poly Finish', and Black Teflon G - 500 °F (260 °C)7 15 - White Poly Finish, Black Poly Finish, and Wax- Coated Brass (corrosion resistant) 16 - Brass, Chrome - Enloe, White Poly Finish, and Black Poly Finish 17 - Brass, Chrome - Enloe, White Polyester, and Black Polyester Footnotes 1 Base part number shown. For complete part number, refer to Viking's current price schedule. 2 This table shows the listings and approvals available at the time of printing. Other approvals may be in process. 3 Accepted for use, City of New York Department of Buildings, MEA Number 89 -92 -E. Vol. XII. ° Listed by Underwriters Laboratories Inc. for use in the U.S. and Canada. 5 cULus Listed as corrosion- resistant. 6 Metric K -fador shown is for use when pressure is measured in kPa. When pressure is measured in BAR, multiply the metric K -factor shown by 10.0. 7 Sprinklers of Ultra -High temperature rating are intended for use inside ovens, dryers, or similar enclosures with normal operating temperatures above 300 °F (149 °C). Where the ambient temperature around the Ultra -High temperature rated sprinkler is significantly reduced below 300 °F (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 with hydraulically calculated wet systems only. 9 The sprinkler orifice is bushed. 10 Sprinklers 10168 and10172 are available on special order 11 Accepted for use, City of New York Department of Buildings, MEA Number 89 -92 -E, Vol. III. Spacing Requirements: Maximum spacing 15 ft. (4,6 m), minimum spacing 6 ft. (1,8 m). Replaces page 11 a-d, dated November 21, 2003 (updated Approvals for Sprinkler 10173). Refer Form No. F_100397 to technical data page SR1 -2 for general care, installaion, and maintenance information. • 'tea . rataattaa l�alplaaat - • " ,�_ : S prinkierAccessa r . i Automatic" Snare (Reserve) Sprinkle- r_L _� . 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Fire Flow Page 2 of 3 01 ,FIREFLOW ;. :',1:: §tH. 40 SCH. 10 1280 1.422 - 4*‘4:1i2!':' ,..-a .; ,1'.748 ,--, ,, . - ' ;'1.610 1.682 : : . s' ' 2.067 2157 ;':::!=2723 ::: =..; - , - , 2469 L ;_ 2.635 , : 026 26 4 i.348Y'':':',.: ,-::, ,:: :‘::: 3068 . <‘ . .:: , * ; ;:i:14:-,, , . -,..':' ` ' • , _ ' ; 4. [ 3.260 4260 • • Flexural tests • Hydri (Ui )—. • Vibration tests leaka • Burst tests tests Listed • Chemical analysis • Corrc • Flattening tests • Tensi • Quality of welded seams • Hydri C perfo • Variations in weight or • Work Listed dimension • Finisl - • Marking Approved FIREFLOW PIPE OFFERS SUPERIOR' AND WELDING CHARACTERISTICS We use hot rolled, not cold rolled steel to FIRELINE FIREFLOW pipe. The charac pipe made from hot rolled steel make it e: groove and weld. Evaluate your needs with our online FIRELINE FIREFLOW calculator. FIRELINE® IS A PRODUCT OF: 1 j , 1=1 NI I . I= I . I ■ I til■ r - "I 0 . ! INTER NAT ICINAL a■ :' '' PA , '" F‘ . . ---.:'" "-'-) • , :,- r--. .. ....„, i POPES' PRODUCTS „ t 1;. „ re L; ' t L.) r79 ii g =SE-HZ -6-, k, P.O. BOX 307I. : OR, 97208 FIRELINE® and FFI nw - -- .. ® and RAPID-THREAD® are trademarks of Western International Forest Products, Portland. OR, USA http://www.sprinIderpipe.com/FireFlow.htm 4/1/04 • May 18, 1989 703 TE CHNICAL DATA NI KING MODEL VSR -F WATERFLOW INDICATOR 4. GUARANTEES closest distributor (listed under Viking agrees to repair or replace goods "Sprinklers Automatic Fire ") or write to found to be defective in material and The Viking Corporation, Hastings, workmanship for a period of one year Michigan USA 49058 Telephone (616) from the date of shipment. For details of 945 -9501 Attention: Sales Department. warranty, refer to price list. 8. MAINTENANCE 5. TECHNICAL DATA AND WARNING: Any system maintenance or ` s FEATURES testing which involves placing a control Manufacturer: Potter Electric Si nal valve or detection system out of service 9 may eliminate the Fire Protection of that i - s Company system. Prior to proceeding notify all \' - ' �.< U.L. Listed, Guide No. USOT authorities having jurisdiction. Con- � . a F .M., Approved Rated for water working service Ares sideration should be given to employ sure u to 450 PSI 3013 kPa for sizes ment of a Fire Patrol in the affected area. ,j 1 r s ure 0mm 4 to 8" I (3013 k ) Ascertain what alarms and equipment ' � ' ! SWITCHES: T wo single pole double are connected to the Waterflow Indicator j and take necessary precautions to '' , throw switches with Form C contacts protect connected equipment. rated at 10 Amps 125/250 V. AC, 2.0 A. INSPECTIONS: It is imperative that Amp 0-30 V. DC. Each switch can be the system be inspected and tested wired for open or closed circuit opera- on a regular basis. The following Lion. recommendations are minimum re- ADJUSTABLE FOR FLOW SENSITIVITY quirements. The frequency of the in- Pneumatic retard adjustable from 0 to spections may vary due to con - approximately 90 seconds with automat- taminated water supplies, corrosive 1. PRODUCT NAME is resetting. water supplies or corrosive atmos- WATERFLOW INDICATOR Unit may be installed vertically or pheres. In addition the alarm devices, Model VSR -F horizontally. Vane is corrosion - resistant detection systems or other connected Manufactured 1989- plastic. Body. base and cover are cast trim may require a more frequent aluminum. A special tool is used to schedule. Refer to applicable codes 2. MANUFACTURED FOR remove the cover. and authorities having jurisdiction for THE VIKING CORPORATION CAUTION: Vane type waterflow in- minimum requirements. 210 N. Industrial Park Road dicators should be used only in wet pipe Hastings. Michigan 49058 U.S.A. stems and not in dry, deluge 1 . Monthly: Take necessary precau- Fax Number: (616) 945 - 9599 systems ry g or preac- Lions and notify all connected Easylink Mailbox: 62884145 lion systems. The paddle and /or alarm services, local Fire Depart - Telephone: (616) 945.9501 mechanism may be damaged by the ment, Security Guards or other Telex Number: 22 sudden surge of water in those systems. affected personnel that the 3. PRODUCT DESCRIPTION 6. OPERATION Waterflow Indicator is being S The model VSR -F Waterflow Indicator is The Waterflow Indicator detects a flow tested to prevent a false alarm a vane type waterflow switch designed of water exceeding 10 GPM in the piping from being transmitted. k to detect a sustained flow of water ex- 2. With the system in service, fully when the flexible vane is deflected. This ceeding 10 GPM. It is intended for use motion activates the field adjustable open the inspectors test valve o on wet pipe sprinkler systems only. A and record the time required to 1 pneumatic retard device. The pneumatic built -in adjustable pneumatic r eta r d retard device delays activation of the activate the alarm. P. device delays actuation of the electrical 3. Close the inspectors test valve. electrical switches to reduce the pos- switches to reduce the possibility of fa sibility of false alarms caused by a single The Waterflow Indicator will auto - alarms caused by one or more transient or series of transient flow surges. The connected lly reset. All alarms and flow surges. The unit includes two single retard device instantly resets during a connected equipment should mil pole double throw snap action s series of surges to prevent a cumulative have operated as required by the cyi used to operate local alarms. indicate effect. After a sustained flow the two system design. Compare the 0 . signals to annunciator panels, tri switches operate to open or close recorded operating lime to pre- a m municipal lire alarm boxes, start fire electrical contacts. vious readings. Investigate and x pumps or any other function that can be correct any major changes in a initiated or controlled by the opening or 7. AVAILABILITY AND operating times. ; 1 1 io closing of an electrical switch. The SERVICE 4. Reset all connected alarms and B device may be installed on the main riser eq uipment. Notify all affected per- " z Viking Water Flow Indicators are avail- o to give a system waterflow signal or on sonnet that the testing is coin- ca branch feed mains. cross mains or able through a network of domestic and plete and any further alarms N branch lines to give a waterflow signal international distributors, see the Yellow must be responded to. ~ • by zone or area. Pages of the telephone directory for 1" Form No. F 051889 704 May 18, 1989 NIKING TECHNICAL DATA MODEL VSR -F WATER FLOW INDICATOR TYPICAL ELECTRICAL CONNECTIONS 1 � -- 3 1 /2" — _ 4 — a BELL /� OR i � HORN ! . /' 1 3 -1/2" �� \ A _s_ 6 " ` COM i To auxiliary annunciator 41 . Mk rrh NC or control when required 1 NO i , I . _ Waterflow Indicator with Two - Single Pole, C --- Double Throw Micro Switches • B Nominal I Note Part Pipe Size Olmenelona Number 91ra A I e C In. mm In. mm I In. mm ! In. mm I In. mm 2 50 1 -114 32 8 -118 2064 5.114 1334 2.318 60.3 I 060608 ' 2.112 65 1 -1/4 32 8.31 222.3 5-318 136.5 2. 718 73.0 I 060618 3 60 2 51 19.12 241.3 5 -314 1461 I 3.112 88.9 060628 3 -112 90 2 51 I 10 254 0 6.114 158 8 4 101.6 060638 4 100 2 Si 1 10.12 266 7 6-314 171,5 4.112 114.3 060848 ' 5 130 2 51 11.5'8 295.3 7.314 1969 69/16 141.3 060658 6 150 2 51 1 12-5/8 320 7 8314 222 3 6.518 168 3 060668 ; 8 200 2 51 ; 14 314 374 7 10.3/4 273.1 8.5'8 219.1 060678 B. REPAIRS: Any Waterflow Indicator drill. The 2 inch (50mm) and 2 -1/2 inch equipment and perform quarterly in- requiring repairs due to damaged (65mm) devices require a 1 -1/4 inch speclion. components should be replaced with (32mm) hole. All other sizes require a 2 10. ADJUSTMENTS a new unit. Refer to installation in- inch (50mm) hole. Deburr the hole and structions for adjustments. clean the pipe of all growth and other The pneumatic retard is adjustable from material for a distance equal to the pipe 0 to approximately 90 seconds. To in- 9. INSTALLATION diameter on each side of the hole. crease the time delay turn the dial to the The Waterflow Indicator must be located Roll the vane in the opposite direction of next higher letter. Normal setting is be- on the system side of the system control the waterflow taking care not to bend or tween 30 and 45 seconds. In no case valve, check valve and main drain valve. crease the vane and insert it into the should the lime be set less than 20 Install a minimum of 6 inches (147mm) hole. The vane must be inserted so the seconds nor more than 90 seconds. from any fitting which changes the direc- arrow on the saddle points in the direc- The flow sensitivity is set at ap- bon of the waterflow and 24 inches tion of the waterflow. Install the saddle proximately 10 GPM. A small coil spring (588mm) from a valve or drain. The strap and tighten the nuts alternately to holds the vane in its normal position device may be mounted in a horizontal 50 ft. -Ibs. (7m kgf) of torque. To verity the against the waterflow. The spring can be - or vertical pipe. On horizontal piping the vane does not bind on the pipe, press adjusted to increase or decrease sen- unit should be mounted in a vertical posi- the trip rod toward the timing head and sitivity, it necessary, but it must not be tion with the cover on top. If necessary, then release. It should move and return over - lightened. Too much tension will it may be mounted off center but never smoothly. decrease the sensitivity of the device. exceed an angle greater than 90 degree Place the system back in service and The pneumatic retard must be checked from vertical. test the Waterflow Indicator using the after adjusting the flow sensitivity. All Close the water supply control valve and system inspectors test valve. If neces- testing and adjusting of the Waterflow drain the system, relieving all pressure. sary adjust the pneumatic retard and/or Indicator must be done using the remote At the selected location drill a hole in the inspector test valve. . pipe using a circular saw in a slow speed . FireFlow Page 1 of 3 Listed FIRELINE C1� j ) ) TM Listed ,'� I;" E 'a L��.� ' �ITM HIGH SPR '� (LER PRPE MI u Choose the lightwall steel sprinkler pipe with superior hydraul Approved P erformance, and value to Schedule 10 and Schedule 40. SUPERIOR HYDRAULICS WITH 1MPO HYDRAULIC COMPARISONS PERFORMANCE AND INSTALLATION ADVANTAGES FRICTIt} `(P *:C -1:20 FIREFLOW SCH: 40 SCH.10 FIREFLOW high- strength lightwall sprinkler F loss characteristics far superior to Schedule • 100 ; '" ; :':4364` .6721 .5426 10. The result is superior flow rates with mar • :: added advantages. FIREFLOWs larger insic : =x`120 � - �,r �, :2979 °� - � .4445 - . 3592 9 9 allows you to down -size system requirement. 150 :1396: - .1989 ; . . 1616 efficiency. FIREFLOW sprinkler pipe is easy '1873 .3018; 2198 and install. And FIREFLOW assures long -ter 3" 500' • 2696 _ _ 2006 greater life expectancy. , • ..1000 ;:18,19. _ '= ; `' ;2588:.: • .1965 11T�FOOT, COMPARISONS FIREFLOW PIPE IS HYDROTESTED F !IY DEPENDABLE HIGH QUALITY • FIREFLY „SCH = 40 " SCH. 10 -!1 114" • A`1.28 2.27' - 1:81 1 112" • - • '1 48:x' ' - 2:72 - 2.08 When FIREFLOW is produced, the standard 2 • - -.1:87' • 3.65= 2.64 exam is performed, then each length of 2" diz 112 - 2.27. , 5.79 3.53 above material is pressure tested to 300 /psi. °= x 1 !!' � U' �} , ; x2:78 7.59 423 - 1079 5.61 FIREFLOW PIPE MEETS OR EXCEED: 'INSIDEDIAMETER COMPARISONS REQUIREMENTS OF ASTM- A135/A79 FIREFLOW pipe is manufactured to meet AS ASTM -A 795 standards and is compliant with NFPA -14. FIREFLOW products have been a the following Factory Mutual and Underwriter - testing procedures: • httn:// www .snrinklernine.com/FireFlow.htm 4/1/04 a eretoUsea V L C PVC r • MARVEL CPVC Fire Sprinkler Products are UL Listed and C -UL Listed by Underwriters Laboratories Inc. for use in: • Light Hazard occupancies as defined in the Standard for Installation of Sprinkler systems, NFPA 13. • Residential occupancies up to and including four stories in height as defined by NFPA 13R. • Residential occupancies as defined in the Standard for Sprinkler Systems in One and Two Family Dwellings, NFPA 13D. • Installation of private fire service mains and their appurtenances, NFPA 24. HARVEL CPVC Fire Sprinkler Products shall be employed in wet pipe systems only (A wet pipe system contains water and is connected to a water supply system so that the water will discharge immediately when the sprinkler is opened.) Marvel CPVC fire sprinkler products are not Listed for outdoor use. Harvel CPVC Fire Sprinkler Products must never be used in a system using compressed air or other gases. National Fire Protection Association, Standards 13, 13D and 13R must be referenced for design and installation requirements in conjunction with this brochure. With concealed installations, in accordance with the UL Listing, the minimum protection shall consist of one layer of 3/8 in. gypsum wallboard, or a suspended membrane ceiling with lay -in panels or tiles having a weight of not less than .35 lbs. per ft. when installed with metallic support grids, or 1/2 in. plywood soffits. For residential occupancies defined in NITA 13D and 13R, the minimum protection may consist of one layer of 1/2 in. plywood. MARVEL CPVC Fire Sprinkler Products shall be used in sprinkler systems employing sprinkler heads rated at 170)F or lower. Note: Factory Mutual Approval (F VI) is limited to use in wet pipe fire protection sprinkler systems only for light hazard occupancies where the piping is completely separated by non - removable, tire resistant barriers from any area protected by the system. Return` i t P,Fenums Marvel CPVC Fire Sprinkler Products are approved for use in air plenums. Harvel CPVC Fire Sprinkler Products have been investigated by UL per the requirements of UL 1887 and found to comply with the combustibility requirements for thermoplastic sprinkler pipe as described in the Standard for Installation of Air Conditioning and Ventilating Systems, NFPA 90A and various model mechanical codes. (Note: Marvel CPVC Fire Sprinkler Products may he installed in the plenum adjacent to, but not Over, openings in the ceiling such as ventilation grills and require the use of Schedule 80 fittings in the 1 -1/2 in. and larger sizes.) Canadian Installations (ULC C -UL) • Harvel CPVC Fire Sprinkler Products are listed under CAN /ULC Standard S102.2M for flame spread of 5, smoke development of 15, and fuel contribution of 0 meeting the National Building Code of Canada. Ordinary Hazard Installations Harvel CPVC Fire Sprinkler Piping Products are not Listed for use in Ordinary Hazard occupancies per NFPA 13. However, per the exception noted in Section 3-3.5 of the 1999 edition of NFP1. 13, Harvel CPVC Fire Sprinkler Piping Products can be used to protect ordinary hazard rooms of otherwise light hazard occupancies where the room does not exceed 400 ft' when installed in accordance with other installation requirements specified within this manual. Exposed Installations HARVEL CPVC Fire Sprinkler Products are UL Listed for systems without protection, (exposed) with the following restrictions. • Exposed CPVC Fire Sprinkler piping shall be installed below a smooth, flat, horizontal ceiling construction. o Listed quick- response pendent sprinklers having deflectors installed within 8 inches from the ceiling or Listed Residential pendent sprinklers located in accordance with their Listing and a maximum distance between sprinklers not to exceed 15 feet. o Listed Quick - Response horizontal sidewall sprinklers having deflectors installed within 6 inches from the ceiling and within 4 inches from the sidewall or Listed Residential horizontal sidewall sprinklers located in accordance with their Listing and a maximum distance between sprinklers not to exceed 14 feet. j Unf>nished B isements' with Exposed Solid WoodJo sr;; Installations accotdance:xyitltNFPA: I3D In accordance with the UL Listing, Harvel CPVC Fire Sprinkler Products may be installed without protection (exposed) in unfinished basements in accordance with NFPA 13D when subject to the following additional limitations: 1. The ceiling shall be horizontal and constructed utilizing nominal 2 in. x 10 in. solid wood joists on 16 in. centers. OR The ceiling shall be horizontal and constructed utilizing nominal 2 in. x 12 in. solid wood joists on 16 in. centers. When installing Harvel BlazeMaster CPVC pipe and fittings in conjunction with 2 in. x 12 in. solid wood joists, the maximum 6 Center Wall Riser with Center Room Main .-- -----)r I • 12' �'q3x 1•• Ger Max. - I 1 1b • WS. ` I . 0 11°s! t 4 t a 1� °r 2 Bri `.6, - , ` bit - M ,, I ta °f Rr� i `co rer lax t N O. t° 2' N 1 1 12 L ,� a ll nx t° i 12 er ` f 1 „ (vl rr'' t° 02j , io R d9a Rr7 �2. n ��. r �,g °f 5'1 Center Wall Riser with Main at Wall 1z N1ax ` t arp 1 Mak �i.� _ I � - Ge n 16 nM y ,,,,p 12 I - - �9' \1. r2x or , ' 2x er °f.R'7 - Er`' - - °f'11- toG i • ; S� p o rt j I - rrn9 Riser in Corner 12 n4t x. - 12, M - _ G© � ' _ ar, - • ' v � b ' fv1C1r r 314,. NO' r2 x 4 2 . 1r . •1 x t G° . b r a (1611° I • o 3x• - er • M I- te Jf R _ ' . 1, � . - Ga n ,09 6 1° . ii tr t 2 n �a c . tU vol. ° o m � dll Sip a, , Aff 1 D ` vi g 7— . t0 D I ax' •I' - F tl n 3 2 ' r� 0 . t° •' '' - ? se R' • r K 7 system working pressure under flowing conditions shall not exceed 100 psi and the maximum system working pressure under static (non - flowing) conditions shall not exceed 175 psi. 2. The distance from the floor to the bottom of the solid wood joists shall be between 7 ft and 8 ft. . 3. Listed residential pendent sprinklers with a maximum temperature rating of 155 and a minimum K- factor of 3.0 are to be used for this type of installation. The maximum sprinkler spacing shall not exceed 12 feet. The system is to be designed based upon the Listed flows for the sprinkler selected except that the flow for a single sprinkler flowing is to be not less than 10 gprn and the flow for multiple sprinklers flowing is to be not less than 8 gpm per sprinkler. The sprinklers are to be installed with their deflectors a maximum of 1 -3/4 in. below the bottom of the solid wood joists in anticipation of future installation of a finished ceiling. (reference I\ TPA. 13D, Section 4 -2.4, 1999 Edition) 4. All system mains shall be run perpendicular to the joists. All branch lines shall be run parallel to the joists. Schedule 80 fittings in the 1 -1/2 in. and larger sizes shall be used. 5. All solvent cement joints shall be made with Spears FS -5 One - Step Solvent Cement 6. When the total protected area exceeds 1,000 square feet, blocking shall be utilized to divide the area into individual compartments not exceeding 1,000 square feet. The maximum length along the joist shall not exceed 32 feet. When the length exceeds 32 feet, blocking ors.. --+ shall be utilized. The _ —�\ Ceiling blocking shall be , �,t 1 r� , " P.; ` T consn acted of r j . �` X A , minimum 1/2 in. e" , : ::-, -;.- - - plywood and shall be :— `R � ; ; _ . , the full depth of the �r wood joists. It is Joist A f' acceptable for items such 2 x 10 or 2 x 12 as piping, wires, ducts, etc. to penetrate the blocking. The gap between the item penetrating the blocking and the blocking should be minimized. For installations where the gap exceeds 1/4 ", the gap shall be filled with insulation, caulking, or other - suitable material. 7. When installing Harrel CPVC Fire Sprinkler Products perpendicular <.,. (system mains) to the solid wood joists, listed support devices for thermoplastic sprinkler piping or other listed support devices shall be used which mount the piping directly to the bottom of the solid wood joists. As an alternative to mourning the pipe and fittings below the solid wood joists, it is also acceptable to cut boles in the solid wood joists at or below the center of the depth of the solid wood joist for support— the holes should be oversized to allow for movement and located to not impair the structural integrity of the joists. 8 CAUTION: «lien drilling holes in the solid wood joists, the structural integrity must be maintained. Consult the Authority Having Jurisdiction ('1F lJ) or building code for requirements. 8. When installing Harvel CPVC Fire Sprinkler Products parallel (branch lines) to the solid wood joists, the pipe and fittings shall be installed in the cavity below the bottom of the ceiling and above the bottom of the joist. The branch lines shall be located at or below the center of the depth of the solid wood . joist. The pipe shall be installed utilizing listed support devices for thermoplastic sprinkler piping or other listed support devices which mount the piping directly to nominal 2 in. wood blocking or listed support devices for thermoplastic sprinkler piping which offset the pipe a nominal distance of 1 -1/2 in. from the solid wood joists. Branches Supported Branches Supported with Blocking with Hangers , , f , ,,!!'' ..: W‘I V: _ _ . _ :: -:: : , '., , pi �' . r. " :' i .� 1 ; , y ,. rx4: rr ,ri' 1 app t� x �� ,4 6t h i o � y ` kt hp j t.r U WI' , 1 -314" Max. ' 1 -314" Max. IV ! 1!J Use of Harvel CPVC Fire Sprinkler Products is limited to basements where the quantity and combustibility of contents is low and fires with relatively low rates of heat release are expected. For additional information regarding the assembly and installation of CPVC Fire Sprinkler Products, please refer to Harvel CPVC Fire Sprinkler Piping Products installation and design manual dated 6/01/01. Upright QuickResponse; Sprinklers HARVEL CPVC Fire Sprinkler Products are L-L. Listed for use with upright quick response sprinklers in NFPA 13, 13R, and 13D installations. The product is to be installed without protection (exposed) for use with these sprinklers when subject to the following (' limitations: • Exposed pipe shall be installed below a smooth flat horizontal - ceiling construction. • The system shall be installed with Listed Quick - Response • upright sprinklers having deflectors installed a maximum of 4' from the ceiling. The sprinkler heads shall have a maximum temperature rating of 155 9 • The maximum distance from the ceiling to the centerline of the main run of pipe shall be 7-1/2". • The distance from the centerline of a sprinkler head to a hanger shall be 3". • Rigid pipe hangers, secured to the ceiling, shall be utilized for this application. • Solvent cemented connections shall he assembled utilizing One- _ Step solvent cement (Spears FS -5) in strict accordance with 1- larvel s assembly instructions for the application of One -Step cement. I Extended Coverage Quick Response Sprinklers:.. In accordance with the LT Listing, Harvel CPVC Fire Sprinkler Products may be installed for use with Listed light hazard, Extended Coverage, Quick Response sprinklers without protection (exposed) in NFPA 13 Light Hazard, NFPA 13R and 13D installations when subject to the following additional limitations: 1. Exposed piping is to be installed below a smooth, flat, horizontal ceiling construction. 2. Listed pendent, light hazard, quick response, ex tended coverage sprinklers, 155' maximum temperature rating having deflectors installed within 8 in. from the ceiling and a maximum distance between sprinklers not to be less than 15 ft and not to exceed 20 ft with an application density of at least 0.10 gpun/sgft. 3. Listed pendent residential sprinklers, I 551F maximum temperature rating having deflectors installed within 8 in. from the ceiling and a maximum distance between sprinklers not to be less than 15 ft and not to exceed 20 ft with an application density of at least 0.10 gpm/sgft. 4. Listed horizontal sidewall, light hazard, quick response, extended coverage sprinklers, 165 maximum temperature rating having deflectors installed within 6 in. from the ceiling and within 4 in. from the sidewall and a maximum distance between sprinklers not to be less than 14 ft and not to exceed 18 ft with an application density of at least 0.10 gpm/sgft. 5. Listed horizontal sidewall residential sprinklers, 1651F maximum temperature rating having deflectors installed within 6 in. from the ceiling and within 4 in. from the sidewall and a maximum distance between sprinklers not to be less than 14 ft and not to exceed 18 ft with an application density of at least 0.10 gp n/sgft. 6. When using fittings in the 1 -1/2 in. and greater size only schedule 80 fittings may be used. 7. The end use application is limited to unobstructed construction. 8. All solvent cement joints shall be assembled utilizing One -Step Solvent Cement (Spears FS -5) in strict accordance with Harvel's assembly instructions for the application of One -Step cement. 10 .c ` :+r � a ., �' i- dy: $t ,t44 ; R><se . accorda0 �vithNFP -2 Y3D' and` L3.% � -� h .._ ia .a_ .r� �_ i ,�.�� .�; �a ..k- -.1,;. r.. < <: r... >=�i.a F URVEL CPVC FIRE SPRINKLER PIPING products may be r y ^ used as system risers in accordance with NFPA 13D and 13R when subject to the following additional limitations: ( r 1. When installed protected (concealed), the minimum protection shall consist of either one layer of 3/8 in. (9.5 mm) thick gypsum wallboard or 1/2 in. (12.7 mm) thick plywood. 2. When installed without protection (exposed), the following limitations shall apply: a. The riser shall be installed below a smooth, flat, horiz- ontal ceiling construction. A Listed residential pendent sprinkler is to be installed with its deflector at die distance from the ceiling specified in the sprinkler Listing. OR The riser shall be installed below a horizontal unfinished basement ceiling (in accordance with NFPA 13D) constructed utilizing nominal 2 in. x 10 in. or nominal 2 in. x 12 in. exposed solid wood joists on 16 in. centers. A Listed residential pendent sprinkler is to be installed with its deflector a maximum of 1 -3/4 in. below the bottom of the solid wood joist in anticipation of future installation of a finished ceiling. • When installing Harvel CPVC Fire Sprinkler Products in conjunction with 2 in. x 12 in. solid wood joists, the maximum system working pressure under flowing conditions shall not exceed 100 psi and the maximum system working pressure under static (nonflowing) conditions shall not exceed 175 psi. b. The Listed residential pendent sprinkler is to have a maximum temperature rating of 1 i 51F and a minimum K- factor of 3.0 and is to be installed at a maximum horizontal distance of 12 inches from the centerline of the riser. The system is to be designed based upon the Listed flows for the sprinkler selected except that the flow for a single sprinkler flowing is to be not less than 10 gpm and the flow for multiple sprinklers flowing is to he not less than 8 gpm per sprinkler. c. The riser shall he supported vertically within 2 feet of the ceiling or bottom of the joist. d. The minimum riser diameter shall be 1 in. and the maximum riser diameter shall be 2 in. e. The maximum distance between the wall(s) and the outside surface of the riser pipe shall be 1 -1/2 in. f. All solvent cement joints shall be made with Spears FS -5 One -Step Solvent Cement in strict accordance with Harvel's assembly instructions for the application of One-Step cement. g. These instructions are applicable only to UL Listed 11 • 9. Maintain vertical piping in straight alignment with supports at each floor level, or at 10 feet (3.05 in) intervals, whichever is less. 10. CPVC risers in vertical shafts or in buildings with ceilings over 25 feet (7.62 in), shall be aligned straightly and supported at each floor level, or at 10 feet (3.05 m) intervals, whichever is less. Ceara es perNFPA.13 Harvel CPVC Fire Sprinkler Products are UL Listed for use in 13R Garage systems with the following restrictions: • Protection shall be provided for Hanel CPVC sprinkler pipe and Fittings. The minimum protection shall consist of either one layer of 3/8" thick gypsum or 1/2' thick plywood. • Listed pendent or sidewall sprinklers with a maximum temperature rating of 1701T shall be utilized. All sprinklers shall be installed per the manufacturer's published installation instructions. • The system shall be installed per the requirements of NFPA 13R. • The CPVC pipe and fittings shall be installed per Harvel Plastics, Inc. CPVC Fire Sprinkler Piping Products Installation Instructions (IIFS -3 060101) NOTE: N'FPA 13D, Section 4-6, Exception Number 3 states: ."Sprinklers are not required: in garages, - open attached porches, - •carporrs,-and snmlar` structures:" -Since sprinklers are not required .in-- NFPA- 13D=garagcs these installations, do not fall within the:. _,scope of the Lit Listing _Howti sever, ;Harvel CPVC :Piping 'May be installed in:NTPA 13D' garages with the app - roval of tine local - authority - having jurisdicti'oin: r 13 BlazeMaster CPVC pipe and fittings, and require the use of Schedule 80 fittings for riser sizes 1 -1 /2 in. and larger. 3. The system shall be installed per the requirements of NTPA 13, Sections 6 -2.5 (1999 Edition), Support of Risers. 4. Harvel CPVC Fire Sprinkler Products shall be installed per Harvel CPVC Fire Sprinkler Piping Products installation and design manual. 5. Risers shall be supported by pipe clamps or by hangers located on the horizontal connection close to the riser. Only Listed hangers and clamps shall be used. 6. Vertical lines must be supported at intervals, described in 7 and 8 below, to avoid placing excessive load on a fitting at the lower end. Do this by using riser clamps or double bolt pipe clamps Listed for this service. The clamps must not exert compressive stresses on the pipe. If possible, the clamps should be located just below a fitting so that the shoulder of the fitting rests against the clamp. If necessary, a coupling can be modified and adhered to the pipe as a bearing support such that the shoulder of the fitting rests on the clamp. Follow Marvel's• recommended cure time. Recommended method for securing Harvel CPVC fire sprinkler pipe vertically — � / \ Modified / s . -S BlazeMaster !;) Coupling / Adhered - to Pipe Top View Cut Perpendicular to Seat 1 l l I i Cut , -- _ Sea I ! ' _ Seat Snug But _ i Not Tight Side View Place clamp below shoulder of fitting. WARNING: Modified riser collar shall only be used to provide support to the riser and shall not be used to join two pieces of pipe. 7. Do not use riser clamps that squeeze the pipe and depend on compression of the pipe to support the weight. 8. Hangers and straps shall not compress, distort, cut or abrade the piping and shall allow for free movement of the pipe to allow for thermal expansion and contraction. 12 • 9. Maintain vertical piping in straight alignment with supports at each tloor level, or at 10 feet (3.05 in) intervals, whichever is less. 10. CPVC risers in vertical shafts or in buildings with ceilings over 25 feet (7.62 rn), shall be aligned straightly and supported at each floor level, or at 10 feet (3.05 m) intervals, whichever is less. ('�araaes per 1V PAy13R ; Harvel CPVC Fire Sprinkler Products are UL Listed for use in 13R Garage systems with the following restrictions: • Protection shall be provided for Harvel CPVC, sprinkler pipe and fittings. The minimum protection shall consist of either one layer of 3/$" thick uvpsum or 1/2" thick plywood. • Listed pendent or side-wall sprinklers with a maximum temperature rating of l 70)F shall be utilized. All sprinklers shall be installed per the manufacturer's published installation instructions. • The system shall be installed per the requirements of NFPA 13R. • The CPVC pipe and fittings shall be installed per Harvel Plastics, Inc. CPVC Fire Sprinkler Piping Products Installation Instructions (IIFS -3 060101) NOTE: NFPA 13D, Section 4 -6, Exception Number 3 states: "Sprinklers are not required in garages, open attached porches, carports, and similar structures." Since sprinklers are not required in NFPA 13D garages, these installations do not fall within the scope of the TJL Listing. However, Harvel CPVC Fire Sprinkler Piping Products may be installed in NFPA 13D garages with the approval of the local authority having jurisdiction. r 13