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Specifications (7) `r ry �• FIRE SYSTEMS WEST, INC. 600 S.E. MARITIME AVENUE, SUITE 300 VANCOUVER, WA 98661 0/1)r% HYDRAULIC CALCULATIONS CITY OF TIGARD FOR Approved Conditionally Approved ( ). For only the work as described in: PERMIT NO. r)l'aoo a — o0•-a0 MARSHALS CANOPY $e: : :r to: Follow ( ): DRY SYSTEM Attach ... ): Jo. � : ab emu) �� „.� • FILE NUMBER: 1117846 By: I _ Date: I ( & DATE: OCT 24, 2002 - DESIGN DATA - OCCUPANCY CLASSIFICATION: LIGHT HAZARD DENSITY: 0.10 gpm /sq. ft. AREA OF APPLICATION: 710 sq. ft. COVERAGE PER SPRINKLER: 112 sq.- ft. • • • • . . • •••••• • NUMBER OF SPRINKLERS CALCULATED: 8 sprinklers • . • • • . • TOTAL SPRINKLER WATER FLOW REQUIRED: 138.5 • •• • � •.• •• • • • • •••• • • TOTAL WATER REQUIRED (including hose): 388.6 gpm • • • ••• •• •• • • • FLOW AND PRESSURE (@ SRC): 138.6 gpm @ 61.1 psi . • • .. .. • •••• • SPRINKLER ORIFICE SIZE: 5.6 inch • • �••••• • •• • • • • NAME OF CONTRACTOR: SD DEACON • •• • • •.•. DESIGN /LAYOUT BY: JASON SAMPSON AUTHORITY HAVING JURISDICTION: CITY OF TIGARD CONTRACTOR CERTIFICATION NUMBER: 49732 CALCULATIONS BY HASS COMPUTER PROGRAM (LICENSE # 50090582 ) HRS SYSTEMS, INC. TUCKER, GA 30084 !r CLUti4 OCT 3 0 2002 4 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 2 DATE:,10 /24/2002 H: \HASSDATA \1117846.SDF • JOB TITLE: MARSHALS • • • • ••••s• • • • • • • • • • • • • • •••• • • • • •••• •• • • • •••• • • •• •• • • • • ••• • • • • •• • • • • • • •• • •••• • • • • •••• • •... • •• • • • • • •• • • •••• • N SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 3 • 41 , DATE: i , 10 /24/2002 H: \HASSDATA \1117846.SDF JOB TITLE: MARSHALS • NODE ANALYSIS DATA NODE TAG ELEVATION NODE TYPE PRESSURE DISCHARGE (FT) (PSI) (GPM) 36 24.0 - - - - 43.2 - - - 37 24.0 - - - - 43.3 - - - 38 24.0 - - - - 43.3 - - - 39 24.0 - - - - 43.3 - - - 40 24.0 - - - - 43.4 - - 41 24.0 - - - - 43.5 - - - 42 20.0 - - - - 45.3 _. - - - -- - 43 20.0 - - - - 44.8 - - - 44 24.0 - - - - 43.1 - - - 45 24.0 - - - - 43.5 - - - 46 20.0 - - - - 45.3 - - - ° 47 20.0' - - - 45.0 .- - - 48 24.0 - - - - 43.3 - - - 49 24.0 • - - - - 43.6 - - - 50 20.0 - - - - 45.3 - - - 51 20.0 - - - - 45.1 - - - 52 24.0 - - - - 43.4 - - - 53 24.0 - - - - 43.6 - - - 54 20.0 - - - - 45.4 - - - 55 20.0 - - - - 45.3 - - - 56 24.0 - - - - 43.5 - - - 57 24.0 - - - - 43.7 - - - 58 20.0 - - - - 45.4 - - - • • • • 59 20.0 - - - - 45.4 - - - • 60 24.0 - - - - 43.7 - - - • ••• 61 24.0 - - - - 43.7 - - - • • 62 20.0 - - - - 45.5 - - - •••• • • • • 5555 63 20.0 - - - - 45.5 - - - •• • • • •••• • • 64 24.0 - - - - 43.8 - - - • • • ••• •• •• 65 24.0 - - - - 43.8 - - - • • • • • 66 20.0 - - - - 45.5 - - - • • • 67 20.0 - - - - 45.6 - - - ••••• • 68 24.0 - - - - 43.9 - - - •••• • 69 24.0 - - - - 43.8 - - - •• • • • • 70 20.0 - - - - 45.6 - - - • •• • • 71 20.0 - - - - 45.8 - - - 72 24.0 - - - - 44.0 - - - 73 24.0 - - - - 43.9 - - - 74 20.0 - - - - 45.6 - - - 75 20.0 - - - - 45.9 - - - 76 24.0 - - - - 44.2 - - - 77 24.0 - - - - 44.0 - - - 78 20.0 - - - - 45.7 - - - 79 20.0 .. - - - - 46.1 - - - 80 24.0 - - - - 44.3 - - - 81 24.0 - - - - 44.0 - - - 82 20.0 - - - - 45.7 - - - 83 20.0 - - - - 46.4 - - - _ SRC 0.5 SOURCE 61.1 138.6 85 20.0 - - - - 46.4 - - - 86 24.0 - - - - 44.6 - - - 87 24.0 - - - - 44.0 - - - 88 20.0 - - - - 45.7 - - - q SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 4 4 DATE: 10/24/2002 H: \HASSDATA \1117846.SDF JOB TITLE: MARSHALS ^ NODE ANALYSIS DATA NODE TAG ELEVATION NODE TYPE PRESSURE DISCHARGE (FT) (PSI) (GPM) 89 20.0 - - - - 46.4 - - - 90 24.0 - - - - 44.6 - - - 91 24.0 - - - - . 44.1 - - - 92 20.0 - - - - 45.7 - - - 93 20.0 - - - - 46.4 - - - 94 24.0 - - - - 44.6 - - - 95 24.0 - - - - __44.1 - - - - 96 20.0 - - - - 45.8 - - - 97 20.0 - - - - 46.4 - - - 98 24.0 - - - - 44.6 - - - 99 24.0 - - - - 44.1 - - - 100 20.0 - - - - 45.8 . - - - RT 20.0 - - 46.8 - - - RH 2.0 . - - - - 55.1 - - - A 2.0 - - - - 55.1 - - - B 2.0 - - - - 60.1 - - - 001 29.4 K= 5.60 8.8 16.6 002 29.4 K= 5.60 9.9 17.6 003 29.4 - - - - 10.3 - - - 004 25.9 - - - - 12.6 - - - 005 35.4 K= 5.60 7.2 15.0 006 35.4 K= 5.60 8.0 15.9 007 35.4 - - - - 8.4 - - - ••••• 008 25.9 - - - - 14.0 - - - 009 35.4 K= 5.60 8.6 16.4 . • • • • • 010 35.4 K= 5.60 9.6 17.3 • 011 35.4 - - - - 10.1 - - - • .�•� • • ••• • •••• 012 25.8 - - - - 16.0 - - - • •. • • 013 25.8 - - - - 17.8 - - - 014 29.4 K= 5.60 11.9 19.3 • • • •" 015 29.4 K= 5.60 13.2 20.4 • • • 016 29.4 - - - - 13.8 - - - •• •• • 017 25.8 - - - - 16.7 - - - '....• • 018 25.8 - - - - 18.4 - - - •••• 019 3.4 - - - - 32.6 - - - • `••• • • 020 2.5 - - - - 36.4 . - - - 021 20.0 - - - - 34.0 - - - 022 20.0 - - - - 36.2 - - - 023 20.0 - - - - 44.8 - - - ' SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 5 (1 DATE: 10/24/2002 H: \HASSDATA \1117846.SDF 'JOB TITLE: MARSHALS " PIPE DATA. PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) FL /FT (PSI) Pipe: 1 -5.3 1.380 PL 4.00 PF 0.0 1 20.0 0.0 44.8 0.0 1.1 120 FTG T PE -1.7 2 24.0 0.0 43.1 0.0 0.003 TL 10.00 PV Pipe: 2 -5.3 1.380 PL 55.00 PF 0.2 2 24.0 0.0 43.1 0.0 1.1 120 FTG E PE 0.0 3 24.0 0.0 43.2 0.0 0.003 TL 58.00 PV Pipe: 3 -5.3 1.380 PL 10.00 PF 0.0 3 24.0 0.0 43.2 0.0 1.1 120 FTG - - -- PE 0.0 4 24.0 0.0 43.3 0.0 • 0.003 TL 10.00 PV Pipe: 4 -5.3 1.380 PL 10.00 PF 0.0 4 24.0 0.0 43.3 0.0 1.1 120 FTG - - -- PE .0.0 5 24.0 0.0 43.3 0.0 0.003 TL 10.00 PV Pipe: 5 -5.3 1.380 PL 10.00 PF 0.0 5 24.0 0.0 43.3 0.0 1.1 120 FTG - - -- PE 0.0 6 24.0 0.0 43.3 0.0 0.003 TL 10.00 PV Pipe: 6 -5.3 1.380 PL 10.00 PF 0.0 • • • 6 24.0 0.0 43.3 0.0 1.1 120 FTG - - -- PE ..Q.It • 7 24.0 0.0 43.4 0.0 0.003 TL 10.00 PV • • • • Pipe: 7 -5.3 1.380 PL 10.00 PF • • Q. • 0 • ••• 7 24.0 0.0 43.4 0.0 1.1 120 FTG - - -- PE 4).12. •••••• 8 24.0 0.0 43.4 0.0 0.003 TL 10.00 PV •••• • • • • • ••• • • • Pipe: 8 -5.3 1.380 PL 10.00 PF ••a•.•4 • 8 24.0 0.0 43.4 0.0 1.1 120 FTG - - -- PE * • •••• 9 24.0 0.0 43.4 0.0 0.003 TL 10.00 PV . •••••• • •••• • •• • Pipe: 9 -5.3 1.380 PL 25.00 PF 0.1 : • 9 24.0 0.0 43.4 0.0 1.1 120 FTG E PE 0.0 •••• 10 24.0 0.0 43.5 0.0 0.003 TL 28.00 PV Pipe: 10 -5.3 1.380 PL 4.00 PF 0.0 10 24.0 0.0 43.5 0.0 1.1 120 FTG T PE 1.7 11 20.0 0.0 45.3 0.0 0.003 TL 10.00 PV Pipe: 11 -5.3 3.260 PL 12.00 PF 0.0 12 20.0 0.0 44.8 0.0 0.2 120 FTG - - -- PE 0.0 1 20.0 0.0 44.8 0.0 0.000 TL 12.00 PV Pipe: 12 -5.3 1.380 PL 4.00 PF 0.0 12 20.0 0.0 44.8 0.0 1.1 120 FTG N PE -1.7 13 24.0 0.0 43.1 0.0 0.003 TL 10.00 PV Pipe: 13 -5.3 1.380 PL 55.00 PF 0.2 13 24.0 0.0 43.1 0.0 1.1 120 FTG E PE 0.0 14 24.0 0.0 43.2 0.0 0.003 TL 58.00 PV SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 6 II ' +DATE: 10/24/2002 H: \HASSDATA \1117846.SDF 'JOB TITLE: MARSHALS PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) FL /FT (PSI) Pipe: 14 -5.3 1.380 PL 10.00 PF 0.0 14 24.0 0.0 43.2 0.0 1.1 120 FTG - - -- PE 0.0 15 24.0 0.0 43.3 0.0 0.003 TL 10.00 PV Pipe: 15 -5.3 1.380 PL 10.00 PF 0.0 15 24.0 0.0 43.3 0.0 1.1 120 FTG - - -- PE 0.0 16 24.0 0.0 43.3 0.0 0.003 TL 10.00 PV Pipe: 16 -5.3 1.380 PL 10.00 PF 0.0 16 24.0 0.0 43.3 0.0 1.1 120 FTG - - -- PE 0.0 17 24.0 0.0 43.3 0.0 0.003 TL 10.00 PV Pipe: 17 - -5.3' 1.380 PL 10.00 PF 0.0 17 24.0 0.0 43.3 0.0 1.1 120 FTG - - -- PE 0.0 18 24.0 0.0 43.4 0.0 0.003 TL 10.00 PV Pipe: 18 -5.3 1.380 PL 10.00 PF 0.0 18 24.0 0.0 43.4 0.0 1.1 120 FTG - - -- PE 0.0 19 24.0 0.0 43.4 0.0 0.003 TL 10.00 PV Pipe: 19 -5.3 1.380 PL 10.00 PF 0.0 19 24.0 0.0 43.4 0.0 1.1 120 FTG - - -- PE 0.0 20 24.0 0.0 43.4 0.0 0.003 TL 10.00 PV ••••• • . : • • Pipe: 20 -5.3 1.380 PL 25.00 PF 0.16 • • 20 24.0 0.0 43.4 0.0 1.1 120 FTG E PE i•Otei • • 21 24.0 0.0 43.5 0.0 0.003 TL 28.00 PV • • • Pipe: 21 -5.3 1.380 PL 4.00 PF .. 0. D •••• • • 21 24.0 0.0 43.5 0.0 1.1 120 FTG N PE •.i.O :': • • • 22 20.0 0.0 45.3 0.0 0.003 TL 10.00 PV •• .. ., . •••• Pipe: 22 5.3 2.635 PL 12.00 PF :'e'.t: ' 22 20.0 0.0 45.3 0.0 0.3 120 FTG - - -- PE '0'.13 •• • • 11 20.0 0.0 45.3 0.0 0.000 TL 12.00 PV • .... Pipe: 23 -10.5 3.260 PL 12.00 PF 0.0 23 . 20.0 0.0 44.8 0.0 0.4 120 FTG - - -- PE 0.0 12 20.0 0.0 44.8 0.0 0.000 TL 12.00 PV Pipe: 24 -5.3 1.380 PL 4.00 PF 0.0 23 20.0 0.0 44.8 0.0 1.1 120 FTG N PE -1.7 24 24.0 0.0 43.1 0.0 0.003 TL 10.00 PV Pipe: 25 -5.3 1.380 PL 55.00 PF 0.2 24 24.0 0.0 43.1 0.0 1.1 120 FTG E PE 0.0 25 24.0 0.0 43.2 0.0 0.003 TL 58.00 PV Pipe: 26 -5.3 1.380 PL 10.00 PF 0.0 25 24.0 0.0 43.2 0.0 1.1 120 FTG - - -- PE 0.0 . 26 24.0 0.0 43.3 0.0 0.003 TL 10.00 PV ' SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 7 �'DATE:� 10/24/2002 H: \HASSDATA \1117846.SDF 'JOB T ° 2TLE: MARSHALS PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) FL /FT (PSI) Pipe: 27 -5.3 1.380 PL 10.00 PF 0.0 26 24.0 0.0 43.3 0.0 1.1 120 FTG - - -- PE 0.0 27 24.0 0.0 43.3 0.0 0.003 TL 10.00 PV • Pipe: 28 -5.3 1.380 PL 10.00 PF 0.0 27 24.0 0.0 43.3 0.0 1.1 120 FTG - - -- PE 0.0 28 24.0 0.0 43.3 0.0 0.003 TL 10.00 PV Pipe: 29 -5.3 1.380 PL 10.00 PF 0.0 28 24.0 0.0 43.3 0.0 1.1 120 FTG - - -- PE 0.0 29 24.0 0.0 43.4 0.0 0.003 TL 10.00 PV Pipe: 30 -5.3 1.380 PL 10.00 PF 0.0 29 24.0 0.0 43.4 0.0 1.1 120 FTG - - -- PE 0.0 30 24.0 0.0 43.4 0.0 0.003 TL 10.00 PV Pipe: 31 -5.3 1.380 PL 10.00 PF 0.0 30 24.0 0.0 43.4 0.0 1.1 120 FTG - - -- PE 0.0 31 24.0 0.0 43.4 0.0 0.003 TL 10.00 PV Pipe: 32 -5.3 1.380 PL 25.00 PF 0.1 31 24.0 0.0 43.4 0.0 1.1 120 FTG E PE 0.0 32 24.0 0.0 - 43.5 0.0 0.003 TL 28.00 PV • Pipe: 33 -5.3 1.380 PL 4.00 PF 0.0' • • 32 24.0 0.0 43.5 0.0 1.1 120 FTG N PE :d•..7.: . 33 20.0 0.0 45.3 0.0 0.003 TL 10.00 PV • . • •••• . • • •••• •• • • . Pipe: 34 10.5 2.635 PL 12.00 PF .4,4 "" • • 33 20.0 0.0 45.3 0.0 0.6 120 FTG - - -- PE .d.0' .' 22 20.0 0.0 45.3 0.0 0.000 TL 12.00 PV •• • • • •• •• . •••• Pipe: 35 -15.8 3.260 PL 12.00 PF :17'0; •••,.• 34 20.0 0.0 44.8 0.0 0.6 120 FTG - - -- PE 17!0 •• • • 23 20.0 0.0 44.8 0.0 0.000 TL 12.00 PV • '..' • • Pipe: 36 -5.4 1.380 PL 4.00 PF 0.0 34 20.0 0.0 44.8 0.0 1.2 120 FTG N PE -1.7 35 24.0 0.0 43.1 0.0 0.003 TL 10.00 PV Pipe: 37 -5.4 1.380 PL 55.00 PF 0.2 35 24.0 0.0 43.1 0.0 1.2 120 FTG E PE 0.0 36 24.0 0.0 43.2 0.0 0.003 TL 58.00 PV Pipe: 38 -5.4 1.380• PL 10.00 PF 0.0 36 24.0 0.0 43.2 0.0 1.2 120 FTG - - -- PE 0.0 37 24.0 0.0 43.3 0.0 0.003 TL 10.00 PV Pipe: 39 -5.4 1.380 PL 10.00 PF 0.0 37 24.0 0.0 43.3 0.0 1.2 120 FTG - - -- PE 0.0 38 24.0 0.0 43.3 0.0 0.003 TL 10.00 PV • SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 8 , ''DOTE: 10/24/2002 H: \HASSDATA \1117846.SDF 'JOB TITLE: MARSHALS PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) FL /FT (PSI) Pipe: 40 -5.4 1.380 PL 10.00 PF 0.0 38 24.0 0.0 43.3 0.0 1.2 120 FTG - - -- PE 0.0 39 24.0 0.0 43.3 0.0 0.003 TL 10.00 PV Pipe: 41 -5.4 1.380 PL 10.00 PF 0.0 39 24.0 0.0 43.3 0.0 1.2 120 FTG - - -- PE 0.0 40 24.0 0.0 43.4 0.0 0.003 TL 10.00 PV Pipe: 42 -5.4 1.380 PL 45.00 PF 0.1 40 24.0 0.0 43.4 0.0 1.2 120 FTG E PE 0.0 41 24.0 0.0 43.5 0.0 0.003 TL 48.00 PV • Pipe: 43 -5.4 1.380 PL 4'.00 PF 0.0 41 24.0 0.0 43.5 0.0 1.2 120 FTG N PE 1.7 42 20.0 0.0 45.3 " 0.0 0.003 TL 10.00 PV Pipe: 44 15.8 2.635 PL 12.00 PF 0.0 42 20.0 0.0 45.3 0.0 0.9 120 FTG - - -- PE 0.0 33 20.0 0.0 45.3 0.0 0.001 TL 12.00 PV Pipe: 46 -5.0 1.380 PL 4.00 PF 0.0 43 20.0 0.0 44.8 0.0 1.1 120 FTG N PE -1.7 44 24.0 0.0 43.1 0.0 0.003 TL 10.00 PV . . • Pipe: 47 -5.0 1.380 PL 140.00 PF •0 . •�• 44 24.0 0.0 43.1 0.0 1.1 120 FTG 2E PE ;9!0: • 45 24.0 0.0 43.5 0.0 0.003 TL 146.00 -PV .... • •.• 4 • • ••.• •• • • • • Pipe: 48 -5.0 1.380 PL 4.00 PF •0,4(k •••• • • 45 24.0 0.0 43.5 0.0 1.1 120 FTG N PE •A.Z' •• r: • •• • • 46 20.0 0.0 45.3 0.0 0.003 TL 10.00 PV • • •• •• • •••• Pipe: 49 21.2 2.635 PL 12.00 PF :t'.'tT • 46 20.0 0.0 45.3 0.0 1.2 120 FTG - - -- PE Ind •• • • • 42 20.0 0.0 45.3 0.0 0.002 TL 12.00 PV • •••• Pipe: 50 112.2 3.260 PL 12.00 PF 0.2 47 . 20.0 0.0 45.0 0.0 4.3 120 FTG - - -- PE 0.0 43 20.0 0.0 44.8 0.0 0.013 TL 12.00 PV Pipe: 51 -4.2 1.380 PL 4.00 PF 0.0 47 20.0 0.0 45.0 0.0 0.9 120 FTG N PE -1.7 48 24.0 0.0 43.3 0.0 0.002 TL 10.00 PV Pipe: 52 -4.2 1.380 PL 140.00 PF 0.3 48 24.0 0.0 43.3 0.0 0.9 120 FTG 2E PE 0.0 49 24.0 0.0 43.6 0.0 0.002 TL 146.00 PV Pipe: 53 -4.2 1.380 PL 4.00 PF 0.0 49 24.0 0.0 43.6 0.0 0.9 120 FTG N PE 1.7 50 20.0 0.0 45.3 0.0 0.002 TL 10.00 PV ' SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 9 1DATE: /24/2002 H: \HASSDATA \1117846.SDF 50B TITLE: MARSHALS (' PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) FL /FT (PSI) Pipe: 54 26.3 2.635 PL 12.00 PF 0.0 50 20.0 0.0 45.3 0.0 1.5 120 FTG - - -- PE 0.0 46 20.0 0.0 45.3 0.0 0.002 TL 12.00 PV Pipe: 55 108.0 3.260 PL 12.00 PF 0.1 51 20.0 0.0 45.1 0.0 4.2 120 FTG - - -- PE 0.0 47 20.0 0.0 45.0 0.0 0.012 TL 12.00 PV Pipe: 56 -3.4 1.380 PL 4.00 PF 0.0 51 20.0 0.0 45.1 0.0 0.7 120 FTG N PE -1.7 52 24.0 0.0 43.4 0.0 0.001 TL 10.00 PV Pipe: 57' -3.4 1.380 PL 140.00 PF 0.2 52 24.0 0.0 43.4 0.0 0.7 120 FTG 2E PE 0.0 53 24.0 0.0 43.6 0.0 0.001 TL 146.00 PV Pipe: 58 -3.4 1.380 PL 4.00 PF 0.0 53 24.0 0.0 43.6 0.0 0.7 120 FTG N PE 1.7 54 20.0 0.0 45.4 0.0 0.001 TL 10.00 PV Pipe: 59 30.5 2.635 PL 12.00 PF 0.0 54 20.0 0.0 45.4 0.0 1.8 120 FTG - - -- PE 0.0 50 20.0 0.0 45.3 0.0 0.003 TL 12.00 PV • Pipe: 60 104.6 3.260 PL 12.00 PF 0.1 ' • • 55 20.0 0.0 45.3 0.0 4.0 120 FTG - - -- PE $•0.: • • • 51 20.0 0.0 45.1 0.0 0.011 TL 12.00 PV • • • .••• • • • • •••• . . Pipe: 61 -2.6 1.380 PL 4.00 PF A.Q. ••.• ..'..' 55 20.0 0.0 45.3 0.0 0.6 120 FTG N PE - :.' . 56 24.0 0.0 43.5 0.0 0.001 TL 10.00 PV • •••• Pipe: 62 -2.6 1.380 PL 140.00 PF ,O'i•; •••••• • 56 24.0 0.0 43.5 0.0 0.6 120 FTG 2E PE U.'0' •• • • 57 24.0 0.0 43.7 0.0 0.001 TL 146.00 PV • '..' • . •••• Pipe: 63 -2.6 1.380 PL 4.00 PF 0.0 57 24.0 0.0 43.7 0.0 0.6 120 FTG N PE 1.7 58 20.0 0.0 45.4 0.0 0.001 TL 10.00 PV Pipe: 64 33.9 2.635 PL 12.00 PF 0.0 58 20.0 0.0 45.4 0.0 2.0 120 FTG - - -- PE 0.0 54 20.0 0.0 45.4 0.0 0.004 TL 12.00 PV Pipe: 65 102.0 3.260 PL 12.00 PF 0.1 59 20.0 0.0 45.4 0.0 3.9 120 FTG - - -- PE 0.0 55 20.0 0.0 45.3 0.0 • 0.011 TL 12.00 PV Pipe: 66 -1.7 1.380 PL 4.00 PF 0.0 59 20.0 0.0 45.4 0.0 0.4 120 FTG N PE -1.7 60 24.0 0.0 43.7 0.0 0.000 TL 10.00 PV . SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 10 'DATE: 10/24/2002 H: \HASSDATA \1117846.SDF 'JOB TITLE: MARSHALS PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. . END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) FL /FT (PSI) Pipe: 67 -1.7 1.380 PL 140.00 PF 0.1 60 24.0 0.0 43.7 0.0 0.4 120 FTG 2E PE 0.0 61 24.0 0.0 43.7 0.0 0.000 TL 146.00 PV Pipe: 68 -1.7 1.380 PL 4.00 PF 0.0 61 24.0 0.0 43.7 0.0 0.4 120 FTG N PE 1.7 62 20.0 0.0 45.5 0.0 0.000 TL 10.00 PV Pipe: 69 36.6 2.635 PL 12.00 PF 0.1 62 20.0 0.0 45.5 0.0 2.2 120 FTG - - -- PE 0.0 58 20.0 0.0 45.4 0.0 0.004 TL 12.00 PV Pipe: 70 100.3 3.260 PL 12.00 PF 0.1 63 20.0 0.0 45.5 0.0 3.9 120 FTG - - -- PE 0.0 59 20.0 0.0 45.4 0.0 0.010 TL 12.00 PV Pipe: 71 0.5 1.380 PL 4.00 PF 0.0 63 20.0 0.0 45.5 0.0 0.1 120 FTG N PE -1.7 64 24.0 0.0 43.8 0.0 0.000 TL 10.00 PV Pipe: 72 0.5 1.380 PL 140.00 PF 0.0 64 24.0 0.0 43.8 0.0 0.1 120 FTG 2E PE 0.0 65 24.0 0.0 43.8 0.0 0.000 TL 146.00 PV • • • • Pipe: 73 0.5 1.380 PL 4.00 PF .0.0 • 65 24.0 0.0 43.8 0.0 0.1 120 FTG N PE ;2■9 • 66 20.0 0.0 45.5 0.0 0.000 TL 10.00 PV •... • •.• • • • •••• Pipe: 74 38.2 2.635 PL 12.00 PF •9•4.• ••••• •••••• 66 20.0 0.0 45.5 0.0 2.2 120 FTG - - -- PE •eto-• • • ••• • •• • • 62 20.0 0.0 45.5 0.0 0.005 TL 12.00 PV . . •• •• • Pipe: 75 100.8 3.260 PL 12.00 PF :b: • 67 20.0 0.0 45.6 0.0 3.9 120 FTG - - -- PE bit• •• • • • 63 20.0 0.0 45.5 0.0 0.010 TL 12.00 PV • •• • • • Pipe: 76 1.9 1.380 PL 4.00 PF 0.0 67 • 20.0 0.0 45.6 0.0 0.4 120 FTG N PE -1.7 68 24.0 0.0 43.9 0.0 0.000 TL 10.00 PV Pipe: 77 1.9 1.380 PL 140.00 PF 0.1 68 24.0 0.0 43.9 0.0 0.4 120 FTG 2E PE 0.0 69 24.0 0.0 43.8 0.0 0.000 TL 146.00 PV Pipe: 78 1.9 1.380 PL 4.00 PF 0.0 69 24.0 0.0 43.8 0.0 0.4 120 FTG N PE 1.7 70 20.0 0.0 45.6 0.0 0.000 TL 10.00 PV Pipe: 79 37.7 2.635 PL 12.00 PF 0.1 70 20.0 0.0 45.6 0.0 2.2 120 FTG - - -- PE 0.0 66 20.0 0.0 45.5 0.0 0.005 TL 12.00 PV ' SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 11 DATE: 10/24/2002 H: \HASSDATA \1117846.SDF 'JOB T±TLE: MARSHALS PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) FL /FT (PSI) Pipe: 80 102.7 3.260 PL 12.00 PF 0.1 71 20.0 0.0 45.8 0.0 3.9 120 FTG - - -- PE 0.0 67 20.0 0.0 45.6 0.0 0.011 TL 12.00 PV Pipe: 81 2.8 1.380 PL 4.00 PF 0.0 71 20.0 0.0 45.8 0.0 0.6 120 FTG N PE -1.7 72 24.0 0.0 44.0 0.0 0.001 TL 10.00 PV Pipe: 82 2.8 1.380 PL 140.00 PF 0.1 72 24.0 0.0 44.0 0.0 0.6 120 FTG 2E PE 0.0 73 24.0 0.0 43.9 0.0 0.001 TL 146.00 PV Pipe: 83 2.8 1.380 PL 4.00 PF 0.0' 73 24.0 0.0 43.9 0.0 0.6 120 FTG N PE 1.7 74 20.0 0.0 45.6 0.0 0.001 TL 10.00 PV Pipe: 84 35.8 2.635 PL 12.00 PF 0.1 74 20.0 0.0 45.6 0.0 2.1 120 FTG - - -- PE 0.0 70 20.0 0.0 45.6 0.0 0.004 TL 12.00 PV Pipe: 85 105.5 3.260 PL 12.00 PF 0.1 75 20.0 0.0 45.9 0.0 4.1 120 FTG - - -- PE 0.0 71 20.0 0.0 45.8 0.0 0.011 TL 12.00 PV • • • • • Pipe: 86 3.6 1.380 PL 4.00 PF 0.0 . • • 75 20.0 0.0 45.9 0.0 0.8 120 FTG N PE ir ?•: • 76 24.0 0.0 44.2 0.0 0.001 TL 10.00 PV • • • Pipe: 87 3.6 1.380 PL 140.00 PF 4.2. •••• ..• • 76 24.0 0.0 44.2 0.0 0.8 120 FTG 2E PE . Q. •• : • • 77 24.0 0.0 44.0 0.0 0.001 TL 146.00 PV •••••• ▪ • • • . Pipe: 88 3.6 1.380 PL 4.00 PF ,0'0•; •••• •• • 77 24.0 0.0 44.0 0.0 0.8 120 FTG N PE t / •• • 78 20.0 0.0 45.7 0.0 0.001 TL 10.00 PV • •••• • • •••• Pipe: 89 33.0 2.635 PL 12.00 PF 0.0 78 20.0 0.0 45.7 0.0 1.9 120 FTG - - -- PE 0.0 74 20.0 0.0 45.6 0.0 0.004 TL 12.00 PV Pipe: 90 109.1 3.260 PL 12.00 PF 0.1 79 20.0 0.0 46.1 0.0 4.2 120 FTG - - -- PE 0.0 75 20.0 0.0 45.9 0.0 0.012 TL 12.00 PV Pipe: 91 4.4 1.380 PL 4.00 PF 0.0 79 20.0 0.0 46.1 0.0 0.9 120 FTG N PE -1.7 80 24.0 0.0 44.3 0.0 0.002 TL 10.00 PV Pipe: 92 4.4 1.380 PL 140.00 PF 0.3 80 24.0 0.0 44.3 0.0 0.9 120 FTG 2E PE 0.0 81 24.0 0.0 44.0 0.0 0.002 TL 146.00 PV SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 12 'DATE:'10 /24/2002 H: \HASSDATA \1117846.SDF JOB.TITLE: MARSHALS • PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) FL /FT (PSI) Pipe: 93 4.4 1.380 PL 4.00 PF 0.0 81 24.0 0.0 44.0 . 0.0 0.9 120 FTG N PE 1.7 82 20.0 0.0 45.7 0.0 0.002 TL 10.00 PV Pipe: 94 29.4 2.635 PL 12.00 PF 0.0 82 20.0 0.0 45.7 0.0 1.7 120 FTG - - -- PE 0.0 78 20.0 0.0 45.7 0.0 0.003 TL 12.00 PV Pipe: 95 113.5 3.260 PL 9.00 PF 0.4 83 20.0 0.0 46.4 0.0 4.4 120 FTG T PE 0.0 79 20.0 0.0 46.1 0.0 0.013 TL 29.16 PV Pipe: 96 -25.0 3:260 PL 3.00 PF 0.0 85 20.0 0.0 46.4 0.0 1.0 120 FTG T PE 0.0 83 20.0 0.0 46.4 0.0 0.001 TL 23.16 PV Pipe: 97 6.4 1.380 PL 4.00 PF 0.0 85 20.0 0.0 46.4 0.0 1.4 120 FTG N PE -1.7 86 24.0 0.0 44.6 0.0 0.004 TL 10.00 PV Pipe: 98 6.4 1.380 PL 140.00 PF 0.6 86 24.0 0.0 44.6 0.0 1.4 120 FTG 2E PE 0.0 87 24.0 0.0 44.0 0.0 0.004 TL 146.00 PV • • Pipe: 99 6.4 1.380 PL 4.00 PF 0.0 • • • 87 24.0 0.0 44.0 0.0 1.4 120 FTG N PE I..Z.: • • 88 20.0 0.0 45.7 0.0 0.004 TL 10.00 PV • • • •••• • • • • .... •• • • Pipe: 100 25.0 2.635 PL 12.00 PF 41.Q. •••• ..• 88 20.0 0.0 45.7 0.0 1.5 120 FTG - - -- PE 411:(3.* .• :: . 82 20.0 0.0 45.7 0.0 0.002 TL 12.00 PV •• • • • . •• •• • Pipe: 101 -18.6 3.260 PL 12.00 PF ;(!t®•; .7..6 . 89 20.0 0.0 46.4 0.0 0.7 120 FTG - - -- PE 0"0• •• • • 85 20.0 0.0 46.4 0.0 0.000 TL 12.00 PV • '..• • • •••• Pipe: 102 6.2 1.380 PL 4.00 PF 0.0 89 20.0 0.0 46.4 0.0 1.3 120 FTG N PE -1.7 90 24.0 0.0 44.6 0.0 0.004 TL 10.00 PV Pipe: 103 6.2 1.380 PL 140.00 PF 0.6 90 24.0 0.0 44.6 0.0 1.3 120 FTG 2E PE 0.0 91 24.0 0.0 44.1 0.0 0.004 TL 146.00 PV Pipe: 104 6.2 1.380 PL 4.00 PF 0.0 91 24.0 0.0 44.1 0.0 1.3 120 FTG N PE 1.7 92 20.0 0.0 45.7 0.0 0.004 TL 10.00 PV Pipe: 105 18.6 2.635 PL 12.00 PF 0.0 92 20.0 0.0 45.7 0.0 1.1 120 FTG - - -- PE 0.0 . 88 20.0 0.0 45.7 0.0 0.001 TL 12.00 PV SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 13 DATE: 10/24/2002 H: \HASSDATA \1117846.SDF 'JOB TITLE: MARSHALS . PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) FL /FT (PSI) Pipe: 106 -12.4 3.260 PL 12.00 PF 0.0 93 20.0 0.0 46.4 0.0 0.5 120 FTG - - -- PE 0.0 89 20.0 0.0 46.4 0.0 0.000 TL 12.00 PV Pipe: 107 6.2 1.380 PL 4.00 PF 0.0 93 20.0 0.0 46.4 0.0 1.3 120 FTG N PE -1.7 94 24.0 0.0 44.6 0.0 0.004 TL .10.00 PV Pipe: 108 6.2 1.380 PL 140.00 PF 0.6 94 24.0 0.0 44.6 0.0 1.3 120 FTG 2E PE 0.0 95 24.0 0.0 44.1 0.0 0.004 TL 146.00 PV Pipe: 109 6.2 1.380 PL 4.00 PF 0.0 95 24.0 0.0 44.1 0.0 1.3 120 FTG N PE 1.7 96 20.0 0.0 45.8 0.0 0.004 TL 10.00 PV Pipe: 110 12.4 2.635 PL 12.00 PF 0.0 96 20.0 0.0 45.8 0.0 0.7 120 FTG - - -- PE 0.0 92 20.0 0.0 45.7 0.0 0.001 TL 12.00 PV Pipe: 111 -6.2 3.260 PL 12.00 PF 0.0 97 20.0 0.0' 46.4 0.0 0.2 120 FTG - - -- PE 0.0 93 20.0 0.0 46.4 0.0 0.000 TL 12.00 PV • • • • Pipe: 112 6.2 1.380 PL 4.00 PF 0.0 • • • • • • 97 20.0 0.0 46.4 0.0 1.3 120 FTG T PE ;r!9•: • 98 - 24.0 0.0 44.6 0.0 0.004 TL 10.00 PV •••• • '.' • • • •••• Pipe: 113 6.2 1.380 PL 140.00 PF .1.6. •••• •.•••' 98 24.0 0.0 44.6 0.0 1.3 120 FTG 2E PE 0}4 •. V: 99 24.0 0.0 44.1 0.0 0.004 TL 146.00 PV • • • Pipe: 114 6.2 1.380 PL 4.00 PF .O'D': '....' . 99 24.0 0.0 44.1 0.0 1.3 120 FTG T PE t!"1' •. • • 100 20.0 0.0 45.8 0.0 0.004 TL 10.00 PV • Pipe: 115 6.2 2.635 PL 12.00 PF 0.0 100 . 20.0 0.0 45.8 0.0 0.4 120 FTG - - -- PE 0.0 96 20.0 0.0 45.8 0.0 0.000 TL 12.00 PV Pipe: 116 -138.5 4.026 PL 45.00 PF 0.4 83 20.0 0.0 46.4 0.0 3.5 120 FTG E PE 0.0 RT 20.0 0.0 46.8 0.0 0.007 TL 55.00 PV Pipe: 117 -138.5 4.026 PL 18.00 PF 0.5 RT 20.0 0.0 46.8 0.0 3.5 120 FTG TBA PE 7.8 RH 2.0 0.0 55.1 0.0 0.007 TL 70.00 PV Pipe: 118 -138.5 4.026 PL 5.00 PF 0.0 RH 2.0 0.0 55.1 0.0 3.5 120 FTG - - -- PE 0.0 A 2.0 0.0 55.1 0.0 0.007 TL 5.00 PV a .SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 14 'DATE: 10/24/2002 H: \HASSDATA \1117846.SDF "JOB TITLE: MARSHALS PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. . END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) FL /FT (PSI) Pipe: 119 FIXED PRESSURE LOSS DEVICE B 2.0 0.0 60.1 0.0 5.0 psi, 138.5 gpm A 2.0 0.0 55.1 0.0 Pipe: 120 -138.6 4.026 PL 36.00 PF 0.3 B 2.0 0.0 60.1 0.0 3.5 120 FTG E PE 0.6 SRC 0.5 SRCE 61.1 (N /A) 0.007 TL 46.00 PV Pipe: 121 -16.6 1.049 PL 8.00 PF 1.0 001 29.4 5.6 8.8 16.6 6.2 100 FTG - - -- PE 0.0 002 29.4 5.6 9.9 17.6 0.130 TL 8.00 PV Pipe: 122 -34.2 1.380 PL 1.62 PF 0.5 002 29.4 5.6 9.9 17.6 7.3 100 FTG E PE 0.0 003 29.4 0.0 10.3 0.0 0.129 TL 3.76 PV Pipe: 123 -34.2 1.380 PL 3.46 PF 0.7 003 29.4 0.0 10.3 0.0 7.3 100 FTG E PE 1.5 004 25.9 0.0 12.6 0.0 0.129 TL 5.60 PV .Pipe: 124 -34.2 1.380 PL 11.25 PF 1.5 004 25.9 0.0 12.6 0.0 7.3 100 FTG - - -- PE 0.0 008 25.9 0.0 14.0 0.0 0.129 TL 11.25 PV • • • • . Pipe: 125 -15.0 1.049 PL 8.00 PF 4•.•9•• • 005 35.4 5.6 7.2 15.0 5.6 100 FTG - - -- PE Q.0 • • • • 006 35.4 5.6 8.0 15.9 0.107 TL 8.00 PV . . • Pipe: 126 -30.9 1.380 PL 1.62 PF b..:4 •••••• 006 35.4 5.6 8.0 15.9 6.6 100 FTG E PE •�G.. ��� •• 45.1p.. 007 35.4 0.0 8.4 0.0 • 0.107 TL 3.76 PV • • • • • • •• • • • • • Pipe: 127 -30.9 1.380 PL 9.62 PF 1".5* •••• • 007 35.4 0.0 8.4 0.0 6.6 100 FTG T PE r!i•: •••••• • • •••• • 008 25.9 0.0 14.0 0.0 0.107 TL 13.90 PV •• • • • • • • •• • • Pipe: 128 -65.1 1.610 PL 9.50 PF 1.9 008 25.9 0.0 14.0 0.0 10.3 100 FTG - - -- PE 0.0 012 25.8 0.0 . 16.0 0.0 0.201 TL 9.50 PV Pipe: 129 -16.4 1.049 PL 8.00 PF 1.0 009 35.4 5.6 8.6 16.4 6.1 100 FTG - - -- PE 0.0 010 35.4 5.6 9.6 17.3 0.126 TL 8.00 PV Pipe: 130 -33.8 1.380 PL 1.62 PF 0.5 010 35.4 5.6 9.6 17.3 7.2 100 FTG E PE 0.0 011 35.4 0.0 10.1 0.0 0.126 TL 3.76 PV . Pipe: 131 -33.8 1.380 PL 9.67 PF 1.8 011 35.4 0.0 10.1 0.0 7.2 100 FTG T PE 4.2 012 25.8 0.0 16.0 0.0 0.126 TL 13.95 PV SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 15 'DATE: 10/24/2002 H: \HASSDATA \1117846.SDF 'JOB TITLE: MARSHALS PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. • END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) FL /FT (PSI) Pipe: 132 -98.8 2.067 PL 10.00 PF 1.7 012 25.8 0.0 16.0 0.0 9.4 100 FTG E PE 0.0 013 25.8 0.0 17.8 0.0 0.129 TL 13.57 PV Pipe: 133 -19.3 1.049 PL 8.00 PF 1.4 014 29.4 5.6 11.9 19.3 7.2 100 FTG - - -- PE 0.0 015 29.4 5.6 13.2 20.4 0.171 TL 8.00 PV Pipe: 134 -39.7 1.380 PL 1.25 PF 0.6 015 29.4 5.6 13.2 20.4 8.5 100 FTG E PE 0.0 016 29.4 0.0 13.8 0.0 0.170 TL 3.39 PV ' Pipe: 135 -39.7 1.380 PL 3.58 PF 1.3 016 29.4 0.0 13.8 0.0 8.5 100 FTG T PE 1.6 017 25.8 0.0 16.7 0.0 0.170 TL 7.86 PV Pipe: 136 -39.7 1.380 PL 1.75 PF 1.0 017 25.8 0.0 16.7 0.0 8.5 100 FTG T PE 0.0 013 25.8 0.0 17.8 0.0 0.170 TL 6.03 PV Pipe: 137 -138.5 2.067 PL 0.75 PF 0.7 013 25.8 0.0 17.8 0.0 13.2 100 FTG L PE 0.0 018 25.8 0.0 18.4 0.0 0.240 TL 2.89 PV • • • • • • • Pipe: 138 -138.5 2.157 PL 22.83` PF i.5 • • • 018 25.8 0.0 18.4 0.0 12.2 100 FTG - - -- PE r:T•; • 019 3.4 0.0 32.6 0.0 0.195 TL 22.83 PV •••• ••� • • • •••• •• • • • Pipe: 139 -138.5 2.157 PL 0.92 PF 38.40, ••••• •• 019 3.4 0.0 32.6 0.0 12.2 120 FTG LBD PE 0°.'40* •••• • •• 020 2.5 0.0 36.4 0.0 0.139 TL 24.30 PV •• •• • •••• Pipe: 140 -138.5 2.067 PL 20.00 PF g •••••• • 020 2.5 0.0 36.4 0.0 13.2 120 FTG 2E PE -7.6 :•• •• 021 20.0 0.0 34.0 0.0 0.172 TL 30.00 PV • •• •••.•• Pipe: 141 -138.5 2.067 PL 8.00 PF 2.2 021 20.0 0.0 34.0 0.0 13.2 120 FTG E PE 0.0 022 20.0 0.0 36.2 0.0 . 0.172 TL 13.00 PV Pipe: 142 . -138.5 2.067 PL 40.00 PF 8.6 022 20.0 0.0 36.2 0.0 13.2 120 FTG 2E PE 0.0 023 20.0 0.0 44.8 0.0 0.172 TL 50.00 PV Pipe: 143 -21.2 3.260 PL 6.00 PF 0.0 023 20.0 0.0 44.8 0.0 0.8 120 FTG - - -- PE 0.0 34 20.0 0.0 44.8 0.0 0.001 TL 6.00 PV Pipe: 144 -117.3 3.260 PL 6.00 PF 0.1 023 20.0 0.0 44.8 0.0 4.5 120 FTG - - -- PE 0.0 43 20.0 0.0 44.8 0.0 . 0.014 TL 6.00. PV SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 16 'DATE: 10/24/2002 H: \HASSDATA \1117846.SDF 'JOB TITLE: MARSHALS • NOTES: (1) Calculations were performed by the HASS 7.4 computer program under license no. 50090582 granted by HRS Systems, Inc. 4792 LaVista Road Tucker, GA 30084 (2) The system has been calculated to provide an average imbalance at each node of 0.005 gpm and a maximum imbalance at any node of 0.587 gpm. (3) Total pressure at each node is used in balancing the system. Maximum water velocity is 13.2 ft /sec at pipe 141. • (4) PIPE FITTINGS TABLE Pipe Table Name: STANDARD.PIP PAGE: * MATERIAL: S40 HWC: 120 Diameter Equivalent Fitting Lengths in Feet (in) E T L C B G A D N Ell Tee LngEll ChkVly BfyVly GatVly AlmChk DPV1v NPTee 2.157 6.15 12.31 3.69 13.54 7.38 1.23 12.31 12.31 12.31 2.635 8.24 16.47 5.49 19.22 9.61 1.37 13.73 13.73 16.47 3.260 9.41 20.16 6.72 21.50 13.44 1.34 17.47 17.47 20.1 6 • • • • • • PAGE: A MATERIAL: S40 HWC: 120 • • • • • Diameter Equivalent Fitting Lengths in Feet • • • (in) E T L C B G A D .N.. • • • Ell . Tee LngEll ChkV1v BfyVly GatVly AlmChk DPV1v NPi!'ce •����• • • 1.049 2.00 5.00 2.00 5.00 6.00 1.00 10.00 10.00 •• j•.'QO • •.. '• •. 1.380 3.00 6.00 2.00 7.00 6.00 1.00 10.00 10.00 "V."00 •..• •. 1.610 4.00 8.00 2.00 9.00 6.00 1.00 10.00 10.00 "1M • 2.067 5.00 10.00 3.00 11.00 6.00 1.00 10.00 10.00 'I000 •••• • 4.026 10.00 20.00 6.00 22.00 12.00 2.00 20.00 20.00 07 O0 • •••5 • •• • • • •••• oi WATER SUPPLY ANALYSIS 1-3 " 100.0 Static: 90.00 psi Resid: 78.00 psi Flow: 754.0 gpm 1 - ti 0 VI ' •• N LEGEND IA N O V] 0 1 1 0 Available pressurexry " 86.48 psi @ 388.6 gpm m G 80.0 _ 2 _____Required pressure m A 61.06 psi @ 388.6 gpm to z H U E DI • Pi • P 2 m 60.0 _ y R E S S U E 40.0 _ H n p x V S / H 1 20.0 _ m H I- F . w • • ••• • sPh7 0:0 • • ON • • m (D •• •• • • ••• ••• a I- ....] ••• • • • ••• ••• -14.7 1 I 1 .' : :.'...t. :: I I I 200 300 400 6 .50U.' ..: '600 700 800 900 1000 FLOW (GPM) •• • • • • • • • • • • • • • • • • • • • • • •• • • ••• • • • • • • • • • • • • - • • • • . • • • • • • • • • •• • • • • •• •• •• • . , SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 18 DATE:,10 /24/2002 H: \HASSDATA \1117846.SDF JOB TITLE: MARSHALS SPRINKLER SYSTEM DIAGRAM WITH FLOWPLOT 2 <2> 3 <3 >4 ( (/ <4 >5 <5>6 ( (/ <6>7 (</7> 8 ( < / 8 > ( / 9 (/ <9> 10 ( / <11> 5.3 5.3 5.3 5.3 5.3 5.3 5.3 5.3 <22> 13 5.3 ( <13> < 14 <14 >i <15 >i <16 >' <17>l<18> <19 > <20> 21 5.3 \ \ ° l \ l \° ( \ <4) ( \ l \° ( \ \° < 0 < 0 l \ l \ ! ; <23> 5.3 5.3 5.3 5.3 5.3 5.3 5.3 5.3 <34> 24 10.5 <25> 25 < / 26 >i < </ 27 >' <28> <29> (/ ( </ ( / <32> (/ 3 10.5 <35> 5.3 5.3 5.3 5.3 5.3 5.3 5.3 5.3 <44> 3 15.8 <37> l 36 < > <l39 >1 l <40 >) l <41>) ( l <42> 41 15.8 l 34 5.4 5.4 5.4 5.4 5.4 5.4 <49 44 <47> 45 21.2 ` <50> 5.0 <54> 48 112.2 <52> 4 926.3 • <55> 4 . 2 <59> 52 108.0 <57> 53 30.5 <60> 3 . 4 <64> 56 104.6 <62> 57 33.9 If < < ! < 2 . 6 <69> • 60 102.0 <67> < 61 31.:6 • • <70> 1.7 . . ,;i1416• . . 64 100.3 <72> • • 6 38..2 . • 4 > mob l' • / • • • •••• <75> 0.5 •• • ;i0; • • 68 ^ <77> • • 69 g7�•t •• •� 71 7 • <144> 1 . 9 •• <8 • 72117.3 <82> 7 W'8 A > > • • , -•••• <85> 2 . 8 •<$94i • • 76 105.5 <87> 7 . 7 33.0 •••• A > > ! <90> 3 . 6 <94> ■ 80 109.1 <92> 81 29.4 4. 8 <95> 4.4 <100> „z 8 ,. 96> <98> 87 25.0 i 2 5.0 > ) <101> 6 . 4 <105> 90'18.6 <103> 9118.6 > > ! . <120> 6.2 <110> 138.6 94 1L . 4 <108> 95 12 .4 > <111> 6.2 <115> 011 6.2 <113> 99 6.2 L 023 6.2 100 Q uPava- vv y . Gen, :1: ® TYCO FIRE PRODUCTS, 7071 S. 13th Street. Suite 103 Oak Creek WI 53154 — www.gemsprinkler.com Customer Serviee/Sales Tel: (8 77) 43 8 926 / (877) 866 -9250 Technical Services: Tel: (800) 381 -9312 / Fax: (800) 791 -5500 . PENDENT RECESSED PENDENT, AND UPRIGHT SPRINKLERS UNIVERSAL MODEL A STANDARD RESPONSE, 5 mm BULB TYPE, 5.6 K-FACTOR, 1/2" NPT ** ESCUTCHEON 7/16"(11,1 mm) MODEL F700 PLATE SEATING NOMINAL RECESSED , SURFACE 1/2*** MAKE -IN ESCUTCHEON SSU* NPT / DEFLECTOR � = 7/16' S 2 -3/16" —� •� I I (11,1 mm) (55,6 mm) , I , i .. I NOMINAL 4 T _____ _ I _1 / MAKE -IN 1 1/2" I � 1 I 2 -3/16" , 'IV ,'" J, 2 (38,1 mm) It i ! , ,6 � (55,6 mm) A WRENCH I r 3 _ FLATS i 1 SSP DEFLECTOR * r--- 2-7/8' (73.0 mm) DIA. — I 1 /2 t " NPT ** I PENDENT RECESSED PENDENT UPRIGHT CROSS SECTION 1-Frame 3 - Gasketed 4-Bulb 6 - Deflector * Temperature rating is indicated on deflector or adjacent to 2 - Button Spring 5 - Compression orifice seat on frame. Plate Screw •* Pipe thread connections per ISO 7/1 can be proviiged orl special request. • • • FIGURE A • • 5.6 K- FACTOR STANDARD RESPONSE MODEL A PENDENT (SIN G7571) AND UPRIGHT (SIN G7A7.019PRINI •. • rosive atmospheres. Although wax WAReikVG • • • • GENERAL DESCRIPTION and lead coated sprinklers have The 5.6 K - Factor•'Icrdel A 1:Ql ft , • passed the standard corrosion tests of Recessed Pend1J.. and Uprfight . • The 5.6 K- Factor Standard Response the applicable approval agencies, the Sprinklers desci U n uat.be •• •• Universal Model A Pendent, Recessed testing is not representative of all pos- installed and mgg,.t.atne in cw n p - • • Pen and Upright Sprinklers (Ref. sible corrosive atmospheres. Conse- once with this doaurnint, as wejl • as Figure A) are automatic sprinklers of quently, it is recommended that the applicable stand3rd�of the Ngii2 nal • •' •' the 'standard response" frangible bulb end user be consulted with respect to Fire Protection Xsteeigtion, to addi type. They are "standard spray sprin- the suitability of these corrosion resis- tion to the stantlemis of an?8t'her • klers" intended for use in fire sprinkler tant coatings for any given corrosive authorities having jurisdicttbh. • Pt l - • systems designed in accordance with environment. The effects of ambient ure to do so may impair the'fntegrzty • • the standard installation rules recog- temperature, concentration of chemi- of these devices. �" n oval t he applicable 9 Listing tiLgt or A - cals and gas /chemical velocity. The owner is responsible for main - based on NFPA 13 requirements). The should be considered, as a minimum, taining their fire protection system along with the corrosive nature of the er o pro and devices in eratin Pendent, Recessed Pendent, and Up- chemical to which the sprinklers will be dition. The ins alling contracto con - r or right Sprinklers all produce a hems exposed. manufacturer should be contacted spherical water distribution pattern be NOTE relative to any questions. low the deflector. The intermediate level version of the Installation of Model A Pendent The recessed versions of the Model A Model A Pendent Sprinkler is ob - Sprinkler are obtained by utilizing the M o p Sprinklers in recessed escutcheons tained by utilizing the Model A Pen- other than the F700 will void all nation with the ModA Pendent Recessed dent Sprinkler (SIN G7571) in combi sprinkler warranties, as well as pos- nation hean (Ref. Figures A and B). nation with the Model Q.67 Shield sibly void the sprinkler's Approvals The F700 Recessed Escutcheon ro described in Technical Data Sheet and /or Listings. vides 1/2 inch (12,7 mm) of recessed TD501M. adjustment or up to 3/4 inch (19,1 mm) of adjustment from the flush pendent TECHNICAL DATA position. APPROVALS AND STANDARDS The 5.6 K- Factor Model A Pendent, ' Wax and lead coatings are utilized to Laboratory listings and approvals for Recessed Pendent, and Upright Sprin- extend the life of copper alloy sprin- the 5.6 K- Factor Model A Pendent, klers are rated for use at a maximum klers beyond that which would other- Recessed Pendent, and Upright Sprin- service pressure of 175 psi (12,1 bar) wise be obtained when exposed to cor -. klers are given in Table A. and they are available in the tempera- Printed in U.S.A. 3-01 TD516M - SPRINKLER FINISH TYPE TEMPERATURE BULB NATURAL CHROME POLYESTER LEAD CORROPROOF CORROPROOF RATING UGUID BRASS PLATED COATED COATED WAX WAX OVER COLOR (All Colors) COATED LEAD COATED 135 °F /57°C Orange PENDENT 155 °F /68 °C Red 1, 2.3 1, 2.3 • . and 175 °F /79 °C Yellow UPRIGHT 1, 2, 3,5, 6, 7 1, 2.3 (G7S70) 200 °F /93 °C Green 286 °F /141 °C Blue 1",2", 3" 1", 2", 3" 360 °F /182 °C Mauve N/A 135 °F /57 °C Orange RECESSED 155 °F /68 °C Red 1, 2, 4, 6, 7 1, 2, 6, 7 N/A PENDENT 175°F/79°C Yellow 200 °F /93 °C . Green NOTES: 1. Listed by Underwriters Laboratories, Inc. 2. Listed by Underwriters' Laboratories of Canada. . 3. Approved by Factory Mutual Research Corporation. 4. Approved by Factory Mutual Research Corporation. (FM limits recessed sprinklers to light and ordinary hazards, and recessed sprinklers used for ordinary hazards are limited to wet pipe systems or preaction systems qualifying as wet pipe systems.) 5. Approved by the Loss Prevention Council (United Kingdom). 6. Approved by the Scientific Services Laboratory (Australia). 7. Accepted by the City of New York under MEA 241 -94-E. Installed with 1/2' Model F700 Recessed Escutcheon. . " 150 °F /66 °C Maximum Ceiling Temperature. N/A: Not Available TABLE A LABORATORY LISTINGS AND APPROVALS turen&inrgs fi V: and•es inlicated in liquid from the bulb. With the sprin- coated sprinklers. With reference to UM A!' ' • • •. kler held horizontal, a small air bub- Figure A, the W -Type 6 Sprinkler The'r;io' %al flow °G" it GPt4 (LPM1 is ble should be present. The diameter of Wrench or the Crescent wrench, as detdrmined by t?e'f'oflewing iorrnuim: the air bubble is approximately 1/16 applicable, is to be applied to the • inch (1,6 mm) for the 135°F/ 57°C to wrench flats. • Q �X� •••••• 3/32 inch (2,4 mm) for the When installing wax coated sprinklers whe!'e•the norrflgal.dftchargJ eoeffi- 360 °F /182 °C temperature rating. with the adjustable Crescent wrench, cie id elei• equals $.fa (80,7), Wtjr • p" A leak tight 1/ 2 inch NPT sprinkler additional care needs to be exercised equals the residi aiflowing premise in joint should be obtained with a torque to prevent damage to the wax coating psi (bar), • of 7 to 14 ft.lbs. (9,5 to 19,0 Nm). A on the sprinkler wrench flats or frame • Model A 9prir1 • lder maximum of 21 ft. lbs. (28,5 Nm) of arms and, consequently, exposure of (R6f? R ae of the (Ref! f lgure A), a rdeaincifisat+on re- torque may be used to install sprin- bare metal to the corrosive environ- sis t bronze, &Id Deilactarsis klers with 1/2 NPT connections. ment. The jaws of the wrench should Higher levels of torque may distort the be opened sufficiently wide to pass brass. The Butt�xt �11T Compression s prinkler inlet with consequent leak- over the wrench flats without damag- • S Sriflprifl g•P 'sa late consists of a beryllium um age or of the impairment sprinkler. in tightening the sprinkler, wax coating. Before wrench r, p airment o p the jaws of the . nickel disc spring that is sealed on When an escutcheon plate is utilized, wrench are to be adjusted th to just con - both its inside and outside faces with do not attempt to make -up for insuffi- a Teflon?' gasket. The standard re- cient escutcheon plate adjustment by tact the sprinkler wrenching flanges. sponse Model A Sprinklers utilize a 5 under- or over - tightening the sprin- After wrench tightening the sprinkler, mm diameter frangible bulb. Table A kler. Readjust the position of the loosen oo the the wrench jaws before remov- indicates the bulb liquid color as a sprinkler fitting to suit. function of temperature rating. The Model A Pendent and Upright After installation, the sprinkler wrench NOTES Sprinklers must be installed in ac- flats and frame arms must be in- Inquiries concerning the appropriate cordance with the following instruc- touched (repaired) whenever coa n re - ness of wax or lead coated sprinklers lions. for a given corrosive environment Step 1. Pendent sprinklers are to be ing has been damaged and bare metal is exposed. The wax coating on the should be submitted to the attention installed on the pendent position, and wrench flats can be retouched by gen- of the Technical Services Department. upright sprinklers are to be installed in by applying a heated 1/8 inch diameter Wax or lead coated sprinklers are not the upright position. steel rod to the areas of wax that have suitable for use in open sprinkler ap - Step 2. With pipe thread sealant ap- been damaged, to smooth it back over plications. plied to the pipe threads, hand tighten areas where bare metal is exposed. the sprinkler into the sprinkler fitting. NOTES Step 3. Tighten the sprinkler into the Only retouching of the wax coating INSTALLATION sprinkler fitting using only the W -Type applied to the wrench flats and frame NOTES 6 Sprinkler Wrench (Ref. Figure C), arms is permitted, and the retouching Do not install any bulb sprinkler if the except that an 8 or 10 inch adjustable is to be performed only at the time of bulb is cracked or there is a loss of Crescent wrench is to be used for wax the initial sprinkler installation. f DuPont Registered Trademark • FULLY RECESSED HIGH ADJUSTMENT DIMENSIONSt DIMENSIONS Up to 1/2 inch adjustment from Up to 3/4 Inch adjustment from WRENCH RECESS I minimum 1/4 inch to maximum the flush ceiling position to 3/4 (END MODELS) R 3/4 inch recessed position. Inch recessed position. Dim. Inches MM Dim. Inches MM FIGURE C A- 5/8±1/8tt 15,9112 A- 1/2+1/4tt 12,7±6,4 W 6 SPRINKLER WRENCH B-Min. 3/4 19.1 B -Min. 3/4 19,1 B-Nom. 1 25,4 B -Nom. 1 -1/8 28,6 WRENCH B-Max. 1 -1/4 31,8 B -Max. 1 -1/2 38,1 RECESS C-Min. 1/4 6,4 C -Min. FLUSH — / C-Max. 3/4 19,1 C -Max. 3/4 19,1 �� ' , DUI (73,0 (73,0 mm) J 2 -1/4" DIA. ( j (5 mm) �/ FACE OF I FITTING PUSH WRENCH MOUNTING IN TO ENSURE 1 SURFACE ENGAGEMENT • 1 r WRENCH NIGALREA I C � FIGURE D L _ _ ` i W -TYPE 7 RECESSED \J SPRINKLER WRENCH 2b 2a I tea" Closure over the Mounting Plate until (3,2 mm) 1 its flange comes in contact with the . , ,.....:=4, ceiling. t For best overall appearance. • • • • • if Remaining 1/4 inch (6,4 mm) of 1- Model A Pendent Sprinkler CARE AND 9AAINTENANCF ' . • • 2- Model F700 Recessed Escutcheon • adjustment can be used to compensate a- Mounting Plate The Model A Sprfhklers'must be main - for variations in sprinkler make -in and b- Closure tamed and se ie t#•in accordgnce '• fittin g take -out. with the following i str�uctions. • •. • • FIGURE B •••• • • MODEL A RECESSED PENDENT SPRINKLER ASSEMBLY #'ES •• •• WITH TWO -PIECE MODEL F700 RECESSED ESCUTCHEON Before closing a fire i[xotectiog syj('esn control valve fcr.in , tenanet•wotk � • • on the fire prote44tstem which it • The steel rod should be heated only to modated by the Model F700 Recessed . controls, pertnisj�cjj��.shut doo 'M.the • the point at which it can begin to melt Escutcheon. affected fire proeechoneystenf silt ►site the wax, and appropriate precautions For best overall appearance, use Di obtained from t he proper at414orijies •• need to be taken, when handling the mension "A" indicated under the 'Fully and all personnel who may btaffgited . • heated rod, in order to prevent the Recessed Dimensions" heading of by this action must be notified. •••• installer from being burned. Figure B. Otherwise, use Dimension Absence of an escutcheon, which is If attempts to retouch the wax coating "A" under the 'High Adjustment Di- . used to cover a clearance hole, may with complete coverage are unsuccess- mensions" heading. In either case, the delay the time to sprinkler operation ful, additional wax can be ordered in remaining adjustment can be used to in a fire situation. . the form of a wax stick (the end of compensate for the possible manufac- Sprinklers which are found to be leak - which is color coded). Only the correct turing variations in take -out of the fit- ing or exhibiting visible signs of corro- color coded wax is to be used, and ting, as well as in the make -in of the sion must be replaced. retouching of wrench flats and frame sprinklers (as permitted by ANSI Automatic sprinklers must never be arms is only permitted at the time of B1.20.1). shipped or stored where their tempera - initial sprinkler installation. With Step B. After installing the F700 tures will exceed 100 °F /38 °C and they the steel rod heated as previously de - Mounting Plate over the sprinkler must never be painted, plated, coated scribed, touch the rod to the area re - threads, hand tighten the sprinkler into or otherwise altered after leaving the quiring additional wax with the rod the sprinkler fitting. angled downward, and then touch the factory. Modified sprinklers must be a the rod then touch Step C. Tighten the sprinkler into the replaced. Sprinklers that have been wax stick d downward, n half inch from approximately imly sprinkler fitting using only the W -Type exposed to corrosive products of corn - one - ih a one tocaway from area re - l melt 7 Recessed Sprinkler Wrench (Ref. bustion, but have not operated. should quiring The wax ' Figure D). With reference to Figure A, be replaced if they cannot be corn- and run un un Model A down onto Recessed a sprinkler.' ink the W -Type 7 Recessed Sprinkler pletely cleaned by wiping the sprinkler Wrench is to be applied to the sprinkler with a cloth or by brushing it with a soft Sprinklers must be installed in ac- wrench flats. cordance with the following. instruc- bristle brush. cons. Step D. After the ceiling has been in- Care must be exercised to avoid dam - stalled or the finish coat has been ap- age to the sprinklers — before, during, Step A. Verify that the face of the_ plied, slide on the F700 Closure over and after installation. Sprinklers dam - sprinkler fitting is within the proper the Model A Sprinkler and push the aged by dropping, striking, wrench range of distance which can be accom- :_ ,. twist/slippage, or the like, must be re- placed. Also, replace any sprinkler that PSN 57 - XXX - X - X X X has a cracked bulb or that has lost - liquid from its bulb (ref. Installation I Section Note). TEMPERATURE RATING Frequent visual inspections are rec- SPRINKLER ' ommended to be initially performed for FINISH 135 135 °F /57°C wax and /or lead coated sprinklers, af- ter the installation has been corn- 1 NATURAL BRASS 155 155 °F /68 °C plated. to verify the long term potential integrity of the sprinkler coatings. 4 WHITE POLYESTER 175 175 °F /79 °C Thereafter, annual inspections per , NFPA 25 should suffice; however, in- TYPE 9 CHROME PLATED 200 200 °F /93 °C stead of inspecting from the floor level, a random sampling of close -up visual 571 SR PENDENT 7 LEAD COATED 286 286 °F /141 °C Inspections should be made, so as to , better determine the exact sprinkler 570 SR UPRIGHT 6 WAX COATED 360 360 °F /182 °C condition and the long term integrity of 286 °F /141 °C , the wax and/or lead coating, as it may MAXIMUM be affected by the corrosive conditions 8 WAX OVER LEAD present. 2 MAXIMUM • The owner is responsible for the in- TABLE B spection, testing, and maintenance of PRODUCT SYMBOL NUMBER SELECTION their fire protection system and de- vices in compliance with this docu- 5.6 K- FACTOR MODEL A PENDENT AND UPRIGHT SPRINKLERS ment, as well as with the applicable WITH 1/2 INCH NPT CONNECTIONS standards of the National Fire Protec- tion Association (e.g., NFPA 25), in IN NO EVENT SHALL TYCO FIRE Sprinkler Assemblies with ISO 7/1 addition to the standards of any other PRODUCTS BE LIABLE, IN CON- Thread Connections: authorities having jurisdiction. The in- TRACT, TORT, STRICT LIABILITY Specify: 5.6 K- Factor, (specify tern- stalling contractor or sprinkler manu- OR UNDER ANY OTHER LEGAL perature rating), Standard Response facturer should be contacted relative THEORY, FOR INCIDENTAL, INDI- Model A (specify Pendent or Upright) to any questions. RECT, SPECIAL OR CONSEQUEN- Sprinkler with (specify type of finish or It is recommended that automatic TIAL DAMAGES, INCLUDING BUT coating) and with thread connection Ontitlbr systems be inspected, NOT LIMITED TO LABOR CHARGES, per ISO 7/1. • tested ? and rf1'altftatied biagwalified REGARDLESS OF WHETHER TYCO Recessed Escutcheon: • Se ice. FIRE PRODUCTS WAS INFORMED inspection 7 • • • ••.• ABOUT THE POSSIBILITY OF SUCH Specify: 1/2" (15 mm) Model F700 Re- • DAMAGES, AND IN NO EVENT cessed Escutcheon with (specify fin - UMITED- WARRANT -Y - SHALL TYCO FIRE PRODUCTS' LI- ish), PSN (specify). ABILITY EXCEED AN AMOUNT 1l2 (15 mm) F700 s mally Bred by Tyc Fire EQUAL TO THE SALES PRICE. Chrome Plated PSN 56- 701 -9-010 i:ots are spl 1 fb the original Buy r • iqr• ten (f e? • !rears THE FOREGOING WARRANTY IS White Color 9gainst defe&s in materialerp work- MADE IN LIEU OF ANY AND ALL Coated PSN 56 -701.4 -010 frfl iSTiip when laid for and•paoperly OTHER WARRANTIES EXPRESS Sprinkler Wrench: installed and pfatAfajned usde`ovrmal OR IMPLIED. INCLUDING WARRAN- Specify: W -Type 6 Sprinkler Wrench, use and service! lis warr8 vTh ex- TIES OF MERCHANTABILITY AND Mire ten (10) y�eare from date of ship- of FOR A PARTICULAR PUR- PSN 56- 000 -6 -387. r:t%M Tycd Q roducts. No war- POSE. Specify: W -Type 7 Sprinkler Wrench, rat*? • is given for products or PSN 56- 850 -4 -001. components manufactured by compa- Corroproof Wax Sticks: Hies not affiliated by ownership with ORDERING PROCEDURE (for retouching wrench damaged Tyco Fire Products or for products and A Product Symbol Number (PSN) is wax coating) • components which have been subject not specified when ordering sprinklers Specify: (Specify color) color coded to misuse, improper installation, corro- with thread connections per ISO 7/1. Wax Stick for retouching (specify tem- sion, or which have not been installed, When perature rating) temperature rated en ordering Corroproof wax coated Model maintained, modified or repaired in ac- Model A Sprinklers, PSN (specify). cordance with applicable Standards of sprinklers, consideration should be Black for 135 °F PSN 56-065 -1 -135 the National Fire Protection Associa- given to ordering Corroproof Wax Red for 155 °F PSN 56 -065 -1 -155 tion, and/or the standards of any other Sticks for field repairing any wax coat- Yellcnv for 175 °F PSN 56 -065 -1 -175 Authorities Having Jurisdiction. Mate- ing on the sprinkler wrenching area Blue for 200 °F and rials found by Tyco Fire Products to be that may become damaged during 286 °F PSN 56 -065 -1 -286 defective shall be either repaired or sprinkler installation. replaced, at Tyco Fire Products' sole Contact your local distributor for avail- NOTES option. Tyco Fire Products neither as- ability. Each wax stick is suitable for retouch - sumes, nor authorizes any person to ing up to twenty -flue sprinklers. Y P Sprinkler Assemblies: The wax used for 286 °F sprinklers is assume for it, any other obligation in Specify: 5.6 K- Factor, (specify tern- the same as for 200°F sprinklers. and, connection with the sale of products or perature rating), Standard Response parts of products. Tyco Fire Products Model A (specify Pendent or Upright) therefore, the 286 °F sprinkler is lim- shall not be responsible for sprinkler Sprinkler with s eci ited to the same maximum ceilin g system design errors or inaccurate or coatin PSN(s type B or t emperate re as the 200 °F sprinkler incomplete information supplied by g)' (specify ) (i.e., 150 F). Buyer or Buyer's representatives. - "Special Order" tlyca Flow Control Tyco Fire - Products - • • '' r. ' - • - /6\ki • BUTTERFLY VALVES - 2" (DN50) thru 10" (DN250) SERIES 7700FP GROOVED END —175 PSI (12,1 bar) FLAG INDICATOR GEAR GENERAL DESCRIPTION OPERATOR The Series 7700FP Grooved End But- terfly Valves (Ref. Figure A) are indicat ing type valves designed for use in fire 411111ecjt t!i protection systems, where a visual in- dication is required as to whether the - "� /va lve is open or closed. They are used, , . 1 for example, as system, sectional, and pump water control valves. They have '� % , I but groove inlet and outlet connections � ,� which are suitable for use with grooved 'i' 1 end pipe couplings that are listed )11111 I;1 approved for fire protection system \ service. The Series 7700FP Butterfly Valves %' HANDWHEEL feature a spherical bore disc seat area which facilitates a constant disc to seat i loading. This maintains a leaktight . % c stem seal regardless of disc position (open to closed). Use of the spherical bore also enables the use of a narrow i .4-,-/ profile disc, with tapered leading edges, which provides minimal flow V ALVE BODY turbulence through the valve and re- VVII duced friction loss. For applications requiring supervision FIGURE A of the open position of the valve, the TYPICAL SERIES 7700FP GROOVED END BUTTERFLY VALVE Gear Operators for the Series 7700FP Butterfly Valves are available with two - sets of factory installed internal switches are listed by Underwriters and devices in proper operating con - switches each having SPDT contacts. Laboratories Inc. as "Supervisory Tam- dition. The installing contractor or per Switches" when the normally open manufacturer should be contacted The Gear Operator is also available contacts (for valve full open) are used relative to any questions. without internal switches, in which for connection to the supervisory cir- case, the Gear Operator will accept cuit of an alarm control panel or indi- Removing or disabling the . . moer re- • • direct attachment of a field installed cating device. sistant fasters Aed to secure either external supervisory control valve the cover of a GeaP Opergtor with in- • • switch, which has two sets of SPDT The Model PCVS -2 Supervisory Con- ternal switshes or the S'=2 tedef't)f the • contacts. Information on the internal trol Valve Switch is listed by Underwrit- Model PCV • Supervisory . Control • • switches, as well as the externally ers Laboratories Inc. and Underwrit- Valve Switch pyijl.uoid the applicable • mounted, Model PCVS -2 Supervisory ers' Laboratories of Canada. It is listings andtr�vrotal. . . Control Valve Switch, is given in the approved by the Factory Mutual Re- •••• .• • • • • Technical Data section. search Corporation. The listings and • • • • • • • approval are under the name of Potter , - • Electric Signal Company. TECt I:d:C,L DATA • •• ••• • APPROVALS AND STANDARDS WARNING Valve Assemblies], • •••• • • The Series 7700FP Grooved End But- The 2 inch• jp14,60) thrd • t6 inch • The Series 7700FP Grooved End But - terfly Valves described herein must be (DN250) Series 7700FP CDtgvad End terfly Valves are listed and approved installed and maintained in compli- Butterfly Valves are rated•for 2I• maxi- ••••• • as indicated in Table A, as well as ance with this document, as well as mum service pressure of 175 psi (12,1 accepted by the City of New York under with the applicable standards of the bar). The valves may be installed with MEA 349 -93 -E. National Fire Protection Association, flow from either direction and are left in addition to the standards of any hand opening (i.e. the handwheel turns In addition, the Series 7700FP Valves other authorities having jurisdiction. counterclockwise to open). A flag -type with internal supervisory switches are Failure to do so may impair the integ- indicator on the Gear Operator visually listed by the California State Fire Mar- rity of these devices. indicates both open and closed posi- shal under Listing No. 7770 - 0090.104. tions of the valve. The Valve Body has The owner is responsible for main- a black polymer coating, the Gear Op- The factory installed SPDT internal taining their fire protection system erator including the Handwheel is Printed in U.S.A. 2 -00 TD355 • VALVE PIPE SIZE 175 PSI (12,1 BAR) the GG -8 Gear Operators are provided` ,'` INCHES MILLIMETRES • VALVE VALVE with double wire leads to accommo WITHOUT INTERNAL WITH INTERNAL date "in and out" supervision of the ANSI ON PIPE SUPERVISORY SWITCHES SUPERVISORY SWITCHES normally open contacts (for valve full O.D. INDOOR I OUTDOOR INDOOR OUTDOOR open) per NFPA 13 and 72. 2 50 60,3 1, 2, 4, 5 1, 2, 4, 5 1, 2, 4, 5 1, 2, 4, 5 - External- The Series 7700FP, when ordered ' 2 -1/2 65 73,0 1, 2, 3, 4, 5 1, 2, 3, 4, 5 1, 2, 3, 4, 5 1, 2, 3, 4, 5 without factory installed internal su- - 65 76,1 1, 2, 3, 4, 5 1, 2, 3, 4, 5 1, 2, 3, 4, 5 1, 2, 3, 4, 5 pervisory switches, will accept direct attachment of a field installed, exter- 3 80 88,9 1, 2, 3, 4, 5 1, 2, 3, 4, 5 1, 2, 3, 4, 5 , 1, 2, 3, 4, 5 nally mounted, supervisory control 4 100 114,3 1, 2, 3, 4, 5 1, 2, 3, 4, 5 1, 2, 3, 4, 5 I 1, 2, 3, 4, 5 valve switch for supervising the Valve in the open position. Figure F illus- - 125 139,7 1, 2, 3, 4, 5 1, 2, 3, 4, 5 1, 2, 3, 4, 5 I 1, 2, 3, 4, 5 trates attachment of the Model PCVS- 5 125 141,3 1, 2, 3, 4, 5 1, 2, 3, 4, 5 1, 2, 3, 4, 5 1, 2, 3, 4, 5 2 Supervisory Control Valve Switch. - 150 165,1 1, 2, 3, 4, 5 1, 2, 3, 4, 5 1, 2, 3, 4, 5 1, 2, 3, 4, 5 The PCVS -2 has two switches with 6 150 168,3 1, 2, 3, 4, 5 1, 2, 3, 4, 5 1, 2, 3, 4, 5 1, 2, 3, 4, 5 SPDT (Form C) contacts. The set of contacts that are in the normally open 8 200 219,1 1, 2, 3, 4, 5 1, 2, 3, 4, 5 1, 2, 3, 4, 5 t position, when the valve is full open, 10 250 273,0 1, 2, 3, 4, 5 1, 2, 3, 4, 5 1, 2, 3, 4, 5 I t can be used to provide supervision of . - , . the open position of the valve per • NOTES: NFPA 13 and 72. Screw type wiring 1. Listed by Underwriters Laboratories Incorporated (UL Listed). terminals, which accommodate "in and 2. Listed by Underwriters Laboratories Incorporated for use in Canada (C -UL Listed). out" electrical supervision to the switch 3. Approved by Factory Mutual Research Corporation (FM Approved). contacts, are marked as to their COM, 4. Approved by Loss Prevention Council (LPC). NO or NC designation. Each set of 5. Approved by Verband der Schadeversicher (VdS). contacts is rated as follows: t Laboratory listings and approvals do not apply. TABLE A 125/250 VAC . . . . 5.00 Amps LABORATORY LISTINGS AND APPROVALS 0 to 30 VDC .... 2.50 Amps • The PCVS -2 has a weather proof painted red, and the Flag Indicator is valves are provided with a GG -8 Gear NEMA 6P enclosure. The cover is se- painted yellow. Operator (Ref. Figure D -2). A steel cured with tamper resistant screws Drive Pin engages the Drive Shaft with which require a special key wrench for The Valve dimensions are shown in the GG -4 Gear Operator, and a steel removal. The switch housing is cast Figure B. Inlet and outlet connections Key engages the Drive Shaft with the aluminum finished with a red spatter are cut groove and suitable for use with GG -8 Gear Operator. The GG -4 and enamel. All parts are plated to resist grooved end pipe couplings that are GG -8 Gear Operators are lifetime in- corrosion. listed or approved for fire protection ternally lubricated and are mounted system service. (Specific cut groove directly to the valve flange with plated dimensions may be requested from the steel fasteners. The cast gray iron Technical Services Department.) The housings are weather resistant, and Series 7700FP Butterfly Valves may be the Handwheels as well as Indicator INSTALLATION installed with any schedule or pres- Flags of each type Gear Operator are • sure class of pipe or tubing that is of cast gray iron construction. The Series 7700FP Grooved End But- • Iiifed or approved for fire protection terfly Valves may be installed with the • UUNce. • Supervisory Switches: flow in either direction. • • The Series 7700FP is available with or • The nominelpsassure Igss versus flow without internal supervisory switches The grooved end pipe couplings used • • seta, as well as• apprctcfinet+e• friction for supervising the Valve in the open with the Series 7700FP must be listed 41 . lloss expressed in equivalent length of position. The internal switches are only or approved for fire protection service . for eOch•eize valve, a3'e•given in available as factory installed original and installed in accordance with the • • • Fiau res C -1 ecid -2. • • • equipment. manufacturer's instructions. ••• • • • The Series ¶J FP components are - Internal- The Series 7700FP Butterfly Valves ...jjliostrated in Figures D•t aad .D-2• The Figure E illustrates the general ar- may be installed with any schedule or •. • Body and disc are chat %.iron per rangement of the two internal pressure class of pipe or tubing that is ASTM A536 § ,45-i2 (UNS switches, as well as the color coding listed or approved for fire protection • • F33100).1!i ody is polyymer coated, for the wire leads. When provided with service. .•.AV the Qisc is•encapsuTalk with an internal switches, the covers of both •.. ERDM rubber. :The Drive Shaft and the GG -4 and GG -8 Gear Operators Refer to Figure F for installation in- tower Shaft are Type 416 stainless are secured with tamper resistant bolts structions for the externally mounted, steel, and the Retention Pins are zinc and nuts. The electrical ratings for the Model PCVS -2 Supervisory Switch. plated steel. The Upper and Lower switch contacts are UL Listed and FM Bearings are bronze per ASTM B438 Approved as follows: Conduit and electrical connections are Grade I, Type I, and the 0-ring seals to be made in accordance with the are Neoprene. 125/250 VAC ... 10.00 Amps requirements of the authority having 125 VDC 0 50 Amps jurisdiction and /or the National Electri- The 2 inch (DN50) through 6 inch 250 VDC 0 25 Amps cal Code. (DN150) size valves are provided with a GG -4 Gear Operator (Ref. Figure NOTES D -1) and the 10 inch (DN250) - size Both of the switches in the GG -4 and For outdoor applications utilizing the -2- r. • • VALVE PIPE SIZE DIMENSIONS IN INCHES AND (MILLIMETRES) INCHES MILLIMETRES ANSI DN PIPE A B C D E F G H J K L M O.D. 3.19 1 3.23 3.87 10.60 2.28 5.91 5.00 3.00 4.66 I 7.61 2 50 60,3 0 - (81,0) . (82,0) (98,3) (269,2) (57,9) (150,1) (127,0) (76,2) (118,4) (193,3) 2-1/2 65 73,0 3.81 3.32 4.38 11.18 2.28 5.91 5.00 3.00 4.66 8.12 0 (96,8) (84,3) (111,3) (284,0) (57,9) (150,1) (127,0) (76,2) (118,4) (206,2) 3.81 3.32 4.38 11.18 2.28 5.91 5.00 3.00 4.66 8.12 65 76,1 (96,8) (84,3) (111,3) (284,0) (57,9) (150,1) (127,0) (76,2) (118,4) (206,2)1 0 3 80 88,9 3.81 3.88 4.62 12.00 2.28 5.91 5.00 3.00 4.66 I 8.36 0 - (96,8) (98,6) (117,3) (304,8) (57,9) (150,1) (127,0) (76,2) (118,4) (212,3) 4.56 4.50 5.38 13.37 2.28 5.91 5.00 3.00 4.66 9.12 - 4 100 114,3 (115,8) (114,3) (136,7) (339,6) (57,9) (150,1) (127,0) (76,2) (118,4) (231,6) 0 5.81 5.00 5.88 14.37 2.28 5.91 5.00 3.00 4.66 9.62 - - 125 139,7 (147,6) (127,0) (149,4) (365,0) (57,9) (150,1) (127,0) (76,2) (118,4) (244,3) 0 - 5.81 5.00 5.88 14.37 2.28 5.91 5.00 3.00 4.66 9.62 _ 5 125 141,3 (147,6) (127,0) (149,4) •(365;0) (57,9) (150.1) (127,0) (76,2) (118,4) (244,3) , • • 150 165,1 5.81 5.69 • 6.37 15.56 2.28 5.91 5.00 • 3.00 4.66 10.11 . 0.13 ' 1.88 • - (147,6) (144,5) (161,8) (395,2) (57,9) (150,1) (127,0) (76.2) (118,4) (256,8) (3,3) (47,8) 5.81 5.69 6.37 15.56 2.28 5.91 5.00 3.00 4.66 10.11 0.13 1.88 6 150 168,3 (147,6) (144,5) (161,8) (395,2) (57,9) (150,1) (127,0) (76,2) (118,4) (256,8) (3,3) (47,8) 5.25 7.13 7.75 19.71 3.46 8.62 12.00 3.13 8.52 15.11 1.37 6.06 8 200 219,1 (133,4) (181,1) (196,9) (500,6) (87,9) (218,9) (304,8) (79,5) (216,4) (383,8) (34,8) (153,9) 6.25 8.19 9.00 22.03 3.46 8.62 12.00 3.13 8.52 16.36 1.85 7.77 10 250 273,0 (158,8) (208,0) (228,6) (559,6) (87,9) (218,9) (304,8) (79,5) (216,4) (414,5) (47,0) (197,4) EF —►{ r _H_ T __ i . 1 prim 0 __ G _.� di hi I i ____ + K „ C ( VA I PIPE LVE • • • • SIZE \ ••: •• • • B '1 • M • • • • • • • • • . * WITH VALVE •••• •• •• FULL OPEN • • • • • • • • • • • • •• • I A �. • • • • FIGURE B •• •• •••• VALVE DIMENSIONS • • • .... • • • • • • • • Model PCVS -2 Supervisory Switch, tection systems be inspected by a use of a weather tight conduit connec- CARE AND MAINTENANCE qualified Inspection Service. tor with a gasket seal is recom- mended. The Series 7700FP Grooved End But- NOTES terfly Valves do not require any regu- Before closing a fire protection system For outdoor applications with inter- larly scheduled maintenance or Iubri- control valve for maintenance or in- nal supervisory switches, it is recom- cation. It is recommended, however, spection work on either the valve or mended that wiring connections be that the valves be routinely inspected fire protection systems which it con - made at a temperature above as described below. Any impairment trols, permission to shut down the af- ., 15 °F / -9 °C, in order to ensure suffi- must be immediately corrected. fected fire protection systems must cient flexibility of the wire lead insu- first be obtained from the proper lotion. It is also recommended that fire pro- authorities and all personnel who -3- - . 1 5.0 ----- -- ...---- -.-' -' ... .••■■- ---. •. - ■--- - •-•• •..-- - ---.. ---- ...... =MO-f.- I- .I.. ■.---- ...1, ■.- �---I ■■ • ■. 1.. --.. 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MEIN.■ 11111' 11111, ■11■■■11'11'111 ■■ ■■MIIW/ ■ ■■■II ■III /111111•000■WAI ■MII ■ ■ ■■■ ■■ ■■UUIU I ■I./ 11111'1 ■ \I■■■■MIMMI, ■ ■1■■■ III■ 1■■■ IIA IIIIll ■ ■ ■■r. ■1 ■II ■I■I111■■w ■■■1■■ 1 ►11111r ■ ■u•■ ■1 ■�'A■■1 ■ ■ ■�I ■ ■■■ 1111 ►,■■111111 ■ ■ ■■'I■1 ■II ■ ■ ■ ■ ■■■■ ■ ■■1111 - r i" r I► 1► 0.01 - - 400 500 700 1000 2000 3000 4000 5000 7000 10000 20000 30000 40000 FLOW RATE IN LITRES PER MINUTE (LPM) `1 bar = 100 kPa = 0.1 MPa VALVE PIPE NOMINAL VALVE PIPE NOMINAL SIZE FRICTION SIZE FRICTION MILLIMETRES PIPE LOSS IN MILLIMETRES PIPE LOSS IN • • • • WALL EQUIVALENT WALL EQUIVALENT • THICKNESS, METRES THICKNESS, METRES • • • • • • • PIPE PIPE • • • • DN O D MM OF PIPEt DN 0 D MM OF PIPEt • • • WITH C =120 WITH C = 120 t THE EQV T LEmG1' III ME- • 50 60,3 2,3 2,0 150 165,1 - - TRES OF• IPE 16 BASED pN THE • • HAZEN ANL1,1111ILLIAMS FORMULA • 3,6 1,6 5,0 1,5 AND THE •F VWRATES'1'MCALLY • 4,5 I 1,3 j 5,4 j 1,5 USED WITH EACH SIZE VALVE! ••�••• 65 76,1 2,6 2,1 150 168,3 4.0 1,8 • • • ••• • 3,6 1,8 5,0 1,7 • • • 5,0 1,5 5,6 1,6 • • • 80 88,9 2,9 3, 200 219,1 4,5 2,0 •. .• • • • • • • • 4,0 2,7 5,4 1,9 • • • • • •••• 5,0 2,4 6,3 t 1,8 •• • • • • 100 114,3 2,9 2,4 250 273,0 5,0 ` 2,5 • • • • ••••• 4,5 2,1 6,3 2,4 5,6 1,9 7.1 2,3 125 139,7 3,6 2,0 5,0 1,8 5,6 1,7 FIGURE C -2 NOMINAL FRICTION LOSS (BAR/LPM) & (BAR/CUBIC METRES PER HOUR) -5- u , 0 - • - C /� / FLAG INDICAT '� PIN w LEO � Aik 01°) ', GEAR OPERATOR itP el.410) f #11111 . Al', %I. 11110 k•%.1°i/f-IA, l / :.---l- z .=.1. Ito A of GEAR OPERATOR C I I /� DRIVE PIN II -1 0 -RING V fI DRIVE SHAFT 1 I KEY ' I �j ALIGNMENT 0 •. o' - PIN MI UPPER BEARING ALIGNMENT PIN III c 641 VALVE BODY 7 GEAR OPERATOR to . ',' FASTENERS iip; 00 FIGURE D -2 R ETENTIO N PIN GG -8 GE AR OPERATOR FOR 8 INCH (DN200) & 10 INCH (DN250) GEAR VALVE SIZE OPE U FASTENERS i i r r � ,- I iV I , UPPER BEARING or ele ctrically supervised valves), visuall inspected with the following � ilb it ems checked: DISC +.. +• BODY • The valves are readily accessi- � • The valves are in good condition ' 1. and do not leak. I I� LOWER BEARING • • • • The valves are properly locked • •• or sealed in the full open posi- • I a tion. • • • • • , • • • • • O 0-RING • The key to a lock valve is read- • • •,• I i ly accessible to the individuals • • • • responsible for sprinkler system • • • • • • e; r.. maintenance, as well as watch- • • • 1;E�rENTIO I:1141 • • • • • LOWER SHAFT men. •.• • • • • • F D -1 4. The valve should also be physically • SEI;IM7700FP VALVE ASSEMBLY tried (i.e., completely closed and • •••• Sho .4fl With GG -4 Gear Operator for then fully opened), if there are any • • .2 JDdh (MVO) th 6 Inch (DN150) Valve Sizes damaged parts, sign of tampering, • •••_ . • ' •- _O--) tionable. • • •• • •••• Impaired valves must be immedi- may be affected by this decision must to breakage except by heavy bolt ately replaced. be notified. cutters. Inspection: 2. Wire or strap sealed, if not locked, in It is recommended that fire protection the fully -open position. Inquire with system water control valves be: the applicable insurance authority for their requirements as to the type 1. Chain locked in the fully -open posi- of seal. tion using the Handwheel. Locks and chains must be sturdy and resistant 3 Periodically (once a week for sealed valves and once a month for locked -6- .. , ii .. R Grooved End Butterfly Valves WARRANTY ORDERING PROCEDURE with Internal Supervisory Switches: Specify: (specify [as applicable] ANSI . Seller warrants for a period of one year Grooved End Butterfly Valves nominal pipe size in inches or pipe • - from the date of shipment (warranty without Internal Supervisory O.D. in millimetres) Series 7700FP period) that the products furnished Switches: Grooved End Butterfly Valve with Inter - hereunder will be free from defects in Specify: (specify [as applicable] ANSI nal Supervisory Switches, PSN (spec - material and workmanship. nominal pipe size in inches or pipe ify from Table B). O.D. in millimetres) Series 7700FP For further details on Warranty, see Grooved End Butterfly Valve without Supervisory Control Valve Switch: Price List. Internal Supervisory Switches, PSN Specify: Model PCVS -2 Supervisory (specify from Table B). Control Valve Switch, PSN 54- 647 -1 -001. GEAR WIRE TYPICAL ELECTRICAL BOX LEADS CONNECTIONS WEIGHTS r___....7 I I The following are the nominal weights BLACK i FIRE ALARM for the Series 7700FP Butterfly Valves: ' ' I CONTROL PANEL i WHITE ' SUPERVISORY CIRCUIT WHITE I 2" (DN50) 14.1 lbs. (6.4 kg) I 41 . TO END-OF-LINE * 2 -1/2" (DN65) 15.9 lbs. ' (7,2 kg) . RED RESISTOR OR NEXT • 3- • (o 45Q) 17.3 lbs. (7,9 kg) I RED 1 SUPERVISORY SWITCH 4" (DN10o) 20.7 lbs. (9,4 kg) • � - GREEN (GRD.) ' 5" (DN125) 25.9 lbs. (11,8 kg) 1 �{ GROUND I 6" (DN150) 30.5 lbs. (13,9 kg) i BLACK 81 YEL. I 8" (DN200) 53.5 lbs. (24,3 kg) 10" (DN250) 77.3 lbs. (35,1 kg) INDICATING DEVICE WHITE a YEL. I A ■ RED B YEL. POWER SOURCE PSN 59 -77XX 1 -XXX `- - - .. - J RED 9 YEL. L _ - - _ i *SEE NOTE 6 NOTES Switch 1. Contacts shown with valve full open. Construction 2. Wire leads are 18 AWG UL Style 1015 600V 105 °C (CSA Type TEW). 3. Wire leads extend about 18 inches (450 mm) beyond the conduit connection. 0 Without Internal 4.The factory installed SPDT internal switches are listed by Underwriters Laboratories Supervisory Inc. as "Supervisory Tamper Switches" when the normally open contacts (for valve Switches full open) are used for connection to the supervisory circuit of an alarm control panel 1 With Internal or indicating device. 5. The normally closed contacts (for valve full open) are only intended for use with closed Supervisory loop supervisory circuits installed per NFPA standards earlier than the 1990 edition Switches of NFPA 72. 6. CAUTION — When there are supervisory switches of the screw terminal type connected in parallel with the GG -4 and GG -8 internal supervisory switches, it is not acceptable for an uninsulated section of a single conductor to be looped around the VALVE PIPE SIZE screw terminal to serve as two separate connections. The wire must be severed to • • • • serve as two separate connections, thereby providing supervision of the connection !Pala MILLNETRES at the screw terminal in the event that the wire becomes dislodged from under the - • • terminal of the next supervisory switch. .ANSI • DN PfP E'O.D. • _ •••• _ 060 a . • 50 • 60,3 . • • 0 O , T��lM 073 23/20 65 • • • 7.30 • • i • 1I -41111 0 ,\1 , 076 -• 65 • • ; 1 • 088 •• I, •• . 80 '• 88',9 • !� : 410 1 114 •.4 •• 100 •• J14,3 ••.•• -� 139 •— : 125 • ••439.7 •• li _ 141 5 125 ; •••••; ti TWO 1 _ _ • -- • �•,� •.� SWITCHES TWO 165 — 150 165,1 ••" _ . ` , - 1 . SWITCHES 168 6 150 168,3 0 I N o .. ..2....... ... 219 8 200 219,1 V— CONDUIT CONNECTION ON SSW 1/2" CONDUIT Iy CONNECTION 273 '10 250 273,0 GG-4 Gear Operator GG -8 Gear Operator TABLE B FIGURE E PRODUCT SYMBOL NUMBER INTERNAL SUPERVISORY SWITCH ARRANGEMENT SELECTION - (Optional) -7- II. V ' • Install the PCVS -2 Switch onto the Install the PCVS -2 Switch onto the GG -8 Gear Operator as follows: ,. GG -4 Gear Operator as follows: - ' 1. Partially close the GG -8 Gear Operator (at least 4 turns from the full open position), and then remove the 1. Partially close the GG -4 Gear Operator (at least appropriate Plug located at the side of the Gear Operator. 4 turns from the full open position), and then 2. Remove the cover from the PCVS assembly, and then loosen the Trip Rod Locking Screw. Adjust the remove the Plug from the Gear Operator Cover. position of the Trip Rod so that it extends about 1 inch (25 mm) beyond the Nipple, and then securely 2. Loosen the Set Screw that holds the Nipple onto tighten the Trip Rod Locking Screw. the PCVS assembly, and then remove the Nip- 3. Loosen the Set Screw that holds the Nipple onto the PCVS assembly, and then remove the Nipple. ple. 4. With the Locknut screwed over the Nipple threads, hand tighten the Nipple into the Gear Operator, and ' 3. With the Locknut screwed over the Nipple then tighten the Locknut against the Gear Operator to secure the Nipple firmly in place. threads. hand tighten the Nipple into the Gear 5. Slide the PCVS assembly as far as possible over the Nipple while maintaining proper orientation of the Operator Cover, and then tighten the Locknut PCVS assembly, as shown in the GG -8 Elevation View, and then tighten the Set Screw that holds the against the Cover to secure the Nipple firmly in PCVS assembly onto the Nipple place. 6. Attach leads from an electrical continuity meter, to the appropriate terminals. 4. Remove the Cover from the PCVS assembly, 6. Turn the Gear Operator to the full open position, and verify that the PCVS Switch contacts change position and then loosen/tighten the Trip Rod Locking within two turns of the handwheel from the Valve being fully open. Screw, as necessary, just to the point at which 7. Begin to close the Gear Operator. Verify that the PCVS Switch contacts change position within two turns the Trip Rod can be either retracted or extended of the handwheel from the Valve being fully open. with some slight resistance. 9. Remove the electrical continuity test leads. The external field wiring connections can now be made to the 5. Adjust the position of the Trip Rod so that ap- PCVS Switch. Use of a weather tight elbow conduit connector with a gasket seal is recommended. proximately 3" (75 mm) of the Trip Rod is ex- posed. Do not tighten the Trip Rod Locking Screw. - 6. Slide the PCVS assembly as far as possible over the Nipple while maintaining proper orien- 7161 tation of the PCVS assembly, as shown in the . . . GG 4 Elevation View; and, then tighten the Set II � Q • Screw that holds the PCVS assembly onto the 0 T • Nipple. (The Trip Rod will slide back into the lib U PCVS assembly as it comes in contact with the Gear Segment within the Gear Operator.) , _ i __ J 7. Gently push the Switch Actuator as far as pos- ; 1� ` ' O sibte towards the Switches and, while holding it 0 ' in that position, securely tighten the Trip Rod .III Locking Screw. "' 8. Attach leads from an electrical continuity meter, SWITCH TRIP ROD to the appropriate terminals. 9. Turn the Gear Operator to the full open position, • and verify that the PCVS Switch contacts GG -8 Plan View GG -8 Elevation View change position within two turns of the hand - wheel from the Valve being fully open. • 10. Begin to close the Gear Operator. Verify that the PCVS Switch contacts change position within two turns of the handwheel from the Valve being fully open. 11. Remove the electrical continuity test leads. The external field wiring connections can now be 2.25" 4.75" made to the PCVS Switch. Use of a weather (572) i (120,7mm) tight elbow conduit connector with a gasket seal is recommended. 3.00" (76,2mm) • ... • • __1= 5.12" o o) ___ • • ' •. (130 .____:___ 1/2" NPT .11// � • T • • • • • �••••• • •• . SNATCH TRIP ROD • •• • • • • ♦ SWITCHES •• • • • • • • ••i r,1 • •• KNOCKOUTS I� • FOR ELECTRICAL SWITCH ACTUATOR • CONNECTIONS Ili ••••• •• •• • • :6t3- Plan View • itil '' 1� J� GROUND SCREW • •••• • • • •• � LOCKING D SCREW ••• • _'� \ 4.40,...."-- e SET SCREW Awr- \ _ ............ = O NIPPLE 1�1 ID;♦ _ � Q LOCKNUT TRIP ROD I GG-4 Elevation View FIGURE F EXTERNAL MOUNTED MODEL PCVS -2 SUPERVISORY CONTROL VALVE SWITCH (Optional) twice / Flow Control I Gem GEM SPRINKLER COMPANY, 323 East 151st Street, Harvey, IL 60426 spnn*ier Toll -free (877) 436 -8926 / Fax (708) 331 -9605 / www.gemsprinkler.com • • , /�® DRY PIPE VALVE — 2 and 3 INCH (50 and 80 mm) MODEL F3061 (FLANGE x GROOVE) PIPE 0.0.-x., E r- I I F �1 ■ ___ -- i/ I 1 I �� �/ l i i ) 8 1,_} I +.p C I C' _ _ r N G » x A- _ M � �w -- t FRO FRONT RIGHT SID • ° Ntaught NT 2 Inch (50 mm) Valve CD e • PIPE O.D. —}+—� E I I I F GEN DESCRIPTION I I The 2 and 3 inch (50 and 80 mm), IIIIsmo FEN • Model F3061 Dry Pipe Valves are dif- �" ferential valves used to automatically I I t control the flow of water into dry pipe e 4 , , l , ∎ s I/P fire protection sprinkler systems upon A s operation of one or more automatic : e P sprinklers. The F3061 also provides for actuation of fire alarms upon system I � '' operation. The design of the F3061 • • L _ -----1-' - - i 1ii Clapper Assembly allows for the inter- -- IMPJ I nal parts to swing outside of the Hand- G � �mom x I M iii hole Cover opening for easy inspection , T • i • • prior to resetting, and the F3061 fea- •••• tures a field replaceable Air/Water FRONT FRONT • • • • : HT SIrr Seat Ring. • • • Dry pipe sprinkler systems are typi- 31nch (80 mm) Valve • • • • cally used in unheated warehouses, • • • • • • .... • • • parking garages, store windows, attic • • • • • • • _ spaces, loading docks, and other ar- Nominal Dimensions In Inches and•(mmt ' • • • eas exposed to freezing temperatures, _ ' • .' - • • • • where water filled pipe cannot be util- • ized. When set for service, the dry pipe VALVE • • A • B C D E • Ft • • • • _ G • H • ••••• sprinkler system is pressurized with air 2 10.88 1/ 1/ 4' 1' 3.0 ¢.ie• • 1.56• 38 (nitrogen), and the loss of air pressure • • through an operated automatic sprin- (50) (276,4) NPT NPT NPT (77,7) ( (39,6) Z 1) • 3 15.18 1/2' 1 - 1/4' 1 - 1/4' 3.94 2.25 1.94; . 2.06 kler, in response to heat from a fire, • permits the F3061 Dry Pipe Valve to (80) (385,8) NPT NPT NPT (100,1) (57,2) (49,3} (9e,3) • •... open and allow a flow of water into the VALVE J K L M N P PIPE O.D. sprinkler system piping. The differen- SIZE tial design of the F3061 is such that the 2 1.44 1.44 3.19 1.75 6.81 8.56 2.375 minimum air pressure in the piping is (50) (36,6) (36,6) (81,0) (44,5) (173,0) (217,4) (60,3) calculated to be approximately 1/6 of 3 206 1.94 4.56 4.63 8.38 12.31 3.500 the static water supply pressure, with (80) (52,3) __ (49,3) (115,8) (117,6) (212,9) (312,7) (88,9) an added 20 psi (1,4 bar) safety factor, to help prevent a false operation that FIGURE A might otherwise occur due to water MODEL F3061 DRY PIPE VALVES supply pressure fluctuations. - — DIMENSIONS AND PORT LOCATIONS — Printed in U.S.A. 6 -97 • TD106 '. , •' APPROVALS AND STANDARDS 6 The 2 and 3 inch (50 and 80 mm), `' Model F3061 Dry Pipe Valves are 1 -Body 22 18 listed by Underwriters Laboratories 2 - Handhole Cover Inc. and Underwriters' Laboratories of 3 - Clapper Arm 4 -O -Ring, Inner Canada. The F3061 Valves are also 5 - Air/water Seat Ring approved by the Factory Mutual Re- 6 - Seat Ring Hex Nuts 3 _ --11 20 search Corporation. ( req'd) / 6 ' 7 - Seat Ring Studs i req'd) WARNING 8 - Handhole Cover \ 19 The Model F3061 Dry Pipe Values de- Gasket scribed herein must be installed and 9 - Cover Stud, 13 VS j maintained in compliance with this 3/8' -16 UNC x 1 -5/8' 10 -Cap Screw, Long, 21 document, as well as with the appli- 3/8' -16 UNC x 1.5/8• cable standards of the National Fire 11 - Cap Screw, Short, Protection Association, in addition to 3/8' -16 UNC x 1 -1/4' ri 23 the standards of any other authorities (6 req'd) 12 - Cover Nut, 3/8' UNC =) having jurisdiction. Failure to do so 13 -Hinge Pin may impair the integrity of these de- 14 - 0 -Ring, Outer vices 15 - Clapper Facing - .. - 16 - Retaining Ring 1 The owner is responsible for main- 17 - Retaining Ring taining their fire protection •system Screws (6 req'd,d) - 18 - Latch \ and devices in proper operating con- 19 • Latch Pin dition. The installing contractor or 20 • Latch Cotter Pin 16 manufacturer should be contacted (2 req'd) 17 relative to any questions 21 - Clapper Pin d o. , :-.5 22 - Clapper Cotter Pin N 4% (2 req'd) 23 - Clapper 6 TECHNICAL DATA Dry Pipe Valve: �1 • WO a The 2 and 3 inch (50 and 80 mm), 4 Model F3061 Dry Pipe Valves are rated for use at a maximum service C 7 )) pressure of 175 psi (12,1 bar). The Valve dimensions are shown in Figure 14 A, and all of the ports are NPT - threaded per ANSI Standard 81.20.1. Flanged inlet connections are drilled 9 per ANSI specifications. The grooved I" ••• pyttet connections are cut in accord- ' • • ; pace with Grevlok standard groove 8 • �; i specificatiions step(, pjpp and they 0 ; • • are suitable foj use with grooved end 12 i 1 ' pipe CO Opfingt that ere listed or ap- ' � �, I •; • roved for fire prote 5h'�S' tem serv- �' ` �01 .- • • ice. •••• 0 '� R •..• • • • I ' • • • •the F306t VeIve is tote installed ver- 2 0 • tically, as shown in Eigb2A A. Exterior m • surfaces'e 'the F30'61• Valve are 0 0 r painted red, and the year•of manufac- .4; . fare is jgdi�ated onde. Handhole 11 0 ` ;�� ; j' � `�• :7 • Cover.• • ��� �N Compt3rter$S;of the 2 Inch (50 mm) .�.•`` 0 • • F3061 Valve are shown in Figure B -1, �' and components of the 3 Inch (80 mm) 10 F3061 Valve are shown in Figure B -2. The Body and Handhole Cover are • 0 cast iron per ASTM A48, Class 35 -B. •:` The Handhole Cover Gasket is cloth inserted Styrene Butadiene, the Clap- per Facing is EPDM, and the 0-Rings • are Buna -N. The Air/Water Seat Ring, — Clapper, Clapper Arm, Retaining Ring, FIGURE B -1 and Latch are bronze per ASTM B62 2 INCH (50 mm) MODEL F3061 DRY PIPE VALVE (UNS C83600), and the Seat Ring — ASSEMBLY - -2- e • ,_ ,, , • *No ' Maximum System Air Water Supply Pressure Pressure, Range, • 1 •- BodY 22 18 psi psi 2 - Handhole Cover 3 - Clapper Arm • 50 28 -34 4 - 0 -Ring, Inner 3 �O ■ 5 - Air Water Seat Ring ■) 2 75 32 - 38 8 - Seat Ring Hex Nuts V • race 7 - ( S e eatt Ring Studs ®� t , 19 8 - Handhole Cover 100 36 - 43 (s� `� '`� 125 39 - 46 Gasket 9 - Cover Stud, 150 43 - 51 5/8' -11 UNC x 2 -1/4' 13 21 10 - Cap Screw, Long. 175 47-55 5/8' -11 UNC x 2 -1/2' ecf:,4: (2� 23 TABLE A 11 - Cap Screw, Short. 5✓8' -11UNC x 1 -3/4' SYSTEM AIR PRESSURE (4 req'd) REQUIREMENTS 12 - Cover Nut, 5/8' -11 UNC 15 (2 raced) 13 - Hinge Pin S tu d s and Nuts are Type 304 Stainless 14 - 0-Fling, Outer YP 15 - Clapper Facing Steel. The Hinge Pin, Latch Pin, and 16 - Retaining Ring \ Clapper Pin are brass per ASTM B16 17 - Retaining R � �_ 16 (C36000). The Retaining Ring Screws 18 - latch are brass, and the Cotter Pins are 19 - Latch Pin ► stainless steel. The Handhole Cover 20 - Latch Cotter Pin 17 6 Studs, Nuts, and Cap Screws are carb- ( req'd) on steel. 21 - Clapper Pin -; 22 - Clapper Cotter Pin The nominal pressure losses versus ( 23 - Clapper d'D •s flow are shown in Graphs A -1 and A -2. ( , The approximate friction losses, based on the Hazen and Williams formula �1� l+ :, i4 / and expressed in equivalent length of 4 5 Schedule 40 pipe with C = 100, is 8.4 --) feet for the 2 inch (50 mm) valve size • \ and 7.7 feet for the 3 inch (80 mm) �' 7 valve size. The equivalent length of pipe has been calculated on the basis 14 of the flow rates typically used with each size valve. 9 1 Valve Trim: 8 �� L h, 2 ; �� Installation dimensions are given in 12 llll Figures D -1 and D -2. Tht 2 Iriph (50 • • > >llll � m mm) Valve Trim is iUustrated�n gure E -1, and the 3Mc"?1V0mnf) Valve Trim ••••• % Q is illustrated in Figure E -Z.TJ Valve • Trim forms a pagt.ofthe laboratory list- .....* fl Q ings and approval of the F3061 Valves • and is necesp�fdt; the propel; a era - ;��11 Q Q ;! lion of the F3001 Valves. 'E I, ack- • • age of trim daeludes the )(lipping " ' • ' S items: • •• • t 1 ' '.' • • Water Sueely I lbssure Gauge • Q m �� )� G Air Pre.. ssure 01119' . • • • f p • System • • 3 ` • Air Supply Uor sections .... • 10 Q `������ � !1 � / • Main Drainva�ve ;• • Q • Alarm Test Valve • • • • •••• • Q • Alarm Control Valve • Iill l ll llll Oda, I • Automatic Drain Valve • Priming Cup • Priming Level Test Valve • Drip Funnel .,.../ Table A shows the system air pressure FIGURE B -2 requirements as a function of the water 3 INCH (80 mm) MODEL F3061 DRY PIPE VALVE supply pressure. 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MI 1111 ___..N ■ ■■■ _N.__■ 0.5 - __. an MS ....11 Ell .■ • ■...___...••u__..■ - - -- ____ ___ .. ... 0.03 w.ouu uunun.Nr.NUU___...uu__..■ : : :i _..: :: __ ..: _ . :: ::::: _. __ 11111.111•11 ■■ 11 ___...•••1 MOW • 0.4 •••' • • •• •• _______. •... _. ■r.■ ■1111111111111111.1...11 /1 ■ ■■..11111 ••■•■ : : : :i AIM :: •• __a_:: , i : 11111•111•1 •• .••11 :i ■r1■■...11I1111111111,A 111111 10■ ••••1111 ■ ■■•■ 1111 m.•• ■. __ u u u■ uu . __■. . _a. ■■/ l mu Z 11.1.■ __..■.r. sus __...•••■1 Nun mil •• / ■ ■ ■1111111111111III ran 1I fill ■■ ■■■■1111 ■ ■ ■ ■1 03 11111 .. .__oNW• ■■.___NN WWI NMI 11u" 0.02 ►I ■111111111111111IIIU ■■ ■1 /111 ■ ■ ■■ ■111111 ■ ■ ■11■ s • g 1 § § §0 R A& AA? AA A A N FLOW RATE IN GALLONS PER MINUTE (GPM) FLOW RATE IN LITRES PER MINUTE (LP4) GRAPHS A -1 and A -2 NOMINAL PRESSURE LOSS VERSUS FLOW to be automatically maintained by us- ample, if the system air pressure is Ing one of the following pressure main- OPERATING PRINCIPLES 40 psi (2,7 bar) and there was 25 psi tenance devices, as appropriate, and (1,7 bar) pressure trapped in the inter - nitrogen pressure may be used in lieu The Model F3061 Dry Pipe Valves are mediate chamber, the resulting pres- of air pressure. differential type valves that utilize a sure across the top of the Clapper substantially lower system (air) pres- would only be 15 psi (1,0 bar), which • Model F324 Air Maintenance De- sure than the supply (water) pressure, would be insufficient to hold the Clap - vice (pressure reducing type), re- to maintain the set position shown in per Assembly closed against a water fer to Technical Data Sheet Figure C -1. The differential nature of supply pressure of 100 psi (6,9 bar). It TD111. the F3061 is based on the area differ- is for this reason that the plunger of the ence between the air seat and the Automatic Drain Valve needs to be de- • Model F326 Air Maintenance De- water seat. The difference is such that pressed several times during resetting vice (compressor control type), re- 1 psi (0,07 bar) of system air pressure of the F3061 Valve, as well as during fer to Technical Data Sheet can hold approximately 6 psi (0.4 bar) inspections, to make certain that the TD112. of water supply pressure. Automatic Drain Valve is open. • • Moddr R. 8 Nitrogen Mainte- The minimum system air pressure When one or more automatic sprin- t • • • nancg Device (high pressure re- (Ref. Table A) is, therefore, calculated klers operate in response to a fire, air • ducky 44e), r4fer to, Technical to be approximately 1/6 of the static pressure within the system piping is • Data Shedt TD1 j3.• • • . water supply pressure, plus a 20 psi relieved. When the air pressure be- • • (1,4 bar) safety factor, to help prevent comes sufficiently reduced, the water The Pr ere Relief Valvojltem 6- Fig. a false operation that might otherwise pressure overcomes the differential- ' • • • • F -1 or E''. ie factory'sdt to relieve at occur due to water supply pressure holding the Clapper Assembly closed a pressure .of appOdl=18tely 45 psi fluctuations. and the Clapper Assembly swings • • (3,1 baC). If IVLAnormabsystem air Ares- clear of the water seat to permit water- • • sure is lens than or exseeds 40 psi (2,8 Priming water within the body of the flow into the system piping and sub- . • • • • bar), then the presau d „Relief Valve F3061 Valve, as shown in Figure C -1, sequently to be discharged from any must be relifm t a pressure helps to maintain a tight air seal at the open sprinklers. • • • which is frf aecordanee wit the Author- air seat. Between the air and water • {ty Having je�isdiction. seats, an intermediate chamber is Under full flow conditions, the Clapper •.. • .• • formed, and the intermediate chamber Assembly will latch open as shown in • is normally open to atmosphere Figure C -2. Also, with the Clapper As- through the alarm port and piping to sembly open, the intermediate cham- the Automatic Drain Valve (Ref. Figure ber is pressurized and water flows E -1 or E -2). through the alarm port at the rear of the F3061 Valve to actuate system wa- Having the intermediate chamber terflow alarms. The flow from the alarm open to atmosphere is critical to the port is also sufficient to close the oth- F3061 Valve remaining set, otherwise erwise normally open Automatic Drain _ the full resulting pressure of the sys- Valve (Ref. Figure E -1 or E -2). tem air pressure on top of the Clapper Assembly cannot be realized. For ex- . -4- t1°o2oea_ -e3 y8'v ,• I'. SYSTEM PIPING � ` (MR PRESSURE) INSTALLATION II II i i•i � � 1 NOTES wATER Proper operation of the Model F3061 I • I SEAT Dry Pipe Value depends upon its trim PRIMING ' / i ' being installed in accordance with the WATER . " = a instructions given in this Technical LEVEL r ■ Data Sheet. Failure to follow the ap- : ru propriate trim diagram may prevent the F3061 Value from functioning ' • % properly, as well as void listings, ap- I �� ♦ ♦ ♦ SEAT 1 /i���_" rantals and the manufacturer's war- i i A •♦ CLAPPER • •• The F3061 Value must be installed in ASSEMBLY , • a readily visible and accessible loco- • • INTERMEDIATE ' "�? .4 CHAMBER tion \\44:,.:-ELiv, • The F3061 Valve and associated trim lir � must be maintained at a minimum 4':r �. • � � � temperature of 40714°C. � • � (ATMOSPHERIC Heat tracing of the F3061 Valve or its INTERMEDIATE %/ / . ° A P RESSURE) associated trim is not permitted. Heat CHAMBER tracing can result in the formation of II I I hardened mineral deposits which are capable of preventing proper opera - II II tion. WATER SUPPLY — Set Position — The Model F3061 Dry Pipe Valve is to Figure C -1 be installed in accordance with the fol- lowing criteria: SYSTEM PIPING 1. All nipples, fittings, and devices must (WATERFLOW TO be clean and free of scale and burrs AUTOMATIC SPRINKLERS) before installation. Use pipe thread D !! II sealant sparingly on male pipe � IL threads only. LATCH ! FULL OPEN 2. The F3061 Valve must be trimmed in LATCH POINT � I • 1 .! accordance with Figures E -1 or E -2, as applicable. ri.\ ` 0 3. Care must be taken to make sure : INTERMEDIATE that check valves, strainers, globe ;. /./ L POINT -„ . • valves, etc. are installed with the flow ••••• �'j• f • : , . C. arrows in the proper directign. • UP ►, % '- ♦ ♦ ♦ i • 4. Drain tubing te•thel ip funnel must • • r i' • be installed with smgoth bet Ist at • t2 , i , : : ". • • j LOWER LATCH • •••••• % i�' • POINT will not restriCtfjOW.• • • • • V 5. The main drairoOd tipp funnel *gig •••••• ` `�; �\� � J m ay be interconi+eeted prot'ided•a • •' • • • • • .,� • check valve is, boeled at least.ta s1 0 ' % / IN inches (300 mail bolo v the dripJOnt • I cI / ALARM PORT nel. •••••• • 0 , (WATERFLOW • • • ....e............:.: %� A O ALARM) 6. Suitable provisiion must be mantel.. ` — "� I i I i f - disposal of dr$ifl'lra;er. Draireat13 water must be dlteet%d such•�igt lt • I ii will not cause accidental damage /e i I property or danger to persons. WATER SUPPLY (F 7. Unused pressure alarm switch — Open Position (F lowing}— Figure and/or water motor alarm connec- g tions must be plugged. 1 8. The Pressure Relief Valve provided V 1 with the Valve Trim is factory set to FIGURE C relieve at a pressure of approxi- MODEL F3061 DRY PIPE VALVES mately 45 psi (3,1 bar), which can — SET AND OPEN POSITIONS — typically be used for a maximum nor- mal system air pressure of 40 psi -5- e I - c E - - F 1 W W ■ _I n U I • __ I .. .iislilidleignaliNMINII--*" ... v I --.7 :11.6110. ..11" .1' . `:!. mi. - j I 'i D t i ilir 11, E3.QNL RIGHT SIDE • Nominal Installation Dimensions in Inches and (mm) VALVE A B• C D E F SIZE 2 10 -7/8 14 12 6 6 12 (50) (265,4) (350) (300) (150) (150) (300) • MINIMUM CLEARANCE, ADDITIONAL 2' (50 mm) IS RECOMMENDED FIGURE D -1 NOMINAL INSTALLATION DIMENSIONS FOR 2 INCH (50 mm) MODEL F3061 DRY PIPE VALVES (2,8 bar). The Pressure Relief Valve 5. As necessary, replace all sprinklers may be reset to a lower or higher VALVE SETTING PROCEDURE that have operated. Replacement pressure; however, it must be be re- sprinklers must be of the same type set to relieve at a pressure which is Steps 1 through 13 are to be per- and temperature rating as those in accordance with the requirements formed when initially setting the Model which have operated. of the Authority Having Jurisdiction. F3061 Dry Pipe Valve; after an opera- tional test of the fire protection system; NOTE To reset the Pressure Relief Valve, or, after system operation due to a fire. In order to prevent the possibility ••••• first loosen the jam nut and then of a subsequent operation of an • • adjpst the cap accordingly — clock- overheated solder type sprinkler, ••••• wise fore higher pressure setting or 1. Close the Main Control Valve, and any solder type sprinklers which counterelockwtse•for a lower pres- close the Air Supply Control Valve. were possibly exposed to a tem- • si.Oo. ting. After verifying the de perature greater than their maxi •••••• sired pressur$.SAItjrjtj, tighten the 2. Open the Main Drain Valve and all mum rated ambient must be re - • • • jam nut. • auxiliary drains in the system. Close placed. •••• ":" . the auxiliary drain valves after water • • • • 9. tnstali Lion of en•Aft Maintenance ceases to discharge. Leave the Main 6. Remove the Handhole Cover and • rico, as described in the Techni- Drain Valve open. swing the Clapper Assembly out- • Fat Data Sectfgr3,h jecommended. ward. Clean all interior parts of the •••• 3. • •�,. Depress the plunger of the Automat- F3061 Valve, and use a clean cloth •.. • • • 10. A, Inspectors I•st as is Drain Valve to verify that it is open to to wipe the Air/Water Seat Ring ,ftlegiftpd By N A' 13 must be pro- and that the F3061 Valve is corn- and the Clapper Facing. Inspect the • • tided on the ifatbJn piping at the pletely drained. Clapper Facing and Air/Water Seat .....• • most. remotA •letation from the Ring for damage and check the • ••. • • F3063 Valve. 4. Open the Alarm Control Valve (Fig. Clapper Arm and Latch for freedom . E -1 or E -2), if it was closed to silence of movement. 11. Conduit and electrical connections local alarms. are to be made in accordance with Worn or damaged parts must be the requirements of the authority It is recommended that the Alarm replaced and the F3061 Valve must having jurisdiction and/or the Na- Control Valve be wire sealed in the be reassembled in accordance with tional Electric Code. open position with a No. 16 twisted Figure B -1 or B-2, as applicable. wire, the ends of which are secured by a lead seal. The wire seal should 7. Reseat the Clapper Assembly. i be looped through the hole in the handle and tightly twisted around the NOTE pipe nipple adjacent to the handle. Make certain that the Latch is not caught on the lowest latch point -6- B I C -EF 'i ! W 1 V MI I _— © - : gyp_ 11111.114,=V11■1*,. A . 11 �� likih::7 i ,,1 .-•-. �.r it � . _I 1 � . 1 Ili! - j,� I D - D - f EINfil RIGHT SIDE Nominal Installation Dimensions In Inches and (mm) VALVE A B• C' D E F SIZE 3 15 -3/16 15 13-1/2 3-1/2 7 12 (80) (385,8) (380) (340) (90) (175) (300) ' MINIMUM CLEARANCE, ADDITIONAL 2' (50 mm) IS RECOMMENDED FIGURE D -2 NOMINAL INSTALLATION DIMENSIONS FOR -.) . 3 INCH (80 mm) MODEL F3061 DRY PIPE VALVES (Ref Figure C - 1). When the Clap individually open all auxiliary drain discharging is an indication of a per Assembly is properly seated, valves in the system piping to drain properly set water seat within the the Latch should be able to swivel any remaining water in trapped sec- F3061 Valve. If water is discharging, freely. tions. Close each drain valve as refer to the Care and Maintenance soon as water ceases to discharge. section under the Automatic Drain 8. Replace the Handhole Cover and Valve Inspection to determine /cor - Handhole Cover Gasket using the 11. Refer to Table A and then restore the rect the cause of the leakage prob- the longer Cap Screw(s) at the bot- system to the normal system air !ern. ••••• • tom edge of the Handhole Cover. pressure the necessary to hold the ••••• Uniformly tighten the Cover Cap F3061 Valve closed. If there are nglpi4.1,he F3861 Valve ••• • • • Screws and Nut(s) using a cross- is ready to be placetI in service �qd • • draw sequence. 12. Depress the plunger on the Auto - the Main Control Vtlye mualien be • ••••• matic Drain Valve to make sure it is fully opened.. • • • • • 9. Open the Priming Valve, and open open and that there is no water or air •••• • • • • • • • • • • S'F, the Priming Test Valve. discharging. NQ • • • ••.. •• • •• After setting a f re g gtection syste m Prime the F3061 Valve by slowly The absence of water and/or air dis- notify the proper authorities aifdd� • pouring water into the Priming Cup. charging is an indication of a prop- vise those respon�ZSle' or moni.8rin4 • • ••• When water discharges from the erly set air seat within the F3061 proprietary andy ir•eur.tral station • • •. • Priming Test Valve, cease pouring Valve. If water and/or air is discharg- alarms • • • • •••• water into the Priming Cup. The 2 ing, refer to the Care and Mainte- •••••• ' .... • • • Inch (50 mm) F3061 Valve will re- nance section under Automatic ' • •• • . •, • • • • • • • quire approximately 0.6 gallons (2.3 Drain Valve Inspection to deter- • • • • • litres) of prime water, and the 3 Inch mine/correct the cause of the leak- "• • (80 mm) F3061 Valve will require age problem. . approximately 1.2 gallons (4.5 litres) of prime water. 13. Slowly open the Main Control Valve. Close the Main Drain Valve as soon After water stops discharging from as water discharges from the drain the Priming Test Valve, close the connection. Priming Valve and the Priming Test Valve. Depress the plunger on the Auto- matic Drain Valve to make sure that 10. Pressurize the system with air (nitro- it is open and that there is no water gen) to 20 psi (1,4 bar), and.then discharging. The absence of water -7- 1/2 INCH NPT 1/2 INCH NPT CONNECTION FOR / , CONNECTION WATERFLOW / PRIMING ) � FROM AIR AIR SUPPLY PRESSURE ALARM U 3/4 INCH NPT l \ C \ uP SUPPLY _ 6 CONTROL VALVE SWITCH 27' CONNECTION � (NORMALLY ` ■ ■tV FOR WATER OPEN) MOTOR ALARM g Z. (L' ,..- 31 !! 4 31 Gv 25 / /� /�' i U 26 PRIMING VALVE in 31 ' _ 31 4 �- CLOSED) Y II P• SYSTEM AIR 31 ALARM 7 PRESSURE g 1Pr, ,v...... iii 31 iii GAUGE VALVE CONTROL 34 .' 1 -1 ` (it, 33 CU 26 (NOR Y // SYSTEM ALARM n WATER (NORMALLY : ' ((e((• 16 �((• 24 3 PRESSURE CLOSED) •• \ i � � GAUGE _ :S %��j 01 31 '�f ALTERNATE LOCATION r • , ' ' WATERFLOW PRESSURE ` I 2 l 10 I 7 22 7 /(�( /! i t - CDs ALARM SWITCH 29 , �i I 15 valwe -% ��C g 31 1� r " (GREEN (/ • cl 24 ( TINT) 26 �(: i 31 / � . 2 r %/C (�) 1 47 !f.' - 1 .. - i`� 4,,,..., 31 IL 26 NO 29 too 31 t 16 � �.� 4 ((� /(.. 1 U \ �� %1C AUTOMATIC 15 �� 29 �' \> ( /e / �. DRAIN VALVE i ` 18 31 31 *� 22 M. 26 ` //,j _ \\1 \\ 21 11 1 � e. L ' r K. O� 31 1 10 28 17 30 r 33 ��) _))1)I (" �I 35 23 �( 19 e/�� 1 PRIMING TEST VALVE (NORMALLY CLOSED) 12 I 1 ;4 16 -> 13 1 1 MAIN DRAIN VALVE u=-rl 161111■5 (NORMALLY CLOSED) 1 -1/4 INCH NPT DRIP • • • • • • CONNECTION DRAIN • * • i/in4auge • 11 - Drip Funnel 24 -1/2' x 1/4' x 1/2' ' • • • • • . Test halve • • • • • • Connector Tee (2 req'd) NOTES: • • • 2. 300 ID. Water* 12 - Drip Funnel 25 -1/2' x1/2" x 1/4' Tee Pteesure Gate • Bracket • • , • • • 3 Pressure Gad e • • • 13 - Drip Funnel 27 - i x 1/2 (5 3/a )Tee 1 • The nipples utilized in the trim ar- • g 14 -1 • Angle Valve rangement are Schedule 40 steel ng 26 - 1/2' x 1/ 4• Bushin •••••• 4 it/2 Swing Chwk• • 1 - 1/4' Plug (2 raga) 29 - 1/4' x 3' Nipple g per ASTM A53 or A135 and they are • • • • ` ti T •� Globe Ve�ve' • • • 16 1/2' Plug (2 req'd) ( 3 req 'd) • • threaded per ANSI 81.20.1 The fit - •9.1 /4• G rob e n • e • • • • 17 - 1/4' Tube Connector 30 - 1/4' x 5 -1/2' Nipple tings are either malleable iron per • 18 - 1/4' Tube, • ; • DOW Valve • • ; • • 24' lon 31 - ( 16' x 'd) Nipple B 16. B16.3 or cast iron per ANSI ••••• 7 - 112' Ball Vaive • 19 - 1/4' Tube, 18 re 816.4. • ••••• 32 - 1/2'x 2' Nipple •••••• 1•-�gCup••••. 12'long 33 - 1/2' x 2-1/2' Nipple • 9 - 3/32• Vent 20 - 1/4• Union (2 req •d) 2. °Standard order" trim is provided • • • 'Fitting • • • • • • 21 - 1/2' Union 34 - 1/2' x 3' Nipple with black nipples and fittings: how- • • • 22 -1/2' x 1/4' Reducin •••••• 10 - Model F793 Reducing (2 req'd) ever, galvanized nipples and fittings • • • • AQtomatic Drain 23 - 1 . Elbow ? W) 35 -1' x 3 -1/2' Nipple . • are available on "special order". •••• Va e ..../ FIGURE E -1 EXPLODED VIEW OF 2 INCH (50 mm) MODEL F3061 VALVE TRIM -8- 1/2 INCH NPT • 1' /,2 INCH NPT CONNECTION FOR CONNECTION WATERFLOW PRIMING FROM AIR AIR SUPPLY PRESSURE ALARM U 3/4 INCH NPT CUP � '' SUPPLY 6 CONTROL VALVE SWITCH 27 FOR WATER � I (NORMALLY ` OPEN) MOTOR ALARM 8 ( -'' 31 1 C — r 31 25 / /� /�' , ( 26 PRIMING VALVE "' 4 14 1 47 (NORMALLY 31 J � -. 31 i �- (( 4 V 31 CLOSED) ` PRESSURE SYSTEM R 5 '/ /,• ,�v� 31 r ALARM / 1 a CONTROL 7 GAUGE -1 `� ( z., 33 U�1 (NORMALLY (rah,. RMALLY I 33 3 VALVE SYSTEM W P SSURE ( COED LY . \ \� \ \28 " / /� //, \ 16 ■f //• 24 0 • 33 1" - GAUGE i % � • 31 — �" `• ` 11 31 = ��, , V ALTERNATE LOCATION 33 (( WATERFLOW PRESSURE ` 1 _ 0 \ \ \\ / O 7 �/% �U ALARM SWITCH 15 2 7 TT �� 29 ' ;! ,- ,1111 2 s / /e / r• ,��� • ' .., 24 � 32 ( if • 31 `J(` // • 26 vt 29 • • '�e l i s� ° // �1 15 1 23 16 ,: . rte i �� (GREEN . \i 7 \\ %�� / /�//,- DRAIN AUTOMATIC ALVE �� 31 , , „ :, 31 31 , //�/ /• -v 26 ` ( /ej ° ° 'r oc �\ 7 21 18 11 11 10 6 ,‘"-• ( 31 • (/ I , ((,• 31 7 28 17 wh. , 32 ( ft) \ ZI. V) :4) "tit\ :Th „.; ) 31 20 ( (4 14 23 (�/ � 14 19 �� NORMALLY ( ` CLOSED) 12 � MAIN DRAIN VALVE / • C ' 6 \ (NORMALLY CLOSED) l�'1/ DRIP FUNNEL DRAIN CONNECTION • 1 - 1/4' Gauge 11 - Drip Funnel 24 - 1/2' x 1/4' x 1/2' NOTES: Test Valve Connector Tee (2 req'd) • • • • • • 2 - 300 lb. Water 12 - Drip Funnel 25 - 1/2' x 1/2' x 1/4' Tee 1. The nipples utilized in tl . vy'Q .ar- ••••• Pressure Gauge Bracket 26 - 1/2' Tee (5 req'd) rangement edule' 40 steel •••••• 13 -Drip Funnel 27 - 1/2' 1/2' 3 - 250 lb. Air x x 3/4' Tee per ASTM A5 3 o� rA'I35 and the re • • • Pressure Gauge 14 - 1 -1/4' Angle Valve 28 - 1/2' x 1/4' Bushin g 4 -1/2' Swing Check 15 -1/4' Plug (2 req'd) 29 - 1/4' x 3' Nipple threaded pe`ANS� �1.20 • v • • • • •• • 1/2' Valve (2 req'd) 18 - Plu (2 req'd) tings dad q'd) (2 req'd) tings are eitpt�f'inalleable iro • 5 - 1/2' Globe Valve 17 - 1/4' Tube Connector 30 - 1/2' x dose Nipple ANSI 816.3 gr.r iron per. gm' 8 - 1 /4' Pressure 18 - 1/4' Tube, • •••••• • Relief Valve 24' long 31 - 1/2' x 1 -1/2' Nipp B16.4. • • • • • • • • 7 - 1/2' Ball Valve 19 - 1/4' Tube. 32 - (16 req'd) • •••• • • • • 1/2' x 2-1/2' i Nipple • • (4 req'd) 12' long . Standard ofl11 him is Qtoidgd • • 8 - Priming Cup 20 - 1 -1 /4' x 1/2' Reducer (2 req'd) w ith black npp e/6 3nd fittings? 9 -3132' Vent ings? hotlh- 33 - 1/2' x 3' Nipple ••••• 21 -1/2' Union (2 re (4 req'd) ever, galvanized piles and fittings • Fitting . 22 -1/2' x 1/4' Redudng 34 - 1-1/4' x 4' Nipple are available ere special order.... • • .' • • 10 - Model F793 Automatic Drain 23 - 1/2' Elbow 0' Elbow (2 req'd) •••• •: • • • •..• • • Valve • •••• •• • •••••• • • • • I . • •• •••• U FIGURE E -2 EXPLODED VIEW OF 3 INCH (80 mm) MODEL F3061 VALVE TRIM -9- should be performed quarterly. To test water stops discharging from the Prim- , CARE AND MAINTENANCE the waterflow alarm, open the Alarm ing Test Valve). Test Valve, which will allow a flow of 0 21 The following procedures and inspec- water to the Waterflow Pressure Alarm If no water discharges, close the Prim- 1 tions should be performed as indi- Switch and /or Water Motor Alarm. ing Test Valve and replenish the Prim- s � cated, in addition to any specific re- Upon satisfactory completion of the ing Level by performing Steps 1, 2, 3, quirements of the NFPA, and any test, close the Alarm Test Valve. 9, 11, 12, and 13 in the Valve Setting impairment must be immediately cor- Procedure section. rected. It is also recommended that fire protection systems be inspected by a Water Pressure Inspection qualified Inspection Service. The Water Pressure Gauge is to be NOTES inspected each week to ensure that The operational test procedure and normal system water pressure is being WARRANTY waterflow pressure alarm test proce- maintained. dure, result in operation of the associ- Seller warrants for a period of one year ated alarms. Consequently, notifica- from the date of shipment (warranty Lion must first be given to the owner Alr Pressure Inspection period) that the products furnished and the fire department, central sta- hereunder will be free from defects in Lion, or other signal station to which The Air Pressure Gauge is to be in- material and workmanship. the alarms are connected. spected each week to ensure that nor- mal system air pressure is being main- For further details on Warranty, see Before closing a fire protection system tained. Price List main control valve . for maintenance work on the fire protection system which it controls, permission to shut down the effected fire protection sys- Automatic Drain Valve Inspection terns must first be obtained from the proper authorities and all personnel - The Automatic Drain Valve should be who may be affected by this decision inspected each week by depressing must be notified. the plunger and checking to ensure that the Automatic Drain Valve is not discharging water and/or air. Discharg- Annual Operation Test Procedure ing of water and/or air is an indication that the air and/or water seats are leak - Proper operation of the F3061 Valve ing, which could subsequently cause a (i.e., opening of the F3061 Valve as false operation should the intermedi- during a fire condition) should be veil- ate chamber become inadvertently fled at least once a year as follows: pressurized. 1. If water must be prevented from flow- If leakage is present, take the F3061 ing beyond the riser, perform the fol- Valve out of service (i.e., close the lowing steps. main control valve, open the main drain valve, close the air supply control a. Close the Main Control Valve. valve, and open the Inspector's Test Connection to relieve the system air b. Open the Main Drain Valve. pressure to 0 psig as indicated on the ••••• System Air Pressure Gauge), and then '..; • • c. Open =he Main Control Valve after removing the Handhole Cover, • • 'dilbltUjn beyond the position at check the following items: •• • which water p i t tins to flow • •freaule Maip Drain Valve. A. Seat Ring Nuts. Make sure the Seat • • • •• • • • • Ring Nuts are tightened evenly. • d. Close the Main Drain Valve. • ••••• • • • • • . •• • • • • B. Clapper Facing: Make sure that the • • .'..2. Opens the'system' Inspector's Test Clapper Facing does not show signs • Connection. • •... of compression set, damage, etc. • • • ' Replace the Clapper Facing if there • ••••• 3. Verify th at the I i41.yalve has op- is any signs of wear. For a short -term ••••• ' eraird, as indieqtyel.by the flow of fix, the Clapper Facing may be water Tito the 4 system and that all turned over. . waaigitlfiw alarms (lidded properly. • •••• C. Air/Water Seat Ring: Inspect the • • ••••• • • • • • • •' 4. Close the system's Main Control Air/Water Seat Ring for nicks, dam - Valve. age, etc. Replace the Air/Water Seat Ring if there is any signs of wear. 5. Reset the F3061 Valve in accord- ance with the Valve Setting Proce- dure. Priming Water Inspection The priming level is to be inspected Quarterly Waterflow Alarm Test quarterly. Partially open the Priming Procedure Test Valve, and then close the Priming Test Valve when the priming level has Testing of the system waterflow alarms been correctly established (i.e., when -10- W . .. Replacement Valve Pads: Replacement Trim Parts : ORDERING PROCEDURE Specify: (description) for use with Specify: (description) for use with ; All orders for Model F3061 Dry Pipe (specify size) Model F3061 Dry Pipe Model F3061 Dry Pipe Valve, PSN Valves, trim, accessories, and replace- Valve, PSN (specify). (specify). ment parts must include the descrip- tion and Product Symbol Number 2lnch (50 mm) Valve Trim (Ref. Flg. E -1) Where applicable. 2 Inch (50 mm) Valve (Ref. Flg. B -1) (PSN), pp licable. 1 - 1/4' Gauge Test 2 - Handhole Cover PSN 92-306-1-201 Valve PSN 46- 005 -1-002 3 - Clapper Arm PSN 92-306-1-202 2 - 250 lb. Water Valves: 4 - 0 -Ring, Inner PSN 92- 306 -1 -203 Pressure 5 - Air/Water Gauge PSN 92- 343 -1 -012 Specify: (specify size) Model F3061 Seat Ring PSN 92 -306 -1 -204 3 - 300 lb. Water 6 - Seat Ring Pressure Dry Pipe Valve, PSN (specify). Hex Nuts PSN 92 -306 -1 -205 Gauge PSN 92-343-1-005 7 - Seat Ring 4 - 1/2' Swing 2' (50 mm) PSN 52- 306 -1-009 Studs PSN 92 -306 -1 -206 Check Valve PSN 46- 049 -1 -004 3' (80 mm) PSN 52- 308 -1 -011 8 - Handhole Cover 5. 1/2' Globe Valve PSN 46-047-1-004 Gasket PSN 92 -306 -1 -207 6 -1/4' Pressure 13 - Hinge Pin PSN 92 -306 -1 -208 Relief Valve PSN 92- 343 -1 -020 "Standard Order" 14 - 0 -Ring, Outer PSN 92-306-1-209 7 - 1/2' Ball Valve PSN 46-050-1-004 15 - Clapper Facing PSN 92 -306 -1 -210 8 - Priming Cup PSN 92-348-1-004 Black Trim: 16 - Retaining Ring PSN 92 -308 -1 -211 9 - 3/32' Vent 17 - Retaining Ring Fitting PSN 92-032-1-002 Specify: (size) Inch F3061 Black Trim, Screws PSN 92-306-1-212 10 - F793 Automat - PSN (specify). 18 - Latch PSN 92 -306 -1 -213 is Drain Valve PSN 52- 793 -1-004 19 - Latch Pin PSN 92- 306 -1 -214 11 - Drip Funnel . 20 - Latch Cotter Pin PSN 92 -306 -1 -215 Connector PSN 92-211-1-005 2 Inch (50 mm) 21 - Clapper Pin PSN 92 -306 -1 -216 12 - Drip Funnel F3061 22 - Clapper Cotter Bracket PSN 92- 211 -1 -003 Black Trim PSN 52 -306 -1 -201 Pin PSN 92 -306 -1 -217 13 - Drip Funnel PSN 92- 343 -1-007 3 Inch (80 mm) 23 - Clapper PSN 92- 306 -1 -218 14 - 1' Angle Valve PSN 46-048-1-006 F3061 Black Trim PSN 52 -306 -1 -202 3 Inch (80 mm) Valve (Ref. Flg. 8 -2) 2 - Handhole Cover PSN 92- 306 -1 -301 3 Inch (80 mm) Valve Trim (Ref. Fig. E -2) "Special Order" 3 - Clapper Arm PSN 92-306-1-302 • Galvanized Trfm: 4 - 0 -Ring, Inner PSN 92-306-1-303 1 - 1/4' Gauge Test 5 - Air/Water Valve PSN 46-005 -1 -002 Specify: (size) Inch F3061 Black Trim, Seat Ring PSN 92- 306 -1 -304 2 - 250 lb. Water 6 - Seat Ring Pressure • -- s, PSN (specify). Hex Nuts PSN 92 -306 -1 -305 Gauge PSN 92-343-1-012 1 7 - Seat Ring 3.300 lb. Water 2 Inch (50 mm) Studs PSN 92- 306 -1 -306 Pressure F3061 8 - Handhole Cover Gauge PSN 92- 343 -1-005 Galvanized Trim PSN 52 -306 -2 -201 Gasket PSN 92 -306 -1 -307 4 - 1/2' Swing 3 Inch (80 mm) 13 - Hinge Pin PSN 92- 306 -1 -308 Check Valve PSN 46- 049 -1 -004 F3061 14 - 0 -Ring, Outer PSN 92- 306 -1 -309 5 - 1/2' Globe Valve PSN 46-047 -1-004 Galvanized Trim PSN 52- 306 -2 -202 15 - Clapper Facing PSN 92- 306 -1 -310 6 - 1/4' Pressure 16 - Retaining Ring PSN 92- 306 -1 -311 ' Relief Valve PSN 92- 343 -1 -020 17 - Retaining Ring 7 - yr Ball Valve PSN 46 -050.1-004 Accessories: Screws PSN 92-306-1-312 6 - Priming Cup PSN 92- 346 -1-004 18 - Latch PSN 92 -306 -1 -313 9.3/32' Vent Refer to the following Technical Data 19 - Latch Pin PSN 92-306-1-314 Fitting PSN 92 -032 -1-002 • • : • • • Sheets (TD), as applicable. 20 - Latch Cotter Pin PSN 92 -306 -1 -315 10 - F793 Automat- • • ••••• 21 • Clapper Pin PSN 92- 306.1.318 1e Drain Valve ePSN 52V93-11304 Waterflow Pressure Alarm Switch TD213 22 - Clapper Cotter 11 - Drip Funnel ••• • • ** • • • • � • • Water Motor Alarm TD250 Connector PSN 92 Pin PSN 92-306-1-317 .731 145 Model F324 Air Maintenance 23 - Clapper PSN 92-306-1-318 12 - Drip Funnel • • • •••••• Device TD111 Bracket •• •••• tSN 92- 211 -1t-003 • • • Model F326 Air Maintenance 13 - Drip Funnel PSN 92- 343 -f-007 • Device TD112 14 - 1-1/4' Angle • , • •••• •••••• Model F328 Nitrogen Maintenance Valve • • i.. i PSN 48- 84,p • • • • • • Device • TD113 •• • • ••••• • ••••• The following are thi6•ndfflinal wei$Nts'f8r• • • the valves and trim: • • • • • • • • •••• 2 Inch (50mm) •••• •• • • • • ••••6 Model F3061 Dry Pipe Valve .. 351bs•(16 ft fj •••• 3 Inch (80 mm) Model F3061 Dry Pipe Valve .. 82 lbs. (37 kg) 2 Inch (50 mm) Valve Trim 22 lbs. (10 kg) 3 Inch (80 mm) Valve Trim 28 lbs. (13 kg) -11-