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Home My WebLink About1645 ARTEMISIA CT; ; FPR2019-0110; PermitPERMIT REPORT C('City of Carlsbad Print Date: 05/02/2022 Permit No: FPR2019-0110 Job Address: 1645 ARTEMISIA CT, CARLSBAD, CA 92011 Status: Closed - Finaled Permit Type: FIRE-Construction Residential Work Class Single Family Fire Sprinkli Parcel #: 2150530249 Valuation: $0.00 Occupancy Group: #of Dwelling Units: Bedrooms: Bathrooms: Track #: Lot #: Project #: Plan #: Construction Type: Orig. Plan Check #: Plan Check #: Applied: 05/15/2019 Issued: 05/29/2019 Finaled Close Out: 10/01/2019 Inspector: Final Inspection: Project Title: Description: TREVISO -REVISIONS TO PLAN 3 /MASTER SUBMITTAL FOR SUBDIVISION Applicant: FPContractor: ON GUARD FIRE PROTECTION BABAK TAVAKOLI-INACTIVE OSCAR GARCIA 11800 STERLING AVE, # STE L 11800 STERLING AVE RIVERSIDE, CA 92503-4931 RIVERSIDE, CA 92503-4931 (702) 966-8021 (951) 254-5848 FEE AMOUNT FIRE NFPA 13D Single Family System (Insp/Bldg) $125.00 FIRE NFPA 13D Single Family System (Plan Review) $246.00 FIRE Plan Review Per Hour - Office Hours $136.00 Total Fees: $507.00 Total Payments To Date: $507.00 Balance Due: $0.00 Fire Department Page 1 of 1 1635 Faraday Avenue, Carlsbad CA 92008-7314 1 760-602-4665 1 760-602-8561 f I www.carlsbadca.gov Hydraulic Calculations for Project Name: Treviso Location: Carlsbad, CA, Drawing Name: PLAN 3-DELTA 1 Design Remote Area Number: Remote Area Location: Occupancy Classification: 1- 14'x14' SPACING MASTER BEDROOM Residential Calculation Date: 7/19/2019 Pressure: 0.050g pm/ft2 Area of Application: 392.00ft2 (Actual 129.52ft2) Coverage per Sprinkler: 196 .00ft2 Type of sprinklers calculated: Pendent No. of sprinklers calculated: 2 No. of nozzles calculated: 0 In-rack Demand: N/A gpm at Node: N/A Hose Streams: 0.0 gpm at Node: 1 Type: 5.00 at Node: 500 Type: Total Water Required (including Hose Streams where applicable): From Water Supply at Node 1: 25.60 @43.648 Type of System: 13D Volume of Dry or PreAction System: N/A Allowance at Source Hose (Safety Margin = 12.350 psi) for Node: 1 Date: 05/02/2019 Location: Poinsettia Lane Source: Carlsbad Municipal Water District Name of Contractor:ON GUARD FIRE PROTECTION Address: 6438 Arville Street, Las Vegas, NV 89118 Phone Number: 702-966-8021 Name of designer: TONY HARGROVE Authority Having Jurisdiction: Carlsbad Notes: Automatic peaking results Left: N/A Right: 46.287 &© M.E.P.CAD, Inc. 41JAutoSPRINK 2019 05.1.9.0 1- 14'x14' SPA( 7/19/2019 9:35:50AM Page 1 Ii'drautiC Summary Job Number: 19-20-08 Renort Descriotion: Residential (1- 14x14 SPACING) Job Job Number Design Engineer 19-20-08 TONY HARGROVE Job Name: SlateCnrtiffcationlLicense Number Treviso Address 1 Carlsbad, CA AHJ Carlsbad Address 2 Job Site/Building Tract 10620 Address 3 Drawing Name PLAN 3-DELTA 1 System Remote Area(s) Most Demanding Sprinkler Data Occupancy Job Suttlo 3.7 K-Factor 10.00 at 7.305 Residential Hose Allowance Al Source Pressure Area ofApplication 0.00 0.050gpm/ft2 392.00ft2 (Actual 129.52ft2) Additional Hose Supplies Number Of Sprinklers Colculatec Number Of Nozzles Calculotet Coverage Per Sprrekler Node Flow(m) 2 0 196.0oft2 Hose At Node 500 5.00 AuroPeak Results: Pressure For Remote Area(s) Adjacent To Most Remote Area Right: 46.287 Total Hose Streams 5.00 System Flays Demand Total Water Required (Including Hose Allowance) 25.60 25.60 Madmum Pressure Unbalance In Loops 0.000 Madmum Velocity Above Ground 7.16 between nodes 10 and 250 Maximum Velocity Under Ground 9.95 between nodes 6 and 500 Volume capacity of Wet Pipes Volume capacity of Dry Pipes 49.71gal Supplies Hose Flow Static Residual Flow Available Total Demand Required Safety Margin Node Name (gpm) (psi) (psi) (gpm) (psi) @ (gpm) (psi) (psi) 1 Water Supply 56.000 41.000 I 3500.00 55.998 I 25.60 43.648 12.350 Contractor 1,mba I Nnrbm Contacl ContactTile 950378 BOBBY TAVAKOLI OWNER Name of Contractor Phone Extension ON GUARD FIRE PROTECTION 702-966-8021 Address I FAX 6438 Arville Street 702-987-1174 Address 2 E-mail Las Vegas, NV 89118 BOBBY@ONGUARDFP.COM Address 3 Wok-Site ,©M.E.P.CAD, Inc. AutoSPRlNK2019v15.1.9.D 7/19/2019 9:35:09AM Page 1 Hydraulic Graph Job Name: Treviso N 1.85 Remote Area Number: 1- 14'x14' SPACING Date: 7/19/2019 VU Water Supply Sheet _[_SummarY Node: 1 80— 70— 60 Available. Supply Static Pressure 56.000 5.60 5598 50- 5.60 i 43.648 500.00 @ 41.000 30— System demand curve 20 10 00 2100 2500 3500 4200 4900 5600 6300 VLSIII'] Flow - gpm 1J©M.E.P.CAD, Inc. AutoSPRINK2019v15.1.9.0 7/19/2019 9:35:55AM Page2 Job Number: 19-20- 08 Summary Of Outftowi. Is flg Devices Renort Description: Residential (1- 14'x14 SPACING) Device Actual Flow (gpm) Minimum Flow (gpm) K-Factor (K) Pressure (psi) c Sprinkler 101 10.00 10.00 3.7 7.305 Sprinkler 102 10.60 10.00 3.7 8.204 Hose 500 5.00 5.00 0 27.859 e Most Demanding Sprinkler Data & © M.E.P.CAD, Inc. fl(AutoSPRlNK 2019 v15.1.9.0 7/19/2019 9:36:03AM Page 4 Job Name: Treviso Remote Area Number: 1- 14'x14' SPACING Date: 7/19/2019 Supply Analysis Node Name Static (psi) Residual Flow (psi) @ (gpm) Available Total Demand (psi) (gpm) Required Pressure (psi) Water Supply 56.000 41.000 1 3500.00 55.998 25.60 43.648 Node Analysis Node Number Elevation (Foot) Node Type Pressure at Node (psi) Discharge at Node (gpm) Notes 1 245 Supply 43.648 25.60 101 260'-1 Sprinkler 7.305 10.00 102 260'-1 Sprinkler 8.204 10.60 500 243-5 27.859 5.00 2 238'-11 46.093 3 238-11 46.051 4 238'-11 33.377 5 238-11 32.447 6 238-11 31.391 7 243'-11 Supply 27.591 10 250-6 18.865 156 250-6 16.061 250 260-7 10.975 254 260-7 8.214 256 260-7 8.266 258 260-7 10.814 .,© M.E.P.CAD, Inc. 411 AutoSPRINK 2019 v15.1. 7/19/2019 9:36:08AM Paqe 5 Job Name: Treviso Remote Area Number: 1- 14'x14' SPACING Date: 7/19/2019 Pipe Information Node 1 Elev i (Foot) K-Factor Flow added this step (q) Nominal ID Fittings & Devices E Length (Foot) Length (Foot) C Factor Total(Pt) Notes Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (Pt) and shown as = na0tnin .i.Ii.a Fitting Foot Pt Friction Loss Per Unit Elev(Pe) Node 2 Elev 2 (Foot) Total Flow Actual ID Total (Foot) Friction(Pf) __ 101 260-1 3.7 10.00 (See Notes) 9-3 150 7.305 2E(4'), 1(3) 11' 0.058104 -0.217 256 260-7 10.00 0.8740 20'-3 1.178 256 260-7 2.04 % (See Notes) 23'l 150 8.266 Flow (q) from Route 2 3Tr(1) 2EE(1) T(3) 8' 0081904 258 260'-7 1204 08740 31'-1 2.548 258 260-7 3/4 (See Notes) 68 150 10.814 Tr(1) T(3) 0015136 250 2607 483 08740 10 8 0.162 250 260-7 8.56 (See Notes) 253 150 10.975 Flow (q) from Route 4 31(3'), Tr(1') 0.099741 4.371 10 250-6 13.39 0.8740 3.518 10 250-6 7.21 1 (See Notes) 150 18.865 Flow q) from Route 3 4E(5'), f(-0.000), 3Tr(1'), f(-3.0 00), sCV(5'), cplg(1'), BASE OF RISER 29 0.071853 2.855 7 243'-ll 20.60 1.1010 40' 5.871 7 243-11 1 6" 150 27.591 0.101794 0.217 500 243'-5 20.60 1.0250 6" 0.051 500 243'-5 5.00 1 (See Notes) 5' 150 27.859 2E(2'-8) 0.152169 1.950 6 238'-11 25.60 1.0250 10'-5 1.582 6 238'-ll 1/4 (See No:es) 25' 150 31.391 E(4'-6) 4-6 0035755 5 238 11 2560 13800 296 1.056 5 238'-11 2 (See Noes) 165' 150 32.447 2E(7'-7), 2EE(3') 21-2 0.004999 4 238'-ll 25.60 2.0670 186'-2 0.930 4 238-11 11/2 (See Notes) 8'8 120 33.377 3E(4'-11), BFP(-12.189) 14'-10 0.020609 3 238'-ll 25.60 1.6820 23-6 12.674 3 238-11 2 (See Notes) 10' 150 46.051 WMV( 0007) 0.004999 2 238 11 2560 2.0670 10 0 043 , © M.E.P.CAD, Inc. AutoSPRINK 2019 v15.1.9.0 1- 14'x14' SPACING 7/19/2019 9:36:14AM Page 6 Job Name: Treviso Remote Area Number: 1- 14'x14' SPACING Date: 7/19/2019 Pipe Information u',oue I Elev I (Foot) K-Factor Flow added this step (q) Nominal ID Fittings& Devices Equiv. Length (Foot) Length (Foot) C Factor Total(Pt) Notes Fitting/Device (Equivalent Length) Fixed Pressure Losses when applicable, are added directly to (Pt) and shown as = nagtiwn u.Iiin Fitting (Foot) Pf Friction Loss Per Unit Elev(Pe) Node 2 Elev2 Total Flow Actual ID Total (Foot) Friction(Pf) 2 238'-11 2 (See Notes) 356 150 46.093 EE(3'), S 31 -2.637 0.004999 1 245' 25.60 2.0670 38-6 0.193 0.00 43.648 Hose Allowance At Source Total(Pt) Route 1 1 25.60 102 260-1 3.7 10.60 % (See 6" 150 8.204 "" Route 2"" 1(3') 3' 0.064696 Notes)Sprinkler, -0.217 254 260-7 10.60 0.8740 3'6 0.226 254 260-7 % (See Notes) 101-10 150 8.214 21(3) 6' 0003067 256 260'-7 204 08740 16--l0 0052 8.266 Total(Pt) Route 2 258 260-7 4.83 % (See Notes) 17'-8 150 10.814 "•• Route 3 ..... Flow (q) from Route 1 2T(3'), E(4') 10' 0.031692 4.371 156 250'-6 7.21 0.8740 27-8 0.876 156 250'-6 % (See Notes) 63'6 150 16.061 41r(1'), 21(3'), cplg(1'), 2E(4'), 6EE(1') 25' 0.031692 10 250-6 7.21 0.8740 r88'-6 2803 18.865 Total(Pt) Route 3 254 260'-7 2.04 ~ (See Notes) 40'-5 150 8.214 .... Route 4 ..... Flow (q) from Route 2 2E(4'), 21(3'), 3Tr(1'), 6EE(1') 23' 0.043570 250 260'-7 8.56 0.8740 63-5 2.761 10.975 Total(Pt) Route 4 1, © M.E.P.CAD, Inc. AutoSPRINK 2019 v1 5.1.9.0 1- 14'x14' SPACING 7/19/2019 9:36:14AM Page 7 Job Name: Treviso Remote Area Number: 1- 14'x14' SPACING Date: 7/19/2019 lEquivalent Pipe Lengths of Valves and Fittings (C=120 only) Actual Inside Diameter 4.87 ( = Factor Value Of C 100 130 140 150 Schedule 40 Steel Pipe Inside Diameter) Multiplying Factor 0.713 1.16 1.33 1.51 ALV Alarm Valve AngV Angle Valve b Bushing BalV Ball Valve BFP Backfiow Preventer BV Butterfly Valve C Cross Flow Turn 90° cplg Coupling Cr Cross Run CV Check Valve DelV Deluge Valve DPV Dry Pipe Valve E 90° Elbow EE 45° Elbow Eel 111/. Elbow Ee2 221/2 Elbow f Flow Device fd Flex Drop FDC Fire Department Connectic fE 90° FireLock(TM) Elbow fEE 45° FireLock(TM) Elbow fig Flange FN Floating Node fT FireLock(TM) Tee g Gauge GloV Globe Valve GV Gate Valve Ho Hose Hose Hose HV Hose Valve Hyd Hydrant LtE Long Turn Elbow mecT Mechanical Tee Noz Nozzle P1 Pump In P2 Pump Out PIV Post Indicating Valve P0 Pipe Outlet PrV Pressure Relief Valve PRV Pressure Reducing Valve red Reducer/Adapter S Supply sCV Swing Check Valve SFx Seismic Flex Spr Sprinkler St Strainer T Tee Flow Turn 90° Tr Tee Run U Union WirE Wirsbo WMV Water Meter Valve Z Cap , © M.E.P.CAD, Inc. AutoSPRlNK 2019 v15.1.9.0 1- 14x14 SPACING 7/19/2019 9:36:14AM Page Hydraulic Calculations for Project Name: Treviso Location: Carlsbad, CA, Drawing Name: PLAN 3-DELTA 1 Design Remote Area Number: Remote Area Location: Occupancy Classification: 2- 18'x18' SPACING MASTER BATH Residential Calculation Date: 7/19/2019 Pressure: 0.050gpm/ft2 Area of Application: 324.00ft2 (Actual 142.25ft2) Coverage per Sprinkler: 324.00ft2 Type of sprinklers calculated: Pendent No. of sprinklers calculated: 1 No. of nozzles calculated: U In-rack Demand: N/A gpm at Node: N/A Hose Streams: 0.0 gpm at Node: 1 Type 5.00 at Node: 500 Type Total Water Required (including Hose Streams where applicable): From Water Supply at Node 1: 22.00@46.159 Type of System: 13D Volume of Dry or PreAction System: N/A Allowance at Source Hose (Safety Margin = 9.840 psi) for Node: 1 Date: 05/02/2019 Location: Poinsettia Lane Source: Carlsbad Municipal Water District Name of Contractor:ON GUARD FIRE PROTECTION Address: 6438 Arville Street, Las Vegas, NV 89118 Phone Number: 702-966-8021 Name of designer: TONY HARGROVE Authority Having Jurisdiction: Carlsbad Notes: Automatic peaking results Left: N/A Right: N/A &©M.E.P.CAD, Inc. AutoSPRINK2019v15.1.9.0 2- 18'x18' SPA 7/19/2019 9:36:29AM Page 1 IHydrau11c Summary Job Number: 19-20-08 Renort Descriotion: Residential (2- 18'x18' SPACING) Job Job Number Design Engineer 19-20-08 TONY HARGROVE Job Name Stole Certification/License Number Treviso Address 1 Carlsbad, CA AHJ Carlsbad Address 2 Job Site/Building Tract 10620 Address 3 Draoing Name PLAN 3-DELTA 1 System . Area(s) Most Demanding Sprinkler Data Occupancy Job Softer 4.9 K-Factor 17.00 at 12.037 Residential Hose Allowance At Source Pressure Ama of Application 0.00 0.050gpm/ft2 324.001"t2 (Actual 142.25ft2) Additional lose Supplies Number OlSpdnklers Calculates Number 01 Nozctes Calculates Coverage Per Sprinkler Node Flow(m) 1 0 324.00ft2 Hose At Node 500 5.00 AutoPoak Results: Pressure For Remote Area(s) Adjacent To Most Remote Area .Remote Total Hose Streams 5.00 System Flow Demand Total Water Required (Including Hose Allowance( 22.00 22.00 Mao/mum Pressure Unbalance In Loops 0.000 Maximum Velocity Above Ground 9.09 between nodes 252 and 201 Maximum Velocity Under Gerund 8.55 between nodes 6 and 500 Volume capacity at Wet Pipes Volume capacity of Dry Piper 49.71gal Supplies Hose Flow Static Residual Flow Available Total Demand Required Safety Margin Node Name (gpm) (psi) (psi) @ (gpm) (psi) @ (gpm) (psi) (psi) 1 Water Supply 56.000 41.000 I 3500.00 55.999 I 22.00 46.159 9.840 Contractor CoetractorNumber Contact Name Contact Title 950378 BOBBY TAVAKOLI OWNER Name or Contractor, ON GUARD FIRE PROTECTION Phone 702-966-8021 Extension Address I I FAX 6438 Arville Street 702-987-1174 Address 2 E-mail Las Vegas, NV 89118 BOBBY@ONGUARDFP.COM Address 3 Web-Site (, © M.E.P.CAD, Inc. AutoSPRlNK 2019 v15.1.9.0 7/19/2019 9:37:00AM Page 1 7000 0700 1400 2100 5600 6300 2800 4200 3500 4900 Flow - gpm Hydraulic Graph N 1.85 Date: 7/19/2019 Water Supply mary Sheet Sum Node: 1 Available. Supply Static Pressure 56.000 2.00 55.999 ::22.00 46,159 3500.00 § 41.000 System demand curve 9C 80 70 30 20 10 Job Name: Treviso Remote Area Number: 2 - 18'x18 SPACING 100 ,©M.E.RCAD, Inc. AutoSPRINK 2019 v15.1.9.0 7/19/2019 9:36:34AM Paqe2 60 - 40 'idll Of Outftowinq Devices I Job Number 19-20-08 - - Report Description: Residential (2- 18'x18' SPACING) Device Actual Flow (gpm) Minimum Flow (gpm) K-Factor (K) Pressure (psi) c Sprinkler 201 17.00 17.00 4.9 12.037 Hose 500 5.00 5.00 0 32.030 c Most Demanding Sprinkler Data Lh~, © M.E.P.CAD, Inc. k7jj AutoSPRINK 2019 05.1..0 7119/2019 9:36:40AM Page 4 Job Name: Treviso Remote Area Number: 2 - 18'x18' SPACING Date: 7/19/2019 Supply Analysis Node Name Static (psi) Residual Flow (psi) @ (gpm) Available Total Demand (psi) (gpm) Required Pressure (psi) Water Supply 56.000 41.000 1 3500.00 55.999 22.00 46.159 Node Analysis Node Number Elevation (Foot) Node Type Pressure at Node (psi) Discharge at Node (gpm) Notes 1 245' Supply 46.159 22.00 201 260'-1 Sprinkler 12.037 17.00 500 243-5 32.030 5.00 2 238'-11 48.651 3 238-11 48.696 4 238'-11 36.676 5 238-11 35.973 6 238'-11 35.175 7 243'-11 Supply 31.777 10 250'-6 23.909 156 250-6 21.984 250 260-7 17.044 252 260-7 14.618 258 260-7 17.011 ,© M.E.P.CAD, Inc. 4AutoSPRlNK 2019 v15.1. 7/19/2019 9:36:45AM Paqe 5 Job Name: Treviso Remote Area Number: 2 - 18'x18' SPACING Date: 7/19/2019 Pipe Information Node 1 Elev i (Foot) K-Factor Flow added this step (q) Nominal ID Fillings & Devices Length (Foot) Length (Foot) C Factor Total(Pt) Notes FittinglDevice (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (Pt) and shown as , npgtiyp -a', .8 E(Foot) Fitting Pf Friction Loss Per Unit Elev(Pe) Node 2 Elev 2 (Foot) Total Flow (Q) Actual ID Total (Foot) Friction(Pf) 201 260-1 4.9 17.00 % (See M Notes) 8' 150 12.037 ••'••Route l••••• Sprinkler, 2E(4) 2EE(1) 10' 0155074 -0.217 252 2607 1700 08740 18 2.798 252 260-7 3/4 (See Notes) 33' 150 14.618 T 1' r( 3Tr(1'), 6EE(1'), E(4'), T(3) 17' 501 0.048514 250 260-7 9.07 0.8740 2.427 250 260-7 2.05 % (See Notes) 253 150 17.044 Flow (q) from Route 2 31(3'), Tr(1') 10' 0.070701 4.371 10 250-6 11.12 0.8740 2.494 10 250-6 5.88 1 (See Notes) 11' 150 23.909 Flow (q) from Route 3 4E(5'), f(-0.000), 3Tr(1'), f(-3.0 00), sCV(5'), cplg(1), BASE OFRISER 29' 0.050373 2.855 7 243'-ll 17.00 1.1010 40' 5013 7 243'-ll 1 6" 150 31.777 0.071363 0.217 500 243-5 17.00 1.0250 6" 0.036 500 243-5 5.00 1 (See Notes) 5' 150 32.030 2E(2-8) 5'5 0.114981 1.950 6 238'-ll 22.00 1.0250 1O'-5 1.195 6 238'-ll 11/4 (See Notes) 25' 150 35.175 E(4-6) 4-6 0.027017 5 238'-ll 22.00 1.3800 29'-6 0.798 5 238'-ll 2 (See Notes) 165' 150 35.973 2E(7-7), 2EE(3') 21'-2 0.003777 4 238-11 22.00 2.0670 186'-2 0.703 4 238-11 11/2 (See Notes) 8'8 120 36.676 3E(4'-11), BFP(-11.654) 14'-10 0.015573 3 238-11 22.00 1.6820 23'-6 12.020 3 238'-ll 2 (See Notes) 10' 150 48.696 WMV( 0 083) 0.003777 2 238 11 22.00 2.0670 10 0045 2 238-11 2 (See Notes) 366 150 48.651 EE(3), S ' 0.003777 -2.637 1 245' 22.00 2.0670 38-6 0.145 1, © M.E.P.CAD, Inc. 411 AutoSPRINK 2019 v15.1.9.0 2 - 18'xl8' SPACING 7/19/2019 9:36:50AM Page 6 Job Name: Treviso Remote Area Number: 2 - 18'x18' SPACING Date: 7/19/2019 Pipe_Information Node 1 Elev i K-Factor Flow added Fittings & Length C Factor Total(Pt) Notes (Foot) this step Nominal ID Devices (Foot) Fitting/Device (Equivalent (q) Enuuv. Fixed Pressure Losses Foot) Pf Friction Fitting Length) Elev(Pe) Node 2 Elev 2 Total Flow Actual ID Length Loss Per Unit (psi) when applicable, are added Total (Foot) (Q) Friction(W) directly to (Pt) and shown as , npn,ti*,p u.ti,a 0.00 46.159 Hose Allowance At Source Total(Pt) Route 1 1 2200 258 260-7 793 (See Notes) 68 150 17.011 ••••• Route 2 Flow (q) from Route 4 Tr(1'), T(3') 0.003091 250 260'-7 2.05 0.8740 10-8 0.033 17.044 Total(Pt) Route 2 258 260-7 7.93 (See Notes) 17'-8 150 17.011 ••••• Route 3••••• Flow (q) from Route 4 2T(3'), E(4') 10 0.021762 4.371 156 250'-6 5.88 0.8740 27'-8 0.602 156 250-6 3/4 (See Notes) 63'6 150 21.984 4Tr(1), 2T(3'), cplg(1'), 2E(4'), 6EE(1) 25 0.021762 10 250-6 5.88 0.8740 '-6 ::88 1 925 23.909 Total(Pt) Route 3 252 260'-7 (See Notes) 41'-3 150 14.618 •••" Route 4 ..... 1(3') E(4'), 4Tr(1'), 3T(3), 2EE(1') 22 0.037824 258 260'-7 7.93 0.8740 63-3 2.394 17.011 Total(Pt) Route 4 © M.E.P.CAD, Inc. AutoSPRINK 2019 v15. 1.9.0 2 - 18'x18 SPACING 7/19/2019 9:36:50AM Page 7 Job Name: Treviso Remote Area Number: 2 - 18'x18' SPACING Date: 7/19/2019 Equivalent Pipe Lengths of Valves and Fittings (C°120 only) C Value Multiolier Actual Inside Diameter 4.87 = Factor Value Of C 100 130 140 150 Schedule 40 Steel Pipe Inside Diameter) Multiplying Factor 0,713 1.16 1.33 1.51 ALV Alarm Valve AngV Angle Valve b Bushing BalV Ball Valve BFP Backflow Preventer BV Butterfly Valve C Cross Flow Turn 90° cplg Coupling Cr Cross Run CV Check Valve DelV Deluge Valve DPV Dry Pipe Valve E 90° Elbow EE 45° Elbow Eel 111/40 Elbow Ee2 22W Elbow f Flow Device fd Flex Drop FDC Fire Department Connectk fE 90° FireLock(TM) Elbow fEE 450 FireLock(TM) Elbow fig Flange FN Floating Node fT FireLock(TM) Tee g Gauge GloV Globe Valve GV Gate Valve Ho Hose Hose Hose HV Hose Valve Hyd Hydrant LtE Long Turn Elbow mecT Mechanical Tee Noz Nozzle P1 Pump In P2 Pump Out PIV Post Indicating Valve P0 Pipe Outlet PrV Pressure Relief Valve PRV Pressure Reducing Valve red Reducer/Adapter S Supply sCV Swing Check Valve SFx Seismic Flex Spr Sprinkler St Strainer I Tee Flow Turn 90° Tr Tee Run U Union WirF Wirsbo WMV Water Meter Valve Z Cap © M.E.P.CAD, Inc. AutoSPRlNK 2019 v15.1.9.0 2 - 18x18 SPACING 7/19/2019 9:36:50AM Page 8 Hydraulic Calculations for Project Name: Treviso Location: Carlsbad, CA, Drawing Name: PLAN 3-DELTA I Design Remote Area Number: Remote Area Location: Occupancy Classification Calculation Date: 7/19/2019 3- 16'x16' SPACING GARAGE Residential Pressure: Area of Application: Coverage per Sprinkler: Type of sprinklers calculated: No. of sprinklers calculated: No. of nozzles calculated: 0.050gpm/ft2 512.00ft2 (Actual 196.85ft2) 256. 00ft2 Pendent 2 0 In-rack Demand: N/A gpm at Node: N/A Hose Streams: 0.0 gpm at Node: 1 Type 5.00 at Node: 500 Type Total Water Required (including Hose Streams where applicable): From Water Supply at Node 1: 34.00@47.165 Type of System: 13D Volume of Dry or PreAction System: N/A Allowance at Source Hose (Safety Margin = 8.832 psi) for Node: I Date: 05/02/2019 Location: Poinsettia Lane Source: Carlsbad Municipal Water District Name of Contractor:ON GUARD FIRE PROTECTION Address: 6438 Arville Street, Las Vegas, NV 89118 Phone Number: 702-966-8021 Name of designer: TONY HARGROVE Authority Having Jurisdiction: Carlsbad Notes: Automatic peaking results Left: N/A Right: N/A 1&© M.E.P.CAD, Inc. AutoSPRINK 2019 v15.1.9.0 3- 16'x16' SPA( 7/19/2019 9:37:53AM Page 1 IN Hydraulic Summary Job Number: 19-20-08 Reoort Descriøtion: Residential (3- 16'x16' SPACING) Job Job Number Design Engineer 19-20-08 TONY HARGROVE Job Name: StateCert:tcationlLicense Number Treviso Address I AHJ Carlsbad, CA Carlsbad Address 2 Job Sit&Bu:lding Tract 10620 Address 3 Drawing Name PLAN 3-DELTA 1 System RemoteArea(s) Must Demanding Sprinkler Data Occupancy Job SuSie 4.9 K-Factor 14.00 at 8.163 Residential Hose Allowance At Source Pressure Area of Application 0.00 0.050gpm/ft2 512.00ft2 (Actual 196.85ft2) Additional Hose Supplies Number Of Sprinklers Calculatec Number Of Nuzzles Calculates Coverage Per Sprinkler Node Flow(gpm) 2 0 256.00ft2 Hose At Node 500 5.00 AotuPeak Results: Pressure Per Remote Area(s) Adjacent To Most Remote Area Total Hess Streams 5.00 System Flow Demand Total Water Required (Including eoseAltowance) 34.00 34.00 Maoimum Pressure Unbalance In Loops 0.000 Madmurn Velocity Above Ground 15.51 between nodes 152 and 154 Maximum Velocity Under Ground 13.22 between nodes 6 and 500 Volume capacity of Wet Pipes Volume capacity at Dry Pipes 49.71gal Supplies Hose Flow Static Residual Flow Available Total Demand Required Safety Margin Node Name (gpm) (psi) (psi) @ gpm) (psi) @ (gpm (psi) (psi) 1 Water Supply 56.000 41.000 I 3500.00 55.997 34.00 47.165 8.832 Conti actor ContraetorNumber Contact Name Contact Title 950378 1 BOBBY TAVAKOLI OWNER Name of Contractor Phone Extension ON GUARD FIRE PROTECTION 702-966-8021 Address I FAX 6438 Arville Street 702-987-1174 Address 2 Ems I Las Vegas, NV 89118 BOBBY@ONGUARDFP.COM Address 3 Web.Site © M.E.P.CAD, Inc. s AutoSPRINK 2019 vi 5.1.9.0 7/19/2019 9:37:35AM Page 1 7000 5600 6300 2800 4200 3500 4900 Flow - gpm Hydraulic Graph N 1.85 Date: 7/19/2019 Water Supply mary Sheet Sum Node: 1 -Available Supply Static Pressure 56.000 44.00 55.997 44.0047.165 3500.00 41.000 System demand curve 111111111 IIIIIIII riiiiiii iii ii ii I I I I I I I I I 90 80 70 30 20 10 Job Name: Treviso Remote Area Number: 3- 16'x16' SPACING 100 ,©M.E.P.CAD, Inc. 4A AutoSPRINK 2019 v15.1.9.0 7/19/2019 9:37:58AM Paqe2 60 - 40 Job Number: 19-20-68 'LSummary_Of Outfiowing Devices Report Desc iption Residential (3 16x16 SPACING) Device Actual Flow (gpm) Minimum Flow (gpm) K-Factor (K) Pressure (psi) c Sprinkler 301 14.00 14.00 4.9 8.163 Sprinkler 302 15.00 14.00 4.9 9.366 Hose 500 5.00 5.00 0 26.685 i* Most Demanding Sprinkler Data ,©M.E.P.CAD, Inc. I 4AutoSPRINK2019v15.1.9.0 7/19/2019 9:38:03AM Page 4 Job Name: Treviso Remote Area Number: 3- 16'x16' SPACING Date: 7/19/2019 Supply Analysis Node Name Static (psi) Residual Flow (psi) @ (gpm) Available Total Demand (psi) (gpm) Required Pressure (psi) Water Supply 56.000 41.000 1 3500.00 55.997 34.00 47.165 Node Analysis Node Number Elevation (Foot) Node Type Pressure at Node (psi) Discharge at Node (gpm) Notes 1 245' Supply 47.165 34.00 301 250' Sprinkler 8.163 14.00 302 250' Sprinkler 9.366 15.00 500 243-5 26.685 5.00 2 238-11 49.477 3 238'-11 49.186 4 238-11 34.667 5 238'-11 33.094 6 238'-11 31.309 7 243-11 Supply 26.373 10 250-6 15.112 152 250'-6 9.996 154 250-6 9.580 156 250-6 12.615 250 260'-7 9.429 258 260-7 9.160 © M.E.P.CAD, Inc. AutoSPRINK 2019 v15.1. 7/19/2019 9:38:08AM Page 5 Job Name: Treviso Remote Area Number: 3- 16'x16' SPACING Date: 7/19/2019 Pipe Information Node 1 Elev i (Foot) K-Factor Flow added this step (q) Nominal ID Fittings & Devices Equiv. Length (Foot) Length (Foot) C Factor Total(Pt) Notes Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable are added directly to (Pf) and shown as npgnin Fitting (Foot) Pf Friction Loss Per Unit (psi) Elev(Pe) Node 2 Elev 2 (Foot) Total Flow (Q) Actual ID Total (Foot) Friction(Pf) 301 250 4.9 14.00 3/4 _ (See Notes) 101-1 150 8.163 "e1r "" E(4'),Tr(i') ' 0.108279 -0.217 154 250-6 14.00 0.8740 15-1 1.633 154 250-6 15.00 3 1' 150 9.580 Flow (q) from Route 2 - 0416425 152 250'-6 2900 08740 1 0.416 152 250-6 (See Notes) 12'l 150 9.996 T 1' r( E(4'),4EE(1'),Tr(1') 10, 0.232080 10 250-6 21.14 0.8740 22-1 5.116 10 250-6 7.86 1 (See Notes) 11' 150 15.112 Flow (q) from Route 3 4E(51), f(-0.000), 3Tr(1'), f(-3.0 00), sCV(5'), cplg(1'), BASE OF RISER 29' 0.135268 2.855 7 243'-ll 29.00 1.1010 40' 8.405 7 243'-ll 1 6" 150 26.373 0.191634 0.217 500 243'-5 29.00 1.0250 6 0.096 500 243-5 5.00 1 (See Notes) ' 150 26.685 2E(2'-8) 0257210 1.950 6 238 11 3400 10250 10 - 2674 6 238-11 jl/4 (See Notes) 25' 150 31.309 E(4 6) 4-6 0.060437 5 238 11 34.00 1.3800 29'-6 1.785 5 238'-ll 2 (See Notes) 165' 150 33.094 2E(7'-7), 2EE(3') 21-2 0.008449 4 238'-ll 34.00 2.0670 186'-2 1.573 4 238-11 1% (See Notes) 8'8 120 34.667 3E(4'-11), BFP( 13701) 14'-10 0034836 3 238 11 3400 16820 23 6 14519 3 238-11 2 (See Notes) 10' 150 49.186 WMV(-0.206) 0.008449 2 238-11 34.00 2.0670 10' 0.291 2 238'-il 2 (See Notes) 366 150 49.477 EE(3) S ' 0008449 -2.637 1 245 3400 20670 38'-6 0.325 . © M.E.P.CAD, Inc. 11 Autos PRlNK 2019 v15.1.9.C' 3- 16'x16' SPACING 7/19/2019 9:38:13AM Page 6 Job,Name: Treviso Remote Area Number: 3- 16'x16' SPACING Date: 7/19/2019 Pip&Information Node I Elev I Flow added Fittings & Length C Factor Total(Pt) Notes (Foot) K-Factor this step Nominal ID Devices (Foot) __________ Fitting/Device (Equivalent (q) Equiv. Length) Fixed Pressure Losses, Fitting (Foot) Pf Friction Elev(Pe) Node 2 Elev 2 Total Flow Actual ID Length Loss Per Unit (psi) when applicable, are added Total (Foot) (Q) (Foot) (Foot) Friction(Pf) directly to (Pt) and shown as = npntiwn ueuii,n 0.00 47.165 Hose Allowance At Source Total(Pt) Route 1 1 34.00 302 250' 4.9 15.00 % (See Notes) 6" 150 9.366 ••••• Route 2••••• Sprinkler, T(3') 3' 0.122961 0.217 154 250-6 15.00 0.8740 3'6 0.430 9.580 Total(Pt) Route 2 250 260-7 6.07 +1.79 % (See Notes) 26-3 150 9.429 ••••• Route 3 Flow (q) from Route 4 and 6 3T(3) Tr(1) 10' 0037187 4.371 10 2506 786 08740 1312 15.112 Total(Pt) Route 3 156 250'-6 7.86 % (See Notes) 17'-8 150 12.615 ••••• Route 4••••• Flow (q) from Route 5 E(4) 1(3) 0037187 -4.371 258 260'-7 786 08740 24 8 0916 258 260-7 % (See Notes) 68 150 9.160 Tr(1') Tr(1'), T(3') 0.023080 250 260-7 6.07 0.8740 11'-8 0.269 9.429 Total(Pt) Route 4 152 250-6 (See Notes) 51'-5 150 9.996 ••••• Route 5••••• T(3) EE(1) 3Tr(1) E(4) cplg(1) 21(3') 19' 0037187 156 250'-6 786 08740 70 2619 12.615 Total(Pt) Route 5 258 260-7 % (See Notes) 74'4 150 9.160 "" Route 6"" T(3') 71r(1'), 8EE(1'), 4T(3'), 2E(4') 38' 0.002399 250 260-7 1.79 0.8740 112'-4 0.269 9.429 Total(Pt) Route 6 , © M.E.P.CAO, Inc. qilAutoSPRINK2019 05.1.9.0 3- 16x16' SPACING 7/19/2019 9:38:13AM Page 7 Job Name: Treviso Remote Area Number: 3- 16x16' SPACING Date: 7I19I2019 IEuivalent Pipe Lengths of Valves and Fittings (CI20 only) Multi Actual Inside Diameter 487 = Factor Value Of C 100 130 140 150 Schedule 40 Steel Pipe Inside Diameter) Multiplying Factor 0.713 1.16 1.33 1.51 ALV Alarm Valve AngV Angle Valve b Bushing BalV Ball Valve BFP Backflow Preventer BV Butterfly Valve C Cross Flow Turn 90° cplg Coupling Cr Cross Run CV Check Valve DelV Deluge Valve DPV Dry Pipe Valve E 90° Elbow EE 450 Elbow Eel 111/40 Elbow Ee2 221/20 Elbow f Flow Device fd Flex Drop FDC Fire Department Connectic fE 90° FireLock(TM) Elbow fEE 45° FireLock(TM) Elbow fig Flange FN Floating Node fT FireLock(TM) Tee g Gauge GloV Globe Valve GV Gate Valve Ho Hose Hose Hose HV Hose Valve Hyd Hydrant LtE Long Turn Elbow mecT Mechanical Tee Noz Nozzle P1 Pump In P2 Pump Out PlV Post Indicating Valve P0 Pipe Outlet PrV Pressure Relief Valve PRV Pressure Reducing Valve red Reducer/Adapter S Supply sCV Swing Check Valve SFx Seismic Flex Spr Sprinkler St Strainer T Tee Flow Turn 90° Tr Tee Run U Union WirF Wirsbo WMV Water Meter Valve Z Cap j, © M.E.P.CAD, Inc. 11 AutoSPRlNK 2019 v15.l .9.0 3- 16x16 SPACING 7/19/2019 9:38:12AM Page 8 Hydraulic Calculations for Project Name: TREVISO Location: CARLSBAD, CA,, Drawing Name: PLAN 3-DELTA 1 Design Remote Area Number: Remote Area Location: Occupancy Classification: 1- 14'x14' SPACING MASTER BEDROOM Residential Calculation Date: 7/17/2019 Pressure: 0.050gpm/ft2 Area of Application: 392.00ft2 (Actual 1 29.52ft2) Coverage per Sprinkler: 196. 00ft2 Type of sprinklers calculated: Pendent No. of sprinklers calculated: 2 No. of nozzles calculated: 0 In-rack Demand: N/A gpm at Node: N/A Hose Streams: 0.0 gpm at Node: 1 Type 5.00 at Node: 500 Type Total Water Required (including Hose Streams where applicable): From Water Supply at Node 1: 25.60 @ 43.648 Type of System: 13D Volume of Dry or PreAction System: N/A Allowance at Source Hose (Safety Margin = 12.350 psi) for Node: I Date: 05/02/2019 Location: Poinsettia Lane Source: Carlsbad Municipal Water District Name of Contractor:ON GUARD FIRE PROTECTION Address: 6438 Arville Street, Las Vegas, NV 89118 Phone Number: 702-966-8021 Name of designer: OSCAR GARCIA Authority Having Jurisdiction:CARLSBAD Notes: Automatic peaking results Left: N/A Right: 46.287 FPR20I9-0110 1645 ARTEMISIA CT TREVISO - AS-BUILTS FOR PLAN 3! LOT 49! MODEL HOME SPRINKLER 2150530249 712212019 FPR20I9-0110 1&©M.E.P.CAD, Inc. Ii AutoSPRlNK2019v15.1.9.0 1- 14'x14 SPA( 7/17/201911:09:07AM Page 1 1 41 11 IHydraUtic Summary I Job Number: 19-20-08 Rerort Descrintion: Residential (1- 14 x14 SPACING) Job Job Number - Design Engineer 19-20-08 OSCAR GARCIA Job Name: TREVISO State CenifrcationlLicanseNumber Address 1 1 AHJ CARLSBAD, CA CARLSBAD Address 2 Job Site/Building TRACT# 10620 Address 3 Drawing Name PLAN 3-DELTAI System Remote Area(s) Most Demanding Sprinkler Data Occupancy Job Suffix 3.7 K-Factor 10.00 at 7.305 Residential Hose rijiowance At Sconce Pressure Area of Application 0.00 0.050gpm/ft2 392.00ft2 (Actual 129.52ft2) Additional Hose Supplies 1 Numbar 01 Sprinklers Cdlcutatec Number Of Noaales Calculates Coverage Per Sprinkler Node Flow(gDm) 2 0 196.00ft2 Hose At Node 500 5.00 1 AufoPeak Results: Pressure For RemoteArea(s) Adjacent To Most Remote Area Right: 46.287 Total Hose Streams 5.00 System Plow Demand Total Wales Required (Including Hose Allowancc) 25.60 25.60 Maomum Pressure Unbalance In Loops 0.000 Maxim cm Velocity Above Ground 7.16 between nodes 10 and 250 Maxim urn Velocity Under Ground 9.95 between nodes 6 and 500 Volume capacity of Wet Pipes Volume capacity of Dry Pipes 49.68ga1 Supplies Hose Flow Static Residual Flow Available Total Demand Required Safety Margin Node Name (gpm) (psi) (psi) @ •gpm) (psi) @ (gpm) (psi) (psi) 1 WaterSupply 56.000 41.000 I 3500.00 1 55.998 25.60 43.648 12.350 Contractor CxntractsrNumbm Contact Name Contact Title 950378 BOBBY TAVAKOLI OWNER Name of Contractor: Phone Extension ON GUARD FIRE PROTECTION 702-966-8021 Address 1 FAX 6438 Arville Street 702-987-1174 Address 2 E-mail Las Vegas, NV 89118 BOBBY@ONGUARDFP.COM Address 3 Web-Site , © M.E.P.CAD, Inc. AutoSPRINK 2019 v1 5.1.9.0 7/17/2019 11:10:17AM Page 1 0 40 Job Name: TREVISO Remote Area Number: 1- 14x14' SPACING 100 20 30 10 6C 8C 7C 9c '0 111111ILLLLLLL-LI-LJJ-LJJ-L-J-I-L-L-LJ-J-J—L 0 700 1400 2100 2800 Water Supply Summary Sheet Node: 1 Available. Static Pressure 5.60 —Supply 55.998 56.000 5.60 @ 43.648 500.00 @ 41.000 System demand curve 3500 4200 4900 Flow - gpm Hydraulic Graph N 1.85 5600 6300 Date: 7/17/2019 7000 ,©M.E.P.CAD, Inc. AutoSPRINK 2019 v15.1.9.0 7/17/2019 11:09:45AM Paqe2 Job Number: 1 9-20-08 kSurnmary Of Outfiowing Devices Reoort Descriotion: Residential (1- 14x14 SPACING) Device Actual Flow (gpm) Minimum Flow (gpm) K-Factor (K) Pressure (psi) c Sprinkler 101 10.00 10.00 3.7 7.305 Sprinkler 102 10.60 10.00 3.7 8.204 Hose 500 1 5.00 5.00 0 27.859 Most Demanding Sprinkler Data , © M.E.P.CAD, Inc..11 AutoSPRINK 2019 v15.1.9.0 7/17/2019 11:09:50AM Page 4 JOb Name: IRE VISO Remote Area Number: 1- 14'x14' SPACING Date: 7/17/2019 Supply Analysis Node Name Static (psi) Residual Flow (psi) @ (gpm) Available Total Demand (psi) (gpm) Required Pressure (psi) Water Supply 56.000 41.000 1 3500.00 55.998 25.60 43.648 Node Analysis Node Number Elevation (Foot) Node Type Pressure at Node (psi) Discharge at Node (gpm) Notes 1 245 Supply 43.648 25.60 101 260'-1 Sprinkler 7.305 10.00 102 260-1 Sprinkler 8.204 10.60 500 243-5 27.859 5.00 2 238'-11 46.093 3 238-11 46.051 4 238-11 33.377 5 238'-11 32.447 6 238'-11 31.391 7 243-11 Supply 27.591 10 250-6 18.865 156 250-6 16.061 250 260-7 10.975 254 260-7 8.214 256 260-7 8.266 258 260-7 10.814 &© M.E.P.CAD, Inc. illjAutoSPRINK 2019 v15. 1. 7/17/2019 11:09:56AM Page 5 Job Name: TREVISO Remote Area Number: 1- 14x14' SPACING Date: 7/17/2019 Pipe Information Node 1 Elev i (Foot) K-Factor Flow added this step (q) Nominal ID Fittings & Devices Equuv. Length (Foot) Length (Foot) C Factor Total(Pt) Notes Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (Pt) and shown as . naptiun i.iiia Fitting (Foot) Pt Friction Loss Per Unit (psi) Elev(Pe) Node 2 Elev 2 (Foot) Total Flow Actual ID Total (Foot) Friction(Pf) 101 260-1 3.7 10.00 % (See Notes) 9-3 150 7.305 2E(4'), T(3) ill 0.058104 -0.217 256 260-7 10.00 0.8740 20'-3 1.178 256 2607 2.04 % Notes) 23-1 150 8.266 Flow (q) from Route 4 3Tr(1'), 2EE(1'), T(3) 8' 0.081904 258 260'-7 12.04 0.8740 31'-1 2.548 258 260'-7 % (See Notes) 6-8 150 10.814 Tr(1'), T(3') 0.015136 250 260-7 4.83 0.8740 10-8 0.162 250 260-7 8.56 ~ (See Notes) 253 150 10.975 Flow (q) from Route 2 31(3),Tr(1) 0.099741 4.371 10 250-6 13.39 0.8740 3.518 10 250-6 7.21 1 (See NoLes) Notes) 150 18.865 (q) from Route 3 4E(51), f(-0.000), 3Tr(1'), f(-3.0 00), sCV(5'), cplg(1'), BASE OF RISER 29' 0.071853 2.855 7 243'-ll 20.60 1.1010 40' 5.871 7 243'-ll 1 6" 150 27.591 0.101794 0.217 500 243'-5 20.60 1.0250 6 0.051 500 243-5 5.00 1 (See Notes) 5' 150 27.859 2E(2'-8) 55 0.152169 1.950 6 238'-ll 25.60 1.0250 10'-5 1.582 6 238'-ll 11/4 (See Notes) 25' 150 31.391 E(4'-6) 4-6 0.035755 5 238'-ll 25.60 1.3800 29'-6 1.056 5 238'-ll 2 (See Notes) 165' 150 32.447 2E(7-7), 2EE(3) 21'-2 0.004999 4 238'-ll 25.60 2.0670 186'-2 0.930 4 238'-ll .p/2 (See Notes) 8'8 120 33.377 3E(4'-11), BFP(-12.189) 14'-10 0.020609 3 238'-11 25.60 1.6820 23'-6 12.674 3 238'-ll 2 (See Notes) 1 10' 150 46.051 WMV(-0.007) 0.004999 2 238'-ll 25.60 2.0670 10, 0.043 , © M.E.P.CAD, Inc. lj AutoSPRINK 2019 v15. 1.9.0 1- 14x14' SPACING 7/17/2019 11:10:01AM Page 6 Job Name: TREVISO Remote Area Number: 1- 14'x14' SPACING Date: 7/17/2019 Pipe Information Node Elev I (Foot) K-Factor Flow added this step (q) Nominal ID Fittings& Devices E Length (Foot) Length (Foot) C Factor Total(Pt) Notes Fitting/Device (Equivalent Length) Fixed Pressure Losses when applicable, are added directly to (Pt) and shown as Fitting (Foot) Pf Friction LOSS Per Unit Elev(Pe) Node 2 Elev2 00) Total Flow Actual ID Total (Foot) Friction(Pf) 2 238-11 2 (See Notes) 35-6 150 46.093 EE(3) S ' 0004999 -2.637 1 245 2560 20670 38'-6 0.193 0.00 43.648 Hose Allowance At Source Total(Pt) Route 1 1 25.60 102 260'-1 3.7 10.60 (See Notes) 6" 150 8.204 ••••• Route 2•••• Sprinkler, 1(3) 3 0.064696 -0.217 254 260-7 10.60 0.8740 3-6 0.226 254 260-7 (See Notes) 405 150 8.214 2E(4) 2T(3) 3Tr(1) 6EE(1) 23 0.043570 250 260'-7 8.56 0.8740 63 2.761 10.975 Total(Pt) Route 2 258 260-7 4.83 (See Notes) 17-8 150 10.814 ••'•• Route 3••••• Flow (q) from Route 1 2T(3) E(4) 10 0031692 4.371 156 250'-6 721 08740 27 8 0876 156 250-6 3/4 (See Notes) 63'-6 150 16.061 5Tr(1), 2T(3), 2E(4), 6EE(1) 25 0.031692 10 250-6 7.21 0.8740 88'-6 2.803 18.865 Total(Pt) Route 3 254 260'-7 8.56 (See Notes) 10'-10 150 8.214 ••••• Route 4••••• Flow (q) from Route 2 2T(3) 6 0.003067 256 260-7 2.04 0.8740 16-10 0.052 8.266 Total(Pt) Route 4 &© M.E.P.CAD, Inc. 41 AutoSPRlNK 2019 v1 5.1.9.0 1- 14x14' SPACING 7/17/2019 11:10:01AM Page 7 Job Name: TREVISO Remote Area Number: 1- 14'x14' SPACING Date: 7/17/2019 IEguivaIent Pipe Lengths of Valves and Fittings (C=120 only) I Actual Inside Diameter 4.87 = Factor Value Of C 100 130 140 150 ( Schedule 40 Steel Pipe Inside Diameter) Multiplying Factor 0.713 1.16 1.33 1.51 ALV Alarm Valve AngV Angle Valve b Bushing BalV Ball Valve BFP Backflow Preventer BV Butterfly Valve C Cross Flow Turn 90° cplg Coupling Cr Cross Run CV Check Valve DelV Deluge Valve DPV Dry Pipe Valve E 90° Elbow EE 45° Elbow Eel 111/4° Elbow Ee2 221,60 Elbow f Flow Device fd Flex Drop FDC Fire Department Connectk fE 90° FireLock(TM) Elbow fEE 450 FireLock(TM) Elbow fig Flange FN Floating Node fT FireLock(TM) Tee g Gauge GloV Globe Valve GV Gate Valve Ho Hose Hose Hose HV Hose Valve Hyd Hydrant LtE Long Turn Elbow rnecT Mechanical Tee Noz Nozzle P1 Pump In P2 Pump Out PIV Post Indicating Valve P0 Pipe Outlet PrV Pressure Relief Valve PRV Pressure Reducing Valve red Reducer/Adapter S Supply sCV Swing Check Valve SFx Seismic Flex Spr Sprinkler St Strainer T Tee Flow Turn 90° Tr Tee Run U Union WirF Wirsbo WMV Water Meter Valve Z Cap , © M.E.P.CAD, Inc. iAutoSPRINK 2019 v15.1.9.0 1- 14x14 SPACING 7/17/2019 11:10:01AM Page 8 Hydraulic Calculations for Project Name: TREVISO Location: CARLSBAD, CA,, Drawing Name: PLAN 3-DELTA 1 Design Remote Area Number: Remote Area Location: Occupancy Classification: 2- 18'x18' SPACING MASTER BATH Residential Calculation Date: 7/17/2019 Pressure: 0.050g pm/ft2 Area of Application: 324.00ft2 (Actual 142.25ft2) Coverage per Sprinkler: 324.00ft2 Type of sprinklers calculated: Pendent No. of sprinklers calculated: 1 No. of nozzles calculated: 0 In-rack Demand: N/Agpm at Node: N/A Hose Streams: 0.0 gpm at Node: 1 Type: 5.00 at Node: 500 Type: Total Water Required (including Hose Streams where applicable): From Water Supply at Node 1: 22.00@46.159 Type of System: 13D Volume of Dry or PreAction System: N/A Allowance at Source Hose (Safety Margin = 9.840 psi) for Node: I Date: 05/02/2019 Location: Poinsettia Lane Source: Carlsbad Municipal Water District Name of Contractor:ON GUARD FIRE PROTECTION Address: 6438 Arville Street, Las Vegas, NV 89118 Phone Number: 702-966-8021 Name of designer: OSCAR GARCIA Authority Having Jurisdiction:CARLSBAD Notes: Automatic peaking results Left: N/A Right: N/A I&© M.E.P.CAD, Inc. lAutoSPRINK 2019 v15.1.9.0 2- 18x18 SPA 7/17/201911:10:43AM Page 1 IHydraulic Summary 7 .. I Job Number: 19-20-08 Report Description: Residential (2 - 18x18' SPACING) Job Job Number Design Engineer 19-20-08 OSCAR GARCIA Job Nanrn: SsateCertificationlLicenseNurnber TREVISO Address 1 CARLSBADr CA Aba CARLSBAD Address 2 Jab Site/Building TRACT# 10620 Address 3 Drawing Name PLAN 3-DELTA I System Remote Area(s) Most Demanding Sprinkler Data 000tipaxcy Job Suffix 4.9 K—Factor 17.00 at 12.037 Residential Hose Allowance At Source Pressure Area at Application 0.00 0.050g pm/ft2 324.00ft2 (Actual 142.25ft2) Additional Hose Supplies Number 01 Sprinklers Caiwdatec Number 01 Naes Catculalm Coverage Per Sprinkler Node Flow(pm) 1 0 324.00ft2 Hose At Node 500 5.00 AutoPeak Results: Pressure For Remote Area(s) Adjacent To Most Remote Area Total Hose Streams 5.00 System Flaw Demand Total Watm Required (including MaNe Allawance) 22.00 22.00 Maximum Pressure Unbalance In Loops 0.000 Maximum Velocity Above Ground 9.09 between nodes 252 and 201 Maximum Velocity Under Ground 8.55 between nodes 6 and 500 Volume capacity 01 Wet Pipes Volume capacity at Dry Pipes 49.68ga1 Supplies Hose Flow Static Residual Flow Available Total Demand Required Safety Margin Node Name (gpm) (psi) (psi) @ (gpm) (psi) @ (gpm) (psi) (psi) 1 Water Supply 56.000 41.000 I 3500.00 55.999 I 22.00 46.159 9.840 Contractor ContracterNumber Contact Name Contact Tide 950378 BOBBY TAVAKOLI OWNER Name of Contractor Phone Extension ON GUARD FIRE PROTECTION 702-966-8021 Address I FAX 6438 Arville Street 702-987-1174 Address 2 E-mail Las Vegas, NV 89118 BOBBY@ONGUARDFP.COM Address 3 Web-Site ©M.E.P.CAD, Inc. AutoSPRlNK2019v15.1.9.0 7/17/2019 11:10:32AM Page 1 30 20 10 Hydraulic Graph N 1.85 Date: 7/17/2019 Water Supply mary Sheet Sum Node: 1 Static Pressure 56.000 2.00 55.999 2.00 46.159 3500.00 @ 41.000 —Available Supply—, System demand curve ffijjUjLIIHIIHI lIIIIIlI 11111111 IllIllill 111111111 liii I I iIII 111111111 (0 0 50 0 40 Job Name: TREVISO Remote Area Number: 2 - 18x18' SPACING 100 2800 4200 3500 4900 Flow - gpm 5600 6300 rL.i.i.1 ,©M.E.P.CAD, Inc. AutoSPRINK 2019 v15.1.9.0 7/17/2019 11:11:01AM Paqe 1 AN ISummary Of Outftowinq Devices I Job Number: 19-20-08 - Report Description: Residential (2- 18'x18 SPACING) Device Actual Flow (gpm) Minimum Flow (gpm) K-Factor (K) Pressure (psi) c Sprinkler 201 17.00 17.00 4.9 12.037 Hose 500 5.00 5.00 0 32.030 Most Demanding Sprinkler Data , © M.E.P.CAD, Inc. 4 AutoSPRINK 2019 v15.1 9.0 - 7/17/2019 11:11:10AM Page 3 Jbb Name: TREVISO Remote Area Number: 2 - 1 8'xl & SPACING Date: 7/17/2019 Supply Analysis Node Name Static (psi) Residual Flow (psi) @ (gpm) Available Total Demand (psi) (gpm) Required Pressure (psi) Water Supply 56.000 41 .000 3500.00 55.999 j 22.00 46.159 Node Analysis Node Number Elevation (Foot) Node Type Pressure at Node (PS Discharge at Node (gpm) Notes 1 245 Supply 46.159 22.00 201 260-1 Sprinkler 12.037 17.00 500 243-5 32.030 5.00 2 238-11 48.651 3 238-11 48.696 4 238'-11 36.676 5 238-11 35.973 6 238-11 35.175 7 243'-11 Supply 31.777 10 250-6 23.909 156 250-6 21.984 250 260-7 17.044 252 260-7 14.618 258 260-7 17.011 (,© M.E.P.CAD, Inc. i AutoSPRINK 2019 05.1.! 7/17/2019 11:11:16AM Page 4 Job Name: TREVISO Remote Area Number: 2- 18'x18' SPACING Date: 7/17/2019 Pipe Information Node 1 Elev i (Foot) K-Factor Flow added this step (q) Nominal ID Fittings & Devices Length (Foot) Length (Foot) C Factor Total(Pt) Notes Fitting/Device (Equivalent Fixed Pressure Losses, when applicable, are added directly to (Pt) and shown as , nng.tiwa uIiig (Foot) Pf Friction Loss Per Unit Fitting Length) Elev(Pe) Node 2 Elev 2 (Foot) Total Flow Actual ID Total (Foot) Friction(Pf) 201 260-1 4.9 17.00 % (See oes, Notes) 8' 150 12.037 ••••• Route l••••• Sprinkler, 2E(4'), 2EE(1') 10' 0.155074 -0.217 252 260-7 17.00 0.8740 18 2.798 252 260'-7 3/4 (See Notes) 3' 150 14.618 T 1' r( 3Tr(1'), 6EE(1'), E(4'), T(3') 17' 0.048514 250 260-7 9.07 0.8740 50' 2.427 250 260-7 2.05 3/4 (See Notes) 253 150 17.044 Flow (q) from Route 2 3T(3'), T(1') 10' 0.070701 4.371 10 250-6 11.12 0.8740 2.494 10 250-6 5.88 1 (See Notes) 11' 150 23.909 Flow (q) from Route 3 4E(5'), f(-0.000), 3Tr(1'), f(-3.0 00), sCV(5'), cplg(1'), BASE OF RISER 29' 0.050373 2.855 7 243-11 17.00 1.1010 40' 5.013 7 243'-ll 1 6" 150 31.777 0.071363 0.217 500 243-5 17.00 1.0250 6" 0.036 500 243-5 5.00 1 (See Notes) 5' 150 32.030 2E(2-8) 5-5 0.114981 1.950 6 238'-ll 22.00 1.0250 10'-5 1.195 6 238'-ll 11/4 (See Notes) 25' 150 35.175 E(4'-6) 4-6 0.027017 5 238'-ll 22.00 1.3800 29'-6 0.798 5 238'-ll 2 (See Notes) 165' 150 35.973 2E(7'-7), 2EE(3') 21'-2 0.003777 4 238-11 22.00 2.0670 186-2 0.703 4 238-11 11/2 (See Notes) 8'8 120 36.676 3E(4'-11), BFP( 11654) 14-10 0015573 3 238 11 2200 16820 23'-6 12.020 3 238-11 2 (See Notes) 10' 150 48.696 WMV(0083) 0003777 2 238 11 2200 20670 10 0045 2 238'-11 2 (See Notes) 35'6 150 48.651 EE(3'), S ' 0.003777 -2.637 1 1 245' L 1 22.00 2.0670 L38'-6 0.145 1, © M.E.P.CAD, Inc. AutoSPRiNK 2019 v15.1.9.0 2 - 18'x18' SPACING 7/17/2019 11:11:22AM Page 5 Job Name: TREVISO Remote Area Number: 2- 18'x18' SPACING Date: 7/17/2019 Pipe Information Node I Elevi K-Factor Flow added Fittings& Length C Factor Total(Pt) Notes (Foot) 1 this step Nominal ID Devices (Foot) __ _______ Fitting/Device (Equivalent (q) Equiv. Length) Fixed Pressure Losses, Fitting (Foot) Pf Friction Elev(Pe) Node 2 Elev 2 Total Flow Actual ID Length Loss Per Unit (psi) when applicable, are added Total (Foot) (Q) (Foot) (Foot) Friction(Pf) directly to (Pf) and shown as nrifi, 0.00 46.159 Hose Allowance At Source Total(Pt) Route 1 1 22.00 258 260-7 793 % (See Notes) 68 150 17.011 ••••• Route 2 Flow (q) from Route 4 Tr(1'), T(3) 0.003091 250 260'-7 2.05 0.8740 10-8 0.033 17.044 Total(Pt) Route 2 258 260'-7 7.93 % (See Notes) 17-8 150 17.011 Route 3 Flow (q) from Route 4 2T(3) E(4) 10' 0021762 4.371 156 250'-6 588 08740 27 8 0602 156 250'-6 % (See Notes) 63'6 150 21.984 5Tr(1) 2T(3) 2E(4) 6EE(1) 25' 0021762 10 250'-6 588 08740 88 6 1925 23.909 - Total(Pt) Route 3 252 260-7 % j 1 (See Notes) 41'3 150 14.618 •••'Route 4••••• 1(3') E(4'), 4Tr(1'), 3T(3'), 2EE(1') 22' 0.037824 258 260'-7 7.93 0.8740 63-3 2.394 17.011 Total(Pt) Route 4 . © M.E.P.CAD, Inc. 411 AutoSPRINK 2019 v15.1.9.0 2 - 18'xl8' SPACING 7/17/2019 11:11:22AM Page 6 Job Name: TREVISO Remote Area Number: 2 - 18'x18' SPACING Date: 7/17/2019 Equivalent Pipe Lengths of Valves and Fittings (C120 only) C Value Multiplier I Actual Inside Diameter .. 4.87 I I =Factor Schedule 40 Steel Pipe Inside Diameterj Value Of C 100 130 140 150 Multiplying Factor 0.713 1.16 1.33 1.51 ALV Alarm Valve AngV Angle Valve b Bushing BalV Ball Valve BFP Backfiow Preventer BV Butterfly Valve C Cross Flow Turn 900 cplg Coupling Cr Cross Run CV Check Valve DelV Deluge Valve DPV Dry Pipe Valve E 90° Elbow EE 45° Elbow Eel 11140 Elbow Ee2 221/20 Elbow f Flow Device fd Flex Drop FDC Fire Department Connectk fE 90° FireLock(TM) Elbow fEE 45° FireLock(TM) Elbow fig Flange FN Floating Node fT FireLock(TM) Tee g Gauge GloV Globe Valve GV Gate Valve Ho Hose Hose Hose HV Hose Valve Hyd Hydrant LtE Long Turn Elbow mecT Mechanical Tee Noz Nozzle P1 Pump In P2 Pump Out PIV Post Indicating Valve P0 Pipe Outlet PrV Pressure Relief Valve PRV Pressure Reducing Valve red Reducer/Adapter S Supply sCV Swing Check Valve SFx Seismic Flex Spr Sprinkler St Strainer I Tee Flow Turn 90° Tr Tee Run U Union WirF Wirsbo WMV Water Meter Valve Z Cap © M.E.P.CAD, Inc. AutoSPRINK 2019 vl 5.1.9.0 2 - I 8xl 8 SPACING 7/17/2019 11:11:21AM Page 7 Hydraulic Calculations for Project Name: VERANDA HEIGHTS Location: SAN BERNARDINO, CA, TRACT #16502, Drawing Name: PLAN 3-DELTA 1 Calculation Date: 7/18/2019 Design Remote Area Number: 3- 16'x16' SPACING Remote Area Location: GARAGE Occupancy Classification Residential Pressure: Area of Application: Coverage per Sprinkler: Type of sprinklers calculated: No. of sprinklers calculated: No. of nozzles calculated: 0.050gpm/ft2 512.00ft2 (Actual 196.85ft2) 256. 00ft2 Pendent 2 0 In-rack Demand: N/A gpm at Node: N/A Hose Streams: 0.0 gpm at Node: 1 Type: 5.00 at Node: 500 Type: Total Water Required (including Hose Streams where applicable): From Water Supply at Node 1: 34.18@47.648 Type of System: 13D Volume of Dry or PreAction System: N/A Allowance at Source Hose (Safety Margin = 8.350 psi) for Node: I Date: 05/02/2019 Location: Poinsettia Lane Source: Carlsbad Municipal Water District Name of Contractor:ON GUARD FIRE PROTECTION Address: 6438 Arville Street, Las Vegas, NV 89118 Phone Number: 702-966-8021 Name of designer: OSCAR GARCIA Authority Having Jurisdiction: Notes: Automatic peaking results Left: N/A Right: N/A M.E.P.CAD, Inc. AutoSPRINK 2019 v15.1.9.0 3- 16'x16' SPA( 7/18/2019 8:16:24AM Page 1 [Hydraulic Summary I Job Number: 19-20-08 Report Description: Residential (3- 16x16' SPACING) Job Job Number Design Engineer 19-20-08 OSCAR GARCIA Job Name: State Ce,nifcationlLicensebomber TREVISO Address I ANn CARLSBAD, CA CARLSBAD Address 2 Job Site/building TRACT# 10620 Address 3 Drawing Name PLAN 3-DELTA 1 System Remote Area(s) Most Demanding Sprinkler Data Occupancy Job Sultro 4.9 K-Factor 14.00 at 8.163 Residential Hose A/lowance At Source Pressure Area of Application 0.00 0.050gpm/ft2 512.00ft2 (Actual 196.85ft2) Addrtronal Hose Supplies Number Of Sprinklers Ceturtatee Number Of Noutreu Calculate, Coverage Per Sprinkler Node Flow(r)m) 2 0 256.00ft2 Hose At Node 500 5.00 AutoPeuk Results: Pressure For RemoteAma(s) Adjacent To Most Remote Area Total Hose Streams 5.00 System Flow Demand Total Water Regurred (tnduding Hose Allowence) 34.18 34.18 Mae/mum Pressure Unbalance In Loops 0.000 Mae/mum Velocity Above Ground 15.60 between nodes 152 and 154 Maximum Velocity Under Ground 13.29 between nodes 6 and 500 Volume capacity of Wet Pipes Volume capacity of Dry Pipes 49.68ga1 Supplies Hose Flow Static Residual Flow Available Total Demand Required Safety Margin Node Name (gpm) (psi) (psi) © (gpm) (psi) @ (gpm) (psi) (psi) I WaterSupply 56.000 41.000 I 3500.00 55.997 I 34.18 47.648 8.350 Contractor ContractorNumber Contact Name Contactittle 950378 BOBBY TAVAKOLI OWNER Name of Contractor: Phone Extension ON GUARD FIRE PROTECTION 702-966-8021 Address I FAX 6438 Arville Street 702-987-1174 - Address 2 E-mail Las Vegas, NV 89118 BOBBY@ONGUARDFP.COM Address 3 Web-Site © M.E.P.CADr Inc. AutoSPRINK 2019 v15.1.9.0 7/17/2019 11:12:23AM Page 1 7C Hydraulic Graph N 1.85 Date: 7/17/2019 Water Supply Summary Sheet Node: 1 - static Pressure 56.000 wailable Supply— 4.18 c .556.95.97 - 4.18c 47.648 00.00 c 41.000 System demand curve IIj!IflLIIIHIIHI Ilililil IIIIIII iIII j II I II I I II I I I II IIIII - 0700 1400 2100 2800 3500 4200 4900 5600 6300 7000 Flow - gpm ,© M.E.P.CAD, Inc. RIO AutoSPRINK 2019 v15.1.9.0 7/17/2019 11:11:51AM Pacie 2 6C (n 5C 4C 3030 20 10 0 Job Name: TREVISO Remote Area Number: 3- 16'x16' SPACING 100 90 80 ummary Of Outftowing Job Number: 19-20-08 Devices Reoort Descrintion: Residential (3- 16x16 SPACING) Device Actual Flow (gpm) Minimum Flow (gpm) K-Factor (K) - Pressure (psi) c Sprinkler 301 14.00 14.00 4.9 8.163 Sprinkler 302 15.18 14.00 4.9 9.596 Hose 500 5.00 5.00 0 27.054 rz Most Demanding Sprinkler Data (.,©M.E.P.CAD, Inc. AutoSPRlNK2019v15.1.9.0 . 7/17/2019 11:11:56AM Page 4 Job Name: TREVISO Remote Area Number: 3- 1 6'xl 6' SPACING Date: 7/17/2019 Supply Analysis Node Name Static (psi) Residual Flow (psi) @ (gpm) Available Total Demand (psi) (gpm) Required Pressure (psi) Water Supply 56.000 41.000 1 3500.00 55.997 34.18 47.648 Node Analysis Node Number Elevation (Foot) Node Type Pressure at Node (psi) Discharge at Node (gpm) Notes 1 245 Supply 47.648 34.18 301 250' Sprinkler 8.163 14.00 302 250 Sprinkler 9.596 15.18 500 243-5 27.054 5.00 2 238-11 49.956 3 238'-11 49.659 4 238-11 35.095 5 238'-11 33.507 6 238'-11 31.704 7 243-11 Supply 26.740 10 250-6 15.416 152 250-6 10.241 154 250-6 9.819 156 250-6 12.890 250 260-7 9.718 258 260-7 9.445 M.E.P.CAD, Inc. 4AutoSPRlNK 2019 v15.1.! 7/17/2019 11:12:02AM Page 5 Job Name: TREVISO Remote Area Number: 3- 16'x16' SPACING Date: 7/17/2019 Pipe Information Node 1 Elev i (Foot) K-Factor Flow added this step (q) Nominal ID Fittings & Devices Equiv. Length (Foot) Length (Foot) C Factor Total(Pt) Notes Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (Pt) and shown as * nog.tnla s.Itig Fitting (Foot) Pf Friction Loss Per Unit (psi) Elev(Pe) Node 2 Elev 2 (Foot) Total Flow Actual ID Total (Foot) Friction(Pf) 301 250 4.9 14.00 % (See Notes) 12'-4 150 8.163 ..... e1r,"" E(4'),Tr(l') 0.108279 -0.217 154 250-6 14.00 0.8740 17-4 1.873 154 250-6 15.18 3 1 150 9. 819 Flow (q) from Route 2 0.421293 152 250-6 29.18 0.8740 1' 0.421 152 250-6 3/4 (See Notes) 12'l 150 10.241 T 1' r( E(4) 4EE(1) Tr(1) 10, 0234792 10 2506 2127 08740 22'-1 5.176 10 250-6 7.91 1 (See + Notes) 11' 150 15.416 Flow (q) from Route 3 4E(5'), f(-0.000), 3Tr(1'), f(-3.0 00), sCV(5'), cp1g(1'), BASE OFRISER 29' 0.136849 2.855 7 243'-ll 29.18 1.1010 40' 8.469 7 243'-ll 1 611 150 26.740 0.193874 0.217 500 243-5 29.18 10250 6" 0.097 500 243-5 5.00 1 (See Notes) 5' 150 27.054 2E(2'-8) 5-5 0.259774 1.950 6 238'-ll 34.18 1.0250 10'-5 2.701 6 238'-ll 1% (See Notes) 25' 150 31.704 E(4'-6) 4-6 0.061039 5 238'-ll 34.18 1.3800 29'-6 1.802 5 238'-ll 2 (See Notes) 165' 150 33.507 2E(7-7), 2EE(3) 21'-2 0.008533 4 238'-ll 34.18 2.0670 186'-2 1.588 4 238'-11 1% . (See Notes) 8'8 120 35.095 3E(4-11), BFP(-13.738) 14'-10 0.035183 3 238'-ll 34.18 1.6820 23'-6 14.564 3 238'-ll 2 (See Notes) 10' 150 49.659 WMV(0211) 0008533 2 238 11 3418 20670 10 0.297 2 238-11 2 (See Notes) 366 150 49.956 EE(3), S 3 0.008533 -2.637 1 245' 34.18 2.0670 38-6 0.329 , © M.E.P.CAD, Inc. AutoSPRINK 2019 v15.1.9.0 3- 16'x16' SPACING 7/17/2019 11:12:06AM Page 6 Job (-Jame: TREVISO Remote Area Number: 3- 16'x16' SPACING Date: 7/17/2019 Pipe _Information Elevi Flow added Fittings& Length C Factor Total(Pt) Notes Node I (Foot) K-Factor this step Nominal ID . Devices (Foot) ________ Fitting/Device (Equivalent (q) Equiv. Length) Fixed Pressure Losses, Fitting (Foot) Pf Friction Elev(Pe) Node 2 Elev 2 Total Flow Actual ID Length Loss Per Unit (psi) when applicable, are added Total (Foot) ( (Foot) (Foot) Friction(Pf) directly to (Pt) and shown as 0.00 47.648 Hose Allowance At Source Total(Pt) Route 1 1 34.18 302 250 4.9 15.18 3/4 (See Notes) 6" 150 9.596 ••••• Route 2••••• Sprinkler, T(3' ' 0.125748 0.217 154 250-6 15.18 0.8740 3-6 0.440 9.819 Total(Pt) Route 2 250 260'-7 6.11 +1.80 % (See Notes) - 25-3 150 9.718 ••••• Route 3••••• Flow (q) from Route 4 and 6 3T(3'), Tr(1) 10' 0.037621 4.371 10 250-6 7.91 0.8740 36-3 1.327 15.416 Total(Pt) Route 3 156 250-6 7.91 (See Notes) 17'-8 150 12.890 ••••• Route 4••••• Flow (q) from Route 5 E(4'), 1(3') - 0.03762 1 -4.371 258 260-7 7.91 0.8740 24-8 0.927 258 260-7 (See Notes) 6'8 150 9.445 Tr(1') 1 r(1'), T(3') 0.023350 250 260'-7 6.11 0.8740 11-8 0.273 9.718 Total(Pt) Route 4 - 152 250-6 3/4 (See Notes) 51-5 150 10.241 ••" Route 5••••• 1(3') 2EE(1) 4Tr(1) E(4) 2T(3) 19' 0037621 156 250'-6 791 08740 70 - 2.649 12.890 Total(Pt) Route 5 258 260-7 (See Notes) 74'-4 150 9.445 •• Route 6 T(3') 7Tr(1'),8EE(1'),4T(3'),2E(4') 38' - - - 0.002427 250 260-7 1.80 0.8740 - 112-4 0.273 9.718 Total(Pt) Route 6 , © M.E.P.CAD, Inc. i 911 AutoSPRlNK 2019 v15. 1.9.0 3- 16'x16 'SPACING 7/17/2019 11:12:06AM Page 7 Job Name: TREVISO Remote Area Number: 3- 16x16' SPACING Date: 7/17/2019 IEquivlent Pipe Lengths of Valves and Fittings (C1 IC Value Multiplier, I Actual Inside Diameter 4.87 = F r Value Of C 100 130 140 150 Schedule 40 Steel Pipe Inside Diameter) ac ° Multiplying Factor 0.713 1.16 1.33 1.51 ALV Alarm Valve AngV Angle Valve b Bushing BaIV Ball Valve BFP Backfiow Preventer BV Butterfly Valve C Cross Flow Turn 90° cplg Coupling Cr Cross Run CV Check Valve DelV Deluge Valve DPV Dry Pipe Valve E 90° Elbow EE 45° Elbow Eel 111/40 Elbow Ee2 221/20 Elbow f Flow Device fd Flex Drop FDC Fire Department Connectic fE 90° FireLock(TM) Elbow fEE 450 FireLock(TM) Elbow fig Flange FN Floating Node fT FireLock(TM) Tee g Gauge GloV Globe Valve GV Gate Valve Ho Hose Hose Hose HV Hose Valve Hyd Hydrant LtE Long Turn Elbow mecT Mechanical Tee Noz Nozzle P1 Pump In P2 Pump Out PIV Post Indicating Valve P0 Pipe Outlet PrV Pressure Relief Valve PRV Pressure Reducing Valve red Reducer/Adapter S Supply sCV Swing Check Valve SFx Seismic Flex Spr Sprinkler St Strainer T Tee Flow Turn 90° Tr Tee Run U Union WirF Wirsbo WMV Water Meter Valve Z Cap .© M.E.P.CAD, Inc. AutoSPRlNK 2019 V15.1.9.0 3- 16::16 SPACING 7/17/2019 11:12:06AM Page 8 DN ______________________ 6438 Arville St. RDFI I Las Vegas, NV89118 (702) 966-8021 Tel (702) 987-1174 Fax License #: NV-61307 CA950378 PROTECTION i www.onguardfp.com Bid Limit $43M MATERIAL SUBMITTAL FOR: TREVS10 TRACT #16502 CARLSBAD, CALIFORNIA GENERAL CONTRACTOR: LENNAR HOMES NFPA MEMBER FIRE SPRINKLERS—FIRE ALARMS -FIRE EXTINGUISHERS -EMERGENCY LIGHTING -SAFETY & FIRST AID SUPPLIES N GI4RIJL i G[ ?L License NV-61307 CA-950378 PRO TEE TILIN Bid Limit 54.5 M 6438 Arville St Las Vegas, NV 89118 (702) 966-8021 Tel (702) 987-1174 Fax w.oaguardfpcom ) TABLE OF CONTENTS: Water Flow Info Sprinkler Heads Pipe & Fittings Valves Accessories & Fire Caulking PiFPA MEMBER FIRE SPRINKLERS -FIRE ALARMS -FIRE EXTINGUISHERS -EMERGENCY LIGHTING - SAFETY & FIRST AID SUPPLIES Page 2 of 7 6438 Arville St. Las Vegas, NV 89118 (702) 966-8021 Tel (702) 987-1174 Fax w.onguardfp,com Bid LimitS4.5M 1. Water Flow NFPA MEMBER FIRE SPRINKLERS - FIRE ALARMS - FIRE EXTINGUISHERS - EMERGENCY LIGHTING - SAFETY & FIRST AID SUPPLIES Page 5 of 7 No. 184 0 CARLSBAD FIRE DEPARTMENT Fire Prevention Division 1635 Faraday Avenue - Carlsbad, CA 92008 760602.4665 WATER AVAILABILITY FORM SECTION A: TO BE COMPLETED BY CUSTOMER PROJECT NAME: Treviso SR#: (Assigned upon plan suomittal) PROJECT ADDRESS: Pointsettia Lane & Cassia Road & Oriole Ct CITY: Carlsbad PHONE: ( 714 ) 658-7712 (On Guard Fire Protection) JAX NUMBER: Largest Building (ft.2): Sprinkled? Yes Corstruction Type: V-B SECTION B: TO BE COMPLETED BY LOCAL WATER COMPANY. CUSTOMER TO PROVIDE RESULTS TO CFD. Water Purveyor: City of Carlsbad Location of test (reference map required): Southeast end of Pointsettia Lane TEST INFORMATION IS VALID FOR 6 MONTHS FROM DATE PERFORMED Flow Test Results Static pressure: 56 PSI Hydrant Number (if applicable): NA Elevation of test: 245 Feet Main Size: 12 INCH Pressure Zone 375 Feet Date/Time of Test Pitot Tube Reading: PSI Corresponding Flow GPM Total Flow: 3,500 GPM Residual Pressure41 PSI At peak demand, this water system is capable of providing a fire flow discharge at 20 psi of 5,000 gpm. However, this flow exceeds the District's maximum pipeline velocity of 10 fps. The maximum fire flow that meets both the velocity and pressure criteria is 3,500 gpm. No specific fire flow was provided for testing. Note: If the water availability information was obtained in a manner other than a flow test (i.e. computer modeling), fill out the information above as applicable and check here: x Name: Jennifer R. Mael, P.E. Eng. Lic. No. (if applicable): C69606 Signature: TitIe/Org:9 ct Manager Date: 05/02/2019 / #184 Treviso - Fire Flow Analysis ON GUARDFfl72[ License #: NV-61307 CA-950378 PF1D TEE TILJN 6438 Arville St. Las Vegas. NV 89118 (702) 966-8021 Tel (702) 987-1174 Fax www.onguardfp.com Bid Limit S4.5 M 2,,_Spri nkler Hea ds NFP MEMBER FIRE SPRINKLERS — FIRE ALARMS - FIRE EXTINGUISHERS - EMERGENCY LIGHTING - SAFETY & FIRST AID SUPPLIES Page 3 of 7 I OT d SENJU SPRINKLERCO., LTD. Residential Lead Free Flat Concealed Sprinkler, Pendent, r Model: RC-RES, K-Factor: 3.7, SIN: SS8261 GENERAL DESCRIPTION The Model RC-RES Residential Flat Concealed Sprinklers are automatic sprinklers of the compressed fusible solder type. They are decorative and fast responding. The Cover Plate Assembly hides the Deflector, Heat Responsive Element etc., which is concealed above the ceiling. The cover plate has a flat profile, and its diameter is extremely small (2-5/8 inch, 68mm). The push-on and/or thread-on, thread-off design of the concealed cover plate assembly allows for easy installation of the cover plate. Therefore, the Model RC-RES should be your first choice when aesthetics is the major consideration for ultimate appeal and unbeatable performance is desired. The Model RC-RES is designed for residential occupancies and is perfect for use in homes, hotels and other living quarters. The Model RC-RES is to be used in wet pipe residential sprinkler systems for One- and Two- Family Dwellings and Manufactured Homes per NFPA 13D: wet pipe residential sprinkler systems for Residential Occupancies up to and Including Four Stories in Height per NFPA 13R; or, wet pipe sprinkler systems for the residential portions of any occupancies per NFPA 13. The Model RC-RES has a 3.7 (53.3 LPM/bar112) K-factor that meets the required residential flow rates with minimal residual pressure, which allows for smaller pipe sizes and water supply requirements. For extended installation flexibility, the Model RC-RES provides 1/2 inch (12.8mm) vertical adjustment. This adjustment in installation decreases the need for precise cutting of the pipe that drops to the sprinkler and allows for a perfect fit with a range of pipe lengths. The heat sensitivity and water distribution design of Model RC-RES allows for an increased chance of residents to escape or evacuate in case of a fire. However, residential fire sprinkler systems are not a substitute for fire safety awareness or fire safety construction required by building codes. Lead Free" is defined in the Reduction of Lead in Drinking Water Act (S.3874) endorsed by AWWA's Water Utility Council, and California Assembly Bill #1953 as having less than or equal to a weighted average of 0.25% lead in wetted surface of pipes, plumbing fittings and fixtures. WARNINGS The Model RC-RES must be installed and maintained in accordance with the rules stated herein as well as in compliance with the applicable standards of the National Fire Protection Association regulations and the standards of any other authorities having jurisdiction. In the event of this condition, consult the authorities ha ving jurisdiction for guidance and approval. Failure to do so may impair the integrity of these devices. It is the responsibility of the installing contractor to provide a copy of this document to the owner or their representative, and in turn, it is the obligation of the owner to provide a copy of this document to a succeeding owner. The owner is responsible for maintaining their fire protection system and devices in proper operating condition. The installing contractor or sprinkler manufacturer should be contacted with any related questions. Document No. U086206 Date Jan/11/2019 Page 2 of 8 TECHNICAL DATA Approvals: Listed, NSF-61-G Sprinkler Identification Number (SIN): SS8261 Maximum Working Pressure: 175ps1 (12.1 bar) Discharge Coefficient (Nominal K-Factor): K3.7 GPMJpsi112 (53.3 LPM/bar12) Temperature Rating: 162°F (72°C) Sprinkler with 140°F (60°C) Cover Plate 175°F (79°C) Sprinkler with 140°F (60°C) Cover Plate 175°F (79°C) Sprinkler with 162°F (72°C) Cover Plate Color Code (Sprinkler) 162°F (72°C): Uncolored 175°F (79°C): White Color Code (Cover Plate) 140°F (60°C): No Mark 162°F (72°C): White-Colored Mark Vertical Adjustment: 1/2 inch (12.8 mm) Cover Plate Finishes: Standard Finishes- White, Ivory, Beige, Brown, Black, Nickel, Wood Grain Custom Finishes- Custom color and custom pattern cover plates are available on special order. Contact a Senju Sprinkler representative with any custom orders. Please see chart on Page 8 for more detaii. Physical Characteristics: Ref. Figures 1 and 1-1 OPERATION 2-1 Marking /I6 (t52rnt& T Yet, of g I N 7 6P37 :.y.'. - ,-' cz) 5/8 6SflM . S. i ,,., - •z - L (..erh . FIGURE 1. Model RC-RES K=3.7 UL k4ar~ COVER PLATE SPRINKI ER (Tap yew) (Bottom view) FIGURE 1-1. Marking (Color Code) In case of fire, the solder component that holds together the Cover Plate and the Retainer melts, Then the Cover Plate is released at once. As a result, the Deflector drops down to the intended position. Two Heat Collectors are exposed to fire, and when sufficient heat from the fire is reached, internal components of the sprinkler fall apart. This leads to the water flow to be distributed on the affected fire area. (Ref. Figure 2) NàSThP) CiIlt,oe Cov'r Plate 09er0te3n $nk)erOperat)orl Water OlaCvigÔ FIGURE 2. OPERATION PROCESS (The figure is for illustrative purposes only) Document No. U086206 Date Jan/11/2019 Page 3 of 8 DESIGN CRITERIA The herein stated rules for use and installation of Model RC-RES are provided by the manufacturer and must be strictly implemented for safe and full results. NOTES Residential Fire Sprinkler Systems should only be designed and installed by individuals who are completely familiar with automatic sprinkler system design, installation procedures, and techniques. Several criteria may apply to the installation and usage of each sprinkler. Consequently, it is recommended that the sprinkler system designer review and develop a working understanding of the complete list of criteria prior to initiating the design of the sprinkler system. Questions concerning sprinkler installation and usage criteria, which are not covered by the following instructions, should be submitted to your contracted company. Include sketches and technical details, as appropriate. In some instances, the requirements of this document may concern specifications which are more stringent, and which take precedence over those specified in NFPA 13, 13D, 13R, or by the authority having jurisdiction. The Model RC.RES must not be used in applications where the air pressure above the ceiling is greater than that below. Inspect all sprinklers after installation to ensure that both the gap between the cover plate, ceiling and the 6 slots in the cup are open and free from any air flow impediment. The spray from the sprinkler is distributed radially outward and downward from the sprinkler deflector. Consequently, the sprinklers must be located such that there will be no blind spaces shielded from spray by partitions, room dividers, overhangs or other parts of the dwelling structure. The number of sprinklers within each compartment (as defined by NFPA 13, 13D, or 13R) must be kept as few as possible. Do NOT use more sprinklers than necessary to cover a particular space. Use only the Cover Plate provided for the Model RC-RES. The sprinkler must be secured in place by firmly fastening the sprinkler system piping to the structure. If the sprinkler is not properly secured in position, reaction forces resulting from sprinkler operation could alter its orientation and its water distribution pattern. Obstruction to Water Distribution Locations of sprinklers must follow the obstruction rules of NFPA 13. 13D and 13R for Residential Sprinklers. General Service Conditions The Model RC-RES must only be utilized in WET PIPE sprinkler systems. Heat Source Criteria Refer to NFPA 13D, 13R or 13 for the requirements relating to the prevention of possible activation of the Heat Responsive Element of Model RC-RES, due to the exposure of a heat source other than an actual fire. Available Sprinkler Temperature Ratings Sprinkler Temperature Classification Sprinkler Nominal Temperature Rating Maximum Ambient Ceiling Temperature Temperature Rating of the Cover Plate Assembly Ordinary 162°F (72°C) 100°F (38°C) 140°F (60°C) Intermediate 175°F (79°C) 150°F (66°C) 140°F (60°C) 1) Intermediate 175°F (79°C) 150°F (66°C) 162°F (72°C) 1) Maximum ambient temperature for the Cover Plate Assembly is 100°F (38°C). Precautionary Warnings for Corrosive Environments Model RC-RES sprinklers should not be installed where they may be subjected to a corrosive environment including the following: Chlorine ion and Chloride environment. Stress corrosion cracking may be caused by exposure to environments with Chlorine ion and Chloride. Exposure to this environment may result in sprinklers operating under Non-Fire conditions or Not Operating when exposed to an actual tire. Sprinkler system piping with Copper. Sprinkler systems should be constructed in compliance with the applicable standards and the requirements for copper piping when copper piping is used in the sprinkler system. (Reference standards NFPA 13, ASTM 8813, 8828, and CDA (Copper Development Association) - Solder Joint) All residual flux must be removed from the interior and exterior of the copper piping by thoroughly flushing before installation of the Sprinkler Heads. Otherwise, residues of flux may cause corrosion and/or leakage in the sprinkler system. Document No. U086206 Date Jan/11/2019 Page 4 of 8 Hydraulic Design Criteria The minimum required sprinkler flow rates for systems designed to NFPA 130 or 13R are given in TABLE A as a function of temperature rating and the maximum allowable coverage area. The sprinkler flow rate is the minimum required discharge from the most hydraulically demanding sprinkler from each of the total number of design sprinklers' as specified in NFPA 130 or 13R. For systems designed to NFPA 13, the number of designed sprinklers is to be the four most hydraulically demanding sprinklers. The minimum required discharge from each of the four sprinklers is to be the greater of the following: The flow rates given in TABLE A for NFPA 130 and 13R as a function of temperature rating and maximum allowable coverage area. A minimum discharge of 0.IGPM/sq.ft. [4.07LPM/sq.m] over the "design area" comprised of the four most hydraulically demanding sprinklers for the actual coverage area being protected by the four sprinklers. TABLE A. NFPA 13D & 13R WET PIPE HYDRAULIC DESIGN CRITERIA for Model SS8261 For systems with ceiling types smooth flat horizontal, or beamed, or sloped, in accordance with NFPA 130, 13R or 13 as applicable. Ordinary Intermediate Maximum Maximum Temperature Classification Temperature Temperature Minimum Coverage Spacing Rating Rating Deflector Installation Spacing ____________ Area' Ft. Sprinkler 162°F 175°F 175°F to Type Ft. Ft. x Ft. (m) (72°C) (79°C) (79°C) Ceiling (m) 140°F 140°F 162°F (mxm) Cover Plate (60°C) (60°C) (72°C) Flow 10 11 11 GPM (37.8) (41.6) (41.6) 12x12 12 (LPM) (3.7x3.7) (3.7) Pressure 7.3 8.8 8.8 PSI (bar) (0.50) (0.60) (0.60) Smooth Ceilings Flow GPM 10 11 11 3/8to7/8 (37.8) (41.6) (41.6) Inches. 14x14 14 (LPM) (4.3x4.3) (4.3) Beamed Pressure 7.3 8.8 8.8 PSI (0.50) (0.60) (0.60) Ceilings (bar) per NFPA rn ..............13D, 13R Concealed (2.4) 13 13 or 13 GPM (49.2) (49.2) - Installed in 15x15 15 (LPM) beam (4.6x4.6) (4.6) 3/8 to 7/8 PSI 12.3 12.3 - inches (0.85) (0.85) below (bar) bottom of beam. Flow GPM 14 14 - (53.0) (53.0) 16x16 16 (LPM) (4.9x4.9) (4.9) Pressure PSI 14.3 14.3 - (0.99) (0.99) (bar) _______ _________ __________ For coverage area dimensions less than the above mentioned, it needs to use the minimum required flow for the Next Higher Coverage Area listed. Requirement is based on minimum flow in GPM (LPM) from each sprinkler. The associated residual pressures are calculated using the nominal KFactor. Refer to Hydraulic Design Criteria Section for details. Sprinkler Spacing Criteria The minimum spacing between sprinklers is 8 feet (2.4m). The maximum spacing between sprinklers cannot go beyond the coverage area calculated by using the specific hydraulic factors. (Ref. TABLE A) Document No. U086206 Date Jan/11/2019 Page 5 of 8 INSTALLATION The Model RC-RES must be installed in accordance with the following instructions; NOTES Do not use any sprinklers which have been subjected to potential mechanical damage. Do not use any sprinklers which show deformation or cracking in either the Sprinkler or the Protective Cap. Prior to installation, sprinklers should be maintained in the original cartons and packaging until used to minimize the potential for damage to the sprinklers that could cause improper operation or non-operation. The Protective Cap must remain on the sprinkler during installation. After the installation is completed, the Protective Cap must be removed to place the sprinkler in service. Use a torque of 7 to 14 ftlbs (9.5 to 19.0 N.m) to achieve a 1/2 inch NPT sprinkler joint. If you exceed the recommended maximum torque, this could result in damage to the sprinkler inlet, which may lead to leakage from the sprinkler. Use only NR-H model wrench socket for installation of RC-RES sprinklers. Use of any other wrench or socket is prohibited and may cause damage to the sprinkler. In case of insufficient adjustment in Cover Plate installation, do not try to overly tighten, screw the sprinkler too loosely or make any modification to the cover plate assembly. Readjust the sprinkler fitting for a better fit. Do not rotate the Cap Remover RC to the left with force when placing the two hook arms into place. The installed sprinkler may become loosened, which may cause water leakage. Installing Procedure Step 1 The installation requirements for the sprinkler are as follows: to be installed only in the pendent position with the waterway perpendicular to the ceiling. Install the sprinkler fitting so that the distance from the face of the fitting to the mounting surface will be nominally 2 inches (50.8mm) as shown in Figure 3. Step 2 With pipe thread sealant applied to the threads, hand tighten the sprinkler into the sprinkler fitting. Then tighten it with the Socket NR-H or Ratchet (3/8' drive) & Socket NR-H Combination (Ref. Figure 4). The teeth of the Socket must fit perfectly with the grooves on the Sprinkler for proper installation (Ref. Figure 4). Step 3 If desired, the Protective Cap may also be used to locate the center of the clearance hole by gently pushing the ceiling material against the center point of the Protective Cap. Before the installation of the ceiling, the sprinkler installation can be started with a 23/8 inch (60mm) diameter clearance hole (Ref. Figure 3). Use the 'Vertical Adjustment' indicator on the Protective Cap to check for proper installation height (Ref. Figure 3). Step 4 Use the Cap Remover RC to remove the Protective Cap (Ref. Figure 5), and then push or screw a Cover Plate Assembly on the Cup of the Sprinkler by hand until its flange just has contact with the ceiling (Ref. Figure 6 and Figure 7). Stop tightening the Cover Plate Assembly once the flange has contact with the ceiling. If the ceiling has been lifted from its normal position in the process of tightening the Cover Plate Assembly, readjust the cover plate assembly as necessary. If the flange of the Cover Plate Assembly cannot contact the ceiling sufficiently, readjust the sprinkler fitting as necessary. When properly installed, there is a nominal 1/16 inch (1.6mm) air gap between the lip of the Cover Plate and the ceiling, as shown in Figure 6. 1 A' t L.....) .1 .•, Ai F / - Lr1NWRRFC7T FIGURE 3. INSTALLATION ooQ Q t'-,e Spnrkie - PretecbcC Tooth on: the Scckt lu Socket kR41 Ratchet T=i 7T'2 FIGURE 4. RATCHET& SOCKET Document No. U086206 Date . Jan/11/2019 Page 6 of 8 Hookup L J protthC ..------rr- . - t..t L r p J I Li Pui step t Step 2 Skp S FIGURE 5. PROTECTIVE CAP REMOVAL r Defectj . 41 FIGURE 6. INSTALLATION (COVER PLATE ASSEMBLY) Iff99 i4- . 60. FIGURE 7. INSTALLATION (CORRECT and INCORRECT) Document No. U086206 Date Jan/11/2019 Page 7 of 8 CARE AND MAINTENANCE The following instructions must be implemented for the maintenance and service of the Model RC-RES NOTES Wet pipe sprinkler systems must be maintained at a minimum temperature 0f40°F/4°C to prevent freezing and bursting of the pipe and/or sprinklers. Automatic sprinklers are not to be tested with a heat source. Operation of the heat responsive element can result. Absence of a Cover Plate Assembly may delay the response time of the sprinkler in case of a fire. Install the cover plate assembly properly, as shown in Figure 6. Improper installation of the cover plate assembly may cause improper operation or non-operation. If the ceiling is to be repainted after the installation of the Sprinkler, care must be exercised to ensure that the new paint does not seal off any of the air gap. Factory painted Cover Plates must not be repainted. They should be replaced, if necessary, by factory painted cover plates. Non-factory applied paint may adversely delay or prevent sprinkler operation in case of a fire. Do not pull the Cover Plate. Separation may result. In preparation for maintenance of the fire protection system, permission to close the main control valve must be obtained from the proper authorities, and all affected parties by this action, and must be informed before the maintenance session can commence. Do NOT enclose any sprinklers within drapes, curtains, or valances. Do NOT hang anything from the sprinklers. Do NOT clean the sprinklers with soap and/or water, detergents, ammonia, cleaning fluids, or other chemicals. Remove dust, lint, cobwebs, cocoons, insects, and larvae by gently brushing with a feather duster or gently vacuuming with a soft bristle (i.e., dusting) brush attachment. Exercise suitable safety precautions in the use and storage of highly flammable materials. The rapid rate of fire development and spread of these materials can reduce the ability of the sprinkler system to aid in the control of a fire involving such hazards. Leaking or corroded sprinklers must be replaced. Automatic Sprinklers must be kept in a cool and dry place. Automatic sprinklers must never be physically altered, such as painted, plated, or coated, once shipped from the factory. If the sprinklers have been in any way modified, they must be replaced. Great caution must be applied to prevent damage to the sprinklers at all stages - before, during, and after installation. Damaged units because of dropping, hitting, over-tightening, or wrench slippage, must be replaced. The Model RC-RES must only be replaced with pendent sprinklers which are listed for residential fire protection service and which have the same nominal K-Factor, the same coverage area, and the same or lower flow ratings (as indicated under TABLE A "Hydraulic Design Criteria"). When remodeling, such as by adding false beams or light fixtures or changing the location of compartment walls, first verify that the new construction will not violate the installation requirements of the applicable standards of NFPA. Alter the new construction and/or the sprinkler system to suit the requirements of this document and the applicable NFPA regulations. The owner is responsible for the maintenance of the sprinkler system, including inspection and testing of its compliance with this document, as well as the standards of the National Fire Protection Association (e.g., NFPA 25), and the regulations of any other authorities having jurisdiction. The owner should direct any questions regarding the above rules and regulations to the installing contractors or the sprinkler manufacturer. If is recommended that automatic sprinkler systems be inspected, tested, and maintained by a qualified Inspection Service in accordance with NFPA 25. Document No. U086206 Date Jan/11/2019 Page 8 of 8 ORDER PROCEDURE When placing an order, please contact a local distributor with the following information (Model Name, Temperature Rating and Finish). Sprinkler Model: RC-RES (SIN; SS8261, Residential Flat Concealed Sprinkler, Pendent, K3.7, Temperature; 162°F (72°C) or 175°F (79°C)) Cover Plate Assembly 2-5/8 inch (068mm) or 3-1/4 inch (83mm) or 2-5/8 inch square (068mm), Order Separatey from Sprinkler Please refer to the chart below for available sizes, temperature, and finishes. Standard Finishes Custom Finishes White Ivory Beige Brown Black Nickel Copper Wood Grain Custom Color Custom Pattern 2-5/8" d, 140°F o - - - - - - o 3-1/4" d, 140°F 7Square e o o o o o o o o o 2-5/8" , 140°F o - - - - - - - 2-5/8" Round, 162°F o - - - - - - - o c 3-1/4" Round, 162°F o - - - - - - - Tools for Installation of Model RC-RES Socket NR-H For use with a 3/8" drive ratchet (not included) Socket NR-H Plastic For use with a 1/2" drive ratchet (not included) Cap Remover RC Document No. U086206 Date Jan/11/2019 I 01 d SENJU SPRINKLER CO., LTD. ,.. Residential Lead Free Flat Concealed Sprinkler, i.:. Pendent. Model: RC-RES, K-Factor: 4.9, SIN: SS8464 .. . -_-..... GENERAL DESCRIPTION The Model RC-RES Residential Flat Concealed Sprinklers are automatic sprinklers of the compressed fusible solder type. They are decorative and fast responding. The Cover Plate Assembly hides the Deflector, Heat Responsive Element etc., which is concealed above the ceiling. The cover plate has a fiat profile, and its diameter is extremely small (2-5/8 inch, 68mm). The push-on and/or thread-on, thread-off design of the concealed cover plate assembly allows for easy installation of the cover plate. Therefore, the Model RC-RES should be your first choice when aesthetics is the major consideration for ultimate appeal and unbeatable performance is desired. The Model RC-RES is designed for residential occupancies and is perfect for use in homes, hotels and other living quarters. The Model RC-RES is to be used in wet pipe residential sprinkler systems for One- and Two- Family Dwellings and Manufactured Homes per NFPA 13D: wet pipe residential sprinkler systems for Residential Occupancies up to and Including Four Stories in Height per NFPA 13R; or, wet pipe sprinkler systems for the residential portions of any occupancies per NFPA 13. The Model RC-RES has a 4.9 (70.6 LPM/bar112) K-factor that meets the required residential flow rates with minimal residual pressure, which allows for smaller pipe sizes and water supply requirements. For extended installation flexibility, the Model RC-RES provides 1/2 inch (12.8mm) vertical adjustment. This adjustment in installation decreases the need for precise cutting of the pipe that drops to the sprinkler and allows for a perfect fit with a range of pipe lengths. The heat sensitivity and water distribution design of Model RC-RES allows for an increased chance of residents to escape or evacuate in case of a fire. However, residential fire sprinkler systems are not a substitute for fire safety awareness or fire safety construction required by building codes. "Lead Free" is defined in the Reduction of Lead in Drinking Water Act (S.3874) endorsed by AWWA's Water Utility Council, and California Assembly Bill #1953 as having less than or equal to a weighted average of 0.25% lead in wetted surface of pipes, plumbing fittings and fixtures. WARNINGS The Model RC-RES must be installed and maintained in accordance with the rules stated herein as well as in compliance with the applicable standards of the National Fire Protection Association regulations and the standards of any other authorities having jurisdiction. In the event of this condition, consult the authorities having jurisdiction for guidance and approval. Failure to do so may impair the integrity of these devices. It is the responsibility of the installing contractor to provide a copy of this document to the owner or their representative, and in turn, it is the obligation of the owner to provide a copy of this document to a succeeding owner. The owner is responsible for maintaining their fire protection system and devices in proper operating condition. The installing contractor or sprinkler manufacturer should be contacted with any related questions. Document No. U085165 Date Jan/11/2019 Page 2 of 8 TECHNICAL DATA Approvals: UL00 Listed, NSF-61-G Sprinkler Identification Number (SIN): SS8464 Maximum Working Pressure: 175psi (12.1 bar) Discharge Coefficient (Nominal K-Factor): K=4.9 GPM/psi112 (70.6 LPM/bar112) Temperature Rating: 162°F (72°C) Sprinkler with 140°F (60°C) Cover Plate 175°F (79°C) Sprinkler with 140°F (60°C) Cover Plate 175°F (79°C) Sprinkler with 162°F (72°C) Cover Plate Color Code (Sprinkler) 162°F (72°C): Uncolored 175°F (79°C): White Color Code (Cover Plate) 140°F (60°C): No Mark 162°F (72°C): White-Colored Mark Vertical Adjustment: 112 inch (12.8 mm) Cover Plate Finishes: Standard Finishes- White, Ivory, Beige, Brown, Black, Nickel, Wood Grain Custom Finishes- Custom color and custom pattern cover plates are available on special order. Contact a Senju Sprinkler representative with any custom orders. Please see chart on Page 8 for more detail. Physical Characteristics: Ref. Figures 1 and 1-1 ! Y LN / (6 Mfturo N.S44 I K f or (4 j . 2F 2 C --- tUL M E' Co't o CP37 et (PTPE 2'-il8 Cmm 4 F kt of 3'1/4 (483nm) or 2 !Q65& Cor to A FIGURE 1. Model RC-RES K4.9 COVER PLATE SPFCNXUR (Top View) (Bcttbmvew)~ FiO FIGURE 1-1. Marking (Color Code) OPERATION In case of fire, the solder component that holds together the Cover Plate and the Retainer melts. Then the Cover Plate is released at once. As a result, the Deflector drops down to the intended position. Two Heat Collectors are exposed to fire, and when sufficient heat from the fire is reached, internal components of the sprinkler fall apart. This leads to the water flow to be distributed on the affected fire area. (Ref. Figure 2) ITT"! 17 IL1HL 1 i L i 4 i 1 - .- Coy, Fate Qprth,ri SnOpi,rtin WoW thsohá FIGURE 2. OPERATION PROCESS (The figure is for illustrative purposes only) Document No.U085165 Date Jan/11/2019 Page : 3 of 8 DESIGN CRITERIA The herein stated rules for use and installation of Model RC-RES are provided by the manufacturer and must be strictly implemented for safe and full results. NOTES Residential Fire Sprinkler Systems should only be designed and installed by individuals who are completely familiar with automatic sprinkler system design, installation procedures, and techniques. Several criteria may apply to the installation and usage of each sprinkler. Consequently, it is recommended that the sprinkler system designer review and develop a working understanding of the complete list of criteria prior to initiating the design of the sprinkler system. Questions concerning sprinkler installation and usage criteria, which are not covered by the following instructions, should be submitted to your contracted company. Include sketches and technical details, as appropriate. In some instances, the requirements of this document may concern specifications which are more stringent, and which take precedence over those specified in NFPA 13, 130, 13R, or by the authority ha ving jurisdiction. The Model PC-RES must not be used in applications where the air pressure above the ceiling is greater than that below. Inspect all sprinklers after installation to ensure that both the gap between the cover plate, ceiling and the 6 slots in the cup are open and free from any air flow impediment. The spray from the sprinkler is distributed radially outward and downward from the sprinkler deflector. Consequently, the sprinklers must be located such that there will be no blind spaces shielded from spray by partitions, room dividers, overhangs or other parts of the dwelling structure. The number of sprinklers within each compartment (as defined by NFPA 13, 130, or 13R) must be kept as few as possible. Do NOT use more sprinklers than necessary to cover a particular space. Use only the Cover Plate provided for the Model RC-RES. The sprinkler must be secured in place by firmly fastening the sprinkler system piping to the structure, If the sprinkler is not properly secured in position, reaction forces resulting from sprinkler operation could alter its orientation and its water distribution pattern. Obstruction to Water Distribution Locations of sprinklers must follow the obstruction rules of NFPA 13, 13D and 13R for Residential Sprinklers. General Service Conditions The Model RC-RES must only be utilized in WET PIPE sprinkler systems. Heat Source Criteria Refer to NFPA 13D, 13R or 13 for the requirements relating to the prevention of possible activation of the Heat Responsive Element of Model RC-RES, due to the exposure of a heat source other than an actual fire. Available Sprinkler Temperature Ratings Sprinkler Temperature Classification Sprinkler Nominal Temperature Rating Maximum Ambient Ceiling Temperature Temperature Rating of the Cover Plate Assembly Ordinary 162°F (72°C) 100°F (38°C) 140°F (60°C) Intermediate 175°F (79°C) 150°F (66°C) 140°F (60°C) Intermediate 175°F (79°C) 150°F (66°C) 162°F (72°C) 1) Maximum ambient temperature for the Cover Plate Assembly is 100°F (38°C). Precautionary Warnings for Corrosive Environments Model RC-RES sprinklers should not be installed where they may be subjected to a corrosive environment including the following: Chlorine ion and Chloride environment. Stress corrosion cracking may be caused by exposure to environments with Chlorine ion and Chloride. Exposure to this environment may result in sprinklers operating under Non-Fire conditions or Not Operating when exposed to an actual fire. Sprinkler system piping with Copper. Sprinkler systems should be constructed in compliance with the applicable standards and the requirements for copper piping when copper piping is used in the sprinkler system. (Reference standards NFPA 13, ASTM B813, B828, and CDA (Copper Development Association) - Solder Joint) All residual flux must be removed from the interior and exterior of the copper piping by thoroughly flushing before installation of the Sprinkler Heads. Otherwise, residues of flux may cause corrosion and/or leakage in the sprinkler system. Document No.U085165 Date Jan/11/2019 Page : 4 of 8 Hydraulic Design Criteria The minimum required sprinkler flow rates for systems designed to NFPA 13D or 13R are given in TABLE A as a function of temperature rating and the maximum allowable coverage area. The sprinkler flow rate is the minimum required discharge from the most hydraulically demanding sprinkler from each of the total number of design sprinklers' as specified in NFPA 13D or 13R. For systems designed to NFPA 13, the number of designed sprinklers is to be the four most hydraulically demanding sprinklers. The minimum required discharge from each or the four sprinklers is to be the greater of the following: The flow rates given in TABLE A for NFPA 13D and 13R as a function of temperature rating and maximum allowable coverage area. A minimum discharge of 0.IGPM/sq.ft. [4.07LPM/sq.m] over the "design area" comprised of the four most hydraulically demanding sprinklers for the actual coverage area being protected by the four sprinklers. TABLE A. NFPA 13D & 13R WET PIPE HYDRAULIC DESIGN CRITERIA for Model SS8464 For systems with ceiling types smooth flat horizontal, or beamed, or sloped, in accordance with NFPA 13D, 13R or 13 as applicable. Ordinary Intermediate Maximum Maximum Temperature Rating Temperature Rating Minimum Coverage Area(a)Spacing 162°F (72°C) 175°F (79°C) Deflector Installation Spacing Ft. x Ft. Ft. to Ceiling Type Ft. Flow Pressure Flow pressure 1 (m xm) (m) GPM PSI GPM PSI (m) (LPM) (bar) (LPM) (bar) 12x12 12 13 7.0 13 7.0 (3.7x3.7) (3.7) (49.2) (0.48) (49.2) (0.48) Smooth Ceilings 1014 14 13 7.0 13 7.0 3/8to7/8 (4.3x4.3) (4.3) (49.2) (0.48) (49.2) (0.48) Inches. Beamed 15x15 15 13 7.0 13 7.0 (4.6x4.6) (4.6) (49.2) (0.48) (49.2) (0.48) Ceilings per NFPA 13D, 13R Concealed 8 (2.4) 16x16 16 13 7.0 14 8.2 or13 (4.9x4.9) (4.9) (49.2) (0.48) (53.0) (0.57) Installed in beam 3/8to 7/8 18x18 18 17 12.0 18 13.5 inches (5.5x5.5) (5.5) (64.3) (0.83) (68.1) (0.93) below bottom of beam. 20x20 20 21 18.4 (6.1x6.1) (6.1) (79.5) (1.27) - - For coverage area dimensions less than the above mentioned, it needs to use the minimum required flow for the Next Higher Coverage Area listed. Requirement is based on minimum flow in GPM (LPM) from each sprinkler. The associated residual pressures are calculated using the nominal K-Factor. Refer to Hydraulic Design Criteria Section for details. Sprinkler Spacing Criteria The minimum spacing between sprinklers is 8 feet (2.4m). The maximum spacing between sprinklers cannot go beyond the coverage area calculated by using the specific hydraulic factors. (Ref. TABLE A) Document No. U085165 Date Jan/11/2019 Page 5 of 8 INSTALLATION The Model RC-RES must be installed in accordance with the following instructions: NOTES Do not use any sprinklers which have been subjected to potential mechanical damage. Do not use any sprinklers which show deformation or cracking in either the Sprinkler or the Protective Cap. Prior to installation, sprinklers should be maintained in the original cartons and packaging until used to minimize the potential for damage to the sprinklers that could cause improper operation or non-operation. The Protective Cap must remain on the sprinkler during installation. After the installation is completed, the Protective Cap must be removed to place the sprinkler in service. Use a torque of 7 to 14 ft'lbs (9.5 to 19.0 Nm) to achieve a 1/2 inch NPT sprinkler joint. If you exceed the recommended maximum torque, this could result in damage to the sprinkler inlet, which may lead to leakage from the sprinkler. Use only NR-H model wrench socket for installation of RC-RES sprinklers. Use of any other wrench or socket is prohibited and may cause damage to the sprinkler. In case of insufficient adjustment in Cover Plate installation, do not try to overly tighten, screw the sprinkler too loosely or make any modification to the cover plate assembly. Readjust the sprinkler fitting for a better fit. Do not rotate the Cap Remover RC to the left with force when placing the two hook arms into place. The installed sprinkler may become loosened, which may cause water leakage. Installing Procedure Step I The installation requirements for the sprinkler are as follows: to be installed only in the pendent position with the waterway perpendicular to the ceiling. Install the sprinkler fitting so that the distance from the face of the fitting to the mounting surface will be nominally 2 inches (50.8mm) as shown in Figure 3. Step 2 With pipe thread sealant applied to the threads, hand tighten the sprinkler into the sprinkler fitting. Then tighten it with the Socket NR-H or Ratchet (3/8" drive) & Socket NR-H Combination (Ref. Figure 4). The teeth of the Socket must fit perfectly with the grooves on the Sprinkler for proper installation (Ref. Figure 4). Step 3 If desired, the Protective Cap may also be used to locate the center of the clearance hole by gently pushing the ceiling material against the center point of the Protective Cap. Before the installation of the ceiling, the sprinkler installation can be started with a 2-3/8 inch (60mm) diameter clearance hole (Ref. Figure 3). Use the 'Vertical Adjustment" indicator on the Protective Cap to check for proper installation height (Ref. Figure 3). Step 4 Use the Cap Remover RC to remove the Protective Cap (Ref. Figure 5), and then push or screw a Cover Plate Assembly on the Cup of the Sprinkler by hand until its flange just has contact with the ceiling (Ref. Figure 6 and Figure 7). Stop tightening the Cover Plate Assembly once the flange has contact with the ceiling. If the ceiling has been lifted from its normal position in the process of tightening the Cover Plate Assembly, readjust the cover plate assembly as necessary. If the flange of the Cover Plate Assembly cannot contact the ceiling sufficiently, readjust the sprinkler fitting as necessary. When properly installed, there is a nominal 1/16 inch (1.6mm) air gap between the lip of the Cover Plate and the ceiling, as shown in Figure 6. Make , Sc He' r Av 14 :6 4, I / L_141 .41 - Mowth 23T _______ II400PREOT 1 FIGURE 3. INSTALLATION dmove on the Spr'n' -' -Protective cp -- Tooth on the Swkot~ socket NR-H FIGURE 4. RATCHET & SOCKET Document No.U085165 Date Jan/11/2019 Page 6 of 8 Heck up Sprinkler Peed . I. (J flm .: H Step I slep 2 Skep FIGURE 5. PROTECTIVE CAP REMOVAL fl. L.H4LJ\Moun g L4 2:7:k wi Ccer PIat Aen'bI, 4 [ 2578 or L'4'(83rnm) or 2 5. 8oqwre((069 mm) FIGURE 6. INSTALLATION (COVER PLATE ASSEMBLY) Document No.U085165 Date Jan/11/2019 Ma Page 7 of 8 CARE AND MAINTENANCE The following instructions must be implemented for the maintenance and service of the Model RC-RES NOTES Wet pipe sprinkler systems must be maintained at a minimum temperature of 40°F/4°C to prevent freezing and bursting of the pipe and/or sprinklers. Automatic sprinklers are not to be tested with a heat source. Operation of the heat responsive element can result. Absence of a Cover Plate Assembly may delay the response time of the sprinkler in case of a fire. Install the cover plate assembly properly, as shown in Figure 6. Improper installation of the cover plate assembly may cause improper operation or non-operation. If the ceiling is to be repainted after the installation of the Sprinkler, care must be exercised to ensure that the new paint does not seal off any of the air gap. Factory painted Cover Plates must not be repainted. They should be replaced, if necessary, by factory painted cover plates. Non-factory applied paint may adversely delay or prevent sprinkler operation in case of a fire. Do not pull the Cover Plate. Separation may result. In preparation for maintenance of the fire protection system, permission to close the main control valve must be obtained from the proper authorities, and all affected parties by this action, and must be informed before the maintenance session can commence. Do NOT enclose any sprinklers within drapes, curtains, or valances. Do NOT hang anything from the sprinklers. Do NOT clean the sprinklers with soap and/or water, detergents, ammonia, cleaning fluids, or other chemicals. Remove dust, lint, cobwebs, cocoons, insects, and larvae by gently brushing with a feather duster or gently vacuuming with a soft bristle (i.e., dusting) brush attachment. Exercise suitable safety precautions in the use and storage of highly flammable materials. The rapid rate of fire development and spread of these materials can reduce the ability of the sprinkler system to aid in the control of a fire involving such hazards. Leaking or corroded sprinklers must be replaced. Automatic Sprinklers must be kept in a cool and dry place. Automatic sprinklers must never be physically altered, such as painted, plated, or coated, once shipped from the factory. If the sprinklers have been in any way modified, they must be replaced. Great caution must be applied to prevent damage to the sprinklers at all stages - before, during, and after installation. Damaged units because of dropping, hitting, over-tightening, or wrench slippage, must be replaced. The Model RC-RES must only be replaced with pendent sprinklers which are listed for residential fire protection service and which have the same nominal K-Factor, the same coverage area, and the same or lower flow ratings (as indicated under TABLE A "Hydraulic Design Criteria"). When remodeling, such as by adding false beams or light fixtures or changing the location of compartment walls, first verify that the new construction will not violate the installation requirements of the applicable standards of NFPA. Alter the new construction and/or the sprinkler system to suit the requirements of this document and the applicable NFPA regulations. The owner is responsible for the maintenance of the sprinkler system, including inspection and testing of its compliance with this document, as well as the standards of the National Fire Protection Association (e.g., NFPA 25), and the regulations of any other authorities having jurisdiction. The owner should direct any questions regarding the above rules and regulations to the installing contractors or the sprinkler manufacturer. It is recommended that automatic sprinkler systems be inspected, tested, and maintained by a qualified Inspection Service in accordance with NFPA 25. Document No.11085165 Date Jan/11/2019 Page 8 of 8 ORDER PROCEDURE When placing an order, please contact a local distributor with the following information (Model Name, Temperature Rating and Finish). Sprinkler Model: RC-RES (SIN: SS8464, Residential Flat Concealed Sprinkler, Pendent, K4.9, Temperature: 162°F (72°C) or 175°F (79°C)) Cover Plate Assembly 2-5/8 inch (68mm) or 3-1/4 inch (83mm) or 2-5/8 inch square (068mm), Order Separately from Sprinkler Please refer to the chart below for available sizes, temperature, and finishes. Standard Finishes Custom Finishes White Ivory Beige Brown Black Nickel Copper Wood Grain Custom Color Custom Pattern 2-5/8 Round, 140°F 0 o - - - - 0 0 3-1/4' Round, 140°F 0 0 0 0 0 0 0 0 0 0 2-5/8' Square, 140°F 0 - - 2-5/8' Round, 162°F o - - - - - - - 0 0 3-1/4' Round, 162°F o - - - - - - - o c Tools for Installation of Model RC-RES Socket NR-H For use with a 3/8' drive ratchet (not included) Socket NR-H Plastic For use with a 1/2" drive ratchet (not included) Cap Remover RC Document No. U085165 Date : Jan/11/2019 Page 1 of 7 ® ATTIC UPRIGHT N 11(1 I*rr1G'j l:II[u'7fif SPECIFIC APPLICATION SPRINKLER VK696 The Viking Corporation, 210 N Industrial Park Drive, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com DESCRIPTION The Viking Attic Upright VK696 is a specific application concealed space sprinkler that provides superior fire protection in combustible and non-combustible sloped attic spaces when used in conjunction with Viking's model V-BB (Back to Back) and V-SD (Single Directional) specific application sprinklers. Installed in the upright position, with the deflector parallel to the roof, the Attic Upright used in combination with the model V-88 increases the allowable span from 60' to 80'(18,3 m to 24,4 m). Viking Attic Upright sprinklers can be installed with either steel or CPVC piping, and allow the use of CPVC to feed the protected space below the attic (CPVC allowed on wet pipe systems only). They are available in brass or with corrosion-resistant Electroless Nickel PTFE (ENT) coatings where salt water and other corrosive elements are a consideration. Viking Attic Upright sprinklers are cULus Listed with specific application guidelines for use as special sprinklers as defined by the National Fire Protection Association (NFPA), and are listed for specific pitch range 4:12 to 12:12. LISTINGS AND APPROVALS c®us cULus Listed: Category VNlV Refer to the Approval Chart on page 3. Attic Upright Sprinkler VK696 Viking Technical Data may be found on The Viking Corporation's Web site at TECHNICAL DATA http:/Iwww.vikinggroupinc.com. Specifications: The Web site may include a more recent Minimum Operating Pressure: 7 psi (0.5 bar) edition of this Technical Data Page. Rated to 175 psi (12 bar) water working pressure Factory tested hydrostatically to 500 psi (34.5 bar) Thread size: 1/2' (15 mm) NPT Nominal K-Factor: 4.2 U.S. (57 metric*) * Metric K-factor measurement shown is when pressure is measured in Bar. When pressure is measured in kPa, divide the metric K-factor shown by 10.0. Glass-bulb fluid temperature rated to -65 °F (-55 °C) Overall Length: 2-1/4" (57 mm) Material Standards: Frame Casting: Brass UNS-C84400 Deflector: Brass UNS-C26000 Bulb: Glass, nominal 3 mm diameter Belleville Spring Sealing Assembly: Nickel Alloy, coated on both sides with Teflon Tape Screw: Brass UNS-C36000 Pip Cap and Insert Assembly: Copper UNS-C11000 and Stainless Steel UNS-S30400 Ordering Information: (Also refer to the current Viking price list.) To order the Attic Sprinkler, add the appropriate suffix for the sprinkler finish and then the appropriate suffix for the temperature rating to the sprinkler base part number. Finish Suffix: Brass = A, ENT = JN Temperature Suffix: E = 200 °F (933 °C) Available Finishes And Temperature Ratings: Refer to Table 1. Accessories: (Also refer to the "Sprinkler Accessories" section of the Viking website under Technical Data) Sprinkler Wrench: Standard Wrench: Part No. 10896W/B Sprinkler Cabinets: Six-head capacity: Part No. 01724A Twelve-head capacity: Part No, 01725A Form No. F_042815 16.01.28 Rev 16.1 Replaces Form F_042815 Rev. 15.2 (Revised Fig3) Page 2 of 7 IIVj ATTIC UPRIGHT N I 4 SPECIFIC APPLICATION N SPRINKLER VK696 The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcsvikingcorp.com INSTALLATION Refer to appropriate NFPA Installation Standards. NOTE: Precedence for allowing 4.2K sprinklers to be used on dry pipe systems utilizing corrosion-resistant or internally galva- nized steel pipe is based on paragraph 8.3.4.4 of NFPA 13 (2013 edition). OPERATION During a fire condition, the heat sensitive liquid in the glass bulb expands, causing the glass to shatter, releasing the pip cap and sealing spring assembly. Water flowing through the sprinkler orifice strikes the deflector, forming a uniform spray pattern to extinguish or control the fire, and protect the piping in the interstitial space. INSPECTIONS, TESTS AND MAINTENANCE Refer to NFPA 25 for Inspection, Testing and Maintenance requirements. AVAILABILITY The Viking Attic Upright Specific Application Sprinkler is available through a network of domestic and international distributors. See The Viking Corporation web site for the closest distributor or contact The Viking Corporation. GUARANTEE For details of warranty, refer to Viking's current list price schedule or contact Viking directly. TABLE 1: AVAILABLE SPRINKLER TEMPERATURE RATINGS AND FINISHES Sprincter Temperature Sprinkler Nominal Maximum Ambient Bulb Color Classification Temperature Rating' Coiling Temperature" Intermediate 200 °F (93.3 °C) 150 °F (65°C) Green Sprinkler Finishes: Brass, ENT' Footnotes The sprinkler temperature rating is stamped on the deflector. 2 Based on NFPA-1 3. Other limits may apply, depending on fire loading, sprinkler location, and other requirements of the Authority Having Jurisdiction. Refer to specific installation standards. cULus Listed as corrosion resistant. Protective Sprinkler Cap Wrench Flat 10896 Q 15): 1 Figure 1: Standard Sprinkler Wrench 10896W/B Form No. F_042815 16.01.28 Rev 16.1 L 1-1/4"J I (32mm)I T_ 2-1/4" (57 mm) MOM 7/16" (12 mm) J 1/2" (15 mm) Nominal Pipe Engagement NPT (Dimensions are approximate) Figure 2 Sprinkler Dimensions Page 3 of 7 — ATTIC UPRIGHT NIKJNG*l.I:II[.fl.7Av SPECIFIC APPLICATION SPRINKLER VK696 The Viking Corporation, 210 N Industrial Park Drive, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcsvikingcorp.com I - vi.- •' --- -- APPRO\L CHART '----Ternp Hr KEY Attic Upht Sprcific Appllcatl is Sprinkler VK696 XTx J" or '_LIfLJ.and Maximum Thread Size Nominal K Part Overall Length Listings and Approvals3 SIN -Factor Number' Pressure NPT BSP U.S. metric2 Inches mm cULus4 FM LPCB 19538 VK696 1 175 psi 1/2" 15 mm 42 1 57 2-1/4 1 57 Al, A2 -- -- -- -- Approved Temperature Rating Approved Finish A - 200 "F (93.3 "C) 1 1 - Brass, 2 - ENT5 1 Also refer to Vikings current price schedule. 2 Metric K-factor measurement shown is when pressure is measured in Bar. When pressure is measured in kPa, divide the metric K-factor shown by 10.0. This table shows the listings and approvals available at the time of printing. Other approvals may be in process. Listed by Underwriters Laboratories Inc. for use in the United States and Canada. cULus Listed as corrosion resistant EsIGCR11ERf :jji H r t (f4I0 P Spr 1 ii Nominal Minimum Minimum Dry Pipe System Sprinkler Thread Size Allowable Roof K-Factor Flow Pressure Maximum Water Base Part SIN Span' Pitch' Delivery Time Number NPT BSP U.S. metric Ft (M) GPM LPM PSI BAR (in seconds) Minimum 7 psi (0,48 Bar) 4121 60seconds 19538 VK696 1/2" 15mm 4.2 57 10(3,1) x 12 (3.6) Minimum 0.10 gpm/ft2 12:12 (All System Sizes) (4.1 mm/mm.) Design Density NOTE: Precedence for allowing 4.2K sprinklers to be used on dry pipe systems utilizing corrosion-resistant or internally galvanized steel pipe is based on paragraph 8.3,4.4 of NFPA 13 (2013 edition). Pitch and slope indicate the incline of a roof, expressed as a proportion of the vertical to the horizontal. 2The Attic Upright is measured along the slope maximum 10 ft. (3,1 m) perpendicular to slope by maximum 12 ft (3,6 m) parallel to slope. IMPORTANT: Always refer to Bulletin Form No. F 091699 - Care and Handling of Sprinklers. Also refer to page SRI-3 for general care, installation, and maintenance information. Viking sprinklers are to be installed in accor- dance with the latest edition of Viking technical data, the appropriate standards of NFPA, LPCB, APSAD, VdS or other similar organizations, and also with the provisions of governmental codes, ordinances, and standards, whenever applicable. Form No. F042815 16.01.28 Rev 16.1 Page 4 of 7 ATTIC UPRIGHT N1KJ lsi:IIaLf SPECIFIC APPLICATION SPRINKLER VK696 The Viking Corporation, 210 N Industrial Park Drive, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com ADDITIONAL DESIGN CRITERIA - UL Chart 2 efor to DESIGN CRITERAC a 1) Allowable roof span fk.w, pssu e and slope for atUoprotection using Viking V SD Sprinklers Design Criteria: Flow and Pressures refer to Design Chart 1. System Type: Wet systems and dry systems. Piping Types: Steel (wet and dry) CPVC (wet systems only). Occupancy Classification: Light hazard only. Viking Attic Upright Sprinkler Spacing Maximum Coverage Area: 120 ft' (11,2 m2) Minimum Spacing: 7-0" (2,1 m) from Attic Upright Sprinklers, V-BB Sprinklers, V-SD Sprinklers, and Standard Spray Sprinklers, when measured along the peak/ridge direction. 26-0" (7,9 m) from Viking V-BB and V-SD Sprinklers when measured down the slope. Maximum Spacing: 10-0" (3,1 m) when measured perpendicular to the slope. 12-0" (3,7 m) when measured parallel to the slope. Additional Spacing Considerations: If there is more than one row of Attic Upright Sprinklers, they must be staggered as shown in Figure 3. Attic Upright Sprinklers can provide up to 104" (3,1 m) coverage at the eave(s) beyond the maximum allowable roof spans for the V-BB and V-SD Sprinklers by installing a row of Attic Uprights. Refer to Figure 4 and 5 for installation criteria in these situations. Deflector Position: Deflector located 1"— 3" (26 - 77 mm) below the bottom of the top chord or bottom of solid wood rafter for all roof pitches as per the listing from 4:12 - 12:12, with a maximum top chord or solid wood rafter depth of 12"(305 mm). Use of UL Listed CPVC Blazemaster Piping (Wet Systems Only): Can be used to supply the sprinklers protecting the floor below the combustible concealed space when covered with 6" (153 mm) of non-combustible insulation over the horizontal or vertical piping, and extending 12" (305 mm) on both sides of the center line of the piping. If the piping is located in the joist, the width of the joist channel must be entirely covered to 6" above the top of the piping. The area above the piping must be protected with the Viking Model V-BBs, V-SD's, or the Attic Upright Sprinklers. Listed CPVC Blazemaster piping may also be used exposed to provide wet system, vertical or angled, sprigs to Attic Upright Sprinklers where: The exposed portion of an angled sprig is a maximum length of 3-0" (0,9 m), with the sprig being supported adjacent to the Attic Upright Sprinkler, and vertical restraint is provided on the horizontal pipe runs with CPVC hangers. Maximum exposed length on a sprig of 10-0" (3,1 m), with a maximum lateral distance for the Attic Upright Sprinkler of 12" (305 mm) off of the centerline of the sprig. Sprig must also be supported at the swing joint to the Attic Upright Sprinkler. Minimum 6" (153 mm) deep of non-combustible insulation extending 12" (305 mm) on each side of the pipe centerline for the CPVC branchline feeding the Attic Upright Sprinklers. If the CPVC branchline is installed inside the ceiling joist, the joist channel must be covered or filled with a minimum of 6" (153 mm) deep non-combustible insulation on top of the branchline feeding the Attic Upright Sprinkler sprigs. Additional non-combustible insulation can be added to reduce the exposed length of the sprigs being used with the Attic Upright Sprinklers. Installed with a minimum lateral distance of 18" (458 mm) from any device that produces and releases heat, i.e Attic furnace, Kitchen or Bathroom Exhaust fan, Flue Vents, Heat Lamps, and other such devices. Continues on next page. Form No. F_042815 16.01.28 Rev 16.1 Page 5 of 7 \JII(IFt1G® - ATTIC UPRIGHT IiII[s11'flV SPECIFIC APPLICATION SPRINKLER VK696 The Viking Corporation, 210 N Industrial Park Drive, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcsvikingcorp.com Continued from previous page. Insulation requirements are provided solely for Fire Protection purposes and not for freeze protection. Non-combustible insulation being used needs to be verified for chemical compatibility with the CPVC piping at www.lubrizol.com Obstruction Criteria: Refer to Figures 6 and 7. Refer to Sections 8.8,5.2.1.3 and 8.8.5.2.1.7 of NFPA 13, 2013 for requirements if installed on greater than 2-1/2" diameter piping. Hydraulic Requirements: Minimum Design pressure: 7 psi Minimum design density: 0.10 gpm/sq. ft. For individual areas requiring more than four Attic Upright Sprinklers, the maximum area of the attic protected by Attic Upright Sprinklers is 3,000 ft (279 m2) in any single area. In order to be considered a single area, the areas protected by the Attic Upright Sprinklers must be separated by a minimum of 15-0" (4,6 m), having that separation being protected by V-BB or V-SD sprinklers. The design area shall include the most hydraulically demanding sprinklers, and in certain cases may require more than one set of calculations to verify the systems design. Refer to the Technical Data Sheets for the Model V-BB (Form No. F042915) and V-SD (Form No. F_043015) Specific Application Attic Sprinklers for more information regarding hydraulic requirements of Attic Upright Sprinklers. V-SB BgcK.to B.aclj V9Dn kUpñJit Top de Top Slit) Top 31 Form No. F_042815 16.01.28 Rev 16.1 VA Page 6of7 NIMM4 0 - ATTIC UPRIGHT l.lII['11U'7iV SPECIFIC APPLICATION SPRINKLER VK696 The Viking Corporation, 210 N Industrial Park Drive, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com When the total number of Attic Upright Sprinklers at the hip is Region 1: Region 2: Region 3: greater than 4: Attic Upright Sprinklers V-BB Sprinklers shown Attic Upright Sprinklers Wet Systems: Calculate the most A A ..&........ demanding 5 model V-BB or V-SD Sprinklers, add the most demanding 2 ••. i Attic Upright Sprinklers, then calculate '• " the most demanding region up to 1500 I Spacing must ft2 (137 m2) that uses Attic Upright . ,. , - - be staggered Sprinklers (example Region 1 at right) ' for additional Use the most demanding calculation. . , - rows Dry Systems Calculate the most .......- demanding 7 model V-BB or V-SD sprinklers add the most demanding 2 p 15 (4 6 m) M7inimumAttic Upright Sprinklers, then calculate the most demanding region up to 1950 ft2. (181 m2) that uses Attic Upright _____________ Sprinklers (example: Region 1 at right). Use the most demanding calculation, [Attic Figure 3 Upright Sprinklers Combined with V-138 or V SD Sprinklers Refer to Figures 4 and 5 below. For attics having a span of 60 - 80 ft. (18,3 - 24,4 m), only the 8.0K model V-BB sprinklers combined with Attic Upright Sprinklers can be used. For attics with a span of over 80'(24,4 m), Standard Spray Spinklers must be used. In an attic using single ridge construction. 8.0K model V-BB sprinklers must be used to protect the center portion. Attic Upright sprinklers or Standard Spray Sprinklers should be used to cover up to 10 feet (3,1 m) at the eaves beyond the maximum 60 ft. (18,3) span covered by the model V-BB Sprinklers. Refer to the Technical Data Sheets for the model V-BB and V-SD sprinklers for more information. Figure 4: I-BB Spinklers Combined with Attic Upright rinklers Covering Over 80 to 80 ft. Span Over 60-80ft(18,3-24,4m) 6'(1,83 m) Maximum 6 (1,83 m) v-Maximum \ ... N 4(1.22 m) Minimum \ ' 10' (3,05 m) V-BB Coverage Maximum Attic Upright Coverage Attic Upright sprinklers spaced 8'- 7' (2,4 -1,8m)on centers l V-SD 6'(1,83 m) Maximum I ) 6'(1,83 m) Maximum N4'(122m) - Minimum V-SD 10'(3,05 m) Coverage Maximum Attic Upright Coverage Figure 5 Model V SD Spinklers Combined with Attic Upright Sprinklers Form No. F_042815 16.01.28 Rev 16.1 PLAN VIEW Page 7 of 7 - ATTIC UPRIGHT SPECIFIC APPLICATION 41VjW*j* SPRINKLER VK696 The Viking Corporation, 210 N Industrial Park Drive, Hastings Ml 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Refer to Figure 6 below. Requirements: X > 3Y or 3Z, X:5 24" (610 mm); Use the larger dimension Yor Z. ELEVATION VIEW YI I, Figure 6 Attic Upright Obstruction Criteria I TABLE 2-. ATTIC UPRIGHT OBSTRUCTION CRITERIA Hzon: Lste X 1T LT '[tC stc Beow [)efleclar ) (:5152 mm) (77 mm) >6' - 9" (>152-229 mm) (102 mm) >9" - 12" 6" (>229 - 305 mm) (89 mm) >12" - 15" 8" (>305 - 381 mm) (204 mm) >15" - 18" 9-1/2' (>381 - 458 mm) (242 mm) >18-24" 12-1/2" (>458 -610 mm) (318 mm) >24" - 30' 15-1/2" (>610 - 762 mm) (394 mm) >30" 18" (762 mm) (458 mm) Form No. F_042815 1601.28 Rev 16.1 Replaces Form F_042815 Rev. 15.2 (Revised Fig3) ON GUARIJ7UF License NV-61307 CA-950378 PRO TEL TIL11\.I 6438 Arville St Las Vegas, NV 89118 (702) 966-8021 Tel (702) 987-1174 Fax w.onguardfp.com Rid Limit S4,S M ']II -, IhIiITtT 1 U] I4FPA MEMBER FIRE SPRINKLERS -FIRE ALARMS -FIRE EXTINGUISHERS -EMERGENCY LIGHTING - SAFETY & FIRST AID SUPPLIES Page 4 of 7 Features Sizes Available (Nominal): 3/4" (DN20) through 3' (DN80) pipe diameters, with a Standard Dimension Ratio (SDR) of 13.5 as specified in ASTM F442. Environmental Specifications: Indoor use only. Maximum Ambient Temperature: 150°F (65°C) Hazen-Williams C Value: 150 Pressure Data: Working Pressure: 175 PSI (12.1 bar) at 150°F (65°C) Specifications: • Meets NFPA 13R and 13D standards for residential occupancies as well as NFPA 13 standards for light hazard occupancies. Pipe meets or exceeds ASTM F442. Certified by NSF International for potable water services. CPVC pipe from Viking Plastics use compound cell class 23547 (demonstrated highest structural properties). cULus Listed, FM Approved, Now York City (MEA) Approved, LPCB Approved. CPVC PIPE PHYSICAL DATA Nominal Pipe Size Actual Outside Diameter Average Inside Diameter *weight per 15' (4,6 m) length Lqqgth Approvals M Part Number Inch DN Inch mm Inch mm Lb. Kg. Feet 3/4" DN20 1.050 26,670 0.874 22,199 2.52 1,14 15 4.6 cULus,FM, NSF 34P1PE 1" DN25 1.315 33,401 1.101 27,965 3.93 1,78 15 4.6 1PlPE 1 1/4" DN32 1.660 42,164 1.394 35,408 6.27 2,84 15 4.6 114PIPE 11/2" DN40 1.900 48,260 1.598 40,589 8.22 3,73 15 4.6 112PlPE 2" DNSO 2.375 60,325 2.003 50,876 12.89 5,85 15 4.6 2PIPE 2 1/2" DN65 2.875 73,000 2.423 61,500 18.86 8,55 15 4.6 212P1PE 3" DN80 3.500 88,900 2.950 74,900 28.01 12,71 15 4.6 3PIPE Nominal Pipe Size Actual Outside Diameter Average Inside Diameter *Weight per 10' (3,05 m) length Length Approvals M Part Number Inch DIN Inch mm Inch mm Lb Kg Feet 3/4" DN20 1.050 26,670 0.874 22,199 1.68 0,76 10 3,05 cULus,FM, NSF 34PIPE10 1" DN25 1.315 33,401 1.101 27,965 2.62 1,19 10 3,05 1PIPE10 1 1/4" DN32 1.660 42,164 1.394 35,408 4.18 1,90 10 3,05 114P1PE10 11/2" DN40 1,900 48,260 1.598 40,589 5.48 2,49 10 3,05 112PlPE10 2' DN50 2.375 60.325 2.003 50,876 8.59 3,90 10 3,05 2PIPE10 2 1/2" DN65 2.875 73,000 2.423 61,500 12,57 5,70 10 3,05 212PIPEIO 3" DN80 3.500 88,900 2.950 74,900 18.67 1 8,47 10 3,05 3PIPE10 NOTE: CPVC Pipe is produced in SDR 13.5 Dimensions in accordance with ASTM F442. Standard Dimension Ratio is the ratio of the outside pipe diameter to the wall thickness of the pipe. Blazemaster° is a registered trademark of Lubrizol. Specifications subject to change without notice Empty pipe weights IMPORTANT: Installers should receive thorough hands-on training in the proper methods of assembly and installation of CPVC products Trusted above all"' - W-h CPVC Pipe Product Specifications Corrosion resistant CPVC fire sprinkler pipe, when installed in strict accordance with the manufacturer's design and instal- lation instructions, is UL and c-UL Listed by Underwriters Laboratories for use in the following: Meets NFPA 13R and 13D standards for residential occupancies as well as NFPA 13 standards for light hazard occupancies. Residential occupancies up to and including four stories in height as defined by NFPA 13R. Residential occupancies as defined in the Standard for Sprinkler Systems in One and Two Family Dwellings, NFPA 13D. Installation of private fire service mains and their appurtenances, NFPA 24. CPVC fire sprinkler pipe from Viking Plastics shall be employed in wet pipe systems only and are not listed for outdoor use. CPVC pipe must never be used in a system using compressed air or other gases. CPVC pipe from Viking Plastics also carries the follow- ing enhanced listings and approvals: According to UL Listing Can be flush at return air plenums Exposed system risers NFPA 13D, 13R Exposed basement NFPA 13D (solid wood joist) Extended coverage (exposed) 20 spacing on pendent in lieu of 15' 18 spacing on sidewall in lieu of 14' Use with combustible concealed sprinklers Tyco attic sprinkler head (to protect the floor below) Tyco attic sprinkler head with wet system piping (feed main and ridge installation) New and enhanced listings and approvals are being pursued. Always check with the appropriate Listing and Approval agency for details on current listing parameters. CPVC pipe meets all applicable standards for pressure rated applica- tion as required in ANSI-NSF Standard 14 and complies with ANSI-NSF Standard 61 for health effects and are marked with the NSF-pw end use marking. All CPVC fire sprinkler pipe shall be Listed by Underwriters Laboratories for wet pipe systems, and shall carry a rated working pressure of 175 psi @ 150°F (12 bar @65.5°C) *The FM Approval is limited to use in wet pipe fire protection sprinkler systems for light hazard occupancies in both concealed and exposed applications with certain restrictions. Piping must always be installed in strict accordance to the manufacturers DESIGN AND INSTALLATION GUIDE, including product storage and handling, joining methods, supporting and bracing, expansion and con- traction allowance and testing, etc. National Fire Protection Association (NFPA) Standards 13, 13D, and 13R must be referenced for design and installation requirements in conjunction with the installation instructions. Exposed sidewall sprinkler listing for exposed pipe & fittings 24' extended coverage sidewall sprinkler, 12" drop, 155°F sprinkler head 18' extended coverage sidewall sprinkler, 12" drop, 165°F sprinkler head 16' extended coverage sidewall sprinkler, 12" drop, 175°F sprinkler head 14' standard coverage sidewall sprinkler, 12" drop, 200°F sprinkler head Factory Mutual Approved* Factory Mutual Approval exposed Factory Mutual Approval above drop-in ceilings Factory Mutual Approval exposed w/Soffi-Steel soffiting covering system All CPVC fire sprinkler pipe from Viking Plastics is manufactured in the USA. All CPVC pipe shall be packaged immediately after its manufacture to prevent damage and shall be stored indoors after production, at the manufacturing site, until shipped from the factory. The pipe shall bear the logo of the listing agencies, and shall carry the National Sanitation Foun- dation (NSF) seal of approval for potable water applications. CPVC products are intended for use in areas where the maximum ambi- ent temperature does not exceed 150°F (65.5°C). If the ambient tempera- ture is expected to exceed this limitation, refer to the manufacturer's DE- SIGN AND INSTALLATION GUIDE for additional information on methods to reduce the pipe exposure temperatures. CPVC pipe is not intended to be installed in outdoor applications. CPVC pipe is intended to be used in wet pipe systems only and have not been investigated for use in dry pipe systems. Special installation and design criteria relative to pipe hanger spacings, piping and sprinkler restraint, sprinkler temperature rating, piping locations, testing procedures and friction loss characteristics are specified in the manufacturer's installation instructions provided with the pipe. The manufacturer's installation instructions should be reviewed and the Authority Having Jurisdiction consulted before installation. Trusted above all1M NlKjw4j T GUARANUEQ I One Hole Strap for CPVC : Ptok1es !;Upr;orl fOr CPVC or PoNbkilal~rQ Pre SVrKk,r re spik yMems mslaileo per NPA 13, 13R and 130, with a arun H Hd 3ciw, si d wit tt rp Pra1varns FVXftEX657 SP*O 1c(C? fr 1 WIT WT U1 I F 1:rj iiw L P° rn:1II34,14, ____ ir 1snx ixa Do en LWW440ff, gl O r944z~* Wt a kg y P&W vs*th tt$o r cc-,ru~l it is vlti p, l7wrodt of ut. O mi* the ts dp4 Sxth u* FOR MORE INFORMATION CALL ARGCO AT OR LOG ONTO WWWARGCO.COM 4-:- Oft IJ- GUARANUED [iI1!iL! [JI1IthL Sts Fte VFXftEX6587 HEX NEPD SCREWS OtMr4 for 5upptrt or tonmint fr3 piping m titht r a vrvikiiiJr tiofizunl Q b or bom o lrn The ei are y to tP CPVC pp ezy tuhed tina I hex hfail tethrwLrg crcw* ped) nttJ t SNAP CPVC PIPE INTO HANGEJ, 2 MOUNT HANGER TO w4OER5fDE OF SEAM WITH SCREWS PRO V1DO. 3. MAY tSO BE USED ON TOP SIDE OF BEAM Th r' f4 Ltj Lt4( or ARGO of Its ud b m*toth a Wa lP -b 'y o of uv_ tOne Q$ FOR MORE INFORMATION CALL ARGCO AT 14084-1015 OR LOG ONTO WWW.ARGCO.COM wood beam K 01 45 WWI [rjv nc's $ )i*• ma CPVC Two-Hale 900 Side Mount Strap T or tzom bir eL plied &i ! x crew Fe VIXHEX6587 Snap CPVC pipe rine into "anger. imps hc pipe in pLca, 2 Mowi rer oo YtCQd LVam with scrw pcdd 3. May also be uxi all the urwers'ie of basm, 4 U nch o SurfaCe, be SUca ff pp Cailtilide tn&y Ilrough hccgw, My be used a in th upwwt psli NoI destned to restrain upwd rncernt o pipe, 41e XJcL*. 1'i' . t ' . aTsutre by at r io tt pq4kx1 by i it tt u!'4 to doukmk L1W 's u, nro te enth adAP4 Sac J t' w FOR MORE INFORMATION CALL ARGCO AT 08 LOG ONTO WWWARGCOCOM Pcr NV PA 3, 13P, anti I 3fl. See Space by pipe type. ImIall into wox. cancrow or stee'. Snap r pipe 1rt squeeze strap back aflQwng pipe to W ood - 3T - o rrw oc Pm_ 44 X iI- 1AZ L14 Wow- 14'3 CPVC P- :Tw P r' 1Y HAF T rTTfl 1Tlx FTh;i1 [aJ 2t l 1 — 4 IT ARGC0 STAND-OFF TWO HOLE STRAP NO BLOCK FOR CPVC — For mounting CPVC pipe to woQd FIzrid edges Pup protect CPVC Gavnied steel Suppe wftb #tO hex head c.p Cornibliet with the, scatic ktd requirements of NFPAO 13 Sabe for fire prottcton * Ekmnate spacers r backup bock * Eat/ installioan Ørrn 000 —S wr - JU3 Flle V1XHEX6597 Dn tâ CPVC vip rJy at fltiy to wood r ompcO wow joisis w4h a rnnunum 3(ft' ovid vj /atefaj rtrn wo pievents upwato rnement of the pipe thai uppt[ pendant fire prPkIv tw effnp AU ses an te used s a M61408f n Mt4 W10M peon Tht4 314w rz ny ca be sei as ttrnr'Gr fl tho op *sUcn, - 4ies- * "W-.64 so o. O&kv *n* *4C #* *t ** ft - t - . il• UAPAP4TEW iii IIt] ;iI gli f' A!i.i YT1 I -For mounting CPVC pp twod -flared edges hetp protect CPVC -Galva te& ctruct$on SupJ With #tO Ilex head cav ,5crewi -Complies with the static toad reqiremems,of NFPA 3 * Sjitable for Fire protecdan uIttiôn * For 1 Pipe 'Ea ins1tior Oegned to rrunt CPVC pipe hoeiioldy & ktilically to wood or cn poste woty willi a mfrrnum 3/8 thickness. e nrae Fer NEPA i3. 11 ?ftd 13L rafl tt or S•es onto CPVC p. 1 S: en 250-1.1 * - — - tt 1# 4 rA * *41 0 V1 4 $*4* 1t* t MM 6438 Arvite St. ON Las GLL4RDFTiR?LP Vegas, ?E18 License#i NV61307 CA950378 PF?EJTECTIJN wwwonguardfpcom Bid iirnitM.SM 4,, Valves (] NFPA MEMBER FIRE SPRINKLERS—FIRE ALARMS -FIRE EXTINGUISHERS -EMERGENCY LIGHTING - SAFETY & FIRST AID SUPPLIES Page 6 of 7 ESeries® Ultrasonic Meter Badger Meter Cold Water Stainless Steel Meter, 1-1 /2 and 2 inch UL Certified for Fire Service Applications NSF/ANSI Standard 61 Certified, Annex G The E-Series Ultrasonic meter uses solid-state technology in a compact, totally encapsulated, weatherproof, and UV-resistant housing, suitable for residential and commercial applications. Electronic metering provides information—such as rate of flow and reverse flow indication—and data not typically available through traditional, mechanical meters and registers. Electronic metering eliminates measurement errors due to sand, suspended particles and pressure fluctuations. The Ultrasonic 1-1/2 and 2 inch meters feature: UL Listing under UL Subject 327B for residential fire service applications. Minimum extended low-flow rate lower than typical positive displacement meters. Simplified one-piece electronic meter and register that are integral to the meter body and virtually maintenance free. Sealed, non-removable, tamper-protected meter and register. Easy-to-read, 9-digit LCD display presents consumption, rate of flow, reverse-flow indication, and alarms. High resolution industry standard ASCII encoder protocol. The Ultrasonic meter is available with an in-line connector for easy connection and installation to AMR/AMI endpoints. It is also available with a flying lead for field splice connection. This Ultrasonic meter is UL Listed under UL Subject 32713, inferential type water meters used in residential fire service applications. These applications are regulated by local codes and requirements established by the Authority Having Jurisdiction (AHJ). Additional application information is provided in NFPA 13D, one- and two- family residences. The Ultrasonic meter complies with applicable portions of NSF/ANSI Standard 61, Annex G. There is currently no AWWA standard that specifically addresses ultrasonic meters for residential fire service applications. iI1 %lE.1Fi4:1t.]vM[ As water flows into the measuring tube, ultrasonic signals are sent consecutively in forward and reverse directions of flow. Velocity is then determined by measuring the time difference between the measurement in the forward and reverse directions. Total volume is calculated from the measured flow velocity using water temperature and pipe diameter. The LCD display shows total volume and alarm conditions and can toggle to display rate of flow. In the normal temperature range of 45.. .35° F (7.. .29' C), the Ultrasonic "new meter" consumption measurement is accurate to: ±1.5% over the normal flow range ±3.0% from the extended low flow range to the minimum flow value CONSTRUCTION E-Series Ultrasonic meters feature a stainless steel, lead-free meter housing, an engineered polymer and stainless steel metering insert, a meter-control circuit board with associated wiring, LCD, and battery. Wetted elements are limited to the pressure vessel, the polymer/stainless steel metering insert and the transducers. The electronic components are housed and fully potted within a molded, engineered polymer enclosure, which is permanently attached to the meter housing. The transducers extend through the stainless steel housing and are sealed by 0-rings. The metering insert holds the stainless steel ultrasonic reflectors in the center of the flow area, enabling turbulence-free water flow through the tube and around the ultrasonic signal reflectors. The metering insert's patented design virtually eliminates chemical buildup on the reflectors, ensuring long-term metering accuracy. METER INSTALLATION The meter can be installed using horizontal or vertical piping, with flow in the up direction.The meter will not measure flow when an "empty pipe" condition is experienced. An empty pipe is defined as a condition when the flow sensors are not fully submerged. L LISTED ESM-DS-00673-EN-07 (March 2017) ,14IT4IRfl:fl1jT[u, E-Series Ultrasonic Meter, Cold Water Stainless Steel Meter SPECIFICATIONS E-Series Ultrasonic I Residential Fire Service Certified under UL 3278 Residential Fire Service Meters - 1-1/2 in. (40 mm) 2 in. (50 mm) File No. 15653, Control No. 4DP3 Operating Range l.S...loogpm 2 ... l6ogpm Extended Low-Flow Rate 1 0.40 gpm 0.50 gpm Maximum Continuous Operation 100 gpm 160 gpm Pressure Loss at Maximum Flow 3.8 psi 5.2 psi Reverse Flow Maximum Rate 12 gpm 18 gpm In the normal temperature range of 45_85'F F (7_29* C), new meter consumption Operating Performance measurement is accurate to: ±1.5% over the normal flow range ±3.0% from the extended low flow range to the minimum flow value Storage Temperature - 40... 140° F f- 40...60' Q Maximum Ambient Storage (Storage for One Hour) 150° F (72° C) Measured-Fluid Temperature Range 34... 140° F (1.. .60°C) Humidity 0... 100% condensing Maximum Operating Pressure of Meter Housing 175 psi (12 bar) Registerlype Straight reading, permanently sealed electronic LCD; digits are 0.28 in. (7 mm) high Consumption (up to nine digits) Register Display Rate of flow Alarms Unit of measure factory programmed for gallons, cubic feet and cubic meters 100,000,000 gallons Register Capacity 10,000,000 cubic feet 1,000,000 cubic meters Gallons: 0.X Totalization Display Resolution Cubic feet: 0.XX Cubic meters: 0.XXX Batter 3.6-volt lithium thionyl chloride; battery is fully encapsulated within the register hous ng and is not replaceable; 20-year battery life Meter Housing 316 stainless steel Measuring Element Pair of ultrasonic sensors located in the flow tube Register Housing & Lid Engineered polymer Metering Insert Engineered polymer & stainless steel Transducers Piezo-ceramic device with wetted surface of stainless CrNiMo Page 2 ESM-DS-00673-EN-07 March 2017 Product Data Sheet E-Series Ultrasonic I Residential Fire Service Certified under UL 327B Residential Fire Service Meters - 1-1/2 in. (40 mm) 1-1/2 in. (40 mm) 2 in. (50 mm) 2 in. (50 mm) File No. 15653, Control No. 4DP3 Housing Elliptical HEX Elliptical HEX Size Designation X Lay Length 1-ll2xl3in. 1- 1/2 x 12.62 in. 2x17in. 2x15.25in. (38 x 330 mm) (38 x 321 mm) (51 x 432 mm) (51 x 387 mm) Weight (without AMR) 8.2 lb (3.7 kg) 6.5 lb (2.9 kg) 11.9 lb (5.4 kg) 8.9 lb (4.0 kg) See illustration below for Measurement Designations. Length (A) 13 in (33 cm) 12.62 in. (32 cm) 17 in. (43 cm) 15.25 in. (39 cm) Height (B) 2.80 in. (71 mm) 2.84 in. (72 mm) 3.01 in. (77 mm) 3.06 in. (78 mm) Height (C) 4.55 in. (116 mm) 4.15 in. 005 mm) 4.76 in. (121 mm) 4.68 in. (119 mm) Length (D) 7.10 in. (180 mm) 5.31 in. (135 mm) 11.10 in. (282 mm) 5.05 in. (128mm) Width (E) 5.50 in. (140 mm) 3.90 in. (99 mm) 6.08 in. (154 mm) 3.90 in. (99 mm) Bore Size 1-1/2 in. (40 mm) 1-1/2 in. (40 mm) 2 in. (51 mm) 2 in. (51 mm) Two-Bolt Elliptical Flange (AWWA) 1-1/2 in. (40 mm) - 2 in. (51 mm) - Companion Flange 1-1/2 in. (40 mm) - 21n.(51 mm) - Internal Thread Size - 1-1/2 in. NPT - 2 in. NPT Elliptical Measurement Designations HEX Measurement Designations I Flow rate in Gallons Per Minute (GPM) 10 6 4 0 50 100 150 200 Flow Rate in GPM March 2017 ESM-D5-00673-EN-07 Page 3 E-Series' Ultrasonic Meter, Cold Water Stainless Steel Meter ACCURACY CHARTS Rate of Flow in Gallons Per Minute (GPM) 1-1/2 in. Meter 110.00 108.00 106.00 104.00 102.00 100.00 98.00 96.00 ct 94.00 92,00 90.00 0.1 1 10 100 Flow Rate in GPM 2 in. Meter 110 108 106 104 102 ' 100 98 96 94 92 91) 01 1 10 100 Flow Rate in GPM Making Water Visible,' 8.-Series, GALAXY, Making Watervioibie and ORION are registered trademarks of Badger Meter, Inc. Othertrsdemarks appearing in this document are the property of their respective entities. Due to continuous research, product improvements and enha csrmatts, Badger Meter re-serves the right to change product or system specifications without notice, except to the extent an outstanding contractual obligation exists. 3)2017 Badger Meter, Inc. All rights reserved. www.badgermeter.com The Americas } Badger Meter 1 4545 West Brown Dee c Rd . PD Boo 2450351 Mitwsukee,Wl 53224-9536 . 834-875-383? 414-3550400 Mexico I Badger Meter do las Americas, S.A. do CV. Pedro Luis 0qozon N32 I Esq. An956w N'241 Cc/solo Geadsispe Inn Cf 01050 Mbxico, DO . Men/co 4 52-55-56620952 Europe, Eastern Europe Branch Office (for Poland, Latvia, Lithuania, Estonia, Ukraine, aelarus) I tactrier Meter Europe 1 si. Kerfantaci 5144-193 KnLT6VV 1 Poland +48-32-236-8787 Europe, Middle East and Africa I Badger Meter Europa GmbH Nurlinqer Sir 75 72635 Neufren 1 Germany: .+49-7r525.92Pc'-O Europe, Middle East Branch Office I Badger Meter Europe PG Boa 34 442 1 Dubai Silicon DasH, Head Quarter tuildirrq, Wsnq C, 0f#cc' 501091 .Duhai !,A: I 97 -4-371 2503 Slovakia I Badger Motor Slovakia s.r.o. 1 itacbns[u 109/Ri 331 02 lrarislrno, SlonukS I. ;42:-2-4463f;3101 Asia Pacific I Badger Motor 1 30 Marine Parade lid I, 21-3d PrLwy Peracle 1 Sinqepore 449250 ~55-53464836 China I Badger Meter 20e 19n +-heqz rsr'q Road! Mr rg Disiiirt n IC 45 20 1101 86-21-5-763 54 2 Switzerland j Badger Meter Swiss AG I. MiitelhoIzers6s5a 8i 3006 tern 1 Seitecrlanci I. n4l-31-932 alit LegcrcyDocsrnen1 Number: MM--I I-EN Job Name Contractor Job Location ....... ........ . ... ...... ...... ...- Approval ............................ Engineer Contractors P.O. No. Approval Representative Series LF4000B Reduced Pressure Zone Assemblies Sizes: W - 2" Series LF4000B Reduced Pressure Zone Assemblies are designed to protect potable water supplies in accordance with national plumbing codes and water authority requirements. ....his series can be used in a variety of installations, including the prevention of health hazard cross connections in piping systems or for containment at the service line entrance. This series features two in-line, independent check valves, captured springs and replaceable check seats with an intermediate relief valve. Its compact modular design facilitates easy maintenance and assembly access. Sizes ½—i' shutoffs have tee handles. The LF4000B features Lead Free* construction to comply with Lead Free installation requirements. Features Single access cover and modular check construction for ease of maintenance Top entry - all internals immediately accessible Captured springs for safe maintenance Internal relief valve for reduced installation clearances Replaceable seats for economical repair Lead Free* cast silicon copper alloy construction for durability - ½" to 2" Ball valve test cocks - screwdriver slotted - ½" to 2" Large body passages provides low pressure drop Compact, space saving design No special tools required for servicing Specifications A Reduced Pressure Zone Assembly shall be installed at each potential health hazard location to prevent backflow due to backsi- phonage and/or backpressure. Lead Free* Reduced Pressure Zone Assembly shall be constructed using Lead Free* materials, Lead Free assemblies shall comply with state codes and standards, where applicable, requiring reduced lead content. The assembly shall consist of an internal pressure differential relief valve located in a zone between two positive seating check modules with captured springs and silicone seat discs. Seats and seat discs shall be replaceable in both check modules and the relief valve. There shall be no threads or screws in the waterway exposed to line fluids. Service of all internal components shall be through a single access cover secured with stainless steel bolts. The assembly shall also include two resilient seated isolation valves, four resilient seated test cocks arid an air gap drain fitting. The assembly shall meet the requirements of: USC; ASSE Std. 1013; AVW/A Std. C511; CSA B64.4. The assembly shall be an Ames Fire & Waterworks Series LF4000B, Approvals GROUS 50 1013 B64.4 Approved by the Foundation for cross-connection control and Hydraulic Research at the University of Southern California. Available Models Suffix: B - quarter-turn ball valves LBV - less ball valves Pressure - Temperature Suitable for supply pressures up to 175 psi (12.1 bar) and water tern- perature to 180°F (75°C) continuous. Standards AWWA C511, IAPMO File No. 1563 The information contained herein is not intended to replace the full product installation and safety information available or the experience of a trained product installer. You are required to thoroughly read all installation instructions and product safety information before beginning the installation of this product. 'The wetted surface of this product contacted by consumable water contains less than 0.25% of lead by weight. FIRE & WATERWORKS A WATTS Brand Ames Fire & Waterworks product specifications in U.S. customary units and metric are approximate and are provided for reference only. For precise measure- ments, please contact Ames Fire & Waterworks Technical Service. Ames Fire & Waterworks reserves The right to change or modify product devign, construction, specifications, or materials without prior notice and without incurring any obligation to make such changes and modifications on Ames Fire & Waterworks products previously or subsequently sold. ES-A-LF4000B .-- - 1, /2" LF4000B (15mm) Strainer sold separately Capacity Performance as established by an independent testing laboratory. ATypical maximum system flow rate (7.5 feet/sec., 2.3 motors/sec.) kPansi 1/H 2 kPa n 11/Il , 172 25 138 20 -J 2! 103 15 69 10 2! G.35 5 . I,-. 172 25 U, Cl, 138 20 -J si 103 15 I. q 69 10 U, 2!34 5 IL 1 I I I I 0 1 2.5 5 7.5 10 12,5 15 gpm 0 0 0 10 20 30 40 50 60 70 80 gpm 0 3.8 9.5 19 28.5 38 47.5 57 1pm AP 0 38 76 114 152 190 228 266 304 1pm 5 7.5 15 fps 5 7.5 10 15 fps 1.5 2.3 4.6 mps Flow Rote 1.5 2.3 3.0 4.6 mps Weights - Dimensions LF4000B SIZE •iiitlllii[INI.1 WEIGHT A ft mm B in. mm C in. mm 0 in. mm 1 in, mm lb& klr 1/2 10 250 4% 117 31,,i 86 11/4 32 51/, 140 450 2.0 ,1/4 103/4 273 5 127 3½ 89 11/2 38 611w 171 5.75 2.6 1 141/2 368 51/2 140 3 76 21/2 64 91/2 241 125 56 114 17/4 4.4 116 150 31/2 89 21/, 64 11% 289 14.62 6.6 1½ 17% 454 6 150 3½ 89 21½ 64 1 11½ 283 132 7,4 2 21% 543 73/, 197 414. 114 1 314 83 1 13½ 343 30.00 1 16 3h' kPa psi 207 30 U, 165 24 -J e 124 18 83 12 41 6 02 6 10 14 18 22 2630 34 3642 46 gpm 0 7.6 23 38 53 68 84 99 114 129 144 160 175 1pm 7.5 15 fps 2.3 4.6 mps Flow Rate kPa psi 1 A 207 30 103 15 69 10 34 5 AD 0 5 10 20 30 40 50 60 70 80 gpm '-"" 0 19 38 76 114 152 190 228 266 304 1pm 7.5 15 fps _____ 2.3 4.6 mps 77 \ Flow Rate AMES FIRE & WATERWORKS Flow Rate /H kPa psi 11/211 20736 to - 172 25 -J 138 20 103 15 69 10 AP E__ CL 34 5 0 10 20 30 40 50 60 70 80 90 100 110 120 gpm 0 38 76 114 152 190 228 266 304 342 380 418 456 1pm 5 7.5 10 15 fps 1.5 2.3 3.0 4.6 mps Flow Rate 211 kPa psi Cl U,20730 3 172 25 e 1382° 103 15 69 10 34 5 ---------------- 0. 0 0 - - - - - - - - - - AD 0 20 40 60 80 100 120 140 160 180 200 gpm 0 76 152 228 304 380 456 532 608 684 760 1pm 5 7.5 10 15 fps 1.5 2.3 3.0 4.6 mps Flow Rate A WAITS Brand USA: Backflow Tel: 978) 6896066 • Fax; (978) 975-8350 • ArnesFireWater.con, USA: Control Valves Tel: (7 13) 943-0688 • Fax: (713) 944-9445 • AmesFjrewater.conl Canada: Tel: (905) 332-4090 • Fax: (905) 332-7068 • An:esFireWater.ca Lan America: Tel: (52) 81-1001-8600 • AmesFireWater.com ES-A-LF4000B 1406 © 2018 Ames Fire & Waterworks [ FlameGuardTM CPVC Fire Sprinkler Piping L Products FlameGuardTM CPVC Drain & Check Valves For NFPA 13D Applications Only Application: FlameGuardTM CPVC Orange Check Valves and PVC/CPVC True Union Drain Valves are for use in configuring CPVC Fire Sprinkler System connection to water supply (riser/drain assembly) in NFPA 13D installations only. These valves are not UL Listed and NOT for use in any other locations within the fire sprinkler system. Std I Mstr I Disc Price I Part Number Size I Pk Ctn Code Each True Union Drain Valves PVC Valve with CPVC End Connector L. Socket x Socket 3622-007FG 3/4 1 11 181 0041 39.48 3622-010FG 11 1 11 121 004 47.03 Not UL Listed CPVC Check Valves Socket x Socket General Installation Information: Socket end connections should be installed using Spears® FS-5 One-Step Cement for use with Spears® CPVC Fire Sprinkler Products. Threaded connections should be made using Spears® BLUE 751M Thread Sealant tested for compatibility with CPVC materials. PVC True Union Drain Valves are to be installed with system connection to Valve CPVC End Connector. Swing check valves are designed for horizontal installations, but may be installed in up-flow only vertical position. Check valves MUST be installed with the valve's FLOW arrow pointing in the direction of the flow. Do not install valve upside down. S1520-1000 1 1 2ol 0 1 004 26.96 S1520-12C0 1-1/4 1 121 01 004 30.13 51520-15CC 1-1/2 1 121 01 004 33.88 Not UL Listed CPVC Special Reinforced Thread Ow Inlet Check Valves SR Fipt x Socket S1520- 1 - 20 - 0 - 004 29,20 1OFSRSCO S1520- 1-1/4 - 12 - 0 - 004 33.71 12FSRSCO S1520- 1-1/2 - 12 0 - 004 39.99 15FSRSCO Not UL Listed NOT FOR USE WITH COMPRESSED AIR OR GAS Page 11 Spears® Manufacturing Company Progressive Products from Spears® Innovation and Technology [ FlameGuardTM CPVC Fire Sprinkler Piping L Products FlameGuardTM CPVC Drain & Check Valves For NFPA 13D Applications Only Specifications Drain Valve: Nominal Size Range Type Material Seats Seals Handle End Connections 3/411,111 1/4-Turn Ball Valve, True Union Style PVC w/CPVC Orange End Connector PTFE/HDPE EPDM Polypropylene, Red Socket x Socket Socket x Socket Part Number Nominal Size Dimension Reference (inches, ± 1116) A B C D E 3622-007FG 3/4 2-1/4 2-3/4 4-3/4 2 3 3622-010FG 1 2-1/2 2-7/8 5-1/8 2-5/16 1 3-7/16 Check Valve: Nominal Size Range Type Material Seat End Connections 1", 1-1/4", 1-1/2" Swing Check, Maintenance-free Sealed Unit CPVC, Orange EPOM Socket x Socket Special Reinforced (SR) Female Plastic Thread Inlet x Socket Socket x Socket Part Number SR Thread x Socket Part Number Nominal Size ± Dimension Reference (inches, 1116) I cv (GPM) A I B I C I I D Socket I SR Thread S1520-I000 s1520-10FsRsco 1 1-11/16 2-5/16 I 2-15/16 I 4-9/16 2-518 33 S1520-12C0 S1520-12FSRSCO 1-1/4 2-1/16 I 2-15/16 3-5/8 5-1/2 I 3-3/8 42 S1520-15C0 S1520-15FSRSCO 1 1-1/2 1 2-7/16 I 3 I 3-11/16 I 5-5/8 I 3-3/8 1 89 NOT FOR USE WITH COMPRESSED AIR OR GAS Made in the U.S.A. Page 12 Progressive Products from Spears® Innovation and Technology SUBMITTAL INFORMATION Angie Ball Meter Valves ('BA43-444W-Q-NL style) QUICK JOINT FOR COPPER OR PLASTIC TUBING (CTS) INLET BY METER SWIVEL NUT OUTLET Solid one piece •teehead. and stem Sturdy stops afloW 90 motion and are encloselano protected ( Asnápnglos the stem into the body of the valve Padlock Wing for lockid§valye —•i/4 Snap Ring in dosed position Dual EPDM 0-rings jn the stem Fluorocarbon-coated brass Molded EPDM rubber seats with reinforcing,ring support the ball External Nut Meter Swivel Nut Meter Coupling Threads - Outlet Height uidc JointNut— Molded Buna-N Spring 'tip Gasket provides Hydraulic Seal Stainless steel Gripper -' - Inlet k-- Length VAive Size SERvice LINE I METER Srza I I I APpROX,. I PART SusMrrTEo Siza INLET I OUTLET j Letom Wi. Les I NuMBER lM1sl lote Ford.recommends using insert stiffeners with plastic:pipe or tubing. FEATURES All brass that comes in contact: it potable water conforms to AWWA..Standard COO (ASTM B584, UNS C89833) The product has the letters %4NVcast. into the main body for lead-free identification Cejiifiedto NSF/ANSI Standard :61 and NSF/ANSI Standard 372 where applicable .Bràsscomponènts that do not come in contact with potable water conform to AWWA Standard C800ASTM B62 and :.ASTM B584, UNSC83600, 85-5-5-5) Ends are integral. or secured with adhesive to prevent unintentional disassembly Hole for attaching handle is provided in tee-head .300 PSI working pressure Padlock Wing for locking valve in closed position Conforms,to AVA C700 for Meter threads Meter nut drilled for seal Wire Note: Recommended for inlet side shut-off, Optional full 3600 tee-head rotation, Add 'SR" to end of part number, The Ford Meter. Box Company considers the.lnformation in this submittal form to be correct at thO time of publicOtion., Item and option .:availability, including speciflcations, are subject to change withOut notice Please. verify tháf yOur product Informationis current. The Ford Meter Box Company, Inc. Submitted By: I I P.O Box 443, Wabash, Indiana U.S.A. 46992-0443 Phone 260-563-3171 .1 Fax: 800-826-3487 Overseas Fá*: 260-563-0167 w.fordmeterboxcom 05/16/14 /1 Ii ---- ............ ...... I---- I i IIhII.r1IiH_ 0.30 0.26 0 2 0.20 -J 0.15 0.10 I- 0.05 0 o The Ford Meter Box Company, Inc. 11 Wabash, Indiana 46992 Valve flow test performed by Quality Assurance Department March 12, 1992 GPM B11-444 PSI Loss 5 10 15 0.01 20 0.03 25 0.05 30 0.08 35 0.12 40 0.17 45 0.24 50 0.29 190w Test Results 10 20 30 40 60 Flow Rate - GPM Pressure Loss (psi) o - 0 o b b 0 0 - 0 - _ WCfl _ \• CD ---s -- JQ 9 • a) 0 - ---- _ 0 SUBMITTAL INFORMATION I Ball Valve Curb Stop 'B11-444W-HT-34-NL style) FEMALE IRON PIPE THREAD INLET BY FEMALE IRON PIPE THREAD OUTLET, WITh. HANDLE Solid one piece tee-head/ handle and stem Sturdy stops allow 900 motion and are enclosed and protected EPDM 0-rings in the stem Female Iron Pipe Thread A snap ring locks t.e stem into. the body of the valve. Molded EPOM ruber seals support the ball Inlet 7V0 i Outlet Female Iron Pipe Thread F1uorocrbon-coated brass ball VALVE StZE lrn.sr Stzs Ouisi SIZE [ APPROX. I LENaTH PART i ZUBMIPIED WT. Les I NUMBER (SA FEATURES All brass that comes in contact with potable water conforms to AWWA Standard 800 (UNS NO C89833) The product has.the letters "NL't cast into the main body for proper identification UL Classified to ANSI/NSF Standard. 61 and Standard 61 Annex G (NSF/ANSI 372) Brass components that do not come in contact with potable water conform to AWWA Standard C80.0 (ASTM 8-62 and ASTM 8-584, UNS NO C83600 - 85-5-5-5) Valve is non-directional and is watertight with flow in either direction. ' Ends are integral or secured with. adhesive to prevent unintentional disassembly Hole for attaching curb box rod .or handle is provided in tee-head 300. PSI working pressure The Ford Meter Box Company àonsidërs the information in this submittal form to be correct at-.the time of oublicatlon, Item and optibnavailability, including specifications, are subject to change without notice. Please verify that your product information is current. The Ford Meter Box Company, Inc. Submitted By: : P0. Box 443, Wabash, Indiana U.$A. 46992-0443 Phone: 260-563-3171 / Fax: 800-826-3487 overseas Fax: 260-563-0167 hftp,./twww.fbrdmeterbox.com 03/07/13 t\ GIJ4RD5TF License n DN NV613O7 CA-950378 PRO TEL TION 6438 Arvifle St. Las Vegas. NV 89118 (702) 966-8021 Tel (702) 987-1174 Fax .onguardfp,com Bid Limit 4.SM 5. Accessories & Caulking (;] NFPA MEMBER FIRE SPRINKLERS— FIRE ALARMS -FIRE EXTINGUISHERS -EMERGENCY LIGHTING - SAFETY & FIRST AID SUPPLIES Page 7 of? VSIR-SG POTTER VANE TYPE WATERFLOW FOR CPVC PIPE ALARM SWITCH WITH RETARD The Symbol of Protection AND GLUE-IN UNION UL, CUL and CSFM Listed, CE Marked Service Pressure: Up to 175 PSI (12,07 BAR) Flow Sensitivity Range for Signal: 4-10 GPM (15-38 LPM) -UL p 10.0Amps at 125/250VAC 2.0 Amps at 3OVDC Resistive 10 mAmps mm. at 24VDC Maximum Surge: 18 FPS (5.5m/s) Contact Ratings: TWO sets of SPDI (Form C) Specifications subject subject to change without notice. Stock Number: 1144460 Optional: Cover Tamper Switch Kit, stock no. 0090148 Replaceable Components: Retard/Switch Assembly, stock no. 1029030 Waterfiow switches that are monitoring wet pipe spri.nklersystems shall not he used as the sole initiating switch to discharge AFFF, deluge, or chemical suppression systems. Waterflow switches used for this application may result in unintended discharges caused by surges, trapped air, or short retard times. General information The Model VSR-SG is a vane type watertlow switch for use on wet sprinkler systems using CPVC plastic fittings (manufactured by Tyco, Nibco, Victaulic. Ipex. and Spears Manufacturing Company) that use 11 . I ", I Y". or 2" pipe sizes. it is equipped with a union to accommodate installation in confined spaces. The VSR-SG contains two single pole, double throw, snap action switches and an adjustable. instantly recycling pneumatic retard. The switches are actuated when a flow of 10 GPM (38 LPM) or more occurs downstream of the switch. The flow condition must exist for a period of time necessary to overcome the selected retard period. Enclosure The VSR-SG switches and retard switch are enclosed in a general purpose, die-cast housing. The cover is held in place with two tamper resistant screws which require a special key for removal. A field installable cover tamper switch is available as an option which may be used to indicate unauthorized removal of the cover. See bulletin number 5401103 for installation instructions of this switch. Installation (see Fig. 1, 3. and 5) These switches may he mounted on horizontal or vertical pipe. On horizontal pipe they shall he installed on the top side of the pipe where they will be accessible. The switch should not be installed within 6' (15 cm) of a fitting which changes the direction of the waterfiow or A CAUTION Do not trim the paddle. Failure to follow these instructions may prevent the switch from operating and will void the warranty. Conduit Entrances: Twoopenings provided for 1/2" conduit. Individual switch compartments suitable for dissimilar voltages. Environmental Specifications: NEMA 4/lP54 Rated Enclosure suitable for indoor or outdoor use with factory installed gasket and die-cast housing when used with appropriate conduit fitting. Temperature Range: 40°F - 120°F, (4.5°C - 49°C) - UL Service Use: British Standard B59251 Automatic Sprinkler NFPA-13 One or two family dwelling NFPA-1 3D Residential occupancy up to four stories NFPA-13R National Fire Alarm Code NFPA-72 A WARNING Installation must he performed by qualified personnel and in accordance with all national and local codes and ordinances. Shock hazard. Disconnect power source before servicing. Serious injury or death could result. Risk of explosion. Not for use in hazardous locations. Serious iniury or death could result. within 24" (60 cm) of a valve or drain. The unit has a I' male fitting for gluing into a CPVC plastic tee. NOTE: Do not leave cover off for an extended period of time. Loosen the union nut and separate the 1" male fitting from the VSR-SG. Glue the 1" male fitting into the TEE following the TEE manufacturer's instructions for preparation and gluing of CPVC piping systems. (Note: The 1" male fitting must bottom out on the stop of the TEE for proper operation of the VSR-SG. See Fig. 1,) Wait 2 to 4 hours to allow the glue to dry before attaching the VSR-SG to the 1" male fitting. Select the proper paddle for the pipe size and type of TEE used. See Fig. 3 instruction,,;forinstruction,,;on. how to change paddle. Verify that the 0-ring is properly positioned in its groove. Hand tighten the nut on the union afterorienti.ng the switch in the appropriate direction to detect waterflow as shown in Fig. 5 & Fig. 7. The vane must not rub the inside of the TEE or bind in any way. The stem should move freely when operated by hand. A CAUTION Do not over-tighten the union nut, hand tighten only. Use of a wrench may damage the union nut. Potter Electric SianalCoinanv.LLC• St. Louis. MO'CustService: 866-572-3005 •TechSupport: 866-956-0988/Canada 888-882-1 833 www.00ttersiena1.com PRINTED IN USA MPG. /15401205 - REV H PAGE 1 OF 4 01/12 Fig. 2 Break out thin section of cover when wiring both switches from one conduit entrance. - ' VSR-SG VANE TYPE WATERFLOW ( ) POTTER FOR cvc PIPF ALARM SWITCH WITH RETARD The Symbol of Protection AND CLUE-IN UNION Testing The frequency of inspection and testing for the Model VSR-SG and its associated protective monitoring system shall be in accordance with applicable NFPA Codes and Standards and/or the authority having jurisdiction (manufacturer recommends quarterly or more frequently). A method of testing the VSR-SG must be provided. The valve used for testing shall be easily reached and shall produce a minimum flow of 10 GPM to activate the switch. The discharge orifice shall be equal to the smallest sprinkler used in the system. Advise the person responsible for testing of the fire protection system that this system must he tested in accordance with the testing instructions. Fig. .1 Glue the I" male fitting into the TEE following the TEE manufacturers instructions for preparation and gluing of CPVC piping systems. Wait 2 to 4 hours to allow the glue to dry before attaching the VSR-SG to the 1" male fitting. - !MINRLM CLEARANGE RE.CI)ISED FOR 1 MALE FITTING IN5iALLATI.IR OR " MOOr BOITOM GIJI RCMOVA OF DEVICE) ON STOP NO RUSRIiNGS, 1 Dm; C'. 10062-I ORE PFRLI!I1iiD Fig. 3 DIRECTION OF WATERFLOW #1063-3 Important: ii paddles are furnished with each unit to accommodate the various sizes and manufacturers of TEES. The paddles have raised lettering that show the pipe si:e and the TEE manukwturer I/wv are to be used with. The proper paddle must be used. The paddle must be properly attached (see Fig. 3) and the screw that holds the paddle must he securely tightened. Fig. 4 Typical Electrical Connections Notes: I. The Model VSR-SG has two switches, one can be used to operate a central station, proprietary or remote signaling unit, while the oilier contact is used to operate a local audible or visual annunciator. 2. For supervised circuits, see "Switch Terminal Connections" drawing and warning note (Fig. 6). CONNECTOR BELL NEUTRAL FROM BREAKER NEUTRAL FROM BELL BREAKER 0 LINE FROM BREAKER EOL End Of Line ReiIorI NOTE: When connecting to a UL Listed control panel, use the panels resistor value for circuit supervision. PRINTED IN USA MPG. 45401205 - REV H PAGE 2 OF 4 01/12 VSR-SG POTTFR VANE TYPE WATERFLOW FOR ('PVC PIPE ALARM SWITCH WITH RETARD The Symbol of Protection AND GLUE-IN UNION Fig. 5 Retard Adjustment The delay can be adjusted by rotating the retard adjustment knob from 0 to the max setting 60- 90 seconds). The time delay should beset at the minimum required to prevent false alarms. ornN'.L COVER AMrEeswIr('u 1LTARI) AT))" 0lMITNT cv Fig. 6 Switch Terminal Connections Clamping Plate Terminal Plc 'vini, scaler aelh ales ssciicb doodles only. AWARNIN.G... An uninsulated section of a single conductor should not be looped around the terminal and serve as two separate connections. The wire must be severed, thereby providing Supervision of the connection in the event that the Wire become dislodged from under the terminal. Failure to sever the wire may render the device inoperable risking severe property damage and loss of life. Do not strip wire beyond 3/8' of length or expose an uninsulated conductor beyond the edge of the terminal block. When using stranded wire, capture all strands under the clamping plate. Fig. 7 Mounting Dimensions-Orientation Fig. 8 GREEN GROUND 3.50 a, 2.00 in I9.II em, J50 II o,mi PIPE - PLASTIC PADDLE 44 '• PIPE' DWGO 1205.15 a CAUTION Flow switch must be properly orientated. Side of cover must be perpendicularwith the pipe. ltmproperorientation could delay orprevent notification of waterfiow. PRINTED IN USA MEG. /t5401205 -REV H PAGE 3 OF 4 01/12 DO NOT REMOVE (2( RETARD HOUSING SCREWS (2) LOCATING PINS (2) LOCATING I'I BOSSES IN BASF BASE VSRSC VANE TYPE WATERFLOW (DPO-ffER FOR CPVC PIPE ALARM SWITCH WITH RETARD The Symbol of Protection AND GLUE-IN UNION Maintenance Inspect the waterfiow switch monthly. If leaks are found, replace the waterfiow switch. The VSR-SG waterfiow switch should provide years of trouble-free service. The retard and switch assembly are easily field replaceable. In the unlikely event that either component does not perform properly, please order replacement retard switch assembly stock #1029030 (see Fig. 9). There is no maintenance required, only periodic testing and inspection. Retard/Switch Assembly Replacement (See Fig. 9) The Retard/Switch Assembly is field-replaceable without draining the system or removing the waterfiow switch from the pipe Make sure the fire alarm zone or circuit connected to the waterfiow switch is bypassed or otherwise taken out of service. Disconnect the power source for local bell (if applicable). idenrif\' and remove all wires from the waterfiow switch. Remove the (2) mounting screws holding retard/switch assembly to the base. Do not remove the (2) retard housing screws. Remove the retard assembly by lifting it straight up over the tripsiem. Install the new retard assembly. Make sure the locating pins on the retard/switch assembly fit into the locating pin bosses on the base. Re-install the (2) original mounting screws. Reconnect all wires. Perform a flow test and place the system back in service. Fig. 9 (2) ORIGINAL MOUNTING REMOVE (2) ORIGINAL MOUNTING BREAK OUTTH!NSECTIONOFCOVER SCREWS SCREWS HOLDING RETARD/SWITCH WHEN WIRING BOTH SWITCHES / 7\SEMBLY TO BASE FROM ONE CONDUIT ENTRANCE. RETARD!S WITCH ASSEMBLY Removal of Waterfiow Switch To prevent accidental water damage, all control valves should be shut tight and the system completely drained before waterfiow detectors are removed or replaced. Turn off electrical power to the detector, then disconnect wiring. Loosen nuts and seperate unit from the glued-in fittings Gently lift the unit far enough to get your fingers under it. With your fingers, roll the vane so it will fit through the hole while continuing to lift the waterfiow detector. Lift detector clear of pipe. PRINTED IN USA MFG. 43401205 REV H PAGE 4 OF 4 01/12 CALIFORNIA DEPARTMENT OF FORESTRY & FIRE PROTECTION OFFICE OF THE STATE FIRE MARSHAL _____ FIRE ENGINEERING - BUILDING MATERIALS LISTING PROGRAM LISTING SERVICE LISTING No. 7770-0328:0001 Page 1 of I CATEGORY: 7770 -- VALVES/SWITCHES LISTEE: Potter Electric Signal Co1609 Park 370 Place, Hazelwood, 63042 United States Contact: Bill Witherspoon (314) 595-6900 Fax (314) 595-6999 Email: BillWpottersignaI.com DESIGN: Vane and pressure type water flow alarm switches listed below. Refer to hstee's data sheet for detailed product description and operational considerations. Vane Types: VSR-CF VSR-D VSR-F VSR-SF VSR-FE-2 VS-SP VS-F VSR-SFG VSR-SFT VSG VSR VSR-S VSR-C VSR-ST VSR-SG Pressure Type: WFS-B WFSR-C WFSPD-B PS10 PS-10A PS-100A WFSR-F PS100 INSTALLATION: In accordance with listee's printed installation instructions, applicable codes and ordinances and in a manner acceptable to the authority having jurisdiction. MARKING: Listees name, model number and UL or FM label. APPROVAL: Listed as waterfiow alarm switches for use with fire sprinkler systems. Vare models may be used in wet pipe systems; pressure models may be used in wet or dry systems. Model VSR-CF is for use on K, L or M copper pipe (2, 2-1/2", 3", 4') and listed CPVC pipe (2, 2-1/2", 3'). Model VSR-SF for use on 1", 1-1/4", 1-1/2" and *2* steel, copper or listed plastic pipe. Model VSG is for low flow rate. Model VSR-SFG and VSR-SFT are for use on 1'. 1-1/4, 1-1/2" and *2 plastic pipe. Models VS-F, VSR-F. VSR-FE and VSR-FE-2 is for use on 2, 2-1/2', 3', 3-1/2', 4, 5, 6, 8' and 10" pipe. "Model VSR is for use on steel pipe sizes from 2' through 8'. Vane type switches may be used outdoors when the outdoor temperature never falls below 40oF. Rev*5172007 JW This listing is based upon technical data submitted by the applicant, CSFM Fire Engineering staff has reviewed the test results and/or other data but does not make an independent verification of any claims. This listing is not an endorsement or recommendation of the item listed. This listing should not be used to verify correct operational requirements or installation criteria. Refer to listee's data sheet, instaUation instructions and/or other Date Issued: July 01, 2018 Listing Expires June 30, 2019 Authorized By: DAVID CASTILLO, Program Coordinator Fire Engineering Division