The URL can be used to link to this page

Home My WebLink About041-430-036111 WLV LV1\.✓. L\1L✓11J 1LLV11L111 L 11\li ✓L!\11V1�LL1♦ 1111/1\L LULIV✓ . `S wIU UL'111I I1L. ENGINEERS : William F. Squyres, Jr. (530) 345-1012. ADDRESS : P.O. Box 3176, Chico, CA 95927. Date: 11-09-2006 File: C:\RESDEN44\MINTO.RES JOB : Residential 2 heads flowing SOURCE ST L uyl. 1 ATIC . 50.0 Psi RESIDUAL 40.0 Psi FLOW 35 Gpm DESIGN SPRINKLER MANUF : Reliable MODEL fl res 49ccp SPRINKLER Q 14.0 Gpm VALVE .0 Psi SPRINKLER P 8.2 Psi METER .0 Psi NODE ELEVATION K- PRESSURE DISCHARGE NO. Feet FACTOR Psi Gpm ---------------------------------------------------------- ' 1 20.0 4 . 9 8.1 14.0 �(p� lA 2 0.0 4.9 8.2 14.0'` .. ;9.9 k� ctl 4 20.0 11.7 5 20.0 15.0 6 20.0 16.3 ,11°1,50 7 10.0 22.6 8 3.0 28.8 5.0 DOME 9 1.0 SOURCE 31.6 33.0 SPRINKLERS FLOWING � 2 AREA PER SPRINKLER 256 TOTAL DESIGN AREA 512 MIN SPRINKLER FLOW 14 REQUIRED DENSITY .055 COMPUTED DENSITY .055 TOTAL SPRINKLER FLOW 28.0 TOTAL DOMESTIC FLOW 5 TOTAL WATER REQUIRED 33.0 TOTAL SPRINKLER PRESS 31.6 WATER METER LOSS .0 VALVE FIXED LOSS .0 SUPPLY PRESS AVAILABLE 41.0 DEMAND PRESS REQUIRED 31.6 PRESSURE CUSHION 9.5 !MAXIMUM VELOCITY 9.4 tvuvELOVI2006 SERVICESNT Sq Ft Sq Ft Gpm Gpm/Sq Ft Gpm/Sq Ft Gpm Gpm Gpm Psi Psi Psi Copyright(2004) Psi by Psi Hydronics Engineering Psi 34119 Fremont B1, Suite 609 Fremont, Ca., 94555 FIS (800) 845-9819 i 1a1 L�1.✓ly l�..u. L\Lu1✓LLV11aaL L11\L ✓LL\11V1\LLL\ 111 U1\L]VLlI.✓ '1 .'1 ✓l./UL"1111L]L. LLA9 � ENGINEERS : William F. Squyres, Jr. (530) 345-1012. ADDRESS : P.O. Box 3176, Chico, CA 95927. Date: 11-09-2006 File: C:\RESDEN44\MINTO.RES JOB : Residential 2 heads flowing PIPE BEG FLOW K -FACTOR LENGTH C -FACTOR PRESSURE NO. Gpm FITTING TYPE FTG FR- LOSS Psi ------------------------------------------------------------------------------- END DIAMETER TOTAL (Psi/Ft) 1 q= 14.0 K= 4.9 L= 6.5 Pt 8.1 Pt 8.1 1 Q= 1.9 F= RLL F= 15.0 C= 150 Pe .0 Pv .0 Vel= 1.0 D= .874 TL= 21.5 .0027 Pf .1 Pn 8.1 -------------------------------------------------------------------------- 2 Pt 8.2 2 q= 14.0 K= 4.9 L= 5.0 Pt 8.2 Pt 8.2 2 Q= 15.9 F= RLL F= 15.0 C= 150 Pe .0 Pv -.2 Vel= 5.4 D= 1.101 TL= 20.0 .0448 Pf .9 Pn 8.0 -------------------------------------------------------------------------- 3 Pt 9.1 1 q= 14.0 K= 4.9 L= 6.0 Pt 8.1 Pt 8.1 3 Q= 12.1 F= RLL F= 15.0 C= 150 Pe .0 Pv -.3 Vel= 6.5 D= .874 TL= 21.0 .0822 Pf 1.7 Pn 7.9 -------------------------------------------------------------------------- lA Pt 9.9 3 q= .0 K= .0 L= 30.5 Pt 9.1 Pt 9.1 4 Q= 15.9 F= 6R3L F= 27.0 C= 150 Pe .0 Pv -.2 Vel= 5.4° D= 1.101 TL= 57.5 .0448 Pf 2.6 Pn 8.9 -------------------------------------------------------------------------- 4 Pt 11.7 lA q= .0 K= .0 L= 35.5 Pt 9.9 Pt 9.9 5 Q= 12.1 F= 4L4R F= 32.0 C= 150 Pe .0 Pv -.1 Vel= 4.1 D= 1.101 TL= 67.5 .0267 Pf 1.8 Pn 9.8 -------------------------------------------------------------------------- 4 Pt 11.7 4 q= .0 K= .0 L= 20.0 Pt 11.7 Pt 11.7 6 Q= 28.0 F= RB F= 6.0 C= 150 Pe .0 Pv -.6 Vel= 9.4 D= 1.101 TL= 26.0 .1269 Pf 3.3 Pn 11.1 -------------------------------------------------------------------------- 5 Pt 15.0 5 q= .0 K= .0 L= 3.5 Pt 15.0 Pt 15.0 7 Q= 28.0 F= L F= 7.0 C= 150 Pe .0 Pv -.6 Vel= 9.4 D= 1.101 TL= 10.5 .1269 Pf 1.3 Pn 14.4 -------------------------------------------------------------------------- 6 Pt 16.3 6 q= .0 K= .0 L= 10.0 Pt 16.3 Pt 16.3 8 Q= 28.0 F= B F= 5.0 C= 150 Pe 4.3 Pv -.6 Vel= 9.4 D= 1.101 TL= 15.0 .1269 Pf 1.9 Pn 15.7 -------------------------------------------------------------------------- 7 Pt 22.6 7 q= .0 K= .0 L= 7.0 Pt 22.6 Pt 22.6 9 Q= 28.0 F= 4RSL F= 18.0 C= 150 Pe 3.0 Pv -.6 Vel= 9.4 D= 1.101 TL= 25.0 .1269 Pf 3.2 Pn 22.0 -------------------------------------------------------------------------- 8 Pt 28.8 .. . .. a .... .. _a. . _.... ., u .. i i v i. r. 1. �.... u � �_ r. v .,� � r .1 a. a �. r.. i u r. r a t L/ L �. ♦ V L i. `. �. r r a./ v u L 11 1 1 a l L ENGINEERS : William F. Squyres, Jr. (530) 345-1012. ADDRESS : P.O. Box 3176, Chico, CA 95927. Date: 11-09-2006 File: C:\RESDEN44\MINTO.RES JOB : Residential 2 heads flowing PIPE NO. BEG FLOW K -FACTOR LENGTH C -FACTOR PRESSURE Gpm FITTING TYPE FTG FR- LOSS Psi ----------------------------------------------------------------------------- ND DIAMETER TOTAL (Psi/Ft) 10 8 q= 5.0 DOME L= 200.0 Pt 28.8 Pt 28.8 Q= 33.0 F= F= .0 C= 150 Pe .9 Pv -.1 9 Vel= 3.4 D= 2.003 TL= 200.0 .0093 Pf 1.9 Pn 28.7 ---------------------------- ------------------------------ Pt 31.6 ---------------------------- Meter = .0 1 Q= 33.0 --------------------- <<< SOURCE --------------------------------------- ---------- »> P- ------------ 31.6 E=>45-Elb L=>90-Elb B=>TeeBch R=>TeeRun C=>CouPlg S=>SwgChk G=>GatVly ENGINEERS : William F. Squyres, Jr. (530) 345-1012. ADDRESS : P.O. Box 3176, Chico, CA 95927. DATE : 11-09-2006 FILE : C:\RESDEN44\MINTO.RES JOB : Residential 2 heads flowing PSI FIRE SPRINKLER HYDRAULIC GRAPH 100 70 . K 50 40 30 20 10 0 10 15 20 25 o-----0 Supply Curve Static : 50.0 Resid : 40.0 Flow : 35.0 30 35 40 45 50 FLOW - Gpm 0 0 Demand Curve Avl Pr : 41.0 @ 33 Req Pr : 31.6 @ 33 Pr Cush: 9.5 Copyright: Hydronics Engineering, 2004. 34119 Fremont B1, Suite 609, Fremont, CA. 94555. (800) 845-9819. Read Carefully! Installation Instructions & Technical Data (Details in bulletins 035 & 135) • Model F1 Res 49 Pendent • Model F1 Res 49 Recessed Pendent / F1 (F1 escutcheon, 3/" adjustment) F1 Res 49 & 58 Pendent F1 Res 49 & 58 Recessed Pendent / F1 • Model F1 Res 58 Pendent . Model F1 Res 58 Recessed Pendent / F1 (F1 escutcheon, 3/" adjustment) • Model F1 Res 49 Recessed Pendent / FP (FP push-on/thread-off escutcheon) • Model F1 Res 49 CCP Pendent F1 Res 49 Recessed F1 Res 49 CCP Pendent/FP Pendent Model F1 Res Sprinklers (UL 1626 Standard) Technical Data Max Sprinkler Spacing - Sprinkler pressure Psi (bar) Max Sprinkler Ication IdenInch Numtber (SIN) Thread Temp. Max Ambient K Sprinkler Size Ratin Pressure Tem Factor Length IncT� ' 4-8 (100-203) 14 x 14 4.3x4.3 16 60.5 10.6 0.73 16 x 16 4.9x4.9 17 64.3 12.0(0.83) 18 x 18 5.5x5.5 19 72 15.0 (1.0 20 x 20 (6. 1 x6. 1) 22(83.2) 20.2(1.4) •F •C _ __ •F •C _ �mm Yz' NPT 155 68 175 psi 100 38 4.9 2.25 (R 1/2) 175 79 (12 bar) 150 66 57) Max Sprinkler Spacing - Flow gpm (Lpm) pressure Psi (bar) Ceiling -to- Deflector (mm) Sprinkler Ication IdenInch Numtber (SIN) 12 x12 3.6x3.6 13(49) 7.0 0.4E 1-4 (25-100) R3516 14 x 14 4.3x4.3 13 49 _ T0�0 48) 16 x 16 4.9x4.9 _ 13 (49) 7.0 0.4E 18 x 18 5.5x5.5 17 @1.3)__12.0 0.83 20 x 20 6.1 x6.1 20 75.7 16.7(l.15) 12 x12 3.6x3.6 15 57 9.4 0.65 ' 4-8 (100-203) 14 x 14 4.3x4.3 16 60.5 10.6 0.73 16 x 16 4.9x4.9 17 64.3 12.0(0.83) 18 x 18 5.5x5.5 19 72 15.0 (1.0 20 x 20 (6. 1 x6. 1) 22(83.2) 20.2(1.4) * Note: The F1 Res 49 pendent and recessed pendent residential sprinklers can be installed per NFPA 13 in beamed ceilings meeting the following criteria: 1. Maximum beam depth = 7' (178 mm) 2. Beam spacing at or greater than 7.5 ft (2.3m) on center. Technical Data Max Sprinkler Spacing Sprinkler Ceiling -to- Deflector Max. It m gpm (Lpm) psi (bar) Thread Temp. Max Ambient K Sprinkler Size Ra ing Pressure Tem Factor Length 20 x 20 6.1 x6.1) 22 (83.3) 14.4 1.0) ''/z" NPT (R/2) 155 68 135 57 Inch ___ •F •C_ 2.25 57 •F •C Sprinkler Identification _�mm, '/z' NPT 155 68 175 psi 100 38 5.8 2.25 (R'/2) 175 79 (12 bar) 150 66 (57 Max Sprinkler Spacing Flow Pressure Ceiling -to- Deflector Sprinkler Identification It m gpm (Lpm) psi (bar) Inch (mm) Number (SIN) -12x 3.6x3.616 61 7.6 0.53 (2b �) R3513 14 x 14 (4.3x4.31 16 61 7.6 0.53 16 x 16 4.9x4.9 16 61 7.6 0.53 18 x 18 5.5x5.5 19 72 10.E_ 0.75 20 x 20 6.1 x6.1) 22 (83.3) 14.4 1.0) Technical Data The Reliable Automatic Sprinkler Co., Inc., 525 North MacQuesten Parkway, Mount Vernon, New York 10552 CA -131 Rev.E �pri CCP temp Assembly �L.ength Thread Size Rating Rating Max. Pressure M Temp. K Factor Inch (mm) •F •C •F •C ''/z" NPT (R/2) 155 68 135 57 175 psi (12 bar) T0566 4.9 2.25 57 Max Sprinkler Spacing Flow pressure Sprinkler Identification R (m) gpm (Lpm) psi (bar) Number (SIN) 12 x12 3.6x3.6 13 49 7.0(0.48) R3516 14 x14 4.3x4.3 13 49 7.0 0.4E 16 x16 4.9x4.9 14 53 8.2 0.56 18 x18 5.5x5.5 18 68.1 13.5 0.93 20 x20(6.1 x6.1) 20(75.7) 16.7(1.15) The Reliable Automatic Sprinkler Co., Inc., 525 North MacQuesten Parkway, Mount Vernon, New York 10552 CA -131 Rev.E 1A-141RV;E;L 'T GENERAOtl NFORM ATIOIV� Basic Principles of These areas must be softened and Solvent Cementing penetrated The solvent cemented connection ill thermoplastic pipe and fittings is the last vital link in a plastic pipe r installrllion, It can mean the success or failure of the system as a whole. Accordirully, it requires tile sallle professional C;11e Quin attelitioll I11r11 ,tle (livc1) /;; to cither components of the system. There are marry solvent cementing Lecltnigtics published covering step by step procedures on just how to make solvent cemented joints. I lowevel, we feel that if the basic principles involved are explained, known and understood, a better understanding would be gained, as to what techniques are necessary to suit particular applications, temperature conditions, and variations in size and fits of pipe and fittings. Be aware at all times of good safety practices. Solvent cements for pipe and fittings are flammable, so there should be no smoking not olher sot.nccs of heat or flange in.worki.ng or storage areas. Be sure to work only in a well ventilated space aril avoid unnecessary skin contact with all solvents. More detailed safety information is available frons I-larvel or IPS (Weld -Orr) Corporation. To consistently make good joints, the following should be carefully understood. 1 The joining surfaces Aust be softened and made semifluid. 2 Sufficient cement must be applied to fill the gap between pipe and fitting. 3 Assembly of pipe and fittings must be made while the surfaces are still wet and fluid. 4 Joint strength develops as the cement dries. In the tight part of the joint the surfaces will tend to fuse together, in the loose part the cement will bond to both surfaces. When using the ONF SIFT cel 1e111 it Iq pt of rss, penell al lot 1 al lel softening ran he achieved )y the cenlenl itself (read UNF Sir_I' renl(•nlinq procedures carefully: refer to installation instnl(lions). For (crlain sties, under cerl;litI conditions, it may be desirable- to use the TWO STFI' process Which utilizes a printer to ensure adequate softening. For example, when working in Cold weather with large diameter pipe, mote tittle and additional applications Olay be required. Cement coatings of sufficient thickness Mole than sufli(ienl cetnenl to lill the loose pat 1 of the joint must be applied. Resides filling the gap, adequate cement layers will pVIINlalc Ic s(ufares and also 1ctu.lin wet until Ic joint Is assembled. Prove Ibis yourself. Apply on II1c top sill face of it piece of pipe two separate layers of cenlenl. First flow on a heavy layer of cetnenl, Men alongstclr it a Ihin brushed our layer. lest the layers every 15 seconds or so by a gentle tap with your finger. You will note that the Ihin layer hecomes tacky aril then dries quickly (probably within 15 seconds) The heavy layer will remain wet n1(1e1 longer. Now check for penetration a few minutes after applying these layers. Scrape them with a Iknife. the thin layer will have achieved little or no penetration. The heavy one, much more penelralion. HFS 2-0 2-9 7 Surfaces must be assembled while they are wet and soft If the cement coatings on the pipe and fillings are wet and fluid when assembly lakes place, they will tend to flow together and become one layer. Also, if the cement is wet the surfaces beneath them will still be soft, and these softened surfaces in the light part of the Joint will tend to fuse together. Surfaces Done r, As the solvent dissipates, the cement layer and the softened SLII IaCCS Will 11i11den Will) a corresponding increase in joint strength. A good joint will take the required working pressure long before the joint is fully dry arid final slten(Itlr Is oblaillvd. Ill the light (fused) part of the joint, strength will develop more quickly than in tyle looser (bonded) part of the joint. Information about the (levclopinerlt of bond strength of solvent cenlenle_djolnls Is available. The QUALITY Line FOR SMALL PIPE (E)POTTER VSR-SFG VANE TYPE WATERFLOW ALARM SWITCH Thi Symbol of P�ot�ct/on WITH RETARD AND GLUE -IN UNION CUL, UL and CSFM Listed, CE Marked, NYMEA ACCEPTED Service Pressure: Up to 175 PSI (12,07 BAR) US Patent No. 6,471,255 Stock No. 1113555 1113600 W/TSK Service Use: Automatic Sprinkler NFPA-13 One or tw f '1 d I' Minimum Flow Rate for Alarm: 8-10 GPM (30-38 LPM) Maximum Surge: 18 FPS (5,5 m/s) Enclosure: Die-cast, red powdercoat finish No. 1113555: Cover held in place with tamper resistant screws No. 1113600 - Tamper: Cover incorporates micro -switch. Cover Tamper: Activated by cover removal. Cover Tamper Switch Contacts: One set SPDT, Rated at 250VAC. Tamper �mper Switch Terminations: 8" 22AWO wire leads. Contact Ratings: Two sets of SPDT (Form C) 15.0 Amps at 125/250 VAC 2.0 Amps at 30 VDC Conduit Entrances: Two knockouts provided for 1/2" conduit. Usage: Listed CPVC plastic piping systems manufactured by Central Sprinkler Corp., Grinnell Sprinkler Corp., Spears Manufactur- ing Co., and IPEX (Scepter). Fits pipe sizes - 1", 1-1/4", 1-1/2" and 2" Environmental Specifications: • Suitable for indoor or outdoor use with factory installed gasket and die-cast housing. • For NEMA 4/IP55 rated enclosure - use with appropriate conduit fitting and/or plugs. • Temperature range: 40• F to 120' F (4,5' C to 49' C) o amt y we ng NFPA-13D Caution: This device is not intended for applications in explosive envi- Residential occupancy up to four stories NFPA-13R ronments. National Fire Alarm Code NFPA-72 The Model VSR-SFG is a vane type waterflow switch for use on wet sprinkler systems using CPVC plastic fittings manufactured by Central Sprinkler Corp., Grinnell Sprinkler Corp., Spears Manufacturing Co., and IPEX (Scepter) that use 1", 1-1/4", 1-1/2" or 2" pipe sizes. It is equipped with a union to accommodate installation in confined spaces. The unit contains two single pole double throw snap action switches and an adjustable, instantly recycling pneumatic retard. The switches are actuated when a flow of 3-10 gallons per minute (30-311 liters per minute) or more occurs downstream of the device. The flow condition must exist for a period of time necessary to overcome the selected retard period. INSTALLATION: These devices maybe mounted on horizontal or vertical pipe. On horizontal pipe they should be installed on the top side of the pipe where they will be accessible. The units should not be installed within 6"(15 cm) ora valve, drain or fitting which changes the direction of the waterflow. The unit has a I" male fitting for gluing into a CPVC plastic TEE. Loosen the union nut and separate the I" male fitting from the VSR-SFG. Glue the I" 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-SFG. See Fig. 1.) Wait 2 to 4 hours to allow the glue to dry before attaching the VSR-SFG to the I" male fitting. Select the proper paddle for the pipe size and type of TEE used. See Fig. 3 and Fig. 5 for instructions on how to change paddle. Verify that the o -ring is properly Positioned in its groove. I land tighten the nut on the union afterorienting the device in the appropriate direction to detect waterflow as shown in Fig. 2. CAUTION: Do not over -tighten the union nut, hand lighten onlyl The vane must not rub the inside of the TEE or bind in any way. The stem should move freely when operated by hand. INSPECTION AND TESTING: Check the operation ofthe unit by opening the inspector's test valve at the end of the sprinkler line or the drain and test connection, if an inspector's test valve is not provided. If there are no provisions for testing the operation of the flow detection device on the system, application of the VSR-SFG is not recommended or advisable. The frequency of the inspection and testing and its associated protective monitoring system should be in accordance with the applicable NFPA Codes and Standards and/or authority having jurisdiction (manufacturer recommends quarterly or more frequently). Potter Electric Signal Company • 2081 Craig Road, St. Louis, MO, 63146-4161 • Phone: 800-325-3936/Canada 988-892-1933 • www.potiersignal.com PRINTED IN USA MKT. NUUM 09 - RI -'V P MFG. #5401062 - 11/05 PAGE I OF 2 INSTALLATION AND MAINTENANCE INSTRUCTIONS SSM and SSV BELL Series SPOCIfleatlons SSM Series: Voltage: Operating Voltage Limit Maximum Current: Operating Temperature: SSV Series: Voltage: Operating Voltage Limit: Maximum Current: Operating Temperature: 24 VDC SSM SSM24-6 SSM24-8 SSM24-10 120 VAC SSV SSV120-6 SSV 120-8 SSV120-10 P - Polarized S = Suppressed (6", 24 VDC, P, S) (8", 24 VDC, P, S) (10", 24 VDC, P, S) (6", 120 VAC) (8", 120 VAC) (10", 120 VAC) Regulated 24 VDC 16 - 33 VDC DC - 3l A mA/FWR - 53.5n1A -31' to 150OF (-35• to +66.6) Regulated 120 VAC 96 - 132 VAC 53n1A -31• to 150•F (-35• to +66.6) Ul, Reverberant Room Sound Output per 1I1, 464 (d QA) 82 80 81 85 82 82 Important Please Read Carefully and Save This instruction manual contains important information about the installation and operation of hells. Purchasers who install bells for use by others must leave this Ilallual or a copy of it with the user. System Sensor supplies bells for nearly all sprinkler/fire alarm/burglar applications. These insll-uctions apply to all System Sensor hells in the series. head all instructions carefully before beginning. 1`0110w only those instructions that apply to the model you are installing. CAUTION Do not use in potentially explosive atmospheres. Do not leave any unused wires exposed. D770-11-00 SYSTEMx.44 SOR41 31125 Ohio Avemie. St. Charles, Illinois 60174 1-200-SENSOR2, SAX: 630-377-6495 www. sysl emsensor. com NOTE: All SSM Series DC bells were only tested at the 16-33 Volt-DC/FWR limits. All SSV Series AC bells were only tested at the 96-132 Volt AC limits. This does not include the 80% low-end or 110% high-end voltage limits. Genteral Doscription The National Fire Protection Association has published codes, standards, and recommended practices for the installation and use of the above appliances. It is recom- mended That the installer be familiar with these regllire- Illellls, with 10c ']I codes, and any special requirements of the authority having jurisdiction. These hells are intended to be connected to alarm indicat- ing circuits of UL listed fire alarm control panels. 'rhe SSM series is polarized to enable supervision of the installation wiring. The SSM hells require 24 VDC and the SSV hells I'egllire 120 VAC. 156-0674-0088 Tofc0 36 INCORPORATED CORONA. CA • (WO) 737.65$9 FIG. 23 HANGER FOR C.P.V.C. PLASTIC PIPE DOUBLE FASTENER STRAP TYPE Size Range - 3/4" thru 2" C.P.V.C. pipe Material- Carbon Steel with galvanized finish G-90 govt. spec Function- The Fig. 23 and Fig. 24 are intended to perforin as a hanger/restrainer to support only C.P.V.C. piping used in automatic fire sprinkler systems. Fig. 23 and Fig. 24 can be installed on the top or on the bottorn of a beam. The Fig. 23 can also be installed on the side of a beam. The Fig. 23 and Fig. 24 can also function as a restrainer to prevent the upward movement of the sprinkler head during activation. Approvals - Underwriters' Laboratories listed to support fire sprinkler piping. Meets and exceeds the requirements of N.F.P.A. 13, 1313, and 13D. Features - The Fig. 23 and Fig. 24 incorporate features which protect the pipe and ease installation. The flared edge design FIG. 24 HANGER FOR C. P. V. C. PLASTIC PIPE DOUBLE FASTENER STRAP TYPE — SIDE MOUNT V protects the C.P.V.C. pipe from any rough surface. The Fig. 23 design incorporates snap retainers allowing easier and faster installation. The Fig. 23 and Fig. 24 are easily attached to the building struc- ture using file two hex head self threading screws' furnished with the product. It is recommended that rechargeable electric drills fitted with a hex socket attachment be used as Installation tools. No impact tools (such as a harnmer) or impact fasteners (such as drive screws or nails) are allowed. Damage has been known to result from installations using impact type tools. No pre drilling of a pilot hole in wood is required. Order By - Figure number and C.P.V.C. pipe size. Patents Pending "-Hardened hex head self threading screw is furnished with the product and is the minimum fastener size acceptable. C.P.V.C. PIPE SIZE A FIG. 23 FIG. 24 FIG. 23-- R FIG. 24 C 23 FIG. 24 MAX. HANGER SPACING (FT -L______ FASTENER I IEX IIEAD SIZE APPROX. WEIGHT PER 100_ 3 4 3-1/8 2-5/16 1-9/16 __ 1-5/32 _FIG. _ 1 316 1-3/16 5-1/2 _ 5/16 9 +,i 3 %1 2�6�/8 ?x Wi /YF 0X15%440' �X. 3�1Ib�� +�'13/I '" �� `6 a?�M��.�t+ `� F "fib �°< � %��{�yy�►�ryy � . 11 4 4-13/16 3 t 2-3/32 1-1�.2 1-3 16 1-3/16 6-1/2 5/16 11 2 Y 2 4-7/8 311/16 2-7/16 1-27/32 1-3/16 1-3/16 8 -- - WK 5/16 15 REVISED 3/94 \Na"1-e r Su�f I IlI PAU0,A A ru >r.l', I HIT I'LUO I •I� IdP'I. A -._.._,.. � Ih' I'll, 1• ... r.'1 . _• •1�; NIT Utl Q12a)V UIVW QUICK_ Galvanized Tanks- 75 psi Max Wkq Pressure _ Capacity T Drawdown Dimension 1A t. Order Model Gallons Gallons 30.50 Dia x Ht LES. No. 'T2 TS11 42 _ 4.3 __.. 18 x Oar 72 V42GT x42 Short 42 43 20 x 32 74 V42GS 152 42 8.4 20 x 60 1.4 V82G 120 West 120 12.2 24 x 60 101 V120G ' 220 West 220 22.4 30 x 78 303 V220G X315 West 315 32.1 36 x 80 4'6 V315G 80 VSQW 480 49 42 x 47 6410 V48OG 1525 Combo 525 536 36 x 124 6115 V525G 900 Combo 000 91.8 42 x 159 1040 V90OG 61-4- cmc ....a nnn •a11— f A,,.l.,l. :...... _ _ti ...........-.1 �.,a ..-..,__' -._ - ...i_.. �a ._ti...... ..... .....• _.. n %ON Cp c aN140, G -i r sT�TF OFC 9. 10. 11. 12. 13. -DING DIVI �I 2ST � LUU� System to be installed per N.F.P.A. 131), Manufacturers specifications, and local A.H.J. BUILDING PERMIT 0 System provides protection in selected area's only as per N.F.P.A. criteria ASSESSOR'S PARCEL All piping to be "listed" CPVC or equiv. Pipe hangers to be "Tolco" or equiv. Freeze protection, carpentry and electrical by others. Riser to be installed in "stud bay" within indicated wall. Exact pipe run lengths and head location sulbject to field verification. Heads to be Reliable F1 Res 49 CCP Flows based on a 16'X16' grid pattern. (see; attached calcs. And spec. sheets) All pipes to be 1" diameter unless otherwise noted. All ceilings are flat and 9'0" in height, unless otherwise noted "Tolco" pipe hanger spacing per attached manufacturers spec. sheet. a) The maximum from hanger to the end of line on V CPVC pipe is 9" b) The maximum from hanger to the end of line on 1" CPVC pipe is 12" c) The maximum distance between hangers, on 1" CPVC pipe is 6% 0" d) The maximum distance between hangers on 3/," CPVC pipe is 5% 6" Total heads required = 29 Future Additions of heat sources, like gas or wood burning stoves, should be installed according to N.F.P.A. 13D residential sprinkler installation guide. C� OU�''�N U 3aU OAAWN f3s CHECKEO DATE SCALE JOE NO. M it, ro SHEET I OF SHEETS v