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Home My WebLink AboutPOOLGUARD PAPERWORK[� l ASTM CAST06 M) gyp' 22 APSP .n,y�;, �Ir� �.:.�� F ,. r. P. - POOLGUARD POOL ALARMS " BEST SOLUTION" a ` •'�" GOOD HOUSEKEEPING t MAGAZINE ;, r fu'# /fZ� fZGfiZ2 Y t�(ltL��/� / h' \I Fr k' / l� One source for all your pool safety alarms, t poa u number one in customer service. All products ar made in the USA. IN GROUND. ABOVE GROUND POOL ALARM F POOL ALARM WITH REMOTEWITH REMOTE ,, Poolguard's w Family of Products a Helps Protect Your Family! GATE ALARM DOOR ALARM' www.pooiguard.com Call otl�x ,�{ee�7� �$U=242-7163 P.O. Box 658 North Vernon, Indiana 47265 OPERATING INSTRUCTIONS MANUAL "MEETS REQUIREMENTS OF ASTM SAFETY SPECIFICATION F 220809 C STST[D CFASTM8) 2208 c MODEL PGRM - 2 85dB Horn at 10 Feet This product has been designed to aid in the detection of unwanted intrusions into unsupervised pools. POOLGUARD IS A SAFETY ALARM SYSTEM AND NOT A LIFE SAVING DEVICE. `This device is not intended to replace any other safety consideration - i.e., adult supervision, lifeguards, fences, gates, pool covers, locks, etc., and some devices may not detect gradual entry." Total Dynamic Head Company.- J LOUDEN BONDED.POOLS _ Job Name: JALLIH, '- . City?own: FT. PIERCE,, jag - - c�Pro Series t,ZODIAC- Job #: 0 Date: 5/7/2019' Address: 4705ELMAVE - State: FL Zip Code: 0 Instructions: Data can only beadded to the yellow cells. Steps #1 & 2 are for calculating Pool Volume In Gallons and for establishing a turnover rate in Gallons Per Minute (GPM). If the tumover rate is already established, click on theGPM cell at the end of Step #2 and input flow rate, then proceed to Step #3. Pressing the RESET bu8on will clear all inputed Information to start a new worksheet Worksheet can be saved to a rile or printed for future reference. Caution: Pressing the RESET button will clear all yellow cells to start a new worksheet GalculatelPool�V_olume +"""'"�'x'?'"^ ,•"'"�'"I',?.t ;:�„��r,t Width Length Surface Area Av. Depth Gallons 6 hour turnover rate is required to comply with APSP 15 and Title 24 Standards System TDH Calculation Results Total Friction Loss in FL of Water (TDH) Total Friction Loss in PSI Versa Plumb Reduction Results TDH Reduction Total System TDH with Versa Plumb System GPM ' Suction Pipe Size Velocity (ft./sec.) Friction loss in FL at System GPM of water ft. ,__„•-_1 5" h ": " 1 `� : K,ifY•,' Total Length of Friction Loss in Friction Loss in Pipe Ft of Water PSI 'fro 1 11 ^k .1'T .1 ° I ':L(i"aj �' f .� 3_=_•n...�_,I ,ra ;'- ..!l ,':I r .:yAS E':. `. a 11 ',. A °o v.F'�S%I =4:1� ,, ,+a,.. ,. �n- __"',` ,.. ., _�•�.�= ,...ui`I ..'•:+t'.4>•'- i � e'II ,: .._ ,K a le '.: 1 ar'f«.. 1,OfM' Step # 4 G » t zz Velocity (.) Friction lossIif Ft Total Length of Friction Loss in Friction Loss in Return Pipe size at Systemm GPMGPM of wateer/ft. Pipe Ft of Water PSI a•4r� >{iT+^—"'-2 S:.e� °:'S'0 : f 1. � •lbl 1 .f}bR1i f8,'st e: , •1 '. :.'»-..._.�-'-^3:�-] m:. : iL" ;tin ±; °I : ": d'xi :A3...e el - 'S1 1° a - 4'•..,,_;; Arr'r_^. c .T.-,-_ �.,.) {N: I • • ,:,.3� .:. %�': 1 1 1 _ ... ' 1 1 1 " 1 1 1 SCANNED BY St. bl!°lPrf1117Pftr Step # 5 Standard 90" Long Radius900 Standard 45o Insert Tee (straight Friction Loss in Filling Size Elbow Elbow Elbow Coupling Flow) Too (branch flaw) Friction Loss in PSI Ft of Water !'+'y .. .�°t3 2F �r ., `•�O iCt'. f-Friction Loss Ili :,..; .,r b ° 11 .A �Ft.oLWaterJ - ,.. 1 e 1 #�ays� •,-4 j Y�',� .:.� .. "T �+-.-r.2 -'Chenss v ... " ^ 1 11 1 ° 1 t 111y; - FKI� LoIn * i• ul °° :—F.t oLT, W �'+ rf{111 ",y}i.1 11 $� "il el 111 A,,'•' water 5 r ,y y;- r .• U Fnchon Loss ink .F.4of Water I-. _ AN 1, e °gi'a F,f-iCtmn Lass In - i •- .q ,... . ........ _ .. :,: yr . -�� _,„y.• 1 11 �K_rp 11 T Is Cossln M Arfi Al 1 4F"r�n LF.� t.of WateL..'i 1 1 A t K .IT113 P A ';`'. 1 11 [a 11 IF �Friction 'FFt. Off il: aT1. 11{', ,� .�HY�b.lall ep # 0 Input Total Feet Friction Lass in Friction Loss in of Lift Ft. of Water PSI EMMIXIIIIIIIIII Straight Selict�J�y�l3 Way Valve.` Through StrelghtLF Sl a µy r, � Flow f�.'''�fS., i2, n'irk Y4 l`1-. 3]54aJ th.5j 3-way Valve InputNumberof FrictionLossin Pipe Size 3-way Valves Ft. of Water Friction Loss in PSI 0 -1 0.00 '' 0.00, t�Sileet'tJandyr3 WayValve i IN �{90t t +} Flow Slze � ,�� Flow Check Valve InputNumberof FrictionLossin Friction Loss in PSI Pipe Size Check Valves Ft. of Water . 0.. 0?QO �'s730!QO's NMOYOMM 1K �: sre Way�Vyalve Loss„ w 10.56 4.57; ,y_ Iz To�ta�3 Step # 9 Select Filter Friction Loss in Friction Loss in Ft. of Water XX PSI Step # 11 Select Backwash Friction LOSS in Friction Loss in Valve Ft. of Water PSI Step # 13 Select In -floor Friction Loss in Friction Loss in Valve Ft of Water PSI tep # Input Size of Input Number Individule Friction Loss in Return Eyeball of Return Return GPM Ft. of Water Friction Loss in PSI Eyeballs elec, t,JnandyP"heek Ualv�er� trough Flow9ht Stralg'h'tlFlow Slze Flow 3-way Valve Input Number Friction Loss in Friction Loss in PSI Pipe Size of 3-way Valves Ft. of Water 3.34MMM 0.00� - Seleet�Jandy Chiek'Valve ril x':'ehx 90' Flow tOF,,low+lze ��=t� Check Valve Input Number Friction Loss in Friction Loss In PSI Pipe Size of Check Valves Ft. of Water - N =01( o-0?00 :Total Chi Valve 7.72zq Step # 10 Select Heater Friction Loss in Friction Loss in Ft. of Water PSI s$N srh andQD c �� Prq Series byZODIACi