AQUA-LAB EVO - Hydra-Flex, Inc....AQUA-LAB EVO™ COMPONENTS H20 Inlet Pressure Gauge Air Pilot...
Transcript of AQUA-LAB EVO - Hydra-Flex, Inc....AQUA-LAB EVO™ COMPONENTS H20 Inlet Pressure Gauge Air Pilot...
© Hydra-Flex, Inc. 2016
AQUA-LAB EVO™CHEMICAL DISPENSING SYSTEM
User ManualREV L
4000003 revL0717© Hydra-Flex, Inc. 2017
© Hydra-Flex, Inc. 2017
© Hydra-Flex, Inc. 2016
CONTENTS
Principles of Operation 1
Specifications 1
Aqua-Lab EVO Components 2Integrated Motor Starter Wiring Diagram 3
Estimated Timeline 5
Installation Instructions 5
Startup 7 Pump Priming Instructions 7
Optimizing the System 8 Injectors vs. Metering tips vs. Nozzles 8
Application Optimization 8 Chemical Usage Measuring 8 Recommended Maintenance 9
Troubleshooting 9 Injector Vacuum Check (for troubleshooting injectors) 9 Injector Issues 10 Air Operated Valve Replacement 11 Pump Issues 11 Pressure Regulator Issues 12 Flow / Arch Issues 12 Valve Issues 12
Injector Optimization Tool 13
Reference 13 Chem-Flex Composite Injector Part Numbers 14 Chemical Dilution Ratios 15 Pressure Loss In Run Length 16 Replacement Parts List 17Warranty 18
Appendix A (Pre-Installation Checklist) 19
TABLE OF CONTENTS
© Hydra-Flex, Inc. 2017
The Aqua-Lab EVO was designed to meet the application requirements of the standard roll-over automatic car wash with an available pump room to store chemical and equipment.
The system is set-up so that all that is required from the car wash controller is an output signal for each valve. The EVO electrical control box uses that signal to open both the 3.5 watt air solenoid valves and to start the pump.
With a 40 psi or greater city water pressure feed, the standard 10 GPM pump produces up to 225 psi of pressure which is regulated down to 200 psi by the bypass regulator. (The pump should never run above 225 psi.)
The200psiwaterflowsintotheHydra-Cannonmanifold,whichisfittedwithupto12air-actuatedvalvesthatarecontrolledbyairsolenoidvalves.Thewatervalvescontroltheflowofwatertoeachinjectororflow-thrurinsefitting.
TheChem-Flexinjectorsarecolor-codedbasedonthewaterflowneededforeachindividualapplication,andcombinewithcolor-codedchemicalmeteringtipstoproportiontheprecisechemicalmixratio.Aswaterflowsinto the Chem-Flex injector, the velocity increases. As the velocity increases the pressure decreases creating a vacuum which allows the precise amount of chemical to be pulled into the chamber where it mixes with water. This precise chemical mixing, along with the proper nozzle, creates an optimal display in the wash bay.
Optional components include an inlet water selection valve, a foaming air wing, a system-protection pressure switch and a tri-foam manifold.
• The inlet water selection valve is operated using an air solenoid valve. This valve allows the option of using two different water sources.
• The foaming air wing can be used for foaming air or as a blow-out frost protection. When the temperature drops below a certain pre-set point, the car wash controller opens the air valve causing air to be forced through the lines, clearing them of water or solution that could potentially freeze and cause damage.
• The pressure switch is supplied to ensure that if the pump is not getting pressure, a signal will be sent to the controller to shut the system down.
• Thetri-foammanifoldisathreepositionquick-connectmanifoldthatfitsintoasingleporttosupporttriple foam or equivalent operations.
SPECIFICATIONS
PRINCIPLES OF OPERATION
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SYSTEM REQUIREMENTS
Power requirements
10 GPM pump Air-actuated valves
208-230V/3PH/8A or 460V/3PH/4A or 575V/3PH/4A
24VDC, 24VDC or 120VAC 3.5 watts per port
Space requirements 38” W x 44” H with pump assembly
Water inlet line 3/4” ID
Pneumatics operating pressure 80 - 100 PSI - Do not operate valves above 100 PSI
Operating ambient temperature 40 - 120° F
Solution outlet Up to 3.25 GPM 3.25 GPM - 5.5 GPM 5.5 GPM - 8 GPM
3/8”ID(1/2”polyflow) 1/2” ID 5/8” ID
Operating water pressure 200 PSI factory set (Assuming 40 PSI city feed), 180 PSI if tank fed
Max. water source temperature Recommended 110˚F (43˚C) - 137˚F (58°C) with Booster Pump
Air inlet line 3/8”ODpolyflow
Air outlet line 3/8”ODpolyflowperapplication
Air inlet pressure 20 CFM @ 80 - 120 PSI dry air
© Hydra-Flex, Inc. 2016 Page | 2
AQUA-LAB EVO™ COMPONENTS
H20 InletPressure Gauge
Air Pilot Solenoid Valves 1-12 starting at the bottomright hand side and working counterclockwise
Air Pilot ActuatedHydra-Cannon Valve –1-12 starting at the bottom right hand side and working counterclockwise
Air Pilot Solenoid Valves 9-12
Air Pilot Solenoid Valves 5-8
Foaming Air Solenoid Valves 13-15
Air Pilot Solenoid Valves 1-4
Air PilotSolenoid Valve 16For Inlet Water Selector (optional)
Pressure Switch(optional)Foaming Air or
Frost Protection AirValves + Regulators(Optional)
Three Phase Power In
Multi ConductorSignal Cable
Three PhasePower to Pump
Wye Strainer
Bypass/PressureRegulator
Inlet Water Selection Valve
(Optional)
Primary AirRegulator
10 GPM QuickChange Pump
Strain Relief
IntegratedElectrical
Control Box
Mounting Slots(2 top, 2 bottom)
1
12 11 10 9
8
7
6
5
4
3
2
1
See pg. 17 for replacement parts
© Hydra-Flex, Inc. 2017 Page | 3
L1
L2
L3
A2
1816
15B
1A
1
NOT3T2T1
NOL3L2L1
A2A1
95
T3T2T1
Pump3 HP
989796
Three Phase Disconnect
Off Delay Timer
240 OR480 VAC
Diode Terminal Block
Powe
r In
Contacter
RemotePressureSwitch
(V-)
ThermalOverload
Wire / Color#1#2#3#4#5#6#7#8#9#10#11#12
#1/White#2/White#3/White#4/White#5/White#6/White#7/White#8/White#9/White
#10/White#11/White#12/White
#13#14#15#16
#13/White#14/White#15/White#16/White
#18#19
#17#17#17#17#17#17#17#17
#1 & 2/Black#3 & 4/Black#5 & 6/Black#7 & 8/Black
#9 & 10/Black#11 & 12/Black#13 & 14/Black#15 & 16/Black
Over Load Must Be Set To 115% Of Motor FLA
Ground
(Control Voltage)
(V+)(Control Voltage)
INTEGRATED MOTOR STARTER WIRING DIAGRAM
© Hydra-Flex, Inc. 2016 Page | 4
5 EASY STEPS FOR INSTALLATIONCOMPLETE PRE-INSTALLATION CHECKLIST BEFORE THESE STEPS (Appendix A pg. 19)1. Unpack
2. Hang the equipment
3. Make connections
4. Start-up
5. Optimizing the system (see pg. 7)
INSTALLATION
HFI TERMINAL POSITION WIRE NUMBER
AIR ACTUATED HYDRA-CANNON VALVE-1 WIRE #1
AIR ACTUATED HYDRA-CANNON VALVE-2 WIRE #2
AIR ACTUATED HYDRA-CANNON VALVE-3 WIRE #3
AIR ACTUATED HYDRA-CANNON VALVE-4 WIRE #4
AIR ACTUATED HYDRA-CANNON VALVE-5 WIRE #5
AIR ACTUATED HYDRA-CANNON VALVE-6 WIRE #6
AIR ACTUATED HYDRA-CANNON VALVE-7 WIRE #7
AIR ACTUATED HYDRA-CANNON VALVE-8 WIRE #8
AIR ACTUATED HYDRA-CANNON VALVE-9 WIRE #9
AIR ACTUATED HYDRA-CANNON VALVE-10 WIRE #10
AIR ACTUATED HYDRA-CANNON VALVE-11 WIRE #11
AIR ACTUATED HYDRA-CANNON VALVE-12 WIRE #12
FOAMING AIR VALVE-13 WIRE #13
FOAMING AIR VALVE-14 WIRE #14
FOAMING AIR VALVE-15 WIRE #15
INLET SELECTOR-16 WIRE #16
COMMON-17 WIRE #17
+ CONTROL VOLTAGE-18 WIRE #18
LOW WATER FAULT-19 WIRE #19
© Hydra-Flex, Inc. 2017 Page | 5
General Skill Level• Mechanical: Basic - mounting equipment.
• Electrical: Advanced - three phase power and controls knowledge (local codes knowledge required).
• Plumbing: Moderate – principal supply line required.
INSTALLATION INSTRUCTIONS
WHO TASK EST. TIME
DISTRIBUTOR / TECHNICIAN HANG EQUIPMENT 1 HR
TECHNICIAN CONNECT WATER, AIR AND SOLUTION LINES 1/2 HR
TECHNICIAN CONNECT CONTROL LEADS TO MAIN CONTROLLER OR JUNCTION BOX 1 HR
DISTRIBUTOR/TECHNICIAN STARTUP (INJECTOR, METERING TIP AND NOZZLE SELECTION) 1/2 HR
DISTRIBUTOR/TECHNICIAN DOCUMENT CONFIGURATION 1/2 HR
TOTAL LABOR HOURS 3 1/2 HRS
WHO TASK EST. TIME
DISTRIBUTOR MONITOR & RECORD PERFORMANCE 1 HR / WK
DISTRIBUTOR MAINTENANCE PER SCHEDULE OR AS NEEDED
POST INSTALLATION
TOTAL HOURS SPENT
INSTALLATION
TOTAL CUSTOMER 1/4 HR
TOTAL DISTRIBUTOR/TECHNICIAN 6 HR
TOTAL ELECTRICIAN 1 HR
TOTAL PLUMBER 1 HR
Installation takes approximately ONE day. An electrician and a plumber are needed for half a day.
PRE-INSTALLATION
ESTIMATED TIMELINE
WHO TASK EST. TIME
DISTRIBUTOR & CUSTOMER DETERMINE LOCATION TO INSTALL EQUIPMENT 1/4 HR
PLUMBER INSTALL WATER SUPPLY LINE 1 HR
ELECTRICIAN INSTALL ELECTRICAL SUPPLY LINE 1 HR
TECHNICIAN LABEL ALL CONTROLLER RELAYS AT CONTROLLER 1/4 HR
TECHNICIAN RUN SOLUTION AND AIR LINES (IF NECESSARY) 1 HR
TECHNICIAN INSTALL AIR SUPPLY LINE 1 HR
TOTAL LABOR HOURS 4 1/2 HRS
© Hydra-Flex, Inc. 2016
PNEUMATIC CONNECTIONS• Connect pre-run 3/8” OD poly air feed line to push connect
fittingontheinletsideoftheprimaryregulator.
• Connect 3/8” OD poly lines from EVO to foam generator(s).
**If there are unused air ports, back out the individual line regulator until airnolongerflows.
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UNPACKINGThe AQUA-LAB EVO is shipped in a wooden crate for protection.
1. Cut straps holding boxes onto pallet.
2. Lift the pump from the pallet. Use assistance if necessary.
3. ***Be sure not to discard the manuals and accessories box.
LOCATION & MOUNTING**IflocationwasnotidentifiedduringthePre-InstallationProcess,makesuretoconsidertheproximityto feed water, power supply, and the control cabinet as well as space near the system to store chemical containers.
***See drawing in reference for general layout (in appendix A)
Pump Assembly - Need To Be Mounted On Left Side Of Aqua-Lab Evo Panel1. Drill (4x) 3/8” holes in wall for pump mounting bracket.
2. Insert concrete anchors, set pump mounting bracket on bolts & tighten down.
3. Slide pump onto stand.
AQUA-LAB EVO1. Drill (4) 5/32” holes on the wall. 19 1/4” wide, 33” tall.
2. Press EVO board tight against the wall.
3. Screw in 3/16” concrete screws with a washer (not included).
FEED WATER CONNECTION**Prior To Connection, Ensure That The Feed Lines Are Free Of Debris By Flushing Out The Lines For 15 Minutes.
• Connect pre-run main water supply line to pump inlet 3/4” NPT female connection.
• Hammer
• Tape measure
• Level
• Utility knife
• Wire stripper
• Socket set
• Adjustable wrench
• Screw driver set
• Teflontape
Tools & Equipment Needed• Drill with Phillips head
• Concrete drill bit 3/8”
• Concrete drill bit 5/32”
• Pneumatic: Basic- pneumatic utility connection required.
• Chemical Knowledge: Moderate - chemical titrations required.
© Hydra-Flex, Inc. 2017
PUMP PRIMING INSTRUCTIONS (ASSUMES > 40 PSI CITY FEED TO PUMP)1. Pull the pump outlet line at the manifold quick-connect. Open ball valve and direct toward a drain or
container to remove the majority of the air from the pump until a steady streamofwaterisflowing(approx.1min).
2. Start the pump for a short period of time. ENSURE THAT PUMP ROTATION IS CORRECT as indicated by the arrow on the bottom of the pump and that 200 psi can be reached.
• If pump cannot regulate to 200 psi, look at flat spot on the shaft or remove pump motor cover and look at shaft to confirm correct rotation.
3. Start the pump and slowly open ball valve until it is wide open. Allow to runfor60secondstoflushlinesandthenclosevalve.
4. Reconnect the high pressure line to the Hydra-Cannon Manifold and open valve.
5. Confirmthatthepumpcanobtain200psi(180psifortankfed)whilefiringsolenoidsandthat the pump housing (stainless steel tube) is cool to the touch after a minute in operation.
• If housing is hot or noisy, pump did not prime correctly.
• It is normal for external housing of the motor to exceed 150° F.
6. If pump does not prime, repeat steps 3-5.
7. Verify pump prime 24 hours after operation to ensure prime held. Pay close attention to the temperature of the pump housing (stainless steel area).If it starts getting hotter than the supply water or greater than 140° F, then it is likely that the pump did not prime correctly which WILL CAUSE DAMAGE to pumps. The motor housing (painted portion) will be hot during operation.
START UP
!WARNING!PUMP MUST BE PRIMED BEFORE OPERATION.
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CONSISTENTLY ACHIEVE THE DESIRED CLEANING AND PRESENTATION/PERFORMANCE USING THE LEAST AMOUNT OF CHEMICAL AND WATERINJECTORS VS. METERING TIPS VS. NOZZLESTHE KEY TO OPTIMIZING THE SYSTEM IS THROUGH TRIAL AND ERROR. DON’T BE AFRAID TO TRY THESE STEPS TO ACHIEVE YOUR IDEAL PERFORMANCE.
OPTIMIZING THE SYSTEM
© Hydra-Flex, Inc. 2016 Page | 8
What do injectors do?• Injectors increases or decreases the amount of water in the solution
What do metering tips do?• Metering tips increases or decreases the amount of chemical in the solution
What do nozzles do?• Nozzles determine the pattern and back pressure of the solution
APPLICATION OPTIMIZATION(REPEAT FOR EACH APPLICATION)• Application too wet
• Increase air• Reduce injector size (decreases water)• Increase metering tip (increases chemical)
• Application too dry• Decrease air• Increase injector size (increases water)• Decrease metering tip (decreases chemical)
• Nozzle sputters• Decrease air• Decrease nozzle(s) and/or size used on arch• Increase injector size (increases water)
• Too much chemical used• Decrease metering tip• Decrease metering tip and injector size (to maintain desired ratio)
• No chemical • Check vacuum of injector (see instructions on page 9 or page 13 if your using HFI’s Injector
Optimization Tool.)• Check foot valve• Check metering tip
• Nozzle fan pattern not filled• Reduce nozzle size• Increase injector size (increases water)
• Water not present at all nozzles on arch• Verify check valves are functioning• Verify nozzles are not plugged• Reduce number of nozzles• Reduce nozzle size• Increase injector size (increases water)
CHEMICAL USAGE MEASURINGVERIFY TITRATION OF CHEMICALS BEFORE PROCEEDING1. Set up lab scale with small bucket of chemical to be measured.
2. Put the suction line into the bucket.
3. Run the application being tested to “prime” the line. (All air bubbles must be removed for accuracy.)
4. Record the Initial Weight from the scale. (Tarring the scale with weight on the scale can affect accuracy.)
5. Run the application for 6 vehicles (or manually for the same amount of time it would be on for 6 vehicles).
6. Record the Final Weight from the scale.
7. Subtract the Initial Weight from the Final Weight to determine the weight of used product.
8. Divide this Used Weight by 6 to get a per car weight.
9. Divide the Per Car Weightingramsbythespecificgravityofthechemicaltodeterminethemillilitersof chemical used per vehicle.
10. Repeat for each chemical application.
0
8
16
24
© Hydra-Flex, Inc. 2017 Page | 9
RECOMMENDED MAINTENANCETHE RECOMMENDED SERVICE AND MAINTENANCE ON THE AQUA-LAB SYSTEM ARE AS FOLLOWS. Monthly
• Check air regulator.• Checkwaterfilterandreplaceasneeded(ifinstalled).
Semi-Annually• Check and replace injector metering tips.• Check and clean wye strainer.• Inspect and replace chemical lines as needed.• Ensure chemical draw lines are tightly secured to injector hose barbs. Chemical draw lines loosen
overtime which can cause deviation in chemical usage; clip 1” off old hose as needed that was stretched by hose barb.
Annually• Clean water regulator.• Inspectmotorstarterforcorrosion,ifidentifiedorderreplacement/spareparts.
1-3 Years• Inspect and replace injectors.• Replace water valves.• Replace main water pressure regulator.
TROUBLESHOOTING
C
B
INJECTOR VACUUM CHECK (FOR TROUBLESHOOTING INJECTORS) 1. At the Chem-Flex injector, remove the chemical feed line from
the injector hose barb.
2. Attach the tubing of the vacuum gauge to the Chem-Flex hose barb (Image A).
3. With the pump(s) on, manually activate the chemical that is to be tested at the main car wash control cabinet. An injector that is working properly will have a reading greater than or equalto(≥)20inHg
4. If vacuum reads <20 in/Hg (image B), remove solution metering tip (image C) and retest. a. If retest vacuum reads >20 in/Hg (image D), The solution metering tip is clogged. Replace the metering tip.
b. If Retest vacuum reads <20 in/Hg, continue to STEP 5
5. Remove a nozzle on the arch or the chemical feed line from the foam generator and retest vacuum. a. If retest vacuum reads >20 in/Hg, back pressure is being created. Continue to STEP 6.
b. If back pressure is not still not being created try these steps and retest after each:
1. Clean nozzle tips.
2. Loosely replace media in foam generator. Do no over pack.
A
© Hydra-Flex, Inc. 2016
INJECTOR ISSUESPROBLEM POTENTIAL CAUSES SOLUTIONSInjector is not drawing chemical - PASSES vacuum pressure check
Clogged chemical feed Check chemical hose, foot valve, metering tip and hose barb for debris or clogs.
Too much back pressure on injector Clean or replace downstream check valves, increase nozzle size or quantity, use larger tubing, or use smallerflowinjectors.
Clogged injector check valve Blow compressed air through the chemical hose barb on the injector to remove debris.
Injector is not drawing chemical - Clogged injector nozzle Remove injector and blow out any debris with compressed air.FAILS vacuum pressure check
Defective injector Replace injector.
Productspecific-Sonny’sRainBar Remove elbow at inlet to foam generator and remove nozzle.
Manifold inlet clogged (rare) Removeendfittingsandretentionrod.Cleanoutinletholestoallowfullflow.
Valve malfunction, valve not opening Ensure minimum 60 psi on primary air regulator, ensure valve receiving signal.
No flow from injector Clogged injector Remove injector and blow out debris with compressed air.
No water supply Check that the system has a supply of water.
Injector stainless steel disintegrating
Strong Acid Call Hydra-Flex and order composite version of injectors.
Page | 10
3. Decrease air pressure for foaming.
4. Try smaller injector (this will produce less flow and thus less back pressure).
c. If retest vacuum reads <20 in/Hg, replace injector and retest. If vacuum continues to read <20 in/Hg, call your service provider.
6. Repeat steps 2-5 for each chemical lane that a vacuum reading is needed for.
7. Once testing is complete, turn off the AQUA-LAB pump from the main car wash control cabinet.
There is a variation of performance in the injectors that comes from slight variations in the dimensions of the parts and in assembly that are unavoidable. It is common to see the resultant vacuum range from 20 in Hg all the way up to 28. There is also variation in the through hole size on the meter tips from Dema (within their manufacturing tolerances). Using the same tip color from site to site is a good starting point. However with the potential for variation from part to part it is reasonable to still need to do some adjustments from there.
D
© Hydra-Flex, Inc. 2017
AIR OPERATED VALVE REPLACEMENT(PN: 3000931)1. Shut off the ball valve to Hydra-Cannon manifold.
2. Disconnect air line from front of valve.
3. Unscrewquickconnectfittingbyhand(DON’T LOSE BLACK WASHER).4. Unscrew valve assembly from the Hydra-Cannon manifold.
5. Screw new valve into manifold until hand tight and threaded pilot port is facing forward.
6. Removethecapfrompilotportandthreadinquickconnectfittingtofront of valve – Hand Tight ONLY.
7. Pushairlinebackintofitting.
8. Open the ball valve to the Hydra-Cannon manifold.
PUMP ISSUES
Unscrew from manifold using this portion of valve
PROBLEM POTENTIAL CAUSES SOLUTIONSPump Operates, But Only Delivering 100-150 Psi Incorrect motor rotation
Reverse rotation by interchanging two power leads in motor starter box.
Pump Operates, But Delivers Little Or No Water
Pump not priming See priming instructions.
Missing 1 of 3 phases Wire according to diagram.
Inadequate water supplyCheck pressure on inlet side of pump to be sure positive pressure is maintained.
Undersized piping Replace with larger piping.
Leak on the inlet side Make sure connections are tight.
Worn or defective pump partsReplace worn parts or entire pump, clean parts if required.
Pump Will Not Start Or Run AtFull Speed
Constant hot not connectedMake sure constant control voltage is supplied in car wash controller.
Blown fuse or circuit breaker
Could be due to blown pump motor. Try to turn breaker back on or replace fuse. If breaker trips after trying to firethemotorismostlikelyburnedout.Replacewithnew motor and pump.
Defective motor starter contactor Replace motor starter contactor.
Thermal overload set too low Adjust setting on thermal overload to match voltage.
Incorrect motor voltage Voltage must be within 10% of motor rated voltage.
Defective motor Replace motor.
E-Stop is depressed Unlock E-stop.
Pump components damaged Replace worn part or entire pump.
Not primed Re-prime pump.
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© Hydra-Flex, Inc. 2016
PROBLEM POTENTIAL CAUSES SOLUTIONS
Excessive Noise From Pump
Pumpnotsecuredfirmly Secure properly.
Restricted inlet Clean or correct restriction.
Waterregulatorfluttering/chattering
Adjust regulator down and then back up or replace regulator.
Cavitation (sounds like marbles in pump)
Increase inlet size.
Worn mechanical seal Replace pump.
Pump Leaks Loosefittings,andornotenoughthread tape
Tightenfittings,andortakepartoffandputnewthread tape on.
PRESSURE REGULATOR ISSUES
FLOW / ARCH ISSUES
VALVE ISSUES
PROBLEM POTENTIAL CAUSES SOLUTIONS
System Won’t Regulate Up To 200 Psi
Pump not primed Follow priming instructions.
Debris in regulator Remove regulator and clean out debris.
Motor rotation incorrect Verify rotation.
Opening too many valves at onceSystem is limited by size of pump and size of injectors, increaseflowbyaddingsecondarypumpsorreducesize / number of injectors open.
Defective check valve (if applicable) Replace check valve.
Defective Regulator Replace regulator.
Defective Pump Replace Pump.
PROBLEM POTENTIAL CAUSES SOLUTIONS
Flow At Arch Is Too Low
Incorrectinjectorflowrateselection
Replace with larger injector.
System pressure too low Ensure system pressure is set at 200psi.
Foam generator plugged Ensure cleaned and clear.
Downstream plumbing restrictiveIncrease size of plumbing / tubing, ensure check valves are cleaned or new, reduce elbows in line or other turns that would restrict.
PROBLEM POTENTIAL CAUSES SOLUTIONS
Valve Will Not Open
Air pressure too lowEnsure primary air regulator reading at least 60 psi, turn up to 80-90psi if possible and check again.
System pressure too low
Remove valve from manifold, Carefully remove top of valve (caution – under high spring pressure) push white piston up with small allen wrench from opposite end and check o-ring condition. Replace and lubricate if needed.
Valve Leaks Air Or Water Out Top
Internal o-ring seal damaged / worn
Remove valve from manifold, Carefully remove top of valve (caution – under high spring pressure) push white piston up with small screwdriver from opposite end and check o-ring condition. Replace with 018 Viton O-ring and lubricate with Dow 111 valve lube.
Valve Remains Open After Signal Is Off Manifold pressure is above 230 psi
Reduce pressure to manifold to 200 psi operating pressure.
Page | 12
© Hydra-Flex, Inc. 2017
BACKGROUND:This tool is for initial setup and troubleshooting of Chem-Flex™ Injectors and an Aqua-Lab™ Chemical Dispensing System. In order for the injector to work properly and draw chemical this gauge must be in the “GREEN” section when installed immediately after an injector that is running. If the gauge is in the red you will either see: intermittent chemical, no chemical draw, or chemical being applied at a very low pressure.
Back pressure refers to the pressure in the solution output line. Excessive back pressure is the main reason that injectors will not draw. If there is ever any concern to why an injector is not drawing chemical, the best and easiest way to diagnose the problem is to check the back pressure. See instructions below:
INJECTOR OPTIMIZATION TOOL
STEPS:1. Plug the optimization tool into the
outlet line of injector and connect solution output line.
2. Turn on function from car wash controller to actuate Hydra-Cannon valvesuchthatfluidisflowingthrough both the injector and injector optimization tool and out to the applicator.
3. Read injector optimization tool.
4. If the gauge is in the “RED ZONE” the back pressure of the outlet line is either too low or too high. See steps below to correct.
BACK PRESSURE TOO HIGH (UPPER RED SECTION):
(Back Pressure May Be Affected By One Or Several Of These Things)1. Foam generators are clogged/degraded. Clean or replace media in generator.
2. Injectorflowsizeistoolarge.Godownaninjectorsize(lessGPM).
3. Nozzle size on the arch is too small. Go up in nozzle size.
4. Check valves are dirty and or failing. Clean or replace check valves.
5. Thereisakinkinthelineorexcessfittings(elbowsandreducersincreasethebackpressure).Checklineandreplaceanykinkedsections.Trytoreducefittings.
6. ID of tubing going out to the tunnel is too small. Go up a size in inside diameter.
7. Check valves have too high of cracking pressure. Replace check valve with lower pressure check valve.
8. Clean foot valve.
BACK PRESSURE TOO LOW (LOWER RED SECTION):
(Back Pressure May Be Affected By One Or Several Of These Things)1. Injectorflowtoolow.Increaseinjectorsize.
2. Nozzle size too large. Reduce nozzle size.
SolutionOutput Line
Hydra-Cannon Valve
Injector Optimization Tool
Injector
Chemical Draw Line
Chemical Bucket
Page | 13
© Hydra-Flex, Inc. 2016 Page | 14
Max Pressure InletNPT up to 1000 PSI (69 bar)
PC2 up to 500 PSI (34 bar)
Max Pressure Outlet 333 PSI (23 bar)
Temperature Range 33°F - 175°F (.5°C - 79°C)
Maximum Wrench Torque 30 ft-lbs (41 N-m)
SPECIFICATIONS
STANDARD SST CHEM-FLEX INJECTOR PART NUMBERSINLET CONNECTION PC2* (QUICK CONNECT)
OUTLET CONNECTION 3/8” MNPT
FOR USE WITH AQUA-LAB MODEL(S) MD GEN2, XD GEN2, HD
COLOR FLOW ORIFICE FLOW RATE @ 200 PSI (14 bar) SINGLE BARB DUAL BARB
White 0.029” (0.74 mm) 0.25 GPM (1.0 LPM) 618029 -
Yellow 0.040” (1.02 mm) 0.50 GPM (1.9 LPM) 618040 629040
Tan 0.051” (1.39 mm) 0.75 GPM (2.8 LPM) 618051 629051
Red 0.057” (1.45 mm) 1.00 GPM (3.8 LPM) 618057 629057
Orange 0.070” (1.78 mm) 1.50 GPM (5.7 LPM) 618070 629070
Gray 0.083” (2.11 mm) 2.00 GPM (7.6 LPM) 618083 629083
Dark Blue 0.086” (2.18 mm) 2.25 GPM (8.5 LPM) 618086 629086
Light Blue 0.095” (2.41 mm) 3.00 GPM (11.3 LPM) 618095 629095
Light Green 0.098” (2.49 mm) 3.25 GPM (12.3 LPM) 618098 629098
Pink 0.106” (2.69 mm) 3.75 GPM (14.2 LPM) 618106 629106
Purple 0.117” (2.98 mm) 4.50 GPM (17.0 LPM) 618117 629117
Dark Green 0.125” (3.18 mm) 5.50 GPM (20.8 LPM) 618125 629125
*For exclusive use with Aqua-Lab Chemical Dispensing Systems.
© Hydra-Flex, Inc. 2017 Page | 15
REFERENCE - CHEMICAL DILUTION RATIOS
3.00
”1:
251
1: 5
031:
754
1: 1
006
1: 1
509
1: 2
012
1: 2
263
1: 2
416
1: 2
460
1: 2
628
1: 4
526
1: 5
532
1: 8
047
1: 1
0059
1: 1
2070
1: 1
5088
2.00
”1:
181
1: 3
631:
544
1: 7
261:
108
91:
145
11:
163
31:
140
21:
133
71:
151
01:
326
61:
399
11:
580
61:
725
71:
870
81:
108
85
1.00
”1:
104
1: 2
081:
311
1: 4
151:
623
1: 8
311:
934
1: 8
351:
778
1: 8
981:
186
91:
228
41:
332
21:
415
31:
498
31:
622
9
0.75
”1:
82
1: 1
651:
247
1: 3
291:
494
1: 6
591:
741
1: 6
421:
668
1: 7
551:
148
31:
181
21:
263
61:
329
51:
395
41:
494
2
0.50
”1:
59
1: 1
191:
178
1: 2
381:
357
1: 4
751:
535
1: 4
871:
496
1: 5
581:
106
91:
130
71:
190
11:
237
61:
285
21:
356
4
0.25
”1:
34
1: 6
81:
102
1: 1
361:
204
1: 2
721:
306
1: 2
821:
304
1: 3
441:
612
1: 7
481:
108
81:
136
01:
163
21:
204
0
Spiral Plug Length
Flow
Rat
e(G
PM) a
t 200
PSI
0.25
0.50
0.75
1.00
1.50
2.00
2.25
3.00
3.25
3.75
4.50
5.50
8.0
10.0
12.0
15.0
Inje
ctor
Col
orW
hite
Yello
wTa
nRe
dO
rang
eG
ray
Blue
Ligh
t Bl
ueLi
ght
Gre
enPi
nkPu
rple
Dar
k G
reen
Blac
kBl
ack
Blac
kBl
ack
Noz
zle
Size
0.02
9”
(0.7
mm
)0.
040”
(1.0
mm
)0.
051”
(1.3
mm
)0.
057”
(1.4
mm
)0.
070”
(1.8
mm
)0.
083”
(2.1
mm
)0.
086”
(2.2
mm
)0.
095”
(2.4
mm
)0.
098”
(2.5
mm
)0.
106”
(2.7
mm
)0.
117”
(2.9
mm
)0.
125”
(3.2
mm
)0.
161”
(4.1
mm
)0.
117”
(4.5
mm
)0.
186”
(4.7
mm
)0.
207”
(5.3
mm
)
CO
PPER
1: 5
71:
104
1: 1
551:
195
1: 2
811:
406
1: 4
681:
598
1: 6
291:
739
1: 8
811:
107
41:
201
91:
231
81:
332
41:
425
9
PUM
PKIN
1: 4
31:
82
1: 1
191:
126
1: 2
381:
348
1: 3
981:
519
1: 5
541:
647
1: 7
741:
946
1: 1
465
1: 1
832
1: 2
310
1: 3
042
BURG
UN
DY
1: 3
41:
67
1: 9
71:
111
1: 2
071:
304
1: 3
471:
461
1: 4
951:
575
1: 6
901:
845
1: 1
244
1: 1
670
1: 1
975
1: 2
469
LIM
E1:
28
1: 5
71:
81
1: 1
001:
183
1: 2
701:
307
1: 4
141:
447
1: 5
181:
622
1: 7
641:
988
1: 1
262
1: 1
481
1: 1
958
TAN
1: 2
81:
57
1: 8
11:
100
1: 1
831:
270
1: 3
071:
414
1: 4
471:
518
1: 6
221:
764
1: 8
261:
104
21:
128
61:
155
7
ORA
NG
E1:
23
1: 4
41:
64
1: 7
81:
137
1: 1
961:
215
1: 2
931:
314
1: 3
651:
437
1: 5
361:
751
1: 8
741:
113
61:
126
2
TURQ
UO
ISE
1: 1
71:
31
1: 4
51:
55
1: 9
11:
126
1: 1
341:
185
1: 1
971:
230
1: 2
741:
336
1: 5
611:
752
1: 8
851:
109
9
PIN
K1:
14
1: 2
41:
35
1: 4
21:
68
1: 9
31:
98
1: 1
301:
143
1: 1
591:
188
1: 2
241:
372
1: 4
731:
570
1: 7
28
LIG
HT
BLU
E1:
11
1: 1
71:
24
1: 3
11:
47
1: 6
41:
66
1: 9
31:
98
1: 1
141:
136
1: 1
661:
318
1: 4
061:
483
1: 5
72
BRO
WN
1: 1
01:
15
1: 2
21:
28
1: 4
31:
58
1: 5
91:
84
1: 8
81:
103
1: 1
221:
150
1: 2
701:
338
1: 4
081:
507
RED
1: 1
21:
17
1: 2
31:
34
1: 4
51:
46
1: 6
51:
69
1: 8
01:
95
1: 1
161:
202
1: 2
541:
306
1: 3
75
WH
ITE
1: 1
21:
16
1: 2
21:
31
1: 4
21:
43
1: 6
11:
64
1: 7
41:
88
1: 1
081:
180
1: 2
261:
272
1: 3
43
GRE
EN1:
11
1: 1
41:
20
1: 2
81:
37
1: 3
81:
53
1: 5
51:
65
1: 7
61:
94
1: 1
601:
201
1: 2
411:
300
BLU
E1:
10
1: 1
21:
17
1: 2
31:
30
1: 3
11:
44
1: 4
61:
53
1: 6
31:
77
1: 1
221:
152
1: 1
851:
224
YELL
OW
1: 9
1: 1
21:
16
1: 2
01:
22
1: 3
01:
31
1: 3
61:
42
1: 5
21:
80
1: 1
001:
120
1: 1
48
BLA
CK
1: 1
01:
13
1: 1
61:
17
1: 2
31:
24
1: 2
81:
33
1: 4
01:
61
1: 7
71:
92
1: 1
15
PURP
LE1:
6.6
1: 8
.31:
91:
10
1: 1
31:
13
1: 1
51:
17
1: 2
11:
31
1: 3
91:
46
1: 5
7
GRA
Y1:
5.3
1: 6
.71:
6.9
1: 7
.61:
9.9
1: 1
01:
11.
61:
13
1: 1
61:
24
1: 3
01:
35
1: 4
4
OPE
N1:
4.9
1: 5
.31:
5.2
1: 6
.01:
6.1
1: 6
.11:
7.6
1: 8
.31:
10
1: 1
21:
15
1: 1
81:
23
Metering TipNO
TE: D
iluti
on
rati
os
giv
en a
re b
ased
on
dra
win
g w
ater
thr
oug
h th
e m
eter
ing
tip
s an
d a
re m
eant
as
a st
arti
ng p
oin
t fo
r sy
stem
co
nfig
urat
ion.
R
esul
ts a
re e
xpec
ted
to
var
y w
hen
dra
win
g c
hem
ical
s d
ue t
o d
iffer
ence
s in
vis
cosi
ty a
nd t
emp
erat
ure.
The
re m
ay b
e sl
ight
var
iati
ons
of
per
form
ance
in
inje
cto
rs a
nd m
eter
ing
tip
s th
at a
re u
navo
idab
le d
ue t
o m
anuf
actu
re t
ole
ranc
es. U
sing
the
sam
e ti
p c
olo
r fr
om
sit
e to
sit
e is
a g
oo
d s
tart
ing
po
int.
H
ow
ever
wit
h th
e p
ote
ntia
l fo
r va
riat
ion
fro
m p
art
to p
art
it is
rea
sona
ble
to
sti
ll ne
ed t
o d
o s
om
e ad
just
men
ts f
rom
the
re.
3/7”
po
lyflo
w (L
LDP
E) t
ubin
g is
req
uire
d t
o e
nsur
e a
seal
bet
wee
n th
e tu
be
wal
l and
the
sp
iral
plu
g.
(Ass
umes
feed
pre
ssur
e of
200
PSI
(14
bar)
)
© Hydra-Flex, Inc. 2016 Page | 16
PRESSURE LOSS IN RUN LENGTH
All solution line tubing should be selected for 10 PSI or less of pressure loss.
*20 PSI pressure loss may be acceptable depending upon nozzle sizing, foamers, check valves and other line restrictions present in application.
All numbers represent pressure loss in PSI for selected solution line tubing.
GREEN = GOOD YELLOW= USE CAUTION RED = NOT RECOMMENDED
INJECTORFlow Rate (GPM) at 200 PSI 0.25 0.50 0.75 1.00 1.50 2.00 2.25 3.00 3.25 3.75 4.50 5.50
Injector Color White Yellow Tan Red Orange Gray DarkBlue
LightBlue
Light Green Pink Purple Dark
Green
Nozzle Size 0.029”(0.7 mm)
0.040”(1.0 mm)
0.051”(1.3 mm)
0.057”(1.4 mm)
0.070”(1.8 mm)
0.083”(2.1 mm)
0.086”(2.2 mm)
0.095” (2.41 mm)
0.098”(2.5 mm)
0.106” (2.69 mm)
0.117”(2.9 mm)
0.125”(3.2 mm)
150’ 1 PSI 1 PSI 1 PSI 1 PSI 2 PSI 3 PSI 4 PSI 6 PSI 7 PSI 9 PSI 13 PSI* 18 PSI*125’ 1 PSI 1 PSI 1 PSI 1 PSI 2 PSI 3 PSI 4 PSI 5 PSI 6 PSI 8 PSI 11 PSI* 16 PSI*100’ 1 PSI 1 PSI 1 PSI 1 PSI 2 PSI 2 PSI 3 PSI 4 PSI 5 PSI 6 PSI 9 PSI 13 PSI*75’ 1 PSI 1 PSI 1 PSI 1 PSI 1 PSI 2 PSI 3 PSI 3 PSI 4 PSI 5 PSI 7 PSI 9 PSI50’ 1 PSI 1 PSI 1 PSI 1 PSI 1 PSI 1 PSI 2 PSI 2 PSI 3 PSI 3 PSI 5 PSI 6 PSI25’ 1 PSI 1 PSI 1 PSI 1 PSI 1 PSI 1 PSI 1 PSI 1 PSI 2 PSI 2 PSI 3 PSI 4 PSI
Run
Leng
th
5/8” ID BRAIDED
INJECTORFlow Rate (GPM) at 200 PSI 0.25 0.50 0.75 1.00 1.50 2.00 2.25 3.00 3.25 3.75 4.50 5.50
Injector Color White Yellow Tan Red Orange Gray Blue LightBlue
LightGreen Pink Purple Dark
Green
Nozzle Size 0.029”(0.7 mm)
0.040”(1.0 mm)
0.051”(1.3 mm)
0.057”(1.4 mm)
0.070”(1.8 mm)
0.083”(2.1 mm)
0.086”(2.2 mm)
0.095” (2.41 mm)
0.098”(2.5 mm)
0.106” (2.69 mm)
0.117”(2.9 mm)
0.125”(3.2 mm)
150’ 1 PSI 1 PSI 2 PSI 3 PSI 6 PSI 9 PSI 11 PSI* 18 PSI* 21 PSI 27 PSI 36 PSI 56 PSI125’ 1 PSI 1 PSI 2 PSI 3 PSI 5 PSI 8 PSI 9 PSI 15 PSI* 18 PSI* 23 PSI 30 PSI 47 PSI100’ 1 PSI 1 PSI 2 PSI 2 PSI 4 PSI 7 PSI 8 PSI 12 PSI* 14 PSI* 18 PSI* 24 PSI 36 PSI75’ 1 PSI 1 PSI 1 PSI 2 PSI 3 PSI 5 PSI 6 PSI 9 PSI 11 PSI* 14 PSI* 18 PSI* 26 PSI50’ 1 PSI 1 PSI 1 PSI 1 PSI 2 PSI 4 PSI 4 PSI 6 PSI 8 PSI 9 PSI 12 PSI* 18 PSI*25’ 1 PSI 1 PSI 1 PSI 1 PSI 1 PSI 2 PSI 2 PSI 3 PSI 4 PSI 5 PSI 6 PSI 9 PSI
Run
Leng
th
1/2” ID BRAIDED
INJECTORFlow Rate (GPM) at 200 PSI 0.25 0.50 0.75 1.00 1.50 2.00 2.25 3.00 3.25 3.75 4.50 5.50
Injector Color White Yellow Tan Red Orange Gray Blue LightBlue
LightGreen Pink Purple Dark
Green
Nozzle Size 0.029”(0.7 mm)
0.040”(1.0 mm)
0.051”(1.3 mm)
0.057”(1.4 mm)
0.070”(1.8 mm)
0.083”(2.1 mm)
0.086”(2.2 mm)
0.095” (2.41 mm)
0.098”(2.5 mm)
0.106” (2.69 mm)
0.117”(2.9 mm)
0.125”(3.2 mm)
150’ 1 PSI 5 PSI 7 PSI 11 PSI* 22 PSI 36 PSI 44 PSI 76 PSI 88 PSI 115 PSI 154 PSI 239 PSI125’ 1 PSI 4 PSI 6 PSI 9 PSI 18 PSI* 30 PSI 37 PSI 63 PSI 73 PSI 101 PSI 129 PSI 200 PSI100’ 1 PSI 3 PSI 5 PSI 7 PSI 14 PSI* 23 PSI 28 PSI 50 PSI 54 PSI 77 PSI 103 PSI 142 PSI75’ 1 PSI 2 PSI 4 PSI 6 PSI 12 PSI* 18 PSI* 22 PSI 37 PSI 42 PSI 53 PSI 77 PSI 106 PSI50’ 1 PSI 1 PSI 3 PSI 4 PSI 8 PSI 12 PSI* 15 PSI* 25 PSI 28 PSI 39 PSI 52 PSI 73 PSI25’ 1 PSI 1 PSI 1 PSI 2 PSI 3 PSI 6 PSI 7 PSI 12 PSI* 13 PSI* 19 PSI* 26 PSI 34 PSI
Run
Leng
th
3/8” ID, 1/2” OD POLY TUBE
© Hydra-Flex, Inc. 2017
T EF
U
NP
O
G
A,B,C,D
K
UH
I,J
M
VZY
L
QRS
1
12 11 10 9
8
7
6
5
4
3
2
1
W or X
G
REPLACEMENT PARTS LIST - AQUA-LAB EVO™
Page | 17
AE
C
DB
© Hydra-Flex, Inc. 2016
PART NAME PART NUMBER
A Contactor
24 VAC - 3001336
24 VDC - 3001337
120 VAC - 3001338
B Thermal Overload 3001335
C Diode Terminal Block 3001200
D Terminal Block 3000338
E Timer Relay 3000664
F Din I x Field Wireable Cable - With LED 24 VAC/VDC - 3001157
120 VAC 3001156
G Air Actuated Hydra-Cannon Valve Replacement Kit - Composite 3000931
H 20 GPM Bypass Pressure Regulator - Brass 3000915
I 3/4” Wye Strainer - 20 Mesh 3000668
J3/4” NPT T16 Wye Strainer Screen & Gasket Kit 1001936
3/4” NPT T15 Wye Strainer Screen & Gasket Kit 1001937
K 1/2” Inlet Ball Valve 3000565
L Solenoid Actuated Air Valve - Non Foaming
24VAC - 3001152
24 VDC - 3001153
120 VAC - 3001154
M Solenoid Actuated Air Valve - Foaming
24 VAC - 1001428
24 VDC - 1001429
120 VAC - 1001430
N Foaming Small Air Regulator & 0-60 PSI Gauge 3000808
O Primary Air Regulator 3001160
P Thermal Relief Valve - 1/2” NPT 3000323
Not Shown 1/4” Hose Barb Foaming Air Check Valve 3000819
Q 3/4” Air Actuated 3-Way Ball Valve Inlet Selector 3001165
R 3/4” Male Quick Connect - Brass 3000196
S 3/4” Female Quick Connect - Brass 3000197
T Flow-Thru Adapter 3000173
Not Shown Duo-Foam Manifold (Injectors Not Included) 1001232
U Manifold Inlet Hose 1/2” ID hose X 1/2” NPT Ends 72” (1.8 m) Long 3000579
Not Shown Hydra-Cannon Valve O-Ring Replacement Kit 1001155
V Low Water Fault Kit 3001205
W 10 GPM Pump 208-230V/3PH/8A or 460V/3PH/4A 3001159
X 10 GPM Pump 575V/3PH/4A 3001434
Y 1/2” Female Quick Connect - Brass 3000502
Z 1/2” Male Quick Connect - Brass 3000500
© Hydra-Flex, Inc. 2017
AQUA-LAB ACCESSORIES
PART NAME PART NUMBERDuo-Foam Kit 1001869
Triple-Foam Kit 1001948
Quad-Foam Kit 1001949
High-Flow Rinse Kit 1001230
Anti-Siphon Kit (PC2) 1001436
Injector Optimization Tool 1002018
Vacuum Tester Kit 1001104
Water Filtration System - Cold 1001431
Water Filtration System - Cold Replacement Filter 3000855
PC2 Plug - Stainless Steel 3000022
Flow-Through Adapter 3000173
Vinyl Hose Barb Cap 3000745
Remote Metering Device/Check Hub 1001756
3/8” Coupler 3000522
3/8” Elbow 3000523
3/8” x 1/2” Push-To-Connect 3000526
3/8” Check Valve (PC2) 3000970
© Hydra-Flex, Inc. 2016
FACTORY LIMITEDHydra-Flex, Inc warrants its equipment to be free from defect in material or workmanship under proper
normal use for a period of one (1) year beginning the date of purchase.
Hydra-Flex,Inc’sliabilityshallbelimitedtorepairorreplacementofpartsfoundtobedefectivewithinthe
warrantyperiodandfollowingHydra-Flex,Inc’sinspection.Hydra-Flex,Incshallhavetheoptionrequiring
thereturnofdefectivematerialtoestablishthepurchaser’sclaim.Intheeventofrepairorreplacement
this limited warranty is non-cumulative. Neither labor nor transportation charges are included in this
warranty.
This warranty is based upon the proper care and maintenance of the warranted equipment. Warranty
doesnotapplyifthemerchandiseisalteredormodifiedinanyway.Warrantydoesnotapplytoany
equipment which has been subject to misuse, inappropriate use of tools, including exposure to harsh
chemicals,neglect,lackofmaintenance,freezing,fluidhammer,accident,thirdpartydamage,fluid
impurities such as sand or minerals, acts of God or acts of war. Nor does it apply to any equipment which
has been repaired or altered by anyone not so authorized by Hydra-Flex, Inc. All equipment must be
properlyinstalledinaccordancewithspecifiedplumbing,electrical,andmechanicalrequirements.The
warranty does not apply to normal wear and tear or routine maintenance components as described in the
equipment manual.
Except as expressly stated herein, Hydra-Flex, Inc shall not be liable for damages of any kind in
connectionwiththepurchase,maintenance,oruseofthisequipmentincludinglossofprofitsandall
claims for consequential damages. This limited warranty is in lieu of all other warranties expressed or
implied. Hydra-Flex, Inc neither assumes nor authorizes any person to assume for it any other obligation
or liability in connection herewith. This warranty is neither assignable nor transferable.
Transportation damage claims are to be submitted to the carrier of the damaged material.
AQUA-LAB EVO™ WARRANTY
Page | 18
© Hydra-Flex, Inc. 2017
Distributor / Technician:
Chem. Supplier:
Car wash Owner:
Site Manager:
Electrician:
Plumber:
Other:
AQUA-LAB EVO PRE-INSTALLATION CHECKLISTSTEP 1: Determine who will be involved in installation
STEP 2: Determine Aqua-Lab location• EVO – 38” wide x 44” high • Pump–8”widex4’high
STEP 3: Electrician to provide breaker and line run to the location where the motor starter will be mounted per local code.
• 15 amp Breaker per Operating PumpSTEP 4: Run water supply line to location
• Single Pump – 3/4” Supply LineSTEP 5: Locate main car wash control panel. Identify and label all relays.STEP 6: Locate main compressed air line and drop a 3/8” feed to the location of the AQUA LAB.STEP 7: Run new ½” poly lines for solution from the gantry to the location of the AQUA LAB EVO.
• Carefully label each line for the application and chemical. STEP 8: Run new 3/8” poly lines for air from the gantry to the location of the AQUA LAB EVO. STEP 9: Confirm delivery of AQUA LAB EVO with HFI
Delivery Date: ________________________STEP 10: Coordinate Install date with all parties involved
Install Date: ________________________
APPENDIX A
Page | 19
34"
3612"
2114"
5014"
1914"
2014"
4518"
GENERAL LAYOUT
T: 952-808-3640 • F: 952-808-3650 • www.hydraflexinc.com•[email protected]
4000003 revL0717