Grundfos JPF 41-A User manual

Grundfos
Brand
Grundfos
Model
JPF 41-A
Type
User manual
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GRUNDFOS PRODUCT GUIDE
Domestic Water Supply Family
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Domestic Water Supply Family
Table of Contents
Applications
Page No.
• Constantpressure............................................................ 5
• Flowbasedpressureboosting......................................5
• Suctionlift...........................................................................6
• Rainwaterharvesting......................................................6
Pump Selections
• EZBoost..............................................................................6
• MQ.........................................................................................6
• BasicLineJets....................................................................6
Accessories
• PressureTanks.................................................................... 7
• PressureSwitches.............................................................. 7
• Valves................................................................................... 7
 – Check......................................................................... 7
 – Foot............................................................................ 7
 – Shut-off...................................................................... 7
 – FlowControl............................................................. 7
 – PressureReducing................................................... 7
 – PressureRelief.......................................................... 7
Theory
Matchingconsumptionandpumpcapacity................... 7
Pumpselection....................................................................... 7
Piping......................................................................................... 7
Trouble Shooting
Suctionlift................................................................................8
Floodedsuction.......................................................................8
PressureTanks........................................................................9
WebCAPS..................................................................................9
EZBoost...................................................................................12
MQ...........................................................................................28
BasicLineJets........................................................................38
Submittal Data Sheet.................................................. 57
Handbook
Product Guides
2
Domestic Water Supply Handbook
Handbook
Domestic Water Supply Handbook
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Domestic Water Supply Family
Table of Contents
Applications
Page No.
• Constantpressure............................................................ 5
• Flowbasedpressureboosting...................................... 5
• Suctionlift...........................................................................6
• Rainwaterharvesting......................................................6
Pump Selections
• EZBoost..............................................................................6
• MQ.........................................................................................6
• BasicLineJets....................................................................6
Accessories
• PressureTanks.................................................................... 7
• PressureSwitches.............................................................. 7
• Valves................................................................................... 7
 – Check......................................................................... 7
 – Foot............................................................................ 7
 – Shut-off...................................................................... 7
 – FlowControl............................................................. 7
 – PressureReducing................................................... 7
 – PressureRelief.......................................................... 7
Theory
Matchingconsumptionandpumpcapacity................... 7
Pumpselection....................................................................... 7
Piping......................................................................................... 7
Trouble Shooting
Suctionlift................................................................................8
Floodedsuction.......................................................................8
PressureTanks........................................................................9
WebCAPS..................................................................................9
EZBoost...................................................................................12
MQ...........................................................................................28
BasicLineJets........................................................................38
Submittal Data Sheet.................................................. 57
Handbook
Product Guides
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Domestic Water Supply Handbook
Handbook
Domestic Water Supply Handbook
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Handbook
Notes
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Handbook
Applications
Constant Pressure System:
Inconstantwaterpressuresystems,onlytherequireddischargepressureneedssetting.Cut-in/outpressuresdonot
playaroleinthissystem.
InGrundfos’sBMQEconstantwaterpressuresystem(EZBoost),thisisdonebyasimpletouchofabuttononthe
accompanyingCU301controlunit.Dischargepressurecanbesetfrom40to100PSI,accordingtoindividualneedsand
pipingsystemlimitations.
H
Time
noitpmusnoc ot pihsnoitaler ni yrav ton seod erusserP
Flow Based Pressure Boosting:
Thepumpstartsautomaticallywhenwaterisconsumedandstopsautomaticallywhentheconsumptionceases.
Thisisaccomplishedbyaflowswitchconnectedtoaprintedcircuitboard(PCB).Theflowswitchisclosedwhen
waterisconsumedandthesignalsenttothePCBstartsthepump.Theflowswitchisopenedwhenthecon-
sumptionceasesandthesignalsenttothePCBstopsthepump.
Thepumpwillproducepressureinrelationtotheflowratewithanyincomingpressurecumulativetothetotal
dischargepressure.
Incoming PSI = City Water Pressure Outgoing PSI = Incoming PSI + MQ Performance
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Handbook
Notes
4
Handbook
Applications
Constant Pressure System:
Inconstantwaterpressuresystems,onlytherequireddischargepressureneedssetting.Cut-in/outpressuresdonot
playaroleinthissystem.
InGrundfos’sBMQEconstantwaterpressuresystem(EZBoost),thisisdonebyasimpletouchofabuttononthe
accompanyingCU301controlunit.Dischargepressurecanbesetfrom40to100PSI,accordingtoindividualneedsand
pipingsystemlimitations.
H
Time
noitpmusnoc ot pihsnoitaler ni yrav ton seod erusserP
Flow Based Pressure Boosting:
Thepumpstartsautomaticallywhenwaterisconsumedandstopsautomaticallywhentheconsumptionceases.
Thisisaccomplishedbyaflowswitchconnectedtoaprintedcircuitboard(PCB).Theflowswitchisclosedwhen
waterisconsumedandthesignalsenttothePCBstartsthepump.Theflowswitchisopenedwhenthecon-
sumptionceasesandthesignalsenttothePCBstopsthepump.
Thepumpwillproducepressureinrelationtotheflowratewithanyincomingpressurecumulativetothetotal
dischargepressure.
Incoming PSI = City Water Pressure Outgoing PSI = Incoming PSI + MQ Performance
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Suction Lift:
Highpressurewaterfromthedrivepipepassesthroughtheventuriandpulls
waterfromthewellintotheejector,andthenpushesituptothepump.This
allowsustopushwateruptothepumpfromdepthsgreaterthan25feet,or
toboosttheoutputfromashallowwellpumptohigherpressures.
Handbook
Applications
DRIVE
PIPE
SUCTION
PIPE
VENTURI
NOZZLE
INLET
Rain Water Harvesting:
Reduce,reuse,andrecycle.TheThreeR’sofconservation.Rainwaterharvestingisthewaytostorerainwaterforfuture
usesuchasthewateringofagarden.Simplycollectrainwaterfromtheroofofyourhomethroughtheevesintoastorage
container.UsetheMQtopullasuctionlift,usinganoncollapsiblesuctionline,fromthestoragecontainertowateryour
garden.
Pump Selections:
EZ Boost: Constant Pressure at the touch of a button.
TheEZBoostusesthetimetestedtechnologyusedintheSQEconstantpressuresystem(submersibleapplication).The
MSE3motorsarebasedonsolidstateelectronicsandpermanentmagnetrotorswhichaccountforhighmotorefficiencies.
VariablespeedisofferedthoughfrequencycontrolviatheCU301remotestatusbox.TheSystemcanbesettooperateat
anydutypointintherangebetweenminimumandmaximumperformanceofthepump.TheEZBoosthasbuiltinsafeties
inthesolidstateelectronics.Thesmallfootprintofthepumpallowsthesystemtobepositionedeitherverticallyorhorizon-
tallydependingontheneedsoftheapplication.RefertotheEZBoostinstallationvideoonourwebsitewww.grundfos.us
MQ: Maximum Quality Flow Based Pressure Boosting System:
TheMQisacomplete,all-in-oneunit,incorporatingpump,motor,diaphragmtank,pressureandflowsensor,controllerand
checkvalve.Builtinsafetiesensurelonglifeofthepump.Thesesafetiesinclude:dryrunning;excessivetemperature;any
overloadconditions.TheMQisaselfprimingpumpandneedsnoprimingotherthanthatatinstallation.TheMQisaplug-
n-playsystem.
Basic Line: Durable and dependable Basic Line Jets.
Grundfosoffersshallowwell,deepwell,andconvertiblejetpumps.Ourjetsareself-primingcentrifugalpumpssuitablefor
domesticwatersupply,lightagriculture,andindustrialwatertransferapplications.Threemodelsinclude:JPS;JPF;JDF.The
JPSareshallowwelljetswithbuilt-inejectors.TheJPFareconvertiblejetswithdetachableejectorassemblyfordeepwell
applications.TheJDFaredeepwelljetswithseparatedeepwellportforconnectiontoDeepWellejectorkits.
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Handbook
Accessories
Pressure Tanks:

TanksareprovidedwiththeEZBoostandMQsystems.TheEZBoosthasanexternaltankandtheMQaninternaltank.The
BasicLinehowevermayneedatankdependingonyourapplication.Inordertominimizethenumberofpumpstartsand
stopsinthewatersupplysystem,andtoreduceproblemswithwaterhammerinthepipework,apressuretankshouldbe
installed.
Pressure Switches:
Pressureswitchesareusedtocontrolpumpoperation.Theseswitcheshaveacut-inpressureandacut-outpressuretoturn
thepumponandoffrespectfully.TheEZBoostcomeswithapressuretransducerforconstantpressure.TheMQhasabuilt-
inpressureswitch.BasicLineJetshavethepressureswitchattached.
Valves:
Check valves: TheEZBoostandMQsystemshavebuilt-incheckvalves.WhendoingasuctionliftwiththeMQacheck
valveisrequiredattheinlet.ThischeckvalveisprovidedwitheveryMQ.
Foot Valves:Whenpullingasuctionlift(shallowordeepwell)withtheBasicLineafootvalveisrequired.Thisvalve
isinstalledattheendofthesuctionpipetopreventbackflow.TheMQwillalsobenefitfromtheuseofafootvalve
whendoingsuctionlifts.
Shut off valves:Useshutoffvalvesinthepipingsysteminsuchawaytomakeitpossibletodrainonlythepartofthe
systemthatneedsattentionorrepair.
Flow control valves:Usedinapplicationswhereasetamountofflow(gallonsperminute)arerequired.Anexample
ofthiswouldbeashowerheadoranirrigationsystem.
Pressure reducing valves:Usedinapplicationswheretheincomingwaterpressureexceedsthemaximuminletpres-
sureofthepumpasisthecasewiththeMQandcitywaterpressure.ThePressureReducingValveorPRVisusedinline
afterthecitywatertapandbeforethepumptoensureasetpressure.
Pressure relief valves: Thisvalveisaspringcontrolleddevisethatcanbeadjustedtomeettheneedsofthepumping
system.Usedinapplicationswherehighpressurecanresultindamagetoaccessoriessuchastankswherethereare
maximumpressureratings.
Theory:
Matching consumption and pump capacity:
Selectingtherightpumpisamatterofmatchingwaterconsumptionwithpumpcapacity.Installinganunderor
oversizedpumpshouldbeavoided.Consumptionvariesgreatlydependingonhousingstandardsandlifestyle.Garden
wateringinthesummercanincreaseconsumption.
Pump Selection:
Pumpselectionisbasedonthewaterdemandandthesystemhead.Thewaterdemanddependsonthenumberof
consumersconnectedtothesystem.HeadcaneitherbeexpressedinfeetorPSI.Headreferstostatichead,pressure
head,andfrictionhead.ForassistanceinPumpSelectionrefertotheWebCAPSselectionprogramfoundonthe
Grundfoswebsite.
Piping:
Inanywatersupplysystem,thesizingandchoiceofmaterialsofthepipeworkhasanimpactonthechoiceofpumps
andonthecost.PipingtakesintoaccountthesystemheadasreferredtoinPumpSelection.Staticheadisthedistance
fromthegroundwaterleveltotheuppermosttap.Pressureheadisthesystempressurethecustomerwantstoachieve.
Inmostresidentialapplicationthispressureisapproximately60PSI.Frictionheaddependsonthepipesize,typeand
length.Whencalculatingfrictionlossalwaysremembertoallowfordeteriorationinthepipingschematicasallwater
pipeswilleventuallybecomecoatedwithrust,limedeposits,etc.Flowvelocityinthepipingmustbekeptlowasnoise
canoccurduetoturbulenceinelbowsandvalvesorfromwaterhammer.Fittingapressurereliefvalveinthedischarge
pipingisrecommendedtoprotectthepipingfromover-pressureduetosystemmalfunction.
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Suction Lift:
Highpressurewaterfromthedrivepipepassesthroughtheventuriandpulls
waterfromthewellintotheejector,andthenpushesituptothepump.This
allowsustopushwateruptothepumpfromdepthsgreaterthan25feet,or
toboosttheoutputfromashallowwellpumptohigherpressures.
Handbook
Applications
DRIVE
PIPE
SUCTION
PIPE
VENTURI
NOZZLE
INLET
Rain Water Harvesting:
Reduce,reuse,andrecycle.TheThreeR’sofconservation.Rainwaterharvestingisthewaytostorerainwaterforfuture
usesuchasthewateringofagarden.Simplycollectrainwaterfromtheroofofyourhomethroughtheevesintoastorage
container.UsetheMQtopullasuctionlift,usinganoncollapsiblesuctionline,fromthestoragecontainertowateryour
garden.
Pump Selections:
EZ Boost: Constant Pressure at the touch of a button.
TheEZBoostusesthetimetestedtechnologyusedintheSQEconstantpressuresystem(submersibleapplication).The
MSE3motorsarebasedonsolidstateelectronicsandpermanentmagnetrotorswhichaccountforhighmotorefficiencies.
VariablespeedisofferedthoughfrequencycontrolviatheCU301remotestatusbox.TheSystemcanbesettooperateat
anydutypointintherangebetweenminimumandmaximumperformanceofthepump.TheEZBoosthasbuiltinsafeties
inthesolidstateelectronics.Thesmallfootprintofthepumpallowsthesystemtobepositionedeitherverticallyorhorizon-
tallydependingontheneedsoftheapplication.RefertotheEZBoostinstallationvideoonourwebsitewww.grundfos.us
MQ: Maximum Quality Flow Based Pressure Boosting System:
TheMQisacomplete,all-in-oneunit,incorporatingpump,motor,diaphragmtank,pressureandflowsensor,controllerand
checkvalve.Builtinsafetiesensurelonglifeofthepump.Thesesafetiesinclude:dryrunning;excessivetemperature;any
overloadconditions.TheMQisaselfprimingpumpandneedsnoprimingotherthanthatatinstallation.TheMQisaplug-
n-playsystem.
Basic Line: Durable and dependable Basic Line Jets.
Grundfosoffersshallowwell,deepwell,andconvertiblejetpumps.Ourjetsareself-primingcentrifugalpumpssuitablefor
domesticwatersupply,lightagriculture,andindustrialwatertransferapplications.Threemodelsinclude:JPS;JPF;JDF.The
JPSareshallowwelljetswithbuilt-inejectors.TheJPFareconvertiblejetswithdetachableejectorassemblyfordeepwell
applications.TheJDFaredeepwelljetswithseparatedeepwellportforconnectiontoDeepWellejectorkits.
6
Handbook
Accessories
Pressure Tanks:

TanksareprovidedwiththeEZBoostandMQsystems.TheEZBoosthasanexternaltankandtheMQaninternaltank.The
BasicLinehowevermayneedatankdependingonyourapplication.Inordertominimizethenumberofpumpstartsand
stopsinthewatersupplysystem,andtoreduceproblemswithwaterhammerinthepipework,apressuretankshouldbe
installed.
Pressure Switches:
Pressureswitchesareusedtocontrolpumpoperation.Theseswitcheshaveacut-inpressureandacut-outpressuretoturn
thepumponandoffrespectfully.TheEZBoostcomeswithapressuretransducerforconstantpressure.TheMQhasabuilt-
inpressureswitch.BasicLineJetshavethepressureswitchattached.
Valves:
Check valves: TheEZBoostandMQsystemshavebuilt-incheckvalves.WhendoingasuctionliftwiththeMQacheck
valveisrequiredattheinlet.ThischeckvalveisprovidedwitheveryMQ.
Foot Valves:Whenpullingasuctionlift(shallowordeepwell)withtheBasicLineafootvalveisrequired.Thisvalve
isinstalledattheendofthesuctionpipetopreventbackflow.TheMQwillalsobenefitfromtheuseofafootvalve
whendoingsuctionlifts.
Shut off valves:Useshutoffvalvesinthepipingsysteminsuchawaytomakeitpossibletodrainonlythepartofthe
systemthatneedsattentionorrepair.
Flow control valves:Usedinapplicationswhereasetamountofflow(gallonsperminute)arerequired.Anexample
ofthiswouldbeashowerheadoranirrigationsystem.
Pressure reducing valves:Usedinapplicationswheretheincomingwaterpressureexceedsthemaximuminletpres-
sureofthepumpasisthecasewiththeMQandcitywaterpressure.ThePressureReducingValveorPRVisusedinline
afterthecitywatertapandbeforethepumptoensureasetpressure.
Pressure relief valves: Thisvalveisaspringcontrolleddevisethatcanbeadjustedtomeettheneedsofthepumping
system.Usedinapplicationswherehighpressurecanresultindamagetoaccessoriessuchastankswherethereare
maximumpressureratings.
Theory:
Matching consumption and pump capacity:
Selectingtherightpumpisamatterofmatchingwaterconsumptionwithpumpcapacity.Installinganunderor
oversizedpumpshouldbeavoided.Consumptionvariesgreatlydependingonhousingstandardsandlifestyle.Garden
wateringinthesummercanincreaseconsumption.
Pump Selection:
Pumpselectionisbasedonthewaterdemandandthesystemhead.Thewaterdemanddependsonthenumberof
consumersconnectedtothesystem.HeadcaneitherbeexpressedinfeetorPSI.Headreferstostatichead,pressure
head,andfrictionhead.ForassistanceinPumpSelectionrefertotheWebCAPSselectionprogramfoundonthe
Grundfoswebsite.
Piping:
Inanywatersupplysystem,thesizingandchoiceofmaterialsofthepipeworkhasanimpactonthechoiceofpumps
andonthecost.PipingtakesintoaccountthesystemheadasreferredtoinPumpSelection.Staticheadisthedistance
fromthegroundwaterleveltotheuppermosttap.Pressureheadisthesystempressurethecustomerwantstoachieve.
Inmostresidentialapplicationthispressureisapproximately60PSI.Frictionheaddependsonthepipesize,typeand
length.Whencalculatingfrictionlossalwaysremembertoallowfordeteriorationinthepipingschematicasallwater
pipeswilleventuallybecomecoatedwithrust,limedeposits,etc.Flowvelocityinthepipingmustbekeptlowasnoise
canoccurduetoturbulenceinelbowsandvalvesorfromwaterhammer.Fittingapressurereliefvalveinthedischarge
pipingisrecommendedtoprotectthepipingfromover-pressureduetosystemmalfunction.
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Handbook
Troubleshooting
Troubleshooting:
Suction Lift:
Wheninstallingabovegroundsuctionliftpumps,thefollowingbasicrulesmustbeadheredto:
•Avoidfrost.
•Pumponlycleanwater.
•Installafilterifwatercontainsimpurities.
•Afoot-valvemustbeinstalled.
•Thesuctionpipemustbe100%airtight.
•Thepumpmustbeprimedbeforestartingforthefirsttime.
Fault Cause Remedy
1. The pump is running but
there is no pressure.
a) The pump and suction pipe
work need to be primed.
Fill the pump and pipe with
water.
b) The suction pipe is not 100% tight.
Check all connections and the
suction pipe. Replace if
necessary.
2. The pump does not stop.
a) The pressure switch is set incor-
rectly.
Check the setting
and adjust accordingly
3. The pump does not deliver
enough water.
a) Lack of water in the well. Drill new well.
b) Suction pipe is not 100% tight.
Check all connections and the
suction pipe. Replace if
necessary.
c) Pipe system is blocked. Clean pipework.
d) Pump capacity is not sufficient
Replace with a larger capacity
pump
4. Pump switches on and off
frequently.
a) Pre-pressure in pressure tank is too
low or too high.
Adjust pre-pressure in pressure
tank. (0,9 x cut-in pressure)
b) Faulty footvalve.
Check footvalve,
replace if necessary.
c) The pressure switch differen-
tial between the start and stop
pressures is too small.
Increase the differential.
Flooded Suction:
Wheninstallingabovegroundsuctionboosterpumps,the
followingbasicrulesmustbeadheredto:
•Inletpressure.
•Avoidfrost.
•Pumponlycleanwater.
•Avoiddry-running
•Anon-returnvalvemustbeinstalled.
•Thesuctionpipemustbe100%airtight.
•Thepumpandpipingmustbeprimedbeforestarting
forthefirsttime.
8
Handbook
Accessories
Fault Cause Remedy
5. The pump is running but
there is no pressure.
a) The pump and/or suction pipe
is incorrectly primed.
Prime the pump and/or suction
pipe with water.
b) The non-return valve or suction
pipe is leaky.
Replace the non-return valve
and/or seal the suction pipe.
6. The pump does not deliver
enough water.
a) The suction lift is too high.
Check the distance from the
pump to the water level in the
well. If possible, mount the
pump nearer the water level.
b) Pressure switch settings are incor-
rect
Adjust settings accordingly
7. The pump has run for a
long time, but delivers no
water when restarted after a
standstill.
a) The pump and/or suction pipe is
emptied of water.
Prime the pump and/or suction
pipe with water.
8. Pump switches on and off
frequently.
a) Pre pressure in pressure tank is
too low or too high.
Adjust pre-pressure in pressure
tank. (0,9 x cut-in pressure)
b) Faulty foot valve.
Check footvalve, replace if nec-
essary.
c) The pressure switch differential
between the start and stop pressures
is too small.
Increase the differential.
Pressure Tanks:
Keepthefollowingtipsinmind,whendealingwithinstallationsusingpressuretanks:
•Stopthepumpandopenavalvetorelievethewaterpressurebeforecheckingthepre-chargepressureof
thetank.
•Fortraditionalon/offcontrolledpumps,thepre-chargepressureshouldequalthecut-inpressuremultipliedby0.9.
Installation note:
YoushouldalwaysconsulttheInstructionandOperationmanualforeachspecificpumpduringinstallationandstart.
WebCAPS:
FinddetailedinformationviatheGrundfoswebsite.WebCAPSisaneasytouseon-linetoolthatenablesusers
tosizesystemsandaccessgeneralinformationaboutourproducts,whereyoucaneasilydownloadthemost
up-todatepumpinformation.
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Handbook
Troubleshooting
Troubleshooting:
Suction Lift:
Wheninstallingabovegroundsuctionliftpumps,thefollowingbasicrulesmustbeadheredto:
•Avoidfrost.
•Pumponlycleanwater.
•Installafilterifwatercontainsimpurities.
•Afoot-valvemustbeinstalled.
•Thesuctionpipemustbe100%airtight.
•Thepumpmustbeprimedbeforestartingforthefirsttime.
Fault Cause Remedy
1. The pump is running but
there is no pressure.
a) The pump and suction pipe
work need to be primed.
Fill the pump and pipe with
water.
b) The suction pipe is not 100% tight.
Check all connections and the
suction pipe. Replace if
necessary.
2. The pump does not stop.
a) The pressure switch is set incor-
rectly.
Check the setting
and adjust accordingly
3. The pump does not deliver
enough water.
a) Lack of water in the well. Drill new well.
b) Suction pipe is not 100% tight.
Check all connections and the
suction pipe. Replace if
necessary.
c) Pipe system is blocked. Clean pipework.
d) Pump capacity is not sufficient
Replace with a larger capacity
pump
4. Pump switches on and off
frequently.
a) Pre-pressure in pressure tank is too
low or too high.
Adjust pre-pressure in pressure
tank. (0,9 x cut-in pressure)
b) Faulty footvalve.
Check footvalve,
replace if necessary.
c) The pressure switch differen-
tial between the start and stop
pressures is too small.
Increase the differential.
Flooded Suction:
Wheninstallingabovegroundsuctionboosterpumps,the
followingbasicrulesmustbeadheredto:
•Inletpressure.
•Avoidfrost.
•Pumponlycleanwater.
•Avoiddry-running
•Anon-returnvalvemustbeinstalled.
•Thesuctionpipemustbe100%airtight.
•Thepumpandpipingmustbeprimedbeforestarting
forthefirsttime.
8
Handbook
Accessories
Fault Cause Remedy
5. The pump is running but
there is no pressure.
a) The pump and/or suction pipe
is incorrectly primed.
Prime the pump and/or suction
pipe with water.
b) The non-return valve or suction
pipe is leaky.
Replace the non-return valve
and/or seal the suction pipe.
6. The pump does not deliver
enough water.
a) The suction lift is too high.
Check the distance from the
pump to the water level in the
well. If possible, mount the
pump nearer the water level.
b) Pressure switch settings are incor-
rect
Adjust settings accordingly
7. The pump has run for a
long time, but delivers no
water when restarted after a
standstill.
a) The pump and/or suction pipe is
emptied of water.
Prime the pump and/or suction
pipe with water.
8. Pump switches on and off
frequently.
a) Pre pressure in pressure tank is
too low or too high.
Adjust pre-pressure in pressure
tank. (0,9 x cut-in pressure)
b) Faulty foot valve.
Check footvalve, replace if nec-
essary.
c) The pressure switch differential
between the start and stop pressures
is too small.
Increase the differential.
Pressure Tanks:
Keepthefollowingtipsinmind,whendealingwithinstallationsusingpressuretanks:
•Stopthepumpandopenavalvetorelievethewaterpressurebeforecheckingthepre-chargepressureof
thetank.
•Fortraditionalon/offcontrolledpumps,thepre-chargepressureshouldequalthecut-inpressuremultipliedby0.9.
Installation note:
YoushouldalwaysconsulttheInstructionandOperationmanualforeachspecificpumpduringinstallationandstart.
WebCAPS:
FinddetailedinformationviatheGrundfoswebsite.WebCAPSisaneasytouseon-linetoolthatenablesusers
tosizesystemsandaccessgeneralinformationaboutourproducts,whereyoucaneasilydownloadthemost
up-todatepumpinformation.
9
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EZ Boost
TM
System with BMQE Booster Pump,
Tank, Pressure Sensor, and Controller
Product Guide
EZ Boost™ System
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EZ Boost
TM
System with BMQE Booster Pump,
Tank, Pressure Sensor, and Controller
Product Guide
EZ Boost™ System
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Product Guide Page No.
Generaldata 13
Productrange 14
Materialsofconstruction 15
Typekey 15
15BMQEperformancecurves 16
22BMQEperformancecurves 17
30BMQEperformancecurves 18
Dimensions,weightsandelectricaldata 19
Dimensionalsketch 19
Technicaldata-BMQEpump 20
Technicaldata-EZBoostcontroller 21
Accessories 22
EZBoostQuickGuide 23
EZBoostSystemDiagram 23
EZBoostPre-Installation 24
ParallelOperation 25
Contents EZ Boost
TM
System
12
EZ BOOST SYSTEM
Introduction
Therearemanyapplicationswithinwatersupplywhereit
isnecessarytoincreasethesystempressure.TheGrundfos
EZBoostsystemistheoptimumsolutionforapplications
requiring:
•Seallesspumps
•Quietoperationand/or
•Maintenance-freeoperation.
TheEZBoostsystemoffersthefollowingfeatures:
•Dry-runningprotection
•Highefficiencyofpumpandmotor
•Excellentwearresistance
•Softstarter
•Overvoltageandundervoltageprotection
•Overloadprotection
•Overtemperatureprotection.
•Variablespeed
•Electroniccontrolandcommunication.
Applications
•Pressureboosting.
•Watertreatment.
Pumped liquids
Thin, non-explosive liquids not containing abrasive par-
ticlesor fibers. The liquidmust not be ableto attack the
pumpmaterialschemicallyormechanically.
Shouldthedensityand/orviscosity of thepumpedliquid
exceedthe density and/or viscosityof water, please con-
tactGrundfos.
BMQE Pump
The pumps used for The Grundfos EZ Boost system are
modified SQE submersible pumps. The EZ Boost BMQE
pump is an SQE pump with an MSE 3 motor. Pump and
motorarecenteredinthe4”stainlesssteelsleeve.
BMQEpumpsaresuitableforbothcontinuousandinter-
mittentoperationforavarietyofpressureboostingappli-
cations.
BMQE Motor
TheMSE3motorsarebasedonstate-of-the-arttechnology
within permanent magnets (PM motor), which accounts
for the high motor efficiencies. In addition, the motors
haveabuilt-inelectronicunitwithafrequencyconverter
forvariablefrequencyandsoftstarting.
Product Guide EZ Boost
TM
System
TheMSE 3 motors features high efficiency within a wide
load range. The high and flat efficiency curve of the PM
motor enables the same motor to cover a wide power
range as opposed to conventional AC motors. For BMQE
pumps,thismeansfewermotorvariants.
EZ Boost Controller
TheBMQEpumpfeaturesvariablespeedwhichisoffered
throughfrequencycontrolviatheEZBoostcontroller.Asa
consequence,thepumpcanbesettooperateinanyduty
pointintherangebetweentheminimumandmaximum
performancecurvesofthepump.EachBMQEpumpmust
beconnectedtoitsownEZBoostcontroller.
ItisalsopossibletooperatetheBMQEwithoutanEZBoost
controller,thoughthefeaturesofferedwillbefewer.
Operating conditions
Flow: Max.39USGPM(8.9m3/h)
Head: Max.300ft(91.4m)
Temperature: Max.95°F(35°C)
Operatingpressure: Max.347PSI(23bar)
Inletpressure: Min.8PSI(0.55bar)
Sound-pressurelevel: Thesoundpressurelevelofthe
BMQE is lower than 74 db[A] at a distance of 3 feet (1
meter).
It is recommended by Grundfos that the pump be installed
with sound and vibration dampening equipment such as
flexible piping adapters and anti-vibration mounting. The
pump should not be mounted in or adjacent to living quar-
ters. The pump can also be wrapped with sound- proofing
insulation to reduce noise (see page 16, EZ Boost System
Diagram).
BMQE Pump Sectional Drawing
Pos.
1. Sleeve 5. SQEpump
2. Dischargeconnection 6. Cableentry
3. Suctionconnection 7. Centeringdevice
4. MSE3motor 8. Airventscrew
6
2
5
4
7
3
1
8
13
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Untitled-1 1 4/22/11 7:07 PM
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Untitled-1 1 4/22/11 7:07 PM
Product Guide Page No.
Generaldata 13
Productrange 14
Materialsofconstruction 15
Typekey 15
15BMQEperformancecurves 16
22BMQEperformancecurves 17
30BMQEperformancecurves 18
Dimensions,weightsandelectricaldata 19
Dimensionalsketch 19
Technicaldata-BMQEpump 20
Technicaldata-EZBoostcontroller 21
Accessories 22
EZBoostQuickGuide 23
EZBoostSystemDiagram 23
EZBoostPre-Installation 24
ParallelOperation 25
Contents EZ Boost
TM
System
12
EZ BOOST SYSTEM
Introduction
Therearemanyapplicationswithinwatersupplywhereit
isnecessarytoincreasethesystempressure.TheGrundfos
EZBoostsystemistheoptimumsolutionforapplications
requiring:
•Seallesspumps
•Quietoperationand/or
•Maintenance-freeoperation.
TheEZBoostsystemoffersthefollowingfeatures:
•Dry-runningprotection
•Highefficiencyofpumpandmotor
•Excellentwearresistance
•Softstarter
•Overvoltageandundervoltageprotection
•Overloadprotection
•Overtemperatureprotection.
•Variablespeed
•Electroniccontrolandcommunication.
Applications
•Pressureboosting.
•Watertreatment.
Pumped liquids
Thin, non-explosive liquids not containing abrasive par-
ticlesor fibers. The liquidmust not be ableto attack the
pumpmaterialschemicallyormechanically.
Shouldthedensityand/orviscosity of thepumpedliquid
exceedthe density and/or viscosityof water, please con-
tactGrundfos.
BMQE Pump
The pumps used for The Grundfos EZ Boost system are
modified SQE submersible pumps. The EZ Boost BMQE
pump is an SQE pump with an MSE 3 motor. Pump and
motorarecenteredinthe4”stainlesssteelsleeve.
BMQEpumpsaresuitableforbothcontinuousandinter-
mittentoperationforavarietyofpressureboostingappli-
cations.
BMQE Motor
TheMSE3motorsarebasedonstate-of-the-arttechnology
within permanent magnets (PM motor), which accounts
for the high motor efficiencies. In addition, the motors
haveabuilt-inelectronicunitwithafrequencyconverter
forvariablefrequencyandsoftstarting.
Product Guide EZ Boost
TM
System
TheMSE 3 motors features high efficiency within awide
load range. The high and flat efficiency curve of the PM
motor enables the same motor to cover a wide power
range as opposed to conventional AC motors. For BMQE
pumps,thismeansfewermotorvariants.
EZ Boost Controller
TheBMQEpumpfeaturesvariablespeedwhichisoffered
throughfrequencycontrolviatheEZBoostcontroller.Asa
consequence,thepumpcanbesettooperateinanyduty
pointintherangebetweentheminimumandmaximum
performancecurvesofthepump.EachBMQEpumpmust
beconnectedtoitsownEZBoostcontroller.
ItisalsopossibletooperatetheBMQEwithoutanEZBoost
controller,thoughthefeaturesofferedwillbefewer.
Operating conditions
Flow: Max.39USGPM(8.9m3/h)
Head: Max.300ft(91.4m)
Temperature: Max.95°F(35°C)
Operatingpressure: Max.347PSI(23bar)
Inletpressure: Min.8PSI(0.55bar)
Sound-pressurelevel: Thesoundpressurelevelofthe
BMQE is lower than 74 db[A] at a distance of 3 feet (1
meter).
It is recommended by Grundfos that the pump be installed
with sound and vibration dampening equipment such as
flexible piping adapters and anti-vibration mounting. The
pump should not be mounted in or adjacent to living quar-
ters. The pump can also be wrapped with sound- proofing
insulation to reduce noise (see page 16, EZ Boost System
Diagram).
BMQE Pump Sectional Drawing
Pos.
1. Sleeve 5. SQEpump
2. Dischargeconnection 6. Cableentry
3. Suctionconnection 7. Centeringdevice
4. MSE3motor 8. Airventscrew
6
2
5
4
7
3
1
8
13
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Performance range, 60 Hz
Product range
Range BMQE 15 BMQE 22 BMQE 30
Nominalflowrate[USGPM(m3/h)] 15(3.4) 22(5.0) 30(6.8)
Temperaturerange +32to+95°F(0to+35°C)
Maximuminletpressure[PSI(bar)]
Maximumworkingpressure[PSI(bar)]
217(15)
347(23)
Maximumefficiency[%] 57 62 60
Flowrange[USGPM(m
3
/h)] 0to19(4.3) 0to33(7.5) 0to39(8.8)
Maximumpumppressure[ft(m/PSI)] 300(91.4)/130 290(88.4)/125 208(63.4)/90
Pipeconnection 1.25”NPTinlet/1”NPTdischarge
Product Guide EZ Boost
TM
System
0 5 10 15 20 25 30 35 Q [US GPM]
0
40
80
120
160
200
240
280
[ft]
H
0
20
40
60
80
100
120
P
[psi]
0 1 2 3 4 5 6 7 8 9 Q [m³/h]
0
20
40
60
80
H
[m]
30 BMQE 05B-90
22 BMQE 05B-120
15 BMQE 05A-110
15 BMQE 07B-180
22 BMQE 05A-80
22 BMQE 10C-190
30 BMQE 10C-130
TK01 3101 3304
14
Materials BMQ
Sleeve
Pos.
Description Material AISI
90 Sleeve Stainlesssteel 316
91 Flange Stainlesssteel 304
92 Cableentry
Stainlesssteel/
FKM
304
93 Airventscrew Stainlesssteel 304
94 O-ring FKM
Pump
Pos.
Description Material AISI
1 Valvecasing Polyamide/PVDF
1a Dischargechamber Stainlesssteel 304
1d O-ring NBRrubber
3 Valveseat NBRrubber
4a Emptychamber Polyamide/PVDF
6 Topbearing NBRrubber
7 Neckring Polyamide/PVDF
7a Lockring Stainlesssteel 310
7b Neckringretainer Polyamide/PVDF 310
9b Emptychamber Polyamide/PVDF
9c Bottomchamber Polyamide/PVDF
13
ImpellerwithTCbear-
ing
Polyamide/PVDF
14
Suction
interconnector
Polyamide/PVDF
14a Ring Stainlesssteel 304
16 Shaftwithcoupling Stainlesssteel 304
30 Cone Polyamide/PVDF
32 Guidevanes Polyamide/PVDF
39 Spring Stainlesssteel 316LN
55 Pumpsleeve Stainlesssteel 316
64 Primingscrew Polyamide/PVDF
70 Valveguide Polyamide/PVDF
86 Lipseal NBRrubber
87 Conecomplete Polyamide/PVDF
Motor
Pos.
Description Material AISI
201 Stator Stainlesssteel 304
202 Rotor Stainlesssteel 304
202a Stopring PP
202b Filter Polyester
203 Thrustbearing Carbon
205 Radialbearing Ceramic/TC
220 Motorcablewithplug EPR
222a Fillingplug NBRrubber
224 O-ring FKM
225 Topcover PPS
232 Shaftseal NBRrubber
Type key
Example 22 BMQ E 05B 120
RatedflowinUSGPM
EZBoostpump
Electronicallycontrolledpump
viaEZBoostcontroller
MotorHP
Headinfeetatratedflow
Product Guide EZ Boost
TM
System
1d
7a
1
70
2
39
3
1a
55
16
30
86
87
64
18
18b
18a
6
4a
9b
32
13
9c
7
14
14a
7b
92
93
91
94
90
202a
202
202b
222a
232
203
224
205
225
201
220
233
15
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Performance range, 60 Hz
Product range
Range BMQE 15 BMQE 22 BMQE 30
Nominalflowrate[USGPM(m3/h)] 15(3.4) 22(5.0) 30(6.8)
Temperaturerange +32to+95°F(0to+35°C)
Maximuminletpressure[PSI(bar)]
Maximumworkingpressure[PSI(bar)]
217(15)
347(23)
Maximumefficiency[%] 57 62 60
Flowrange[USGPM(m
3
/h)] 0to19(4.3) 0to33(7.5) 0to39(8.8)
Maximumpumppressure[ft(m/PSI)] 300(91.4)/130 290(88.4)/125 208(63.4)/90
Pipeconnection 1.25”NPTinlet/1”NPTdischarge
Product Guide EZ Boost
TM
System
0 5 10 15 20 25 30 35 Q [US GPM]
0
40
80
120
160
200
240
280
[ft]
H
0
20
40
60
80
100
120
P
[psi]
0 1 2 3 4 5 6 7 8 9 Q [m³/h]
0
20
40
60
80
H
[m]
30 BMQE 05B-90
22 BMQE 05B-120
15 BMQE 05A-110
15 BMQE 07B-180
22 BMQE 05A-80
22 BMQE 10C-190
30 BMQE 10C-130
TK01 3101 3304
14
Materials BMQ
Sleeve
Pos.
Description Material AISI
90 Sleeve Stainlesssteel 316
91 Flange Stainlesssteel 304
92 Cableentry
Stainlesssteel/
FKM
304
93 Airventscrew Stainlesssteel 304
94 O-ring FKM
Pump
Pos.
Description Material AISI
1 Valvecasing Polyamide/PVDF
1a Dischargechamber Stainlesssteel 304
1d O-ring NBRrubber
3 Valveseat NBRrubber
4a Emptychamber Polyamide/PVDF
6 Topbearing NBRrubber
7 Neckring Polyamide/PVDF
7a Lockring Stainlesssteel 310
7b Neckringretainer Polyamide/PVDF 310
9b Emptychamber Polyamide/PVDF
9c Bottomchamber Polyamide/PVDF
13
ImpellerwithTCbear-
ing
Polyamide/PVDF
14
Suction
interconnector
Polyamide/PVDF
14a Ring Stainlesssteel 304
16 Shaftwithcoupling Stainlesssteel 304
30 Cone Polyamide/PVDF
32 Guidevanes Polyamide/PVDF
39 Spring Stainlesssteel 316LN
55 Pumpsleeve Stainlesssteel 316
64 Primingscrew Polyamide/PVDF
70 Valveguide Polyamide/PVDF
86 Lipseal NBRrubber
87 Conecomplete Polyamide/PVDF
Motor
Pos.
Description Material AISI
201 Stator Stainlesssteel 304
202 Rotor Stainlesssteel 304
202a Stopring PP
202b Filter Polyester
203 Thrustbearing Carbon
205 Radialbearing Ceramic/TC
220 Motorcablewithplug EPR
222a Fillingplug NBRrubber
224 O-ring FKM
225 Topcover PPS
232 Shaftseal NBRrubber
Type key
Example 22 BMQ E 05B 120
RatedflowinUSGPM
EZBoostpump
Electronicallycontrolledpump
viaEZBoostcontroller
MotorHP
Headinfeetatratedflow
Product Guide EZ Boost
TM
System
1d
7a
1
70
2
39
3
1a
55
16
30
86
87
64
18
18b
18a
6
4a
9b
32
13
9c
7
14
14a
7b
92
93
91
94
90
202a
202
202b
222a
232
203
224
205
225
201
220
233
15
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Product Guide EZ Boost
TM
System
0 2 4 6 8 10 12 14 16 18 Q [US GPM]
0
50
100
150
200
250
300
[ft]
H
0
20
40
60
80
100
120
140
P
[psi]
0
20
40
60
80
100
H
[m]
0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 Q [m³/h]
15 BMQE
60 Hz
07B-180 (5-stage)
05A-110 (3-stage)
0 2 4 6 8 10 12 14 16 18 Q [US GPM]
0.0
0.1
0.2
0.3
[hp]
P2
0
20
40
60
[%]
Eta
0.0
0.1
0.2
P2
[kW]
P2
Eta
TK01 3098 3304
16
Product Guide EZ Boost
TM
System
0 5 10 15 20 25 30 Q [US GPM]
0
50
100
150
200
250
300
[ft]
H
0
20
40
60
80
100
120
140
P
[psi]
0
20
40
60
80
100
H
[m]
0 1 2 3 4 5 6 7 Q [m³/h]
05A-80 (2-stage)
05B-120 (3stage)
10C-190 (5-stage)
0 5 10 15 20 25 30 Q [US GPM]
0.0
0.2
0.4
0.6
[hp]
P2
0
20
40
60
[%]
Eta
0
0
0
P2
[kW]
P2
Eta
TK01 3099 3304
17
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Product Guide EZ Boost
TM
System
0 2 4 6 8 10 12 14 16 18 Q [US GPM]
0
50
100
150
200
250
300
[ft]
H
0
20
40
60
80
100
120
140
P
[psi]
0
20
40
60
80
100
H
[m]
0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 Q [m³/h]
15 BMQE
60 Hz
07B-180 (5-stage)
05A-110 (3-stage)
0 2 4 6 8 10 12 14 16 18 Q [US GPM]
0.0
0.1
0.2
0.3
[hp]
P2
0
20
40
60
[%]
Eta
0.0
0.1
0.2
P2
[kW]
P2
Eta
TK01 3098 3304
16
Product Guide EZ Boost
TM
System
0 5 10 15 20 25 30 Q [US GPM]
0
50
100
150
200
250
300
[ft]
H
0
20
40
60
80
100
120
140
P
[psi]
0
20
40
60
80
100
H
[m]
0 1 2 3 4 5 6 7 Q [m³/h]
05A-80 (2-stage)
05B-120 (3stage)
10C-190 (5-stage)
0 5 10 15 20 25 30 Q [US GPM]
0.0
0.2
0.4
0.6
[hp]
P2
0
20
40
60
[%]
Eta
0
0
0
P2
[kW]
P2
Eta
TK01 3099 3304
17
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Product Guide EZ Boost
TM
System
0 5 10 15 20 25 30 35 Q [US GPM]
0
20
40
60
80
100
120
140
160
180
200
220
[ft]
H
0
10
20
30
40
50
60
70
80
90
P
[psi]
0 1 2 3 4 5 6 7 8 9 Q [m³/h]
0
10
20
30
40
50
60
70
H
[m]
05B-90 (2-stage)
10C-130 (3-stage)
0 5 10 15 20 25 30 35 Q [US GPM]
0.0
0.2
0.4
0.6
[hp]
P2
0
20
40
60
[%]
Eta
0
0
0
P2
[kW]
P2
Eta
TK01 3100 3304
18
Product Guide EZ Boost
TM
System
Model
Material
number
Max. motor output
[P2]
Rated
Voltage
Rated
current
[A]
Locked rotor
current
[A]
Shipping
weight
[lb (kg)]
Shipping
volume
[ft
3
(m
3
)]
hp kW
15BMQE05A-110 91128524 0.845 0.63 110-115 9.2 11.1 26(11.8)
0.9(0.025)
22BMQE05A-80 91128527 0.845 0.63 110-115 7.8 11.1 26(11.8)
15BMQE05A-110 91128525 0.845 0.63 200-240 4.6 5.0 26(11.8)
15BMQE07B-180 91128526 1.408 1.05 200-240 7.1 8.0 29(13.2)
22BMQE05A-80 91128528 0.845 0.63 200-240 3.9 5.0 26(11.8)
22BMQE05B-120 91128529 1.408 1.05 200-240 5.6 8.0 29(13.2)
22BMQE10C-190 91128530 2.320 1.73 200-240 9.9 11.1 31(14.1)
30BMQE05B-90 91128531 1.408 1.05 200-240 6.0 8.0 31(14.1)
30BMQE10C-130 91128533 2.320 1.73 200-240 9.5 11.1 31(14.1)
Weights and electrical data
43.3"/1100
Cable
entry
Airvent
screw
0.8"/20.5
ø4.6"/116
ø3.5"/88.9
1.25"NPT
1.0"NPT
Dimensional sketch [in/mm]
19
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Product Guide EZ Boost
TM
System
18
Product Guide EZ Boost
TM
System
Model
Material
number
Max. motor output
[P2]
Rated
Voltage
Rated
current
[A]
Locked rotor
current
[A]
Shipping
weight
[lb (kg)]
Shipping
volume
[ft
3
(m
3
)]
hp kW
15BMQE05A-110 91128524 0.845 0.63 110-115 9.2 11.1 26(11.8)
0.9(0.025)
22BMQE05A-80 91128527 0.845 0.63 110-115 7.8 11.1 26(11.8)
15BMQE05A-110 91128525 0.845 0.63 200-240 4.6 5.0 26(11.8)
15BMQE07B-180 91128526 1.408 1.05 200-240 7.1 8.0 29(13.2)
22BMQE05A-80 91128528 0.845 0.63 200-240 3.9 5.0 26(11.8)
22BMQE05B-120 91128529 1.408 1.05 200-240 5.6 8.0 29(13.2)
22BMQE10C-190 91128530 2.320 1.73 200-240 9.9 11.1 31(14.1)
30BMQE05B-90 91128531 1.408 1.05 200-240 6.0 8.0 31(14.1)
30BMQE10C-130 91128533 2.320 1.73 200-240 9.5 11.1 31(14.1)
Weights and electrical data
43.3"/1100
Cable
entry
Airvent
screw
0.8"/20.5
ø4.6"/116
ø3.5"/88.9
1.25"NPT
1.0"NPT
Dimensional sketch [in/mm]
19
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Product Guide EZ Boost
TM
System
Main power supply to pump 1 x 200-240 V –10%/+6%, 60 Hz
1 x 110-115 V –10%/+6%, 60 Hz
Starting Soft starting.
Stopping SoftstoppingwhenstoppedbytheEZBoostcontroller
Run-uptime Maximum:2seconds.
Nolimitationtothenumberofstarts/stopsperhour.
Motorprotection Builtintothepump.
Protectionagainst:
Dryrunning
Overvoltageandundervoltage
230Vcutsoutat<150Vand>280V
115Vcutsoutat<75Vand>150V
Overload
Overtemperature
Soundpressurelevel
Thesoundpressurelevelis<74db[A]atadistanceof3feet(1meter).It is recommended by
Grundfos that the pump be installed with sound and vibration dampening equipment such as;
flexible piping adapters and anti-vibration mounting. The pump should not be mounted in or
adjacent to living quarters. The pump can also be wrapped with sound proofing insulation to
reduce noise. (See page 16, EZ Boost System Diagram.)
Resetfunction BMQEpumpscanberesetviaEZBoostcontroller.
Powerfactor PF=1.
Operationviagenerator ItisrecommendedthatthegeneratoroutputisequaltothemotorinputpowerP1[kW]plus
50%;min.P1+10%,however.
Pipeconnection 1.25”NPTinlet/1”NPTdischarge.
Strainer Holesofthestrainer:ø0.09”(2.3mm)
Marking ULListed,CE(SQEPumpwithMSE3motoronly)
Technical data - BMQE pump
20
Product Guide EZ Boost
TM
System
EZ Boost Controller
The EZ Boost controller is a control and communication
unitespeciallydevelopedfortheBMQEboosterpumpsin
constantpressureapplications.
TheEZBoostcontrollerprovides:
• FullcontroloftheBMQEpumps
• Two-waycommunicationwiththeBMQEpumps
• Possibilityofadjustingthepressure
• Alarmindication(LED)whenserviceisneeded
• The possibility of starting, stopping and resetting the
pumpsimplybymeansofapush-button
TheEZBoostcontrollercommunicateswiththepumpvia
powerlinecommunication,meaningthatno extracables
arerequiredbetweentheEZBoostcontrollerandtheBMQE
pump.
TheEZBoostcontrollerfeaturesthefollowingindications
(seedrawingbelow):
1. Flowindicator
2. Systempressuresetting
3. SystemON/OFF
4. Buttonlockindicator
5. Dry-runningindicator
6. Serviceneededincaseof:
–Nocontacttopump
–Overvoltage
–Undervoltage
–Speedreduction
–Overtemperature
–Overload
–Sensordefective
TheEZBoostcontrollerincorporatesexternalsignalinput
forpressuresensor and a pump statusrelayfor use with
devisesdependantonpumpstatus.
Voltage 1x100-240V–10%/+6%,60Hz
Power
consumption
5W
Current
consumption
Maximum130mA
Enclosureclass NEMA3R(IP55)
Ambient
temperature
Inoperation:-22to+122°F(-30to+50°C)
duringstorage:-22to+140°F(-30to+60°C)
Relative
airhumidity
95%
Pumpcable
MaximumlengthbetweenEZBoostcontrol-
lerandpump:650ft(198m).
Back-upfuse Maximum:16A
Marking ULListed,CE
Load Max.100mA
2 3
4
1
5
6
Powersupply
entry
Submersible
dropcableentry
Pressuresensor
entry
9 3/15 in. (232 mm)
4 1/2 in. (114 mm)
7 11/16 in. (195 mm)
21
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Grundfos JPF 41-A User manual

Grundfos
Brand
Grundfos
Model
JPF 41-A
Type
User manual
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