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Chapter6AuxiliaryComponentsforHydraulicSystems
Chapter6AuxiliaryCompone6.1Accumulators
6.2Filters
6.3Reservoirs
6.4Piping/TubingConnectors
6.5SealsandSealingDevices
Chapterlist6.1AccumulatorsChapterlist6.1Accumulators6.1.1Operatingprinciples6.1.2Applications6.1.3Calculationofparameters6.1Accumulators6.1.1Oper6.1.1Operatingprinciples
Therearethreetypesofaccumulators:springloaded,weightloadedandchargedgas.Thecommonusedarechargedgasaccumlators,whichcanbedividedintopistontype(Fig.6-1a)andbagtype(Fig.6-1b).
Fig.6-2showsanaccumulator,whichbasicallyconsistsof4parts:shellbody1,interlayer3,compressibleair2(weightloadedorspring)ontheupperoftheinterlayerandoperatingoil4locatedundertheinterlayerandconnectedwithsystem.Itincludestwoprocesses:filledinoilfluid(accumulation)anddisplacementoutoilfluid(release).6.1.1OperatingprinciplesFig.6-1Chargedgasaccumulator
a)Pistontypeb)Bagtype
1-Piston2-Cylinder3-Gasvalve1-Gasvalve2-Steelshell3-Bladder4-PoppetvalveFig.6-1ChargedgasaccumulatFig.6-2Operatingprincipleofaccumulatora)Afterdisplacementoutoilfluidb)Filledinoilfluidc)Displacementoutoilfluid
1-Shell2-Compressiblegas(orweightorspring)3-Interlayer4-OperatingfluidFig.6-2Operatingprincipleo
1.Filledinoilfluid(accumulation)ItisanequilibriumstateofpressuredifferenceonthetwosidesofupperanddownontheinterlayerwiththeoperatingoilvolumeasV1afterdisplacementoutoilfluid(release)showninFig.6-2a.Whenoperatingoilpressureintheaccumulatorisincreasedwiththeoilpressureinhydraulicsystem,theinterlayerlossesequilibriumandmovesupundertheactionofoperatingdifference,asshowninFig.6-2b.Itincludestwoprocesses:filledinoilfluid(accumulation)anddischargingoutoilfluid(release).1.Filledinoilfluid(2.Dischargingoutoilfluid(release)Whenthesystempressureislowerthanthepressureoftheoperatingoil,theinterlayismoveddownundertheactionofgaspressure(orweightloadedorspringloaded);atthesametimeoilisdischargedoutoftheaccumulatorandflowsintothesystemuntilanewpressureequilibriumonthetwosidesoftheinterlayerasshowninFig.6-2c.6.1.2Applications
Suchanaccumulatorcanbeusedtoadvantageinanumberofhydraulicapplications:1.Tosupplyoillostthroughleakageinasystemheldunderpressurebutnotoperatingforlongperiods.Toserveasanauxiliaryoremergencysourceofhydraulicpowerwherepump2.Dischargingoutoilfluorfeedlinehavefailed.Tooperateasecondarycircuitintermittentlyinconnectionwithaconstantdutyprimarycircuitwithoutaffectingthespeedorloadingoftheprimarycircuit.Tocompensateforexpandingandcontractingvolumesduetothermalchanges.2.Tosupplyholdingpressurewheretheoperatingcyclecallsforpressuretobeappliedforalongperiodsoftime.Forexample,anaccumulatorcanbeusedtoavoidaccidentwhenthepumpfailsrandomicityatstarting.3.Toabsorbpulsations,surges,orshocksfromreciprocatingpumpsorquickclosingvalves.Tocushionandlowerthenoisetheloadonforklifts,frontendloaders,backhoes,etc.orfeedlinehavefailed.Too6.1.3Calculationofparameters1.CalculationforthechargedgasvolumeV0
Thevolumeofanaccumulatoristhechargedgasvolumeforabagaccumulator=Constant(6-1)(1)Forthe
isothermalchanges
Theinvolvementnochangeintemperature,andnointernalenergychangesoccurinthe
gas.Taken=1,then(6-2)6.1.3Calculationofparameter(2)Fortheadiabatic(isentropic)changes
Theotherboundingconditionisareversibleadiabatic(isentropic)changewhichtakesplacesorapidlythatnoflowofheatintooroutofthegasoccurs.Thedefiningrelationshipis(3)
Forpolytropicchanges
Practicallyaccumulatorgascanfollowanynumberofpolytropicchanged,whichisisothermalduringaccumulatingandadiabaticduringdischargingduetogasexpanded.Itcanbesocalculatedby(6-3)(2)Fortheadiabatic(ise2.Determinationofpressure(1)
Calculationforlowestoperatingpressure
Thelowestoperatingpressureincludetwoparts,whichcanbecalculatedby(2)
Determinationofhighestpressure(6-5)(6-4)2.Determinationofpressure(1
Determinationofhighestpressureinanaccumulatorshouldconsiderthefactorsoflifetimeofsystemandstability.Belowanempiricalformulaisrecommended.(3)Determinationofchargedgaspressure
Forabagtypeaccumulator,
(6-7)(6-6)where:Determinationofhigh6.2
Filters6.2.1Functionsofafilter
6.2.2Thetypesoffilters6.2Filters6.2.1Functionso6.2.1Functionsofafilter
Accordingtostatisticsthattherearefaultsof70%~80%duetotheoilcontaminated.Theoilcontaminatedwithimpurityoroxidewillresultinabrasionorblockofelementsquickenup.Thefilterisusedtotrytoeliminatetheimpurityandmakeacleanlyoilpipesystem.Thusitisimportanttochoosefilterforcontrollingthecontaminationandkeepinganormalhydraulicsystem.6.2.2
Thetypesoffilters
Filtersaredividedintotwokindsofcoarseandprecisefiltersintermsoftheprecision.Theycanbedividedintomesh,
line-gap,paper-coreandmagnetismfiltersintermsofconfiguration.Andtheycanbealsodividedintothreeclassifies:surface-type,depth-typeandmagnetismfiltersintermsoftheprincipleoffiltration.6.2.1Functionsofafilter1.Surface-typefilters
Fig.6-3a)Ameshfilterb)ALine-gasfilterThesurfaceofelementstouchesdirectlywithhydraulicmediumandconsistsofasinglelayerofmaterialthroughwhichthefluidmustpassandkeeptheimpurityoutsideonit.1.Surface-typefiltersFig.62.Depth-typefilters
Thecorematerialconsistsofpaper,sinteredmetal,woolfeltorvariousfibres.Fig.6-4aisapaper-typecorefilterandFig.6-4bisasinteredfilter.Theyhavethefeaturesofahighprecisionwiththe0.01~0.06mm.Ithasalsoabigpressurelossof0.03~0.2MPaandusuallyusedinahighprecisionsituation.Fig.6-4a)Apaper-corefilterb)Asinteredfilter
2.Depth-typefiltersTheprincipleofmagnetismfiltersisanabsorbent-typeelement,whichabsorbstheferrousparticleintheoil.Howeveritcannotabsorbtheothernonferrousparticle.Soitisusuallycombinedwithothertypeoffiltersandusedinhydraulicsystemformetal-cuttingmachinetool.3.Magnetismfilters
Theprincipleofm6.3
Reservoir1.Constructionandfunctions
Functions:
Areservoirprovidesoiltomakeupforsystemleakage,allowsspacefortheexpansionorcontractionoftheoilwithchangesoftemperature,enablesgasbubblestoriseoutoftheoilanddirtparticlestosinktothebottom,andallowsroomforheatdissipationorfortheinclusionofthermalcontroldevices.
Therearetwokindsofreservoirs:integraltypeandseparateness.
Aintegralreservoirisinstalledwithmachine;ithastheadvantagesofcompactandeasyrecyclesforleakedoilbutalsothedisadvantagesofdifficultdissipationforheatanddifficultmaintenance.Theseparatenessreservoirisseparatelyinstalled;ithasbeenusedwidelytoengineeringwithmanyadvantagesofconvenientmaintenance,dissipationheatandreducingvibration.Fig.6-5showsasmallseparatereservoir.6.3Reservoir1.ConstructioFig.6-5Asmallseparatereservoir1-Meshfilter2-Suctionoilpipe3-Airfilter4-Oilchargedpipe5-Topcover6-Indicatorofoilposition7,9-Clapboard8-OilescapevalveFig.6-5AsmallseparatereseProblemsindesign
1)Thedeterminationtothecapacityofreservoiristhekeytothewholereservoirdesign.
2)Areservoirisusuallyjointedbyarmorplatewithathicknessof2.5~4mm.Angleironisalsoneededforreservoirswithlargecapacitytoincreasetheirrigidity.
3)Suctionfiltersaresettoassureenoughflowrate.Itmustbeconvenientforassemblyanddisassembleforthesakeofregularcleanness.
4)Suctionlinesarekeptawayfromreturnlinesasfaraspossible.Usuallyaclapboardwithaheightofthe3/4oillevelissetbetweenthemtoincreasethedistanceoftheoilcycleandhelpheat-exchange,sedimentation,airbubbleseparation.Theendsofthesuctionandreturnlinesarechoppedin45°.Thedistancebetweenthefilterandthereservoirbottommustbelongerthan20mm.Problemsindesign1)The5)Thecoverboardofthereservoirandtheendsofthepipesmustbesafelysealedtopreventoilcontamination.Anairfilterissetonthecoverboard.Italsoservesasaventholetopreventnegativepressureonthereservoirorintheprocessofaddingoil.6)Anoillevelgaugeandathermometerareusuallysetonthesidewallofthereservoir.
Thedetailedinformationcanbefoundinrelatedbooksormanuals.5)Thecoverboardofth6.4Piping/TubingConnectors
Pipingconnectorsincludeoilpipesandconnectors.Thefunctionsofpipingconnectionsareusedtojoinhydraulicelementsandtransferfluidconnectors.Pipingconnectionsshouldhavegoodstrength,sealing,lessleak,lowpressurelossandconvenientreplacementandfixing.1.Oilpiping
Pipingismadefromavarietyofmaterials,includingsteel,copper,nylon,plastics,andrubberpipe.Itisdecidedbysystempressureandoperatingconditions.ThefeaturesandapplicationarelistedinTab.6-1.6.4Piping/TubingConnectorsTab.6-1ThefeaturesandapplicationsofvariousoilpipesTypesFeaturesandapplicationsTubingesAsteeltubeIthasthefeaturesofwithstandingoilandhighpressure,highstrengthandworkingstably.Butitisdifficulttobebendedininstallation.Itisusuallyusedasapressurewhereoneiseasytoinstallation.Theseamlesssteeltubeisusedinabovemediumpressuresystem.JointedtubingisusedinalowpressuresystemAcopperpipeItisexpensiveandhaslow-pressurepipelincapacity(6.5~10MPa).Itwithstandswithalowshockandvibration.Itiseasytobebendedandcorrosive.Itiscommonusedtowherethesystemisdifficulttoinstallation,suchasinstrumentHosesAplasticpipeIthasthefeaturesofwithstandoil,lowprice,convenientinstallation,andeasytoagingforalongused.Itisusedinlowpressure(<0.5MPa),suchasreturnoilpipesAnylonpipeItisaivory-whiteandsightflowing.Ithaslowpricewhenitheateditiseasytobebended.Itiseasytobebended,enlargedandformedaftercooling.Itiseasytoinstallation.IthasthepossibleofexpandingrangeofapplicationArubberpipeItisusedwherethehydrauliclineistobesubjectedtomovement.Ithastwotypesoflowandhighpressurehose.Thehighpressurehoseismadewithseveralpliesofbraidedsteelwirereinforcementtowithstandworkingpressures.Itisexpensiveandusedinahighpressuresystem.Thelowpressurepipeismadeofresistantoilrubberwithpliesofsailcloth,whichisusedinlowpressuresystemTab.6-1ThefeaturesandapplJustasothertubularmaterials,tubingismeasuredbyitsinsidediameterd,andthicknessδofawall.(6-19)(6-20)Justasothertubularm2.Connectors
Connectorsmorefrequentlycalledfittingsareusedtojoinpipelinesandtoconnectpipelinestocomponents.Nomatterwhattheconfigurationoftheconnectorisused,itperformsthreetasksunderenoughintensity:(1)theconnectormustjointothelineinafirm,leakproofmanner.(2)theconnectormustnotcarryanyloadsimposedonitbythehydraulicsystemorbytheline.(3)theconnectormustprovideasealbetweenthepartsbeingjoined.Tubingconnectordesignbynationalstandards,metricinternationalstandardthread,isdenotedasZMorplainEnglish(standard)threaddenotedasM.Theyincludeflaredshapeconnectors(Fig.6-6),joiningstyleconnectors(Fig.6-7),clipstyleconnectors(Fig.6-8),hosepipeconnectors(Fig.6-9)andquickconnectors.2.ConnectorsConneFig.6-6Aflaredshapeconnector
1-Pipeconnected2-Orientedsleeve3-Nut4-ConnectionbodyFig.6-6AflaredshapeconnecFig.6-7Ajoiningstyleconnector
1-Pipeconnected2-Nut
3-“O”ringseal4-Connectionbody5-
CompoundSealsFig.6-7AjoiningstyleconneFig.6-8Aclipstyleconnector
1-Pipeconnected2-Clip3-Nut4-Connectionbody5-CompoundSealsFig.6-8AclipstyleconnectoFig.6-9Ahosepipeconnector
1-Rubberpipe2-Shell3-Connectionbody4-NutFig.6-9AhosepipeconnectorFig.6-10Aquickconnector1-Pad2,10-Connectionbody3,7,12-Spring4,11-Coreofno-returnvalve5-“O”ringseal6-Shell8-Steelball9-SpringringFig.6-10Aquickconnector1-6.5SealsandSealingDevicesThesealingdevicesareusedtopreventoilfrominternalandexternalleakage,holdbackpollutantandkeepthesystempressure.Typesandcharacters:
Therearemanykindsofsealingdevices.Accordingtothemovementofthesealingdevices,therearetwomainkindsofsealingdevices:dynamicandstatic.1.Clearancesealing2.‘o’ringsealingAsshowninfig.6-11.Asshowninfig.6-12.6.5SealsandSealingDevicFig.6-12‘o’ringsealingFig.6-11Clearancesealing
Fig.6-12‘o’ringsealingFig.Fig.6-13‘o’ringwithgasketItwillbebrokenandpiledintoorextrudedthegapwhenthestaticsealingoilpressuregoesuptoP>32MPaordynamicsealingoilpressureP>10MPaasshowninFig.6-13a.Thus,onecaninstallagasketmadeofPTFE(polytetrafluoroethylene)tothelowerpressuresideasshowninFig.6-13b.Double-“O”ringsealsaresometimesusedtosealinfluidsonbothsidesofanareaasshowninFig.6-13c.Fig.6-13‘o’ringwithgasket3.Lipstylesealing
Double-lipsealingaresometimesusedtosealinfluidsonbothsidesofanarea.ThecommonstylesareY-style(Fig.6-14,Fig.6-15),YX-style(Fig.6-16)andV-style(Fig.6-17).(1)Y-style
(2)YX-style
(3)V-style
3.LipstylesealingDoublFig.6-14AY-stylelipsealingFig.6-14AY-stylelipsealinFig.6-15InstallfortheY-stylesealing
Fig.6-15InstallfortheY-stFig.6-17V-stylelipsealing
Fig.6-16YX-stylesealing
Fig.6-17V-stylelipsealing4.CompoundSealing
Withthedevelopmentofhydraulictechnology,onerequireshightemperature-resistant,speed-resistant,lowerfrictionandlonglifeusedtothereciprocator,sotherearecompoundsealingmadeofPTFE(polytetrafluoroethylene)withoil-resistantsyntheticrubberandanewkindsofsealingdeviceasshowninFig.6-18.Fig.6-18CompoundsealingmadeofPTFEandoil-resistantsyntheticrubber
a)Usedinholeb)Usedinaxes1-O-ring2-Slidring4.CompoundSealingWiyoursuggestions
arewelcome!TheEndyoursuggestions
arewelcFig.6-1Chargedgasaccumulator(pistontype)Fig.6-1ChargedgasaccumulatFig.6-1Chargedgasaccumulator(bagtype)Fig.6-1ChargedgasaccumulatChapter6AuxiliaryComponentsforHydraulicSystems
Chapter6AuxiliaryCompone6.1Accumulators
6.2Filters
6.3Reservoirs
6.4Piping/TubingConnectors
6.5SealsandSealingDevices
Chapterlist6.1AccumulatorsChapterlist6.1Accumulators6.1.1Operatingprinciples6.1.2Applications6.1.3Calculationofparameters6.1Accumulators6.1.1Oper6.1.1Operatingprinciples
Therearethreetypesofaccumulators:springloaded,weightloadedandchargedgas.Thecommonusedarechargedgasaccumlators,whichcanbedividedintopistontype(Fig.6-1a)andbagtype(Fig.6-1b).
Fig.6-2showsanaccumulator,whichbasicallyconsistsof4parts:shellbody1,interlayer3,compressibleair2(weightloadedorspring)ontheupperoftheinterlayerandoperatingoil4locatedundertheinterlayerandconnectedwithsystem.Itincludestwoprocesses:filledinoilfluid(accumulation)anddisplacementoutoilfluid(release).6.1.1OperatingprinciplesFig.6-1Chargedgasaccumulator
a)Pistontypeb)Bagtype
1-Piston2-Cylinder3-Gasvalve1-Gasvalve2-Steelshell3-Bladder4-PoppetvalveFig.6-1ChargedgasaccumulatFig.6-2Operatingprincipleofaccumulatora)Afterdisplacementoutoilfluidb)Filledinoilfluidc)Displacementoutoilfluid
1-Shell2-Compressiblegas(orweightorspring)3-Interlayer4-OperatingfluidFig.6-2Operatingprincipleo
1.Filledinoilfluid(accumulation)ItisanequilibriumstateofpressuredifferenceonthetwosidesofupperanddownontheinterlayerwiththeoperatingoilvolumeasV1afterdisplacementoutoilfluid(release)showninFig.6-2a.Whenoperatingoilpressureintheaccumulatorisincreasedwiththeoilpressureinhydraulicsystem,theinterlayerlossesequilibriumandmovesupundertheactionofoperatingdifference,asshowninFig.6-2b.Itincludestwoprocesses:filledinoilfluid(accumulation)anddischargingoutoilfluid(release).1.Filledinoilfluid(2.Dischargingoutoilfluid(release)Whenthesystempressureislowerthanthepressureoftheoperatingoil,theinterlayismoveddownundertheactionofgaspressure(orweightloadedorspringloaded);atthesametimeoilisdischargedoutoftheaccumulatorandflowsintothesystemuntilanewpressureequilibriumonthetwosidesoftheinterlayerasshowninFig.6-2c.6.1.2Applications
Suchanaccumulatorcanbeusedtoadvantageinanumberofhydraulicapplications:1.Tosupplyoillostthroughleakageinasystemheldunderpressurebutnotoperatingforlongperiods.Toserveasanauxiliaryoremergencysourceofhydraulicpowerwherepump2.Dischargingoutoilfluorfeedlinehavefailed.Tooperateasecondarycircuitintermittentlyinconnectionwithaconstantdutyprimarycircuitwithoutaffectingthespeedorloadingoftheprimarycircuit.Tocompensateforexpandingandcontractingvolumesduetothermalchanges.2.Tosupplyholdingpressurewheretheoperatingcyclecallsforpressuretobeappliedforalongperiodsoftime.Forexample,anaccumulatorcanbeusedtoavoidaccidentwhenthepumpfailsrandomicityatstarting.3.Toabsorbpulsations,surges,orshocksfromreciprocatingpumpsorquickclosingvalves.Tocushionandlowerthenoisetheloadonforklifts,frontendloaders,backhoes,etc.orfeedlinehavefailed.Too6.1.3Calculationofparameters1.CalculationforthechargedgasvolumeV0
Thevolumeofanaccumulatoristhechargedgasvolumeforabagaccumulator=Constant(6-1)(1)Forthe
isothermalchanges
Theinvolvementnochangeintemperature,andnointernalenergychangesoccurinthe
gas.Taken=1,then(6-2)6.1.3Calculationofparameter(2)Fortheadiabatic(isentropic)changes
Theotherboundingconditionisareversibleadiabatic(isentropic)changewhichtakesplacesorapidlythatnoflowofheatintooroutofthegasoccurs.Thedefiningrelationshipis(3)
Forpolytropicchanges
Practicallyaccumulatorgascanfollowanynumberofpolytropicchanged,whichisisothermalduringaccumulatingandadiabaticduringdischargingduetogasexpanded.Itcanbesocalculatedby(6-3)(2)Fortheadiabatic(ise2.Determinationofpressure(1)
Calculationforlowestoperatingpressure
Thelowestoperatingpressureincludetwoparts,whichcanbecalculatedby(2)
Determinationofhighestpressure(6-5)(6-4)2.Determinationofpressure(1
Determinationofhighestpressureinanaccumulatorshouldconsiderthefactorsoflifetimeofsystemandstability.Belowanempiricalformulaisrecommended.(3)Determinationofchargedgaspressure
Forabagtypeaccumulator,
(6-7)(6-6)where:Determinationofhigh6.2
Filters6.2.1Functionsofafilter
6.2.2Thetypesoffilters6.2Filters6.2.1Functionso6.2.1Functionsofafilter
Accordingtostatisticsthattherearefaultsof70%~80%duetotheoilcontaminated.Theoilcontaminatedwithimpurityoroxidewillresultinabrasionorblockofelementsquickenup.Thefilterisusedtotrytoeliminatetheimpurityandmakeacleanlyoilpipesystem.Thusitisimportanttochoosefilterforcontrollingthecontaminationandkeepinganormalhydraulicsystem.6.2.2
Thetypesoffilters
Filtersaredividedintotwokindsofcoarseandprecisefiltersintermsoftheprecision.Theycanbedividedintomesh,
line-gap,paper-coreandmagnetismfiltersintermsofconfiguration.Andtheycanbealsodividedintothreeclassifies:surface-type,depth-typeandmagnetismfiltersintermsoftheprincipleoffiltration.6.2.1Functionsofafilter1.Surface-typefilters
Fig.6-3a)Ameshfilterb)ALine-gasfilterThesurfaceofelementstouchesdirectlywithhydraulicmediumandconsistsofasinglelayerofmaterialthroughwhichthefluidmustpassandkeeptheimpurityoutsideonit.1.Surface-typefiltersFig.62.Depth-typefilters
Thecorematerialconsistsofpaper,sinteredmetal,woolfeltorvariousfibres.Fig.6-4aisapaper-typecorefilterandFig.6-4bisasinteredfilter.Theyhavethefeaturesofahighprecisionwiththe0.01~0.06mm.Ithasalsoabigpressurelossof0.03~0.2MPaandusuallyusedinahighprecisionsituation.Fig.6-4a)Apaper-corefilterb)Asinteredfilter
2.Depth-typefiltersTheprincipleofmagnetismfiltersisanabsorbent-typeelement,whichabsorbstheferrousparticleintheoil.Howeveritcannotabsorbtheothernonferrousparticle.Soitisusuallycombinedwithothertypeoffiltersandusedinhydraulicsystemformetal-cuttingmachinetool.3.Magnetismfilters
Theprincipleofm6.3
Reservoir1.Constructionandfunctions
Functions:
Areservoirprovidesoiltomakeupforsystemleakage,allowsspacefortheexpansionorcontractionoftheoilwithchangesoftemperature,enablesgasbubblestoriseoutoftheoilanddirtparticlestosinktothebottom,andallowsroomforheatdissipationorfortheinclusionofthermalcontroldevices.
Therearetwokindsofreservoirs:integraltypeandseparateness.
Aintegralreservoirisinstalledwithmachine;ithastheadvantagesofcompactandeasyrecyclesforleakedoilbutalsothedisadvantagesofdifficultdissipationforheatanddifficultmaintenance.Theseparatenessreservoirisseparatelyinstalled;ithasbeenusedwidelytoengineeringwithmanyadvantagesofconvenientmaintenance,dissipationheatandreducingvibration.Fig.6-5showsasmallseparatereservoir.6.3Reservoir1.ConstructioFig.6-5Asmallseparatereservoir1-Meshfilter2-Suctionoilpipe3-Airfilter4-Oilchargedpipe5-Topcover6-Indicatorofoilposition7,9-Clapboard8-OilescapevalveFig.6-5AsmallseparatereseProblemsindesign
1)Thedeterminationtothecapacityofreservoiristhekeytothewholereservoirdesign.
2)Areservoirisusuallyjointedbyarmorplatewithathicknessof2.5~4mm.Angleironisalsoneededforreservoirswithlargecapacitytoincreasetheirrigidity.
3)Suctionfiltersaresettoassureenoughflowrate.Itmustbeconvenientforassemblyanddisassembleforthesakeofregularcleanness.
4)Suctionlinesarekeptawayfromreturnlinesasfaraspossible.Usuallyaclapboardwithaheightofthe3/4oillevelissetbetweenthemtoincreasethedistanceoftheoilcycleandhelpheat-exchange,sedimentation,airbubbleseparation.Theendsofthesuctionandreturnlinesarechoppedin45°.Thedistancebetweenthefilterandthereservoirbottommustbelongerthan20mm.Problemsindesign1)The5)Thecoverboardofthereservoirandtheendsofthepipesmustbesafelysealedtopreventoilcontamination.Anairfilterissetonthecoverboard.Italsoservesasaventholetopreventnegativepressureonthereservoirorintheprocessofaddingoil.6)Anoillevelgaugeandathermometerareusuallysetonthesidewallofthereservoir.
Thedetailedinformationcanbefoundinrelatedbooksormanuals.5)Thecoverboardofth6.4Piping/TubingConnectors
Pipingconnectorsincludeoilpipesandconnectors.Thefunctionsofpipingconnectionsareusedtojoinhydraulicelementsandtransferfluidconnectors.Pipingconnectionsshouldhavegoodstrength,sealing,lessleak,lowpressurelossandconvenientreplacementandfixing.1.Oilpiping
Pipingismadefromavarietyofmaterials,includingsteel,copper,nylon,plastics,andrubberpipe.Itisdecidedbysystempressureandoperatingconditions.ThefeaturesandapplicationarelistedinTab.6-1.6.4Piping/TubingConnectorsTab.6-1ThefeaturesandapplicationsofvariousoilpipesTypesFeaturesandapplicationsTubingesAsteeltubeIthasthefeaturesofwithstandingoilandhighpressure,highstrengthandworkingstably.Butitisdifficulttobebendedininstallation.Itisusuallyusedasapressurewhereoneiseasytoinstallation.Theseamlesssteeltubeisusedinabovemediumpressuresystem.JointedtubingisusedinalowpressuresystemAcopperpipeItisexpensiveandhaslow-pressurepipelincapacity(6.5~10MPa).Itwithstandswithalowshockandvibration.Itiseasytobebendedandcorrosive.Itiscommonusedtowherethesystemisdifficulttoinstallation,suchasinstrumentHosesAplasticpipeIthasthefeaturesofwithstandoil,lowprice,convenientinstallation,andeasytoagingforalongused.Itisusedinlowpressure(<0.5MPa),suchasreturnoilpipesAnylonpipeItisaivory-whiteandsightflowing.Ithaslowpricewhenitheateditiseasytobebended.Itiseasytobebended,enlargedandformedaftercooling.Itiseasytoinstallatio
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