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文檔簡介
ZhangXinmei(Autor)
BandlimitedMotionControlofCNCMachineTools
https://cuvillier.de/de/shop/publications/725
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Chapter1
Introduction
Motivation
Goodqualityandlowcostofaproductarealwaysrequiredbyallcustomers.Thosetwofactorsofaproductaremainlydeterminedbytheproductionmachines.Goodqualityofaproductisassuredbyhighprecisionofthemachinetools.Lowpriceofaproductcanbeachievedbyincreasedproductivitythroughhighmanufacturingspeedtogetherwithminimizedauxiliaryprocesstimesandprocessstability.Therefore,highprecisionandspeedaretwodemandsformodernmachinetoolstoprovideproductsthatsatisfycustomers[76].
Byrnepresentedcurvesin[8],asshowninFigure1.1,tracingthedevelopmentinman-ufacturingcapabilityintermsofachievablemachiningaccuracyduringthelast60years.Ultra-precisionmachinetoolsundercomputercontrolcanpositionthetoolrelativetotheworkpiecetoaresolutionandpositioningaccuracyintheorderof1nm.For“precisionma-chining”,theaccuracycouldnowachieve10nmwiththehelpofaccuratemachineelements.In“normalmachining”,e.g.CNCturningandmillingmachines,accuraciesof10to100μmcanbeachieved.Besidesknowingthoseconcretevaluesofaccuraciesthatmachinetoolscanachieve,thetendenciestohigheraccuraciesofmachinetoolsalsocatchtheeyes.
Precisionmanufacturingrelies,toasigni?cantextent,onthequalityandaccuracyofama-chinetool.Oneimportantfactorwhichaffectstheaccuracyofamachinedcomponentistheerrorcausedbythevibrationofthemachinetool.Thecommonlyapprovedsolutionistouserigidcomponentstoimprovetheaccuracyofthemachinesystem.
HighSpeedMachining(HSM)isalsoamainstreamtrend.OriginofinterestinHSMwastheworkdonebySalomonin1931[20].Hisde?nitionofHSMisbasedonchipremovaltemperaturereductionwithhighcuttingspeed(5-10timeshigherthaninconventionalma-chining)inamachiningprocess.Thoughlaterresearchershaveunfortunatelynotbeenable
1.1.MOTIVATION
1.2.PROBLEMDESCRIPTIONANDAIMS
PAGE
2
PAGE
3
TurningandMillingMachines
100
NormalMachining
10
1(1μm)
PrecisionMachining
GrindingMachinesCNCMachines
Lapping,Honing,BoringandGrindingMachines
PrecisionGrindingandTurningMachines
0.1
HighPrecisionand
UltraPrecisionMachines
0.01
UltraPrecisionMachining
(1nm)
FreeAbrasiveMachining
0.001
IonBeamMachining
0.0001
1940
1960
1980
2000
Figure1.1:Developmentofachievable“Machining”accuracyoverthelastsixtyyears[8]
toverifythistheorytoitsfullextent,theyalsocon?rmthatthereisarelativedecreaseofthetemperatureatthecuttingedgethatstartsatcertaincuttingspeedsfordifferentmateri-als[20].Table1.11givesanexampleofsomecuttingspeeds[3]forgeneralknowledgeofnormalandhighspeedincuttingprocess.Thecuttingspeedisdependentonthecharacteroftheworkpiecematerial.Forinstance,forcuttinggraycastiron,?guresgreaterthan6m/smightbehigh-speedmachining,whereasforsofteraluminumalloys,50m/sishigh-speed.
ToperformHSMapplicationsitisnecessarytouselight,butrigidmachinetooltoachievehighspeedandminimizeproblematicvibrations.Lightandrigidmachinetoolassureshighacceleration,higheigenfrequencyofthesystem,thereforhighspeed.Rigidmachinetoolassuresnoloweigenfrequencyintheaxis,thereforehighaccuracy.
Therefore,bothprecisionandhighspeedmachiningrequirerigidmachinesystem.How-everprimarilyduetospace,weight,andpowerconstraints,thisisnotalwayspossible.Elasticityisunavoidableinsomemechanicalsystemssuchas:highspeedpickandplacerobots,coordinatemeasurementmachines,harddrivetestingmachines,gantrycranesandsoon.Inmachinetools,duetothepowertrainselementssuchasbelts,spindles,gearsandsoon,therigidityofthemachinetoolisalsolimited.Allthosekindsofmechanismssufferfromvibrationrelatedproblemsundergoingpoint-to-point,trajectoryfollowing,andothercommonmotiontasks.Theeffectiveuseofsuchsystemscanonlybeachievedwhensuchvibrationscanbeproperlyhandled.
Thusthedemandsofhighqualityandlowcostofproductmotivateresearchersto?nda
1WC:TungstenCarbide;PCD:polycrystallinediamond;CBN:cubicboronnitride;sia.:sialon;cer.:ceramic;
+:morethan
Workmaterial
Solidtool-endmill,drill
WC,coatedWC,PCD,ceramic
Indexabletool-shellandfacemill
WC,ceramic,sialon,CBN,PCD
Typicalvelocity
(m/s)
HighSpeed
(m/s)
Typicalvelocity
(m/s)
HighSpeed
(m/s)
aluminum
5+
(WC,PCD)
50+
(WC,PCD)
10+
60+
(WC,PCD)
castiron
softductile
2.5
1.75
6
4
6
4
20(sia.,cer.)15(cer.)
steel
freemachiningsteelalloy
stainlesshardnessRC65
1.75
1.25
1.75
0.4
6
4
2.5
2
6
3.5
2.5
0.5(WC)
1.5(CBN,cer.)
10
6
4.5
0.75(WC)
3(CBN,cer.)
titanium
0.625
1
0.75
1.5
superalloy(Iconel)
0.75
1.25
1.3(WC)
3.5(sia.)
6(sia.,cer.)
Table1.1:Exampleofsomecuttingspeeds[3]
waytogetridofvibrationformachinetools,oratleastreducethemtoaninsigni?cantdegree,especiallythosehaveinherentstructure?exibility,sothattheaimsofhighaccuracyandhighspeedcanbeachieved.
ProblemDescriptionandAims
Theproblemofreducingvibrationsisacomplexonethatcanbeapproachedinmanyways.Kozak[30]presentsasimplemannertocategorizethoseapproachesbylookingata?exibledynamicsystemundercontrolasshowninFigure1.2,whichcanbefoundineverycontroltextbook.
FeedforwardController
Desired
motion Command
Generator
FeedbackController
output
Plant
Figure1.2:Blockdiagramofatypicalclosedloopcontrol
Therearefourprimaryblocksintheabovesystem.Researchershavemadedifferenteffortstoreducesystemvibrationthroughthosefourblocks.Theyarethe
1.2.PROBLEMDESCRIPTIONANDAIMS
1.2.PROBLEMDESCRIPTIONANDAIMS
PAGE
4
PAGE
5
Plant,
CommandGenerator,
FeedbackController,
andtheFeedforwardController.
ThePlantBlock
Theplantisnormallythe?rstconcernforaresearchertothinkaboutwhenvi-brationreductiontaskispresented.Theelasticstructureoftheplantisasourceofvibrations.Therefore,makingtheplantsystemmorerigidand/oraddingdampertotheplantaretwomainapproaches.
Theincreasingoftherigiditysometimescomeswiththeincreaseoftheinertiaormassofthecomponentsoftheplant.Thisresultsinareducedpayload,worsedy-namicbehaviorandincreasedcost.Thereareusuallymanytrade-offsthatmustbeconsideredinordertoproduceaphysicallyandeconomicallyviablemecha-nism.Moreover,theelasticitythatcomesfrompowertrainsinthemechanicalplantrestrictsthelevelofrigiditythatcanbereached.
Addingdampertotheplantisusuallydonebyaddingdampingmaterialtoamechanism.However,modifyingapre-existingplantcanbecostlyanddif?cult,andmakingmodi?cationstoreducevibrationcanpotentiallychangetheperfor-manceofotheraspectsofthemechanism,e.g.thestiffness.
Inthiswork,theplantisnottargetedforeliminatingvibrations,becausetheaimedsolutionistoreducethevibrationforanyplant.Buttheknowledgeofpa-rametersoftheplantisasimportantasgettingridofvibrationsitself.Therefore,parameteridenti?cationisthe?rststep.Twomaindomainsofidenti?cationex-ist:frequencydomainandtimedomainidenti?cation[1,19,36,42].Thetimedomainidenti?cationistheclassicalapproachtosystemidenti?cation.Inthefrequencydomainidenti?cation,thefrequencyresponseofthesystemisusedtoestimatetheplantparameters.However,theexistingmethodsofparametersidenti?cationareeithertoocomplicatedornotsuitableforhighordersystems.Asthecharacteristicparametersoftheplanthavetobeknownforthe?nalsolu-tion,the?rstaimofthisworkisparameteridenti?cationformachinetoolsystemofanyorder.
Aim1:Identifyingparametersoftheplantforanyorderofthesystem.
TheCommandGeneratorBlock
Systemvibrationscomeinmainlytwoforms.Firstformofvibrationsaretran-sientanddieoutafteraperiodoftime.Thesecondformofvibrationsaresteadystatevibrations,whichareconstantinmagnitudeandfrequency,anddonotdieout.Thissecondformofvibrationsaregenerallycausedbysomeperiodicex-citation.Ingeneral,vibrationscancomeinanycombinationofthesetwotypes.Vibrationscanbecausedbymanydifferentsources.Commandgeneratorisoneofthesources.Typicalexampleofcommandthatbringsthetransientvibrationisastepinput.
Alotofeffortsarededicatedtocreateormodifycommandsthatcausethesys-temresponsetosatisfydesiredtransient/steadystateperformancecharacteris-tics[46,47,56,57].Thereisatleastonedistinctadvantageofusingthecommandgenerationapproachovertheotherapproaches:systemsthatsufferfromtrouble-somedynamicbehavior,suchasvibrations,canberetro?ttedtotakeadvantageofcommandgenerationschemesatlowcostandwithgenerallynomodi?cationsneedingtobemadetothemechanicalsystemandcontroller.
Limitingjerk,thederivativeofaccelerati
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