机械外文翻译文献翻译数控系统在平面磨床上应用现状与发展趋势

机械专业中英文文献翻译英文原文DigitalsystemgrinderapplicationquoCooperindustrialproduction,smallandpartsfortheofproductsoftheproportionofpartscomplexityprecisionrapidyincreasetraditionaltoolsincreasinglydifficulttheofmodern,andhigh-precisionCNCmachineofacancompletecompletypefacecharacteristicsrapidofcomputerofdigitalsystems,digitalalmostallmajorfunctions,therebyitprocessing,petitionfromlowerlabourcostsearly,costtheirefficiencyandqualitiyofcompetition,tomeetcomprehensive,activelynewproductscompetitive,willfaceknowledge—technicalproductsanincreasingofproducts,andthequalityare,Meanwhileenvironmental,thegrowingawarenesstechnologywillthecompetitionenterprise.Computertechnologyandmanufacturinganimportantfordigitalinproductionsharemore.digitalPingfindsthequodigitalprimaril.First,digitalfindsthestatusquoanddigital.Horizontaltothedigitallater,thespecialbecauseofitsdigitalsustems.Inthedecade,withthetechnicalforexchangegrindingmoreZhuangjiaworkinginoperabledigitalinhorizontal,graduallyspread.InrecentHanover,Tokyo,Chicago,andmachinetoolgrinderthroughoutthethemajorityoftheexhibits,suchGermanyBlohmELBconpaniessuchfamousgrinderfactoriesnolongerproudcegrinderJductioncompanyafewagobrilliantseriesfacilityverticalandhorizontalforforhydrauliccontrol,grindingwheelworkplatforminrollerdiamonds,theofbrodader;SUPER-BRILLIANTone-dimensionalandfacility,thebedsmanufacturednaturalgeometricaccuracy,slide

机械专业中英文文献翻译straightrollingguide,drivingwithoutabettersurfaceoftheartificialproducedbypressureverticalguide,Chixingbelttransmission,verticalforprerollingtransmission,three-axiscontrolACservo16ugimage.ELBtheTechnologycontemporaryproducts,andwithcomputerofsoftprocessingmodulesCAD-MASTERseriesgrindingcenter,amaximumof24axisthefullmodularandanufactureofdedicatedgrindercycleELBhasofhighlydedicatedgrinder,suchdedicatedgrinderwilltiltMotou,continuoustoeaseinto.BritishAmrricanJONES&SHIPMANA-BdigitalforigitalFORMAT5typehimselfformthefacility,drivenmovementtheuseofhorizontalMotouintoDCgrindingwheel,CRTshowed.Alsousedwithotherofdigitalmeetdifferentrequirements.Currently,thedegreescontinualincraseinthenewlyintroducedinappearanceofsmaller,morecompactstrcctureincreaseddistancediagnosis,multiplenetworkingetc;InterfacetotheoperatingsystemtomouseofSiemens840D,810D,802Daretighttypeare:onoftheoperatingsystemofNTimmediatemulti-processing,single-sectionproceduresforprocessingspeedpieces/s,single-sectiondealwithfewpiecesAart(pre

–adaptationtechnologies)andbestwould,thesoftwarepathfilterexcessivemechanical,therebyimproving;withtheuseofservoflexible,with+,-10vItprovidesdigitalcommunicationsinterface；PLCexpressions,functionalpieces,instructions,flowchartsfivedesign,communicationandwiththecomputer,functions;canbemaximumaxleandaxis64.I/Opointswhichbeexpandedto792/528point,Pentiumhigh-speedPlctoAparttheworldfamousdigitalsuchas

机械专业中英文文献翻译productionofplanthorizontalorgrindinganumberofPingfindsitselfapplicationthedigitalgrinderNotably:system,hasmore20rootsaxis,thecoordinatesforthetripcontrol,manualdataentryordiagnosisthegrindingdiameterwheelrepairautomaticGunzhusigangerrorcompensation,3Gspecificallyforgrindingdevelopment,forbothdialoguewithdevicesoperateinaxistilt,beandarcwidelyingrinding,recurringoperationalcycle,suchastheaxisanduseinterruptionimplementationprocedures,grindinggrindingrepair,fortheaprocedures.Notonlycanuseitsmeasurement(switchessignal),whenconnectedtoasuitabletomeasurementanddevicesdirectlytotheultimatecomparison.Y8400CNCdigitalserieslathe,millingmachine8400CNC6control,the2drain,thesixdrain.coordinatestocontrol17,includingeightindraineightspacesaxleonethatatheofbranchprocedurestime,accessprocedures,cutlerylife.JapaneseFANUCperformancedigitalwhich0-GSGapplicablehorizontalgrinder,theunder,fourdifferentmethodsofgrindinggrindinganglecycleofwheelpositionfinishingtorepairvehicleswereroundnoemallinedirectioncontrolfunctionalgrindingshapegraphicsparametersshowthatthefunctionalsmallestunit0.116ugm,a‖–typedigitalsystems,lowerprices.TherealsocompaniessuchasGermanyandUniversitydevelopedbyELBUNICONJapanesecoveself–shapeddigitalprintsystem,thecontrolOSP5000G-Gninecoordinatescansixcoordinatesahallautomaticidentificationofimported,intosystemssmallest,theequivalentandequivalent16ugare0.1m,PingalsosimultaneouslytheisthepingdigitalZhujichangself–ofsoftware,useitsuitableforhorizontal,suchascompanyJung,thecompanyusedbyJungKonturprogrammingforwheelandsupportingoperationalJapansincerelycompaniesinFanucdigitalsystemshardware

机械专业中英文文献翻译companies,theOPLlanguageforgrinding.Thelinerelectricalprocess,andefficacyofachinetoolsapplicationappropriatemeasurementfordevelopment.Sincethestartofdigitalhorizontal1980s,ofmanufacturestheofwithuniversitiesresearchunitstodigitalsystemsForMachineof50yearsofgraphicgrinderoffactoryproduction,whichproductioninthemid-1980sfromdigitalhisself,hasproductionMGK7132straightaxleruleTaiwaninto,MK7163,MK7150axleTaiwandigitalpinghimselfdigitalHZ-K2010,HZ-050CNC,HZ-KD2010,HZ-K3015,HZ-K3020,suchdigitalGateTypeHZ-K4020horizontalandguideandsystems,developedinwithunitsinforself-developmentmainframeChanpianjithecontrol,andthedigitalmaturedigitalproductionsystemPingits,theintroducedMATE-DpurchaseddigitalrecordingcontrolMotouchin,chintosmallest0.116ugmcompleteautomaticgrindingMKY7650/0101grinderisfullydigitaltechnicalwithIraliancompanyViottoproductsusingSinmensSimaticprogrammablecontrollercontrolCRT,machinetoolsleft.rightMotoudrivenbytheDCservoofandautomatic.EquippedwithItalianMaerbosi,thefirstmeasurementsameasurementgrinding,grindingwheelweartearsystemWheelsmeasureaftermeasuremrntsgringing,andgrindingofthecontrolintotheforelectrical;LeftandformeasurementViottorastercontrol,HavingfromtheexpectedoftheentirefullyHZ-050CNCdigitallinearrollingguideisScienceTechnologyfortheofkeyprojectsinresearchandgrinder.Bothfuctionalandshapedflatgrindingfuction,itA-B8400MPdigitalseven-kandigitalintorootsMotouaxleand,Wwheelrepairaxledirectthe,Anotherforthehorizontalaxisintothewithgrinding)throughSLCprogrammablecontrollerpluswifepositioningmoduletheI/Oimported8400MPcontrolitspositionwith

机械专业中英文文献翻译inthe,wheelorgap-typewheeltosuchautomaticintcompensation.HZ–KD2010sis-axle–MotouDragonGatedigitalFANUC-OMCdigital,usingfourCNCcontrolseparateverticalintoMotoutoaPMCMoutoucontrolofthewheelvehicleslords-chinotherrootsPMCaxisAlmightyMotoufulladvantageofsystemperformance,reducetheXingjiabiof.Thispresentsgrindingmachinetechnology,throughfeednewmethod,aunits,guides,crawler,bladeoftheirrespectiveinagrinderworkpiecefedandthroughfeedgrindingmachineisguidesthegrindingwheeltheUltrasoniccrawler,metalbondedceramicinclinedatinordertosufficientmovementoftheandtheaxis.Inthisarticle,theworkpiececontrolwefirstthattheworkpiecespeedandfeedratecancontrolthecrawler,ishigh-precisionisessential.Then,theprocessparameters,suchastheangleofthecrawlerinclinationoftheoftheappliedvoltage(i.e.,thecylindricalworkpiece)clarifiedresults(1)thespeedadjustedbytheofappliedbyfeedratecanchangedbyapplyingavoltageandcrawler(2)theofangleof6°,largerainclinationangle,thehigherbetterformachiningaccuracy;(3)androundnesscylindricalworkpiecefromtheinitialvalue16.6314.86improvementFinally,theconditionsunder1.49micronsmicrons.Keywords:surfacemachinevibrationthroughtheIntroductionCenterlessgrindinghighhasinproductivitymachiningcylindricalparts,bearingraceways,andcatheter.thetwotypesofgrindingmachinepurchased:therollersanddifferentfromworkpiecetoandcontroltheworkpiecegrinding.Self-adjustingwheelcenterlessgrindingmachineofthe1966),lotofresearchbeencommittedimprovetheprecisionandRoweandBarash(1964)proposedamethodologyinherentgrinder

机械专业中英文文献翻译accuracy,takingthefactorsandRoweprocessingoftheexperimentalRoweand(1965),describechartofderivedWorkingrecycledcorrugatedworkpieceincenterlessgrindingdynamiccharacteristicsandeffectsintheabrasiveoperatingconfiguration.Deformationofandestablishmentofoffreedomofdynamicmodelchatter,Experimentalstudyrategrindingprocessandthegrinding(1996)clarifyeffectsofbysimulationerror.ofbelowcenterlessintoassistintheofsettingconditions.Gold3-Dgrindertakesaccountbetweenthewheelthesurveythroughcenterlesscylindricalformationofthekrajnikal.modelinefficientgrinderproductivity.al.adoptedbythefeedprocessinavirtualenvironment,itanalysisofgrindinggrindingwithtothenormaloperationofthecontrolwheeltheworkpiecebetweenOnotherhand,posedtheeffectivenessofdynamichydrostaticcrawlertrackedtheofcenterlessgrinderfixturemechanismsystem,presentsamodeltodrivingabilitytothefixturestable.In2-Dgrinderandmodelanalysisofthegrindingthepointofview,thetypesoffortheofsmallspeciesandlargevolumetheloadingunloadingofworkpieceveryandfast.However,thecenterlessamoreitlargebatchinrecentyears,inAsasolutiontothisauthorsmachinecansurfacegrindermethodisontheultrasonicgrindingmachinebyWuetal.(2003,2004).Method,unitbasedaholdersinstalledonasurfacegrinderultrasoniccylindricalworkpieceinwithbladeandtheworkpiecespeedendfaceofthemotion.

机械专业中英文文献翻译Accordingrelativemovementoftheworkpiecewheel,threeofcenterlessgrindingintheproposedmethodtangenttype,type,andThetangentialfeed(2010)accountthemodelgrindingmachine,inordertoclarifythedeformationofroundingandprocessexperimentsconfirmresults.WuXuproposedactualinthematerialremovalandfinalinhigh-levelFeedXuconfirmeditsperformancesimulatedroundingThesimulationexperimentalshow6°,machiningbeunderalowerthecuttingworkpieceofthisdocumentistoverifyfeedcenterlesssurfacegrinder.dothis,firstcorrespondingexperimentalthroughthefeedtypecenterlessmachineconstructedsecondexistingtangentfeedworkpiecemotioncontrolensurethattheofandcontrolcrawler,achievegrindingoperations.theouttoclarifyeffectsofprocessparameters,suchastheeccentricworkpiececrawlertiltangleandperspectiveappliedamplitudemachiningaccuracy,i.e.thecylindricalround.2.grinderfeedcenterlessFigureillustratestheprincipleofoperationfeedgrindingmethoddetailedexperimentaldevicetheinstrumentbyinstallingthegrindingunit,ofantheofandguideplatethebottomtable.Grindingcrawlersub-structurebondingthepiezoelectric(PZT)separated(aandmetalelastomer304).bothA(AC)phasedifference(VA=VP-PSIN(2VB=(2ft+),wherein20fVP-P)andtheACvoltage)applicationofpiezoelectricceramics,bendingverypleasedultrasoniccrawler.syntheticvibrationdisplacementdirections,createanmetal(2005)frictionthetrackthemovementofthetheellipticalmotioncanbecontrolledthetherelativepositionofthebladeultrasonicTodetermineeccentricangle(seeFigurethecrawleristogrindingaxis,=0°

toasthetiltangle),thecrawlergeneratedbytheFFtheworkpieceandtheultrasonicinonly,andiscontroltherotationalmovementoftheworkpiece,Inthetangentialetal,2005;Xuetal,2010),(2011)circumferentialspeedof

机械专业中英文文献翻译sametrackofendfacevelocity.However,feedtheworkpieceonlyrotationalalsothethez-direction,andthereforecrawleris,ininclination,≠Figure1friction,tocontrolworkpiecethroughthemotion.canseen,traditionalcenterlesstaperleadwheelgreaterofthemajorinFIG.1(b),thetrimmingdepthHDtrimminglength.Afterthegivenfromthecrawlertrackonendface,theworkpieceislocatedinspacebetweentheandcrawlerguidesFed.theinterferencewithclockwisegrindingwheelintheintoNWdirectionofthewheelspeedofintheworkpiecethroughthetrimmingtheremovalandthebegins,untilitwithgrindingwheel.Inaddition,isangle(oftentheangle)andof60degreestheworkpieceHarrisonand(2004)roundedExperimentalapparatusandtheworkpiecemotiontest.Thecompetitivenessofsectorfromthereducelaborcosts,theoftheimproveefficiencyandqualityofcompetition,fullymeetcustomerrequirements,developnewproductscompetition,willknowledgeTechnicalproductshort,bulksmallersmaller,forandcommunitygrowingawarenessgreenAgilitymanufacturingtechnologywillprimaryforenterprisestowincompetitionandanddevelopment.TheofcomputerinformationandmanufacturingautomationtechnologyandmoreasbasedCNCinproductiontools,willbeandACNCCNCgrindingwithtotools,millingsystembecauseofhissystem.thewithhelpofrestofthecompensation,multi-table,automaticclampingoperationprojecttoberealized,gradualsurfacegrinder.Chicago,domesticlarge-scalemachinetoolthegrinderexhibitsaccountedformost,suchasGermanELBfamousgrinderfactoryproducedin,Nikkomassproductionfull-functionCNCgrinding,whilethedevelopmentofhigh-endCNCactivelyHanzhong,grinding.ELBofGermanyayearsagooftwocoordinateverticalwheeldresserdiamond

机械专业中英文文献翻译wheelaworkbench,scopeofapplication;SUPER-BRILLIANTCNCSurfaceandProfileGrindingMachines,bedofgeometry,precision,raillinearmechanicalthusensuringbetterworkpiecetheBrilliant-Futuremoretwoseriesofimprovedofartificialthehydrostaticguideway,toothedbeltdrive,verticalandhorizontalexpensiveforstraight-linerollingballscrewdrive,CNCACresolution.TheELBandcomputerCAM-MASTERofflexibleCAD-MASTERandgrindingmachiningshaftuptoaxes,Inaddition,asthefullofthethemanufacturingcycleshortenedELBhasavarietyhigh-efficiencyas/grinder,grindingcantilted,continuouscreepfeedobliquegrinding,withelevencontrollikecenter.British&ShipmandevelopedwithCNCsystemforFORMAT5grinding,CNCcontrolhydraulicvalves,drivenlongitudinalmovementgrindingfeedtheballDCservomotordrive,wheeldresser,CRTwithofsystem,intomeettheofdifferentWiththeimprovementsemiconductorthenewsysteminshapesmallermorecompactfunctionremotediagnostics,multi-machineinterfacetotheWindowscloseremotecontrol,FANUCthisyear,mainly18I,16I,.20I,810D,803Darecompactsystem.Somemanufacturers,Machinery&DevelopmentopenPA800NTSeriesCNCcontroller,theofcoreoftheWindowsNCoperatingsystem,andNTtimelymulti-tasking,programspeedofto2000/singlethereadto1000,with(preconditioningregulationtechnology)parameteroptimizationthezero,thesoftwareprocessingpathfilterstheduetheaccelerationchangelargemechanicalimprovingsurfacesalvation;equippedwithservowith+and-digitalprovidinginternationalPLCprogrammingthefunctionblock,theflowchartsfiveeaseofcommunicationcomputerreal-timefunctions;axisandcontroltoupI/Ocanexpandedto792/528,PentiumaofPLCprocessingspeed25k.ProducedprofessionaladditionthefamousFAUNCinplaneorprofileinthesome

机械专业中英文文献翻译grindingplantalsoactivelydevelopedthecontrolapplicabletogrinder.system,thecoordinatecontrol,manualdataorcomputeranexternalinput,canwithgrindingwheelautomaticallyballgaperror3Gsystemisdevelopedintogrinding,equippedwithtipsdeviceusedman-machinedialogue,alsolinearcircularinterpolation,tilted,grindingIfspindleswing,anexternalsignaltointerruptexecution,wheelcut,dressingpreparationpreparationoffixedcycleItonlyusetheexternalmeasuring(switchingandwhenthetoasuitablemeasuringheadcomparedwithfinaldimensions.TheCNC8600CNCformachinesgrindingthe8400CNCuptosixaxes,2-axiscircular3-axis8-bitaxesandspindlewithadisplay,branchhigh-speedverificationtoolFANUCLTDofathehigh-speedCNCwhichappliessurfacegrinder,grindingdifferentshapes,fourdifferentangletiltcontrolfunction,grinding,finegrinding,grindingrollingpositioncompensationfunction,withtrimcontrol,trimmingouterwheelradiusshapegraphicsgrindingdisplaylights,minimum0.1um,systemcompact,prices.aresuchGermanyUniversitydevelopedbyUNICONsystem.JapanOkumaWorksOSP5000G-Gabletocontrolnineofwhichsixcoordinateslinkedwiththecolordisplay,dialogueautomaticallythecuttingcoefficientthesoftinputintotheFMStheminimumpulseequivalent,mobileanddetectionare0.1um,usesaclosedinductosyn.TheregrindingOEMs,butuseitforprofilesuchtheJUNGcompanySiemensonusingthecompany'sproprietaryprogrammingtrimwheelauxiliaryOkamoto,JapanFANUCsystemhardwaredevelopmentlanguageforsoon.Today'slinearbalancingthedevelopmentoftechnology,shouldgreatlytheofthemachine,ofappropriatemeasurementtechniquestheapplicationofsystem,enhancethemachine'selectricalautomationfunctionsmorepowerful.Second,theofdomestic

机械专业中英文文献翻译levelofChinafromtheofCNCgrinder,manufacturersthroughdevelopedinwithresearchtheofofthedirectofanumericalcontrolsystem.MachineToolisacompanywithofspecializinginproductionofgrindingmachinefrommid-1980s,itbegangrinding,hasdevelopedproducedKGK7132spindleandrectangulargrinding,MK7130seriesCNCgrinding,theMLK7140creepprofilegrindingMK7163,MK7150horizontalandrectangulartableflatgrinding,hanginggrinding,MKY7660,horizontalaxisCNCmill,HZ-K610,HZ-L2010CNCHZ-KD-2010,HZ-K3020,HZ-K4020planeandrailTheandapplicationofcontrolsystem,developedinwithresearchSBCsystem,self-developedsingle-chiphostsimpletheuseofCNCCNCItstheMGK7120high-precisiongrindingJapanFUNUCMate-Dcontrolthegrindingtheminimumfeedamount0.1um,withautomaticcycle.automaticgrinderthingwithItalycontrollertocontrol,CRTdisplay,leftandofthemachineheadisdriventwo-axisservomotor,machinetoolscapableofmanualcycleselection.Italythemeasurementwithtwoprobe,thetheoftothecontrolsystem,compensation;headmeasurestheworkpieceaftergrinding,theresultiscontrolsystembythemotorfeed,wheelheadwithgratingformeasurementcontrol,achievefullclosed-loopprocessingmachinefedtheworkpieceoncompletionoftherollingrailwiththeindustrialtechnologicalprojectsandtheofShanghaiScienceandBothsurfacegrindinganothergrindingfunction,whichthe8400MPmachineaxesX,YZthreegrindingfeedaxisandU,VMwheeldressershaftaxisisahorizontalgrindingwheelinfeedgrinding)SLCprogrammablecontrollerandpositioningmodulebytheI/inputthe8400MPitsposition,wheelgrindingwheeldressingautomaticallyheadsurfacegrinder,systemwithfourcontrolthehorizontalandverticalofhead,wheel

机械专业中英文文献翻译grindingwithPMCaxiscontrolrestofdiamondpenfeed,universalgrindingfulladvantageofthereducecost-effective.InetXu,2010),hasconfirmedofthecrawlerperipheralspeedandthemaximumdependsontracksend.throughtheinletheart,notonlythevicinityofspeed,butthefeedrateworkpiecepreciselycontrolledinachievehigh-precisiongrinding.existinggrindingtangentialfeedtypecenterlessgrindingmachine(WuXumodifyguideandtilttheultrasonicsmall-angleandmotioncontroltest.Experimental315rpaonsurfaceINTEGREXcooperation,LTD.),experimentalmodifiedfeedgrindingunitsestablishedgrinding.ACfunction(wf1944NF)poweramplifiers4010)toACvoltageforcreateellipticalofthefacecrawler.operationareasFirst,grindingconstraintsworkpiecefixedtable,itsandorcarefullyadjusttabletotheleftmovement,so˛eccentricangleavalue,andthen,stockmarketIbythegapgrindingwheelworktable,theisinthespaceguideisgrindingoperation;afterthroughthetrimminggrindingprocess,thetheimplementationofthecrawleruntilit3.2workpiecemotiontestInetithasbeenthatthemotionoftheendinthecrawlerandisusuallyfrictionalbetweentheworkpieceinanovalvibrationthelongitudinalvibration,surfacecontrolthecrawlerbendingvelocityVBmax(=fab,fisthefrequencyofACisABisendfaceofsurfaceofvibrationAccordingly,thecircumferentialandratecanvw=vbmaxγ=2πfAbcosγvfasinγ=2_fAbsinγgivetiltgammafdiameter,speedNWDWVW/DW),feedcanbeexpected-VFA.ABhasknownaswith.Therefore,valueofABalaserDopplervibrometertomeasure(LV-1610measured),and3byamplitudeofVP-P,relationshipbetweenAB-=46.7kHz,ψ=35°,canbeseen,increaseof0.055mmABvalue

机械专业中英文文献翻译monotonicM0.143increased,30VV.Thesedataonof(1)thegeneratedpredictioninNW45.Obviously,theworkpiecespeedNW,feedrateincreasesmonotonicallywithincreases,butinclinationangleofcrawlernotspeedofofIntotheprediction,thespeedbycarryingoutthemeasurementofwateringandfeedingspeedworkpiecetheVFAmovementtests.test,theneedlecylinder(diameterlengthworkpiececementisusedasthecementedcarbidethetest,digitalcamerathe(VW-6000byKEYENCEcooperation.Co.,Ltd.),NWspeedrecordingfromthefeedratethetotheanimatedimageprocessingsoftwaremotion(videoeditingKEYENCECo.,Ltd.).TheapplicationofACsameinamplitudeotherconditionslistedinresultisdrawsamenumberofAspredictedandwerecompared.Obviously,fromFigure4and5theweightofvalueofnwNWincreasethe73rpmtheapplied30VVtiltcanseenontheNWOnotherhand,inFIG.5(B)theVFAappliedvoltagethetiltincreases.differencesthecannotedthatinthegrindingwheelslowsdowntheTheresultsoftestmentionedearlieradjustablespeedNWbytheappliedVP-PisappliedtocanbeadjustedVFA,VP-P,andthemeansthattheworkpiecethetrack,makefullsystemperformance,reducecosts,improvecost-effective.中文译文

机械专业中英文文献翻译数控系在平面磨床应用现与发展趋势雷蒙德·库珀现代工业生产中中小批量零的生产占产品数量的比例越来越高件的复杂性和精度要求迅速提高统的普通机床已经越来越难以适应现代化生产的要求数机床具有高精度高率一多用可以完成复杂型面加工过程的特点，特别是计算机技术的迅猛发展并广泛应用于数控系统中控装置的主要功能几乎全有软件来实现件乎能通用，从而使其更具加工柔性，功能更加强大。制造业的竞争已从早期降低劳动力成本、产品成本，提高企业整体效率和质量的竞争，发展到全面满足顾客要求极发新产品的竞争面临知—技术产的更新周期越来越短，产品批量越来越小，而对质量、性能的要求更高，同时社会对环境保护、绿色制造的意识不断加强。因此敏捷先进的制造技术将成为企业赢得竞争和生存、发展的主要手段。计算机信息技术和制造自动化技术的结合越来越紧密自动化柔性生产重要基础的数控机床在生产机床中所占比例将越来越多。数控平磨现状及主要数控系统平面磨床相对于机床、铣床等采用数控系统较晚，因为他对数控系统的特殊要求。近十几年来，借助技，磨床上砂轮的连续休整，自补偿，自动交换砂轮，多工作台，自动传送和装夹工件等操作工程得以实现控技术在平面磨床上的逐步普及今汉诺威、东京、芝加哥、及国内等大型机床展览会上磨在整个磨床展品已占大多数，如德国BLOHM公ELB公司等著名磨床制造厂已经不再生产通磨床，日本的冈本，日兴等公司也成批生产全功能CNC磨，在开发高档数控平磨的同时，积极发汉中、低档数控平磨。前几年德国ELB公生产的系列二标成型磨床垂和横向为数控轴，纵向为液压控制，砂轮修整采用安装在工作台上的金刚石滚轮，适用范围较广；SUPER-BRILLIANT系是三坐标平和成型磨床，床身用天然花岗岩制成，几何精度较高，导轨用直线滚动导轨，机械驱动无反冲，从而保证工件有较好的表面光洁度；BRILLIANT-FUTURE为上二个系列的改进产品，床身用人造花岗岩制成，纵向用静导轨，齿形带传动，垂直和横向都贵为预加荷直线滚动导轨，滚珠丝杠传动，三轴CNC控AC服电机0.5um的测量分辨率。同时ELB司开发了具有当代最新技术的磨床产品，即以机电一体化和计算机技术为基础的CAM-MASTER系柔性加工单元CAD-MASTER系列和COMPACT-MASTER系磨削加工中心制最多可达轴另外由于全面推行模块化设计，使专用磨床制造周期缩短，

ELB公司还开发了多种高效专用磨床，SFVGA100/2专磨床，具有可倾斜磨头，连续休整，缓进给，斜切入磨削功能，十一根控制轴，如同一台磨加工中心。同时还可以配用其他型号的数控系统，以满足不同用户的需求。目前，随着半导体集成度的不断提高，新推出的系统在外形上越来越小，结构上越来越紧凑，功能上增加了远程通讯，远程诊断，多机联网等等；操作界面向WINDOWS系靠近鼠器等操作