二级斜齿轮减速器优化设计.doc
I摘要齿轮传动是现代机械中应用最广的一种传动形式。它的主要优点是:瞬时传动比恒定、工作平稳、传动准确可靠可传递空间任意两轴之间的运动和动力;适用的功率和速度范围广;传动效率高,=0.92-0.98;工作可靠、使用寿命长;外轮廓尺寸小、结构紧凑。由齿轮、轴、轴承及箱体组成的齿轮减速器,用于原动机和工作机或执行机构之间,起匹配转速和传递转矩的作用,在现代机械中应用极为广泛。国内的减速器多以齿轮传动、蜗杆传动为主,但普遍存在着功率与重量比小,或者传动比大而机械效率过低的问题。另外,材料品质和工艺水平上还有许多弱点,特别是大型的减速器问题更突出,使用寿命不长。国外的减速器,以德国、丹麦和日本处于领先地位,特别在材料和制造工艺方面占据优势,减速器工作可靠性好,使用寿命长。但其传动形式仍以定轴齿轮传动为主,体积和重量问题,也未解决好。当今的减速器是向着大功率、大传动比、小体积、高机械效率以及使用寿命长的方向发展。减速器与电动机的连体结构,也是大力开拓的形式,并已生产多种结构形式和多种功率型号的产品。近十几年来,由于近代计算机技术与数控技术的发展,使得机械加工精度,加工效率大大提高,从而推动了机械传动产品的多样化,整机配套的模块化,标准化,以及造型设计艺术化,使产品更加精致,美观化。针对减速器存在的问题,本课题采用优化设计的方法,力求使减速器的体积达到最小,建立数学模型,并通过matlab语言编辑后,得到一组优化数据,到达预期目标,使减速器的体积比传统的经验设计结果减小20%-30%。并对输出轴做了机械加工工艺分析。关键字:减速器优化设计齿轮机械传动IIAbstractWheelgearsspreadingtomoveisathemostwidekindoftheapplicationspreadstomoveaforminthemodernmachine.ItsmainadvantageBE:Thespreadstomovetosettle,workthaninamomentsteady,spreadtomoveaccuratecredibility,candeliverspacearbitrarilysportandthemotiveoftheoftwostalks;Powerandspeedscopeappliesarewide;spreadstomoveanefficiencyhigh,=0.92-0.98;workisdependable,servicelifelong;Outlinesizeoutsidetheissmall,structuretightlypacked.Thewheelgearconstitutedto°fromwheelgear,stalk,bearingsandboxbodydeceleratesamachine,usedingforprimemoverandworkmachineorperformanceorganizationof,havealreadymatchedtoturnsoonanddeliverafunctionofturning,theapplicationisextremelyextensiveinthemodernmachine.Localdecelerationmachinemuchwiththewheelgearspreadtomove,thepolespreadtomoveforlord,butwidespreadexistpowerandweightratiosmall,orspreadtomoveratiobigbutthemachineefficiencyleadalowproblem.Therearealsomanyweaknessesonmaterialqualityandcraftlevelmoreover,theespeciallylargedecelerationmachinesproblemismoreoutstanding,theservicelifeisntlong.Thedecelerationmachineofabroad,withGermany,DenmarkandJapanbeplacedintoleadaposition,occupyingadvantageinthematerialandthemanufacturingcraftspecially,deceleratingthemachineworkcredibilitylike,servicelifelong.Butitspreadstomoveaformtostilltakesettlingstalkwheelgeartospreadtomoveaslord,physicalvolumeandweightproblem,dontalsoresolvelikeThedirectionwhichdeceleratesamachinetoisthefacingbigpowerandspreadtomoveratio,smallphysicalvolume,highmachineefficiencyandservicelifetogrowgreatlynowadaysdevelops.Deceleratingtheconnectingofmachineandelectricmotorbodystructureisalsotheformwhichexpandsstrongly,andhavealreadyproducedvariousstructureformsandvariousproductsofpowermodelnumbers.Beclosetotenseveralinthelastyearses,controlatechnicaldevelopmentbecauseofthemoderncalculatortechniqueandthenumber,makethemachineprocessaccuracy,processanefficiencytoraiseconsumedly,pushedamachinetospreadthediversificationofmovablepropertyarticlethus,themoldpieceofthewholemachinekitturns,IIIstandardizing,andshapedesigntheartturn,makingproductmorefine,thebeautyturns.Forthereducerproblem,theissueofoptimaldesignapproachinefforttominimizethesizereducer,madethemathematicalmodel,andeditedbymatlablanguage,getasetofoptimaldatatoreachthetarget,sothatthevolumereducerexperiencethanthetraditionaldesignresultswasreducedby20%-30%.Andtheoutputshaftofthemachiningprocessofdoing.Keywords:Reductiongear、Optimaldesign、gear、mechanicaldrive1目录摘要.IAbstract.II绪论.21优化设计.31.1原始数据及优化目标.31.2优化方案的选择.31.3数学模型的建立.41.4算法的选取与建立.71.5matlab语言程序编辑.92轴承和传动轴的设计.132.1.轴的结构设计.132.2轴的强度校核.153键、联轴器和电动机的选择计算.203.1键的选择计算.203.2联轴器设计.203.3电动机的选择.214箱体结构及其附件的设计.224.1箱体结构的设计.224.2附件设计.224.3润滑密封设计.245减速箱输出轴的工艺性分析.255.1输出轴整体工艺分析.255.2选择毛坯、确定毛坯尺寸、设计毛坯图.275.3选择减速箱输出轴的加工方法,制定工艺路线.285.4机床设备的选用.315.5工序加工余量的确定,工序尺寸及公差的计算.315.6机械加工工艺过程卡片.36结论.38致谢.39参考文献.40附录.错误!未定义书签。