差速器壳体的镗Φ40孔夹具设计及加工工艺含4张CAD图+说明书
摘要
随着社会的发展,汽车在生产和生活中的越来越广泛,差速器是汽车中的重要部件,其壳体的结构及加工精度直接影响差速器的正常工作,因此研究差速器的加工方法和工艺的编制是十分必要和有意义的。本次设计主要内容有:差速器的工作原理结构分析,差速器壳体的工艺编制,夹具的设计及加工中对定位基准的选择,工序和工装设计中切削用量,夹紧力的计算等。机床夹具的种类很多,其中,使用范围最广的通用夹具,规格尺寸多已标准化,并且有专业的工厂进行生产。而广泛用于批量生产,专为某工件加工工序服务的专用夹具,则需要各制造厂根据工件加工工艺自行设计制造。本设计的主要内容是设计镗Φ40孔夹具。
关键词:差速器,壳体,工艺规程,夹具设计
Abstract
With the developme
nt of society, automobiles are more a
nd more widely used i
n productio
n a
nd life. Differe
ntial is a
n importa
nt part of automobiles. The structure a
nd processi
ng accuracy of its shell directly affect the
normal operatio
n of differe
ntial. Therefore, it is very
necessary a
nd mea
ni
ngful to study the processi
ng method a
nd tech
nology of differe
ntial. The mai
n co
nte
nts of this desig
n i
nclude: the a
nalysis of the worki
ng pri
nciple a
nd structure of the differe
ntial, the process preparatio
n of the differe
ntial shell, the selectio
n of positio
ni
ng refere
nce i
n fixture desig
n a
nd processi
ng, the cutti
ng parameters i
n process a
nd tooli
ng desig
n, the calculatio
n of clampi
ng force, etc. There are ma
ny ki
nds of machi
ne tool fixtures, amo
ng which the most widely used ge
neral fixtures, specificatio
ns a
nd sizes have bee
n sta
ndardized, a
nd there are professio
nal factories for productio
n. The special fixture which is widely used i
n batch productio
n a
nd serves a certai
n workpiece processi
ng process
needs to be desig
ned a
nd ma
nufactured by each ma
nufacturer accordi
ng to the workpiece processi
ng tech
nology. The mai
n co
nte
nt of this desig
n is to desig
n a fixture for bori
ng 40 holes. Key words: differe
ntial, shell, process specificatio
n, fixture desig
n 目录 摘要1 Abstract 2 第1章绪论5 1.1课题的背景及意义5 1.2差速器的主要分类5 1.2.1开式差速器5 1.2.2限滑差速器6 1.3差速器结构6 1.3主要内容7 第2章零件的分析7 2.1零件的作用7 2.2零件的工艺分析8 第3章工艺规程设计9 3.1基准面的选择9 3.1.1粗基准的选择10 3.1.2精基准的选择10 3.2毛坯的制造形式10 3.3制订工艺路线10 3.3.1.工艺线路方案一10 3.3.2工艺路线方案二11 3.3.3.工艺方案的比较与分析11 3.4机械加工余量、工序尺寸及毛坯尺寸的确定12 3.4.1外圆表面12 3.5内圆表面14 3.4.3端面15 3.4.4凸台16 3.4.5孔类16 第4章确定差速器切削用量及基本工时16 4.1工序1铣φ200外圆右端面(大头)。 16 4.2工序2铣φ50外圆左端面(小头) 17 4.3工序3粗、半精车φ200、φ154、φ150、φ50外圆19 4.4工序4钻孔φ40底孔φ39.5,精车φ200、φ154、φ150、φ50外圆,精车最大轮廓φ200前端面24 4.5工序5粗镗φ50、φ122、φ130孔30 4.6工序6精镗φ40、φ50、φ122、φ130孔,以端面和φ154外圆定位,选用T740K精镗床35 4.7工序7铣两凸台上平面39 4.8工序8钻φ4孔,选用Z525立式钻床及专用夹具。 40 4.9工序9钻、铰两组φ8、φ22孔,φ8孔倒角。 40 4.10工序10钻孔12×Φ12.5 44 第5章专镗Φ40孔用夹具设计46 5.1研究原始质料46 5.2切削力及夹紧分析计算46 5.3误差分析与计算47 参考文献50
展开...
nt of society, automobiles are more a
nd more widely used i
n productio
n a
nd life. Differe
ntial is a
n importa
nt part of automobiles. The structure a
nd processi
ng accuracy of its shell directly affect the
normal operatio
n of differe
ntial. Therefore, it is very
necessary a
nd mea
ni
ngful to study the processi
ng method a
nd tech
nology of differe
ntial. The mai
n co
nte
nts of this desig
n i
nclude: the a
nalysis of the worki
ng pri
nciple a
nd structure of the differe
ntial, the process preparatio
n of the differe
ntial shell, the selectio
n of positio
ni
ng refere
nce i
n fixture desig
n a
nd processi
ng, the cutti
ng parameters i
n process a
nd tooli
ng desig
n, the calculatio
n of clampi
ng force, etc. There are ma
ny ki
nds of machi
ne tool fixtures, amo
ng which the most widely used ge
neral fixtures, specificatio
ns a
nd sizes have bee
n sta
ndardized, a
nd there are professio
nal factories for productio
n. The special fixture which is widely used i
n batch productio
n a
nd serves a certai
n workpiece processi
ng process
needs to be desig
ned a
nd ma
nufactured by each ma
nufacturer accordi
ng to the workpiece processi
ng tech
nology. The mai
n co
nte
nt of this desig
n is to desig
n a fixture for bori
ng 40 holes. Key words: differe
ntial, shell, process specificatio
n, fixture desig
n 目录 摘要1 Abstract 2 第1章绪论5 1.1课题的背景及意义5 1.2差速器的主要分类5 1.2.1开式差速器5 1.2.2限滑差速器6 1.3差速器结构6 1.3主要内容7 第2章零件的分析7 2.1零件的作用7 2.2零件的工艺分析8 第3章工艺规程设计9 3.1基准面的选择9 3.1.1粗基准的选择10 3.1.2精基准的选择10 3.2毛坯的制造形式10 3.3制订工艺路线10 3.3.1.工艺线路方案一10 3.3.2工艺路线方案二11 3.3.3.工艺方案的比较与分析11 3.4机械加工余量、工序尺寸及毛坯尺寸的确定12 3.4.1外圆表面12 3.5内圆表面14 3.4.3端面15 3.4.4凸台16 3.4.5孔类16 第4章确定差速器切削用量及基本工时16 4.1工序1铣φ200外圆右端面(大头)。 16 4.2工序2铣φ50外圆左端面(小头) 17 4.3工序3粗、半精车φ200、φ154、φ150、φ50外圆19 4.4工序4钻孔φ40底孔φ39.5,精车φ200、φ154、φ150、φ50外圆,精车最大轮廓φ200前端面24 4.5工序5粗镗φ50、φ122、φ130孔30 4.6工序6精镗φ40、φ50、φ122、φ130孔,以端面和φ154外圆定位,选用T740K精镗床35 4.7工序7铣两凸台上平面39 4.8工序8钻φ4孔,选用Z525立式钻床及专用夹具。 40 4.9工序9钻、铰两组φ8、φ22孔,φ8孔倒角。 40 4.10工序10钻孔12×Φ12.5 44 第5章专镗Φ40孔用夹具设计46 5.1研究原始质料46 5.2切削力及夹紧分析计算46 5.3误差分析与计算47 参考文献50
作品编号:
150878
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