冲压模具毕业设计论文图纸:减振器接头压铸模具设计(proe三维图).zip
冲压模具毕业设计论文图纸:减振器接头压铸模具设计(proe三维图),毕业设计 减振器接头压铸模具设计(proe三维仿真)论文说明书共36页,字数总计:17026资料简介:proe三维图仿真加工三维图册文献资料凹凸模加工工序卡片封面.doc毕业设计开题报告.doc毕业设计任务书.doc毕业设计说明书:减振器接头压铸模具设计(proe三维图).doc毕业设计说明书封面.doc毕业实习报告....
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毕业设计 减振器接头压铸模具设计(Proe三维仿真)
论文说明书共36页,字数总计:17026
资料简介:
Proe三维图
仿真加工
三维图册
文献资料
凹凸模加工工序卡片封面.doc
毕业设计开题报告.doc
毕业设计任务书.doc
毕业设计说明书:减振器接头压铸模具设计(Proe三维图).doc
毕业设计说明书封面.doc
毕业实习报告.doc
外文文献.pdf
型芯型腔加工工艺卡片.doc
选题申报表.doc
英文翻译.doc
摘要.doc
A2-动模套板.dwg
A2-动模镶块.dwg
A2-定模镶块.dwg
A2-定模套板.dwg
A3-定模座板.dwg
A3-推板.dwg
A3-推板固定板.dwg
A4-侧成型小型芯.dwg
A4-侧滑块.dwg
A4-侧型芯.dwg
A4-减振器接头.dwg
A4-小推杆.dwg
A4-推杆.dwg
A4-浇口套.dwg
A4-复位杆.dwg
A4-导柱.dwg
A4-导套.dwg
A4-大推杆.dwg
A0-减振器接头压铸模装配图.dwg
减振器接头压铸模具设计
摘 要:运用压铸模具设计的相关理论知识,分析了减振器接头压铸件的结构特点,阐述了该零件模具设计中的一些关键问题,设计出了适合该零件的压铸模具结构,介绍了一种侧型芯的浮动装配结构,并对模具制造中的一些关键问题作了说明。使用三维模具设计软件Pro/E对制品进行造型,构造模具,用二维软件AutoCAD设计绘制各零件,并使用MasterCAM软件对型腔零件进行加工仿真。设计和加工仿真结果表明:设计模具,尤其在型芯和型腔等具有复杂曲面零件时,Pro/E具有二维和其它软件所无法比拟的优越性。Pro/E软件自身所带的模具设计功能,更加体现了它在模具设计中的强大优势。MasterCAM软件对零件进行仿真加工,可以很直观的观察实际加工过程,及时发现加工中出现的问题,预知成品零件的加工效果。本次设计使我对模具有更详细和全面了解,为以后进一步学习相关知识奠定了基础。
关键词:压铸模具; 浮动装配; 侧向抽芯; 浇注系统
Design of Pressure Casting Die for Damper Connector
Abstract: Based on the analysis of the structure characteristic of the damper connector part ,some key points in pressure casting die design for the part were presented.The die structure adapted to the pressure casting die for the part was put forward.A kind of side core floating assembly structure was introduced and some key points in the die manufactyring were described.Use three-dimensional mold design software Pro/E to carry on the modelling to the products, designs the structure of the mould , Design and draw every part with two-dimentional software AutoCAD , use MasterCAM software go on emulation of processing to type s of part. Designing and process the emulation result indicates: Design the mould , especially in the type when core and type,etc. have complicated curved surface parts, Pro/E has two peacekeeping and other superiority with incomparable software. Pro/E software mold design function brought up by oneself, reflect its strong advantage in mold design further. By MasterCAM carry on about part there aren't emulation the softwares,can ocular observation course of processing not actual very, Find the question appearing while processing in time, foresee the processing result of the part of finished product. Design this make me have to mould detailed and understand all-sidedly, for study relevant knowledge establish the foundation further afterwards.
Key words: Pressure casting die; Folating assembly; Side core-pulling; Pour system
目 录
1前言.......................................................................................................................... 1
1.1课题内容.............................................................................................................. 1
1.2课题背景............................................................................................................... 1
1.3课题的来源及要求............................................................................................... 2
1.4模具国内外发展概况........................................................................................... 2
2总体方案设计........................................................................................................... 4
2.1零件工艺分析....................................................................................................... 4
2.1.1铸件尺寸精度................................................................................................... 5
2.1.2模具材料的选择............................................................................................... 5
2.1.3脱模斜度........................................................................................................... 6
2.2 压铸机的选择...................................................................................................... 6
2.3 绘制铸件毛坯图.................................................................................................. 8
2.4对模具结构的初步分析....................................................................................... 9
2.4.1分型面的选择................................................................................................... 9
2.4.2 浇注系统的设计.............................................................................................10
2.5排溢系统设计............
论文说明书共36页,字数总计:17026
资料简介:
Proe三维图
仿真加工
三维图册
文献资料
凹凸模加工工序卡片封面.doc
毕业设计开题报告.doc
毕业设计任务书.doc
毕业设计说明书:减振器接头压铸模具设计(Proe三维图).doc
毕业设计说明书封面.doc
毕业实习报告.doc
外文文献.pdf
型芯型腔加工工艺卡片.doc
选题申报表.doc
英文翻译.doc
摘要.doc
A2-动模套板.dwg
A2-动模镶块.dwg
A2-定模镶块.dwg
A2-定模套板.dwg
A3-定模座板.dwg
A3-推板.dwg
A3-推板固定板.dwg
A4-侧成型小型芯.dwg
A4-侧滑块.dwg
A4-侧型芯.dwg
A4-减振器接头.dwg
A4-小推杆.dwg
A4-推杆.dwg
A4-浇口套.dwg
A4-复位杆.dwg
A4-导柱.dwg
A4-导套.dwg
A4-大推杆.dwg
A0-减振器接头压铸模装配图.dwg
减振器接头压铸模具设计
摘 要:运用压铸模具设计的相关理论知识,分析了减振器接头压铸件的结构特点,阐述了该零件模具设计中的一些关键问题,设计出了适合该零件的压铸模具结构,介绍了一种侧型芯的浮动装配结构,并对模具制造中的一些关键问题作了说明。使用三维模具设计软件Pro/E对制品进行造型,构造模具,用二维软件AutoCAD设计绘制各零件,并使用MasterCAM软件对型腔零件进行加工仿真。设计和加工仿真结果表明:设计模具,尤其在型芯和型腔等具有复杂曲面零件时,Pro/E具有二维和其它软件所无法比拟的优越性。Pro/E软件自身所带的模具设计功能,更加体现了它在模具设计中的强大优势。MasterCAM软件对零件进行仿真加工,可以很直观的观察实际加工过程,及时发现加工中出现的问题,预知成品零件的加工效果。本次设计使我对模具有更详细和全面了解,为以后进一步学习相关知识奠定了基础。
关键词:压铸模具; 浮动装配; 侧向抽芯; 浇注系统
Design of Pressure Casting Die for Damper Connector
Abstract: Based on the analysis of the structure characteristic of the damper connector part ,some key points in pressure casting die design for the part were presented.The die structure adapted to the pressure casting die for the part was put forward.A kind of side core floating assembly structure was introduced and some key points in the die manufactyring were described.Use three-dimensional mold design software Pro/E to carry on the modelling to the products, designs the structure of the mould , Design and draw every part with two-dimentional software AutoCAD , use MasterCAM software go on emulation of processing to type s of part. Designing and process the emulation result indicates: Design the mould , especially in the type when core and type,etc. have complicated curved surface parts, Pro/E has two peacekeeping and other superiority with incomparable software. Pro/E software mold design function brought up by oneself, reflect its strong advantage in mold design further. By MasterCAM carry on about part there aren't emulation the softwares,can ocular observation course of processing not actual very, Find the question appearing while processing in time, foresee the processing result of the part of finished product. Design this make me have to mould detailed and understand all-sidedly, for study relevant knowledge establish the foundation further afterwards.
Key words: Pressure casting die; Folating assembly; Side core-pulling; Pour system
目 录
1前言.......................................................................................................................... 1
1.1课题内容.............................................................................................................. 1
1.2课题背景............................................................................................................... 1
1.3课题的来源及要求............................................................................................... 2
1.4模具国内外发展概况........................................................................................... 2
2总体方案设计........................................................................................................... 4
2.1零件工艺分析....................................................................................................... 4
2.1.1铸件尺寸精度................................................................................................... 5
2.1.2模具材料的选择............................................................................................... 5
2.1.3脱模斜度........................................................................................................... 6
2.2 压铸机的选择...................................................................................................... 6
2.3 绘制铸件毛坯图.................................................................................................. 8
2.4对模具结构的初步分析....................................................................................... 9
2.4.1分型面的选择................................................................................................... 9
2.4.2 浇注系统的设计.............................................................................................10
2.5排溢系统设计............
