设计简介
连杆螺钉车削加工工艺及设计说明书
摘要
连杆螺钉部件由连杆螺钉、轴承、传动件(如齿轮、带轮)和固定件(如螺母)等组成,是汽车的重要组成部分。汽车工作时由连杆螺钉夹持工件(车床)或刀具(钻床、镗床、铣床、磨床等)直接参加表面成形运动,所以,连杆螺钉部件的工作性能对加工质量和汽车生产率有重要影响。
本文针对提供的连杆螺钉零件,并对连杆螺钉进行加工工艺的规程设计,包括了连杆螺钉的数控车削加工,介绍了数控车的加工工艺及数控编程,以此连杆螺钉进行数控车的加工工艺编制和数控编程的设计,并进行模拟仿真。
关键词:连杆螺钉,数控车削,数控编程,仿真
Shaft CNC turning technology and programming design
Abstract
This paper describes the the world CNC technology and equipment development trend of CNC equipment and technology development and industrialization of the status quo, in the new environment, the development of numerical control technology, the importance of Chinese Manufacturing Information and international competitiveness.
For this subject, the article describes the process and CNC programming of CNC lathe, CNC car axle parts as a case, the process of preparation of CNC lathe and CNC programming design and simulation.
Key words:NC, axle parts, CNC programming, simulation
目 录
摘要...........................................................................................
I
Abstract......................................................................................II
目录...........................................................................................III
第一章 绪论......................................................................................4
1.1数控汽车的介绍..................................................................4
1.2数控编程的介绍................................................................14
第二章 连杆螺钉零件加工工艺设计........................................................16
2.1 连杆螺钉零件的工艺分析..................................................16
2.2 连杆螺钉零件的工艺安排...................................................16
2.3 编制加工工艺……………………………………………16
2.4 手动编制程序...............................................................19
第三章 零件的数控编程加工................................21
3.1 数控编程的定义.............................................21
3.2 数控车程序清单...........................................................23
3.2 数控车加工仿真...........................................................23
总结.......................................................................................35
参考文献...................................................................................36
致谢...........................................................................................37
摘要
连杆螺钉部件由连杆螺钉、轴承、传动件(如齿轮、带轮)和固定件(如螺母)等组成,是汽车的重要组成部分。汽车工作时由连杆螺钉夹持工件(车床)或刀具(钻床、镗床、铣床、磨床等)直接参加表面成形运动,所以,连杆螺钉部件的工作性能对加工质量和汽车生产率有重要影响。
本文针对提供的连杆螺钉零件,并对连杆螺钉进行加工工艺的规程设计,包括了连杆螺钉的数控车削加工,介绍了数控车的加工工艺及数控编程,以此连杆螺钉进行数控车的加工工艺编制和数控编程的设计,并进行模拟仿真。
关键词:连杆螺钉,数控车削,数控编程,仿真
Shaft CNC turning technology and programming design
Abstract
This paper describes the the world CNC technology and equipment development trend of CNC equipment and technology development and industrialization of the status quo, in the new environment, the development of numerical control technology, the importance of Chinese Manufacturing Information and international competitiveness.
For this subject, the article describes the process and CNC programming of CNC lathe, CNC car axle parts as a case, the process of preparation of CNC lathe and CNC programming design and simulation.
Key words:NC, axle parts, CNC programming, simulation
目 录
摘要...........................................................................................
IAbstract......................................................................................II
目录...........................................................................................III
第一章 绪论......................................................................................4
1.1数控汽车的介绍..................................................................4
1.2数控编程的介绍................................................................14
第二章 连杆螺钉零件加工工艺设计........................................................16
2.1 连杆螺钉零件的工艺分析..................................................16
2.2 连杆螺钉零件的工艺安排...................................................16
2.3 编制加工工艺……………………………………………16
2.4 手动编制程序...............................................................19
第三章 零件的数控编程加工................................21
3.1 数控编程的定义.............................................21
3.2 数控车程序清单...........................................................23
3.2 数控车加工仿真...........................................................23
总结.......................................................................................35
参考文献...................................................................................36
致谢...........................................................................................37
