设计简介
摘 要
应用组合机床加工大批量零件,快捷高效,生产效率高是机械加工的发展方向。本次毕业设计的题目是“发动机汽缸体专用机床设计”。在工艺制定过程中,通过批量的进行钻底孔的加工方案,并寻求最佳的工艺方案,借此说明了工艺在生产过程中的重要性。本人的设计的主要内容是:进行了机床总体布局设计;对机床的进给和传动部分进行了设计;结合实例,介绍了夹具设计方法;通过此设计,本机床完全能满足设计要求,与传统的机床相比,本机床具有自动化程度高,生产率高,精度高等优点。
关键词:组合机床;钻底孔;夹具设计;手动
应用组合机床加工大批量零件,快捷高效,生产效率高是机械加工的发展方向。本次毕业设计的题目是“发动机汽缸体专用机床设计”。在工艺制定过程中,通过批量的进行钻底孔的加工方案,并寻求最佳的工艺方案,借此说明了工艺在生产过程中的重要性。本人的设计的主要内容是:进行了机床总体布局设计;对机床的进给和传动部分进行了设计;结合实例,介绍了夹具设计方法;通过此设计,本机床完全能满足设计要求,与传统的机床相比,本机床具有自动化程度高,生产率高,精度高等优点。
关键词:组合机床;钻底孔;夹具设计;手动
Abstract
Application of combined high-volume machining parts, high efficiency, high productivity is the development direction of machining. The graduation design topic is "the engine cylinder head design and the combination of drilling tapping machine design". In the process of the development process, through the batch drilling bottom hole processing scheme, and to seek the best technology solutions, which illustrates the importance of the process in the production process. The main contents of the design are: the general layout design of machine tool; on the machine feed and transmission parts of the design; combined with the example, introduces the fixture design method; with this design, this machine can meet the design requirements, compared with traditional machine, this machine has a high degree of automation, high productivity advantages high precision.
Key Words: modular machine tool; drilling bottom hole; fixture design; manual
目 录
1 绪论 1Application of combined high-volume machining parts, high efficiency, high productivity is the development direction of machining. The graduation design topic is "the engine cylinder head design and the combination of drilling tapping machine design". In the process of the development process, through the batch drilling bottom hole processing scheme, and to seek the best technology solutions, which illustrates the importance of the process in the production process. The main contents of the design are: the general layout design of machine tool; on the machine feed and transmission parts of the design; combined with the example, introduces the fixture design method; with this design, this machine can meet the design requirements, compared with traditional machine, this machine has a high degree of automation, high productivity advantages high precision.
Key Words: modular machine tool; drilling bottom hole; fixture design; manual
目 录
1.1 组合机床的简介 1
1.2本课题国内外研究概况 2
2 组合机床的总体设计 4
2.1 组合机床方案的制定 4
2.1.1 制定工艺方案 4
2.1.2 确定组合机床的配置形式和结构方案 4
2.2 确定切削用量及选择刀具 6
2.2.1 确定工序间余量 6
2.2.2 选择切削用量 6
2.2.3 确定切削力、切削扭矩、切削功率 6
2.2.4 选择刀具结构 7
2.3 钻孔组合机床总设计“三图一卡”的编制 7
2.3.1 被加工零件工序图 7
2.3.2 加工示意图 9
2.3.3 机床联系尺寸图 12
2.3.4 生产率计算卡 15
3 主轴箱的设计 17
3.1 主轴箱的设计 17
3.1.1绘制主轴箱设计原始依据图 17
3.1.2齿轮模数选择 19
3.1.3主轴箱的传动设计 19
3.1.4绘制传动系统图 21
3.2 传动轴的直径估算 21
3.2.1 确定各轴转速 22
3.2.2传动轴直径的估算:确定各轴最小直径 22
3.2.3 键的选择 23
3.3 传动轴的校核 24
3.3.1 传动轴的校核 24
3.3.2 键的校核 25
3.4 各变速组齿轮模数的确定和校核 25
3.4.1 齿轮模数的确定 25
3.4.2 齿宽的确定 28
3.4.3 齿轮结构的设计 28
3.5 齿轮校验 29
3.5.1 校核a变速组齿轮 29
3.5.2 校核b变速组齿轮 31
3.5.3 校核c变速组齿轮 32
3.6 轴承的选用与校核 34
3.6.1 各轴轴承的选用 34
3.6.2 各轴轴承的校核 34
3.7 轴组件设计 35
3.8 轴的基本尺寸确定 35
3.8.1 外径尺寸D 35
3.8.2 轴孔径d 36
3.8.3 轴悬伸量a 37
3.8.4 支撑跨距L 37
3.8.5 轴最佳跨距
的确定 373.9 轴刚度验算 39
3.9.1 轴前支撑转角的验算 40
3.9.2 轴前端位移的验算 42
结论 44
致 谢 45
参考文献 46
