基于UG的齿轮-凸轮式压力机的三维设计与运动仿真
摘要:经过对凸轮机构的调查及资料收集,凸轮机构可以实现各种复杂的运动要求,而且结构简单、紧凑。本论文将利用齿轮-凸轮式进给机构,设计齿轮-凸轮式压力机。首先构造出齿轮-凸轮式压力机的机构,然后在UG软件设计平台上完成齿轮-凸轮式压力机的三维设计、三维建模、装配及运动仿真。
关键词:三维设计;UG;3D造型;装配;运动仿真
Gear - a three-dimensional design and motion simulation cam joint press
Abstract: through the investigation and data collection of CAM mechanism, CAM mechanism can realize all kinds of complex movement requirements, but also simple and compact structure. This paper will use the gear - CAM type feed mechanism, design gear - CAM joint press. First constructs the gear - CAM joint press agency, and then on the UG software design platform complete gear - CAM joint press 3 d design, 3 d modeling, assembly and movement simulation
Keywords: 3D design; UG; 3D modeling; assembly; motion simulation
目 录
第一章 概 述
1.1 序言.......................................................11
1.2 UG介绍.....................................................12
1.3 课题研究内容...............................................12
第二章齿轮-凸轮式压力机机构组成及其工作原理
2.1齿轮-凸轮式压力机机构组成..................................14
2.1.1机架..................................................14
2.1.2圆柱齿轮..............................................14
2.1.3盘型凸轮..............................................14
2.1.4凸轮连杆..............................................14
2.1.5摇杆..................................................15
2.1.6滑块..................................................15
2.1.7压力锤................................................15
2.1.8齿轮轴与平键..........................................15
2.2齿轮-凸轮式压力机工作原理................................15
第三章 建立三维模型
3.1造型简述...................................................16
3.1.1机架...................................................16
3.1.2圆柱齿轮的建模.........................................17
3.1.3盘型凸轮的建模.........................................18
3.1.4凸轮连杆的建模.........................................19
3.1.5齿轮轴的建模...........................................20
3.1.6平键的建模.............................................20
3.1.7小连杆的建模...........................................21
3.1.8摇杆的建模.............................................21
3.1.9滑块的建模.............................................22
3.1.10压力锤的建模..........................................23
3.2 UG 虚拟装配
3.2.1 虚拟装配的介绍.........................................24
3.2.2 装配过程
3.2.2.1 装配机架..........................................24
3.2.2.2 装配齿轮..........................................25
3.2.2.3 装配齿轮轴........................................26
3.2.2.4 装配平键..........................................26
3.2.2.5 装配凸轮...........................................27
3.2.2.6装配从动齿轮、齿轮轴、平键、凸轮与机架..............27
3.2.2.7装配凸轮连杆........................................28
3.2.2.8装配小连杆..........................................28
3.2.2.9装配摇杆............................................29
3.2.2.10 装配滑块..........................................30
3.2.2.11 装配压力锤........................................30
3.2.3.装配结果分析.........................................31
第四章 齿轮-凸轮式压力机的运动仿真
4.1运动仿真介绍...............................................32
4.2 机构预期运动要求...........................................32
4.3 创建运动仿真
4.3.1启动仿真及环境设置.......................................32
4.3.2 创建连杆................................................34
4.3.3 构建运动副..............................................36
4.3.4定义驱动.................................................38
4.3.5新建解算方案并求解.......................................38
4.3.6 创建仿真动画及运动函数图表..............................39
4.3.7 运动仿真结果分析........................................41
第五章 创建工程图
5.1 创建工程图介绍.............................................42
5.2 创建工程图具体步骤.........................................42
5.3 各部件CAD图
5.3.1齿轮机构示意图.........................................42
5.3.2滑块机构示意图.........................................43
5.3.3键机构示意图...........................................44
5.3.4机架机构示意图.........................................45
5.3.5凸轮机构示意图.........................................46
5.3.6凸轮连杆机构示意图.....................................47
5.3.7小连杆机构示意图.......................................48
5.3.8压力锤机构示意图.......................................49
5.3.9摇杆机构示意图.........................................50
5.3.10轴机构示意图..........................................51
总结.......................................................53
致谢.......................................................54
参考文献...................................................55
参考文献
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