摘要
伴随着社会的不断发展,物品的运送也广泛应用与各个行业。机械传动在机械工程中也应用非常广泛,主要是利用机械方式传动物体。企业为了赢得市场,必须不断开发符合市场需求的产品。新产品的开发决定了市场竞争力和经济效益的最主要因素。
沟槽轮送料机构可以实现物料的传给运动。
本文首先叙述了沟槽轮送料机构传动的类型,并列举了其它几种送料机构。紧接着分析沟槽轮机构工作原理,并应用UG软件对各个零件进行三维造型并装配;自定各零件加工工序卡,利用CAXA制造工程师软件进行仿真加工及自动编程,使用加工中心、数控车床、普车等设备将各零件加工出来。最终将零件的组合装配,实现沟槽轮送料机构模型的运转。
关键词:机械制造;造型;加工制作;沟槽送料机构
Abstracts
With the continuous development of society, goods delivery also widely applied to various industries. Mechanical transmission is widely applied in mechanical engineering, the main way is to use mechanical transmission objects. To win the market, the enterprise must constantly develop products that meet the market demand. The development of new products determines the most important factor of market competitiveness and economic benefits.
Grooved wheel conveying mechanism can realize the material to the movement,
This paper first describes the grooved wheel conveying mechanism transmission types, and several other conveying mechanism are listed. Followed by analysis of grooved wheel mechanism working principle and application of UG software for 3 d modeling and assembly parts; Since each parts processing process card, using CAXA manufacturing engineers and automatic programming software simulation processing, using machining centers, CNC lathes, general equipment to various parts processing. Will eventually be a combination of parts assembly, the realization of grooved wheel conveying mechanism model of operation..
Keywords : Mechanical manufacturing; Modelling; Processing production; Groove conveying mechanism
目录
摘要 I
Abstracts II
第一章 绪论 1
1.1 课题的来源、制作的目的、意义及主要内容 1
1.1.1 课题的来源: 1
1.1.2 目的 1
1.1.3 意义 2
1.1.4 本课题的主要内容 2
第二章 沟槽轮送料机构的工作原理与方案设计 3
2.1 工作原理 3
2.1.1原理 3
2.1.2同步带轮的选择与计算 3
2.1.3从动轴1的设计与计算 5
2.1.4 槽轮的设计与计算 6
2.1.5 轴承的选择与计算 8
2.2 沟槽轮送料机构零件的UG建模 9
2.2.1 槽轮的建模 9
2.2.2 连杆的建模: 12
2.2.3 底板的建模 13
2.2.4 从动轴的建模 15
2.3沟槽轮送料机构UG的建模装配 17
第三章 加工制作与装配 21
3.1 槽轮的加工 21
3.2 主动轴的加工 27
3.3 底板的加工 29
3.4 其它零件的加工 30
3.5沟槽轮送料机构实体的装配 32
第四章 模型制作中遇到的问题 35
总 结 36
致 谢 37
参考文献 38