纯电动轿车驱动桥设计(含CAD零件图装配图)
纯电动轿车驱动桥设计(含CAD零件图装配图)(任务书,开题报告,文献摘要,外文翻译,论文说明书13000字,CAD图7张)
摘 要
随着全球气候变化,石油资源的不断减少,各国对环境和能源问题越来越关注,在汽车行业推出的各项新能源汽车补贴也推动了全球汽车工业结构升级,动力系统电动化转型。电动汽车不仅满足了人们的日常代步需求,还有零排放污染,经济型,稳定性较高等优点,无疑是未来几十年内汽车行业的发展重点。
在目前电动汽车的研究中,续航里程成为了主要发展问题。在有限的能源储
备且不影响动力性的前提下提升续航里程,优化电动汽车各零部件设计成为了许多厂家的研究目标。本文以某一厂家电动车基本模型和动力性需求为基本参数,首先选择了电机和驱动桥的总布置形式,再根据基本参数选择了合适电机,计算传动比。对驱动桥的一系列零部件进行了设计计算。在保证强度的前提下尽可能减少质量,优化设计。在设计计算后通过CATIA建模和CAD绘图完成了一套完整的电动车驱动桥图纸。
关键词:电动汽车;半轴;驱动桥;
Abstract
With global climate change and the continuous reduction of oil resources, countries are paying more and more attention to environmental and energy issues. Various new energy vehicle subsidies launched in the automobile industry also promote the upgrading of global automobile industry structure and the transformation of electric power system. Electric cars not only meet People's Daily transportation needs, but also have the advantages of zero emission pollution, economic type and high stability, which will undoubtedly be the focus of the development of the automobile industry in the coming decades.In current research on electric vehicles, range has become a major development issue. In limited energy storage.It has become the research goal of many manufacturers to improve the range and optimize the design of various parts of electric vehicles without affecting the power performance. [资料来源:https://www.doc163.com]
In this paper, the basic model of an electric vehicle manufacturer and the demand for power performance are taken as the basic parameters. Firstly, the general layout of the motor and drive axle is selected, and then the appropriate motor is selected according to the basic parameters to calculate the transmission ratio. A series of parts of the drive axle are designed and calculated. Minimize quality and optimize design while maintaining strength. After the design calculation, a complete set of electric vehicle drive axle drawings were completed through CATIA modeling and CAD drawing.
Key Words:Electric cars; Drive axle; reducer
[来源:http://www.doc163.com]
[来源:http://www.doc163.com]
目录
第1章 绪论 1
1.1 概述 1
1.2 电动车驱动桥国内外研究现状 1
第2章 驱动桥结构方案的选定 3
2.1 电动机的布置方案选择 3
2.2 驱动桥结构方案的选择。 3
第3章 主减速器设计 6
3.1 主减速器结构方案选择 6
3.2 减速器齿轮的支承形式选择 7
3.3 电机选用与主减速器传动比的设计 7
3.3.1 电机参数匹配 7
3.3.2 主减速器传动比计算 9
3.4 主减速器齿轮计算载荷计算 9
3.5 减速器齿轮的设计计算 11
3.5.1 主减速器齿轮设计计算 11 [资料来源:https://www.doc163.com]
3.5.2 次级减速器齿轮设计计算 14
3.6 轴的设计与校核 16
3.7 键的选用与校核 21
3.8 轴承的选用与校核 21
第4章 差速器的设计 25
4.1 差速器结构形式选择 25
4.2 对称式圆锥行星齿轮差速器设计 25
4.2.1 差速器齿轮设计计算 25
4.2.2 差速器齿轮强度校核 27
第5章 驱动车轮的传动装置设计 30
5.1 半轴型式选择 30
5.2 半轴的设计计算 31
5.3 半轴的强度较核 32
5.4 半轴轴承与花键的设计和校核 34
第6章 驱动桥桥壳设计 36
6.1 桥壳选型 36
6.2 桥壳的强度校核 38
第7章 结论 41
参考文献 42
致 谢 43
[资料来源:https://www.doc163.com]
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