优秀的毕业设计论文网
计算机 JAVA 电子信息 单片机 机械机电 模具 土木工程 建筑结构 论文
热门搜索词:网络 ASP.NET 汽车 电气 数控 PLC

纯电动汽车制动系统设计(含CAD零件装配图,SolidWorks三维图)(英文版)

以下是资料介绍,如需要完整的请充值下载.
1.无需注册登录,支付后按照提示操作即可获取该资料.
2.资料以网页介绍的为准,下载后不会有水印.资料仅供学习参考之用.
  
资料介绍:

纯电动汽车制动系统设计(含CAD零件装配图,SolidWorks三维图)(英文版)(任务书,开题报告英文版,文献摘要,外文翻译,论文说明书英文版11000字,CAD图纸11张,SolidWorks三维图)
Abstract
The car was born because of its speed, but the car often encounters complex and variable road conditions during driving, such as entering curves, uneven roads, two-car intersections, and sudden obstacles. In order to ensure the safety of driving, the car is required to Decelerate or even stop in the shortest distance. As one of the four major systems of the automobile chassis, the braking system can effectively control the speed of the vehicle and is an active guarantee for the safety of the vehicle.[1]

The brake is an important part of the braking system. This paper mainly introduces the brake design of the passenger car. Starting from the comparison of the structure and performance of disc type and drum brakes, disc brakes have become the mainstream of current brake systems due to the increasing performance and driving speed of vehicles, in order to increase the braking performance of vehicles at high speeds. Since the disc brake disc is exposed to air, the disc brake has excellent heat dissipation. When the vehicle is in emergency braking at a high speed, the braking performance is less likely to decline, and the vehicle can obtain the best braking effect to improve the driving safety of the vehicle. In addition, due to the rapid response of disc brakes, high-frequency braking actions can be completed. Therefore, modern passenger cars mostly use braking schemes that are used with ABS systems, ESP systems, and disc brakes to meet the requirements of rapid braking. [2] [资料来源:http://THINK58.com]

Taking into account the above advantages of disc brakes, and the overall performance of the referenced models is better, which belongs to mid-to-high grade passenger vehicles. Therefore, this design has adopted floating disc brakes for front and rear wheels, ventilated discs for front wheels and discs for rear wheels. brake.[3]

After the basic form of the brake is selected, the following design of the brake is developed in this paper. 1. Parameters of braking system: including the selection and calculation of braking force distribution coefficient, synchronous adhesion coefficient, braking strength, adhesion coefficient utilization rate and maximum braking torque; 2. Brakes and their components: brake discs, system The size calculation and material selection of the brake parts such as movable caliper body and friction pad, etc. 3. Parking brake: The rear parking brake is selected for this design, and the parking brake is installed on the rear wheel brake. The mechanical structure; Fourth, the brake drive mechanism: brake wheel cylinder, brake master cylinder, and pedal stroke design calculations.

[来源:http://www.think58.com]



After the above design is completed, the braking deceleration and braking distance of the designed brake are calculated, and the front and rear axle braking force distribution curves are drawn using MATLAB programming. After the above requirements are met, the rationality of the brake design is verified. . Finally, the three-dimensional model of the brake caliper body, brake disc, piston, and friction pad of the vehicle brake was designed and designed using solid works.[4]

Keywords:EV;braking system;disc brake;SOLID WORKS;MATLAB

Num.    Name     Symbol
    Value
    Unit
   
1    mass    m_0    1680.00    kg   
2    Height of mass center    〖hg〗_o    770.00    mm   
3    Wheel base    L    2660.00     mm    [资料来源:http://www.THINK58.com]
4    The distance frommass center to the front axle    A_0    1280.00     mm   
5    The distance
from   mass center of  to the rear axle    B_█(0@)    1380.00     mm   
6    Front axle load    G_01    1008.00     kg   
7    rear axle load    G_█(02@)    672.00     kg
  [资料来源:http://think58.com]

纯电动汽车制动系统设计(含CAD零件装配图,SolidWorks三维图)(英文版)
纯电动汽车制动系统设计(含CAD零件装配图,SolidWorks三维图)(英文版)
纯电动汽车制动系统设计(含CAD零件装配图,SolidWorks三维图)(英文版)
纯电动汽车制动系统设计(含CAD零件装配图,SolidWorks三维图)(英文版)
[来源:http://think58.com]

纯电动汽车制动系统设计(含CAD零件装配图,SolidWorks三维图)(英文版)
纯电动汽车制动系统设计(含CAD零件装配图,SolidWorks三维图)(英文版)
纯电动汽车制动系统设计(含CAD零件装配图,SolidWorks三维图)(英文版)
纯电动汽车制动系统设计(含CAD零件装配图,SolidWorks三维图)(英文版) [来源:http://www.think58.com]
纯电动汽车制动系统设计(含CAD零件装配图,SolidWorks三维图)(英文版)
纯电动汽车制动系统设计(含CAD零件装配图,SolidWorks三维图)(英文版)
纯电动汽车制动系统设计(含CAD零件装配图,SolidWorks三维图)(英文版)
纯电动汽车制动系统设计(含CAD零件装配图,SolidWorks三维图)(英文版)

[来源:http://think58.com]
Contents
Abstract    III
1.Introduction    1
1.1 Basic concept of braking system    1
1.1.1 The composition of the braking system    1
1.1.2 Type of braking system    1
1.2  Research status of braking system    2
1.3 Main content of the project    4
1.4 Project research scheme    7
2.The choice of brake form    8
2.1 Introduction of drum brakes    8
2.2 Introduction of disc brakes    9
2.3 Selection of brake structures    10
3.Main parameters and selection of brake    11
3.1 Determination of main parameters of disc brake    11
3.1.1 Brake disc diameter D    11
3.1.2 Thickness of brake disc h    11
3.1.3 Inside and outside radius of friction linerR1,R2    12

[资料来源:http://www.THINK58.com]

3.1.4 Working area of brake liner A    12
4.Structural design of main parts of disc brake    13
4.1 brake disc    13
4.2 Brake caliper    13
4.3 Brake slipper    14
4.4 Friction material    15
5. Design and calculation of main parameters of brake    16
5.1 Determination of synchronous adhesion coefficient    18
5.2 Normal reaction of ground to front and rear wheels    19
5.3 Determination of the distribution coefficient β of braking force    20
5.4 Determination of braking moment for front and rear brakes    20
5.5 Braking torque required for emergency brake and parking brake    21
5.5.1 Emergency brake    21
5.5.2 Parking brake    21
5.5.3 Calculation of wear characteristics of linings    22 [版权所有:http://think58.com]
6.Structural form selection and design calculation of brake drive mechanism    24
6.1 Choice of structure form of braking drive mechanism    24
6.2 Multi-loop system for braking pipeline    26
6.3 Design and calculation of hydraulic braking drive mechanism    28
6.3.1 Determination of the diameter of the brake wheel cylinder    29
6.3.2 Determination of the diameter of the main brake cylinder    29
6.3.3 Braking pedal force and pedal stroke    30
6.3.4 Design and calculation of vacuum booster    31
7.Brake performance analysis    32
7.1 Braking performance Evaluation Index    32
7.2 braking efficiency    32
7.2.1 braking deceleration α    32
7.2.2 braking distance S    33
7.3 The constant braking performance    33

[资料来源:http://think58.com]


7.4 The direction stability of the vehicle during braking    33
7.5 Analysis of braking force distribution curve    34
Conclusion    36
Reference    37
Acknowledgements    38
Appendix A Brake 3D modeling    39
Appendix B Exploded view    45
Appendix C MATLAB programming    46
Appendix D EXCEL calculation    47

[资料来源:http://think58.com]