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

微型车悬架设计(英文版)(含CAD零件图装配图)

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:

微型车悬架设计(英文版)(含CAD零件图装配图)(任务书,开题报告,外文翻译,文献摘要,论文说明书英文版8000字,CAD图6张)
Abstract
With the rapid development of the automobile industry, people have put great demands on the safety, comfort and stationariness of automobile power, and the improvement of automobile suspension can meet people's requirements. At the same time, there are more and more cars in cities, more and more congested roads and more compact parking Spaces. The appearance of minicar is also driven by the fact. Therefore, it is of practical significance to design the suspension of minicar.
The theme of my design is: the structural design of the front and rear suspension system of micro cars. The type of front suspension is macpherson independent suspension.
The main function of suspension is to transfer all forces and torques between the wheel and the body, such as supporting force, braking force and driving force, etc., and to ease the impact load from uneven road surface to the body, attenuation of the vibration caused by this, to ensure the comfort of passengers, reduce the dynamic load of goods and vehicles themselves. Its main task is to transfer all forces and torques acting between the wheel and the frame (or body); Ease the impact load from the road to the frame (or body), attenuate the vibration of the bearing system, and ensure the ride smoothness of the car; To ensure that the wheels in uneven road surface and load changes when the ideal motion characteristics, to ensure the stability of the vehicle control, so that the car to obtain high-speed driving ability. [资料来源:http://THINK58.com]
When the car is driving on uneven road surface, the elastic action of the suspension makes the car produce vertical vibration. In order to rapidly attenuate this vibration and restrain the resonance of the car body and wheel, reduce the amplitude of the wheel, the suspension should be equipped with shock absorber, and make it have reasonable damping. By using the damping effect of shock absorber, the amplitude of automobile vibration decreases continuously until the vibration stops.
In order to satisfy the vehicle with good ride comfort, the natural frequency of the vibration system composed of spring mass and elastic components should be in the appropriate frequency band and as low as possible.The natural frequency matching of the front and rear suspension should be reasonable. For passenger cars, the natural frequency of the front suspension should be slightly lower than that of the rear suspension, and try to avoid the suspension hitting the frame (or body).In the case of the mass change on the spring, the height change of the car should be small, so the nonlinear elastic suspension should be adopted. [来源:http://www.think58.com]
To choose the correct suspension scheme and parameters, in the wheel, under the jump, so that the kingpin positioning Angle changes little, wheel movement and guide mechanism movement to coordinate, avoid the front wheel shimmy; When the car is turning, it should be slightly less characteristic.
Suspension is related to various performance of automobile. In order to meet these performance, the design requirements of suspension are as follows:
1) ensure good ride comfort.
2) have the ability to attenuate vibration properly.
3) ensure the vehicle has good handling stability.
The 3d model was designed by caita, and the feasibility analysis of the model was carried out by ansys, and the results were obtained.
In this graduation design, McPherson independent suspension with simple structure and low cost is selected to improve the smoothness and comfort when accelerating and braking and ensure the stability when driving in a straight line. It can be known that the current McPherson independent suspension is widely used. [资料来源:http://www.THINK58.com]

Key words: McPherson; Independent suspension; CATIA; ANSY

reference model parameters
In this design, the manual comfort model of panben 2018 1.4l is selected as the reference.Its specific parameters are as follows:
Length (mm)    3730
Width (mm)    1650
Height (mm)    1530
Wheelbase (mm)    2410
Front wheelbase (mm)    1420
Rear wheelbase (mm)    1430
Packing weight (kg)    1020
Maximum power (KW)    74
Maximum torque (N•m)    135
Front tyre specification    165/60 R14
Rear tyre specification
    165/60 R14
Drive way    Lead precursor
Front suspension type    McPherson independent suspension
Rear suspension type    Torsion beam dependent suspension
Maximum torque speed    4000

[版权所有:http://think58.com]



Size parameters    Wheelbase (mm)    2410
    Wheel base    Front wheel (mm)    1420
        Rear wheel (mm)    1430
Quality parameters    Axial load distribution    no-load    Front axle (kg)    660
            Rear axle (kg)    630
        Full load    Front axle (kg)    780
            Rear axle (kg)    885

  [版权所有:http://think58.com]

微型车悬架设计(英文版)(含CAD零件图装配图)
微型车悬架设计(英文版)(含CAD零件图装配图)
微型车悬架设计(英文版)(含CAD零件图装配图)


目录
Chapter 1 The introduction    1
1.1 overview of suspension    1
1.2 introduction to suspension parts    2
1.2.1 elastic element    2
1.2.2 shock absorber    2
1.2.3 guiding mechanism    2

[来源:http://www.think58.com]

1.2.4 transverse stabilizer bar    3
Chapter 2 suspension design calculation    4
2.1 main technical parameters    4
2.1.1 reference model parameters    4
2.1.2 natural vibration frequency    5
2.1.3 suspension static deflection    6
2.1.4 suspension dynamic deflection    7
2.1.5 suspension stiffness    7
2.2 coil spring design    8
2.2.1 working principle of spiral spring    8
2.2.2 design of main parameters of spring    8
2.3 shock absorber design    11
2.3.1 working principle overview about shock absorber    11
2.3.2 selection of main performance parameters about shock absorber    12
Chapter 3 design of guide mechanism and lateral stabilizer bar    15
3.1 design of guiding mechanism    15

[资料来源:THINK58.com]


3.1.1 design requirements of guiding mechanism    15
3.1.2 McPherson independent suspension schematic diagram    16
3.1.3 force analysis of guiding mechanism    17
3.1.4 wheel positioning parameters    17
(1) wheelbase    17
(2) wheel camber Angle    18
(3) wheel front beam    19
3.2 design of transverse stabilizer bar    19
3.2.1 working principle of transverse stabilizer bar    19
3.2.2 determination of transverse stabilizer bar parameters    19
Chapter 4 McPherson suspension finite element modeling    22
Chapter 5 conclusion    27
Reference    28
The appendix    30
Thanks    34

[来源:http://www.think58.com]