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毕业论文网 > 开题报告 > 机械机电类 > 车辆工程 > 正文

轻卡载货汽车转向系统结构设计开题报告

 2020-02-18 12:32:16  

1. 研究目的与意义(文献综述)

with the improvement of people's consumption level, automobile has become the most popular means of transportation, and the road safety problem caused by it has been paid more and more attention as a common social problem all over the world. as one of the main performance of vehicles, manipulation stability has important research significance for driving safety,especially safe driving at high speed.manipulation stability is essential to give full play to the power of the car, reduce the degree of portability of driving, and improve the rate of transport production. maneuverability and stability are closely related, loss of maneuverability will make the car slip or even overturn, and the stability of the function can directly affect the handling performance. the main function of the steering system is to complete the steering according to the driver's steering manipulation instruction, control the handling stability of the vehicle while driving, etc.

currently widely used in real vehicles are power steering, including hps,ehps and eps, while afs and 4ws technologies are also used on some high-end models. sbw system, as the most cutting-edge achievement of the electronic steering system, will meet people's requirements for the environmental protection, safety and comfort of automobiles. sbw system can not only design variable transmission ratio freely, but also adopt steering control strategy, which can obviously improve the control stability of automobile during driving. the sbw system can also optimize the driver's road feedback torque, design a suitable road sense, make the back positive torque on the steering wheel comfortable, increase the steering portability of driving, reduce the driver's load, increase driving safety.

trwof the united states first proposed to replace the mechanical connection between the steering disc and the steering wheel with a control signal, after which the german kassel mann and kearney designed the early linear control steering model. subject to electronic control technology, it was not until the age of the century that the wire-controlled steering technology made great progress. in the year, infiniti's "q50" became the 1 mass-produced model using wire-controlled steering technology. many foreign universities have also put into the research of sbw system, and put forward a series of related steering control strategies. paul yih of stanford university in the united states has studied the full state feedback control strategy to achieve the driver's desired steering and carried out sbw hardware in the ring test. b.zheng of indiana purdue university at boris united proposed an active front wheel steering control strategy based on full state feedback swing angular velocity stability control, which achieves vehicle steering and decoupling pendulum damping by feedback swing angular velocity and forward rotation angle. bertoluzzo of the university of padua, italy, proposed a sbw model matching the same structure based on the traditional steering design sbw system, using the model parameters of mechanical steering, the relevant steering parameters are set in their sbw system. ba-hai nguyenl of the korea university of technical education and others have proposed the direct use of current sensors to measure the current to perform motor and road sense analog motor currents to complete the back-positive torque feedback and steering execution of the closed-loop control, speed up the system's rapidity and accuracy, saving costs and simple and feasible. japan's yousuke yamaguchi and others have designed a pure electric vehicle with a sbw system that increases steering through an adaptive control strategy and designs a lateral acceleration observer with parameters to estimate steering resistance. dirk odenthal of the german aerospace center proposed the sbw system as a remote control system with a degree of freedom, believing that sbw the system has the same effect as the widely used eps system when the steering wheel has equal displacement force with the front wheel and the stability of the system is consistent.

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2. 研究的基本内容与方案

2.1 basic content

1. according to the basic principle of wire control steering, complete the line control steering overall system design;

2. complete the geometric design of key components

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3. 研究计划与安排

Zhou Times

Content of work

Submit Content

1~2

Determine graduation design topic selection, Improve graduation design task book ( related parameters ) , in-school data collection

Literature retrieval, open topic Report

3

Foreign language translation, data re-collection

Foreign language Translation

4~5

Off-campus internships, out-of-school data collection, completion of internship reports

Internship Report

6~8

Design calculation, sketch drawing

Design calculation drafts, sketches

9~11

Drawing, writing design calculation manual (thesis), Pre-defense

Drawings, first draft papers

12~14

Drawings and design calculation instructions collation, information bag collation, Defense qualification review

Official drawings, Papers

15

The student makes an application for defense and prepares for the reply; the teacher reviews the drawings and instructions

Graduation Design Information Kit

16-17

Participate in the reply

4. 参考文献(12篇以上)

[1] chenjiarui . automobileconstruction fifth edition (next volume)[m]. people'stransportation press , in a few.

[2] wangwangyu . automotivedesign fourth edition [m]. machinery industry press, a.

[3] chen yu , , li xiong , cheng , shiloh army , fanfan . review on theresearch progress of automobile wire control steering system [j]. automotivetechnology ,2018 (04): 23-34

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