• CN:11-2187/TH
  • ISSN:0577-6686

›› 2008, Vol. 44 ›› Issue (4): 217-221.

• 论文 • 上一篇    下一篇

旅行车独特悬架系统的运动特性

蒋国平; 周孔亢   

  1. 广东交通职业技术学院汽车学院;江苏大学汽车与交通工程学院
  • 发布日期:2008-04-15

Kinematic Characteristic of Unique Suspension System for Wagon

JIANG Guoping; ZHOU Kongkang   

  1. College of Automobile Engineering, Guangdong Communication Polytechnic School of Automobile and Traffic Engineering, Jiangsu University
  • Published:2008-04-15

摘要: 利用ADAMS软件建立麦弗逊支撑杆摆臂式独立前悬架和带横置钢板弹簧独立后悬架系统的动力学仿真模型,进行运动学仿真分析和试验研究,得到随车轮跳动悬架各项定位参数的变化规律。前悬架车轮前束角的变化趋势和幅值不合理,将增加汽车的过度转向趋势和加剧轮胎磨损。与传统建模方法相比,刚柔耦合建模技术能有效提高带横置钢板弹簧的独立悬架系统的运动特性的仿真分析精度。

关键词: 刚柔耦合, 钢板弹簧, 旅行车, 悬架, 运动特性, 非线性, 固定瓦-可倾瓦组合轴承, 气体润滑, 预负荷系数, 支点比

Abstract: The multi-body kinematics model of the McPherson suspension and the rigid-flexible coupling model of suspension with leaf spring are established by using ADAMS/Car software. The simulation and test of suspension for wagon are carried out and analyzed. The change of each orientation parameter is obtained for the suspension with wheel jumpiness. The change of toe angle of front suspension is in disagreement, which will affect the stable steering characteristics and enhance wheel wear. Compared with traditional methods, the rigid-flexible coupling modeling technique can improve the simulating precision of kinematical moving characteristic of suspension with leaf spring.

Key words: Kinematic characteristic, Leaf spring, Rigid-flexible coupling, Suspension, Wagon, Gas lubrication, Nonlinear, Pivot ratio, Preload coefficient, Fixed-tilting pad bearings

中图分类号: