摘要悬架是汽车上的一个非常重要的系统。它不但影响汽车的乘坐舒适性(行驶平顺性)、还对其他性能诸如通过性、稳定性以及附着性能都有重大影响。特别是越野车,对悬架的要求非常高,因为越野车的行驶环境不像普通车那样平稳,它一般都是在山路,沙漠地带行驶。所以对悬架的性能要求也相对较高,当然相比之下这类车型的悬架结构相对复杂,材料性能要求也高,成本肯定比一般车型高出许多,所以,本设计的主要目的就是在刚度,强度等条件的允许的范围内,能使所设计的产品结构最合理、性能最好、质量最高、成本最低(即技术经济指标最佳),有市场竞争能力,主要是对悬架结构中的钢板弹簧进行质量最轻化,在建立了数学模型,确定了约束条件后,应用Matlab优化工具箱,对钢板弹簧进行优化。49493
毕业论文关键词:悬架,钢板弹簧,Matlab,优化
Abstract The suspension is a very important system in the car. Not only does it affect the comfort of the car ride, but also on other properties, such as passing ability, stability, and adhesion properties have important implications. Especially off-road vehicles, suspension requirements are very high, because the off-road vehicles driving environment is not like a normal car so smoothly, it is generally in the mountain roads, desert driving. Therefore, the performance requirements of the suspension is relatively high, of course, in contrast to the suspension of such models is relatively complex structure, the material performance requirements, the cost is certainly higher than the average model, so the design stiffness, strength and condition to the extent permitted enable the design of the product structure reasonable, the best performance, highest quality, lowest cost ( technical and economic indicators), market competitiveness, mainly on the leaf spring suspension structure to quality lightest, and established a mathematical model to determine the constraints, the Matlab optimization toolbox to optimize the leaf spring.
Keywords: Suspension, Leaf spring, Matlab, Optimization
目录
第一章 绪论 1
1.1钢板弹簧概述 1
1.2 钢板悬架发展现状 2
1.3 论文研究的背景及意义 2
1.4 存在的问题 2
1.5 毕业论文研究内容 2
第二章 汽车悬架的概述 4
2.1悬架基本概念 4
2.1.1悬架概念 4
2.1.2悬架最主要的功能 4
2.1.3悬架基本组成 5
2.1.4悬架类型 5
2.2悬架系统研究与设计的领域 5
2.3悬架设计要求 6
2.4悬架的主要特性 7
2.4.1 悬架的垂直弹性特性 7
2.5 本章小结 8
第3章 悬架对汽车主要性能的影响 9
3.1悬架对汽车平顺性的影响 9
3.1.1悬架弹性特性对汽车行驶平顺性的影响 9
3.1.2非簧载质量对汽车行驶平顺性的影响 12
3.1.3改善平顺性的主要措施 12
3.2悬架与汽车操纵稳定性