1、 I 摘 要 驱动桥作为汽车的重要组成部分,它的性能的好坏直接影响整车性能。 其一般由主减速器、差速器、半轴及桥壳四部分组成,基本功用是增大由传动 轴或直接由变速器传来的转矩,将转矩分配给左、右车轮,并使左、右驱动车 轮具有汽车行驶运动学所要求的差速功能;此外,还要承受作用于路面和车架 或车厢之间的铅垂力、纵向力和横向力。此次设计先论述了驱动桥的总体结构, 在分析驱动桥各部分结构型式、发展过程及其以往形式的优缺点的基础上,确 定了总体设计方案:采用整体式驱动桥,主减速器的减速型式采用双级减速器, 主减速器齿轮采用螺旋锥齿轮,差速器采用圆锥行星齿轮差速器,半轴采用全 浮式型式,桥壳采用铸造整体式
2、桥壳。此次设计中,主要完成了双级减速器、 圆锥行星齿轮差速器、全浮式半轴的设计和桥壳的校核及材料选取等工作。 关键字:驱动桥、双级主减速器、弧齿锥齿轮、 II ABSTRACTABSTRACT Driving axle assembly is one of the important vehicle carrying pieces and can directly impact on the whole vehicles performance and its effective life. Driving Axle is consisted of Main Decelerator, Diff
3、erential Mechanism, Half Shaft and Axle Housing. The basic function of Driving Axle is to increase the torque transmitted by Drive Shaft or directly transmitted by Gearbox, then distributes it to left and right wheel, and make these two wheels have the differential function which is required in Auto
4、mobile Driving Kinematics; besides, the Driving Axle must also stand the lead hangs down strength, the longitudinal force and the transverse force acted on the road surface, the frame or the compartment lead.The configuration of the Driving Axle is introduced in the thesis at first. On the basis of
5、the analysis of the structure and the developing process of Driving Axle, the design adopted the Integral Driving Axle, Double Reduction Gear for Main Decelerators deceleration form, Spiral Bevel Gear for Main Decelerators gear, Full Floating for Axle and Casting Integral Axle Housing for Axle Housi
6、ng. In the design, we accomplished the design for Double Reduction Gear, tapered Planetary Gear Differential Mechanism, Full Floating Axle, the checking of Axle Housing and the election of the material and so on. Key words: Driving Axle; Double Main Decelerator; Single Reduction Final Drive III 目 录 摘 要 I ABSTRACTABSTRACT . II 目 录 . III 第 1 章 绪论 . 1 1.1 选题的目的和意义 . 1 1.2 研究现状 . 1 1.2.1 国内现状 . 1 1.2.2 国外现状 . 2 第 2 章 驱动桥结构方案分析. 4 第 3 章 主减速器设计 . 5 3.1 主减速器的结构形式. 5 3.1.1 主减速器的齿轮类型 . 5 3.1.2 主减
