某微客的前悬设计(含cad零件图和装配图)
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某微客的前悬设计(含cad零件图和装配图)(选题审批表,开题报告,中期检查表,毕业论文11500字,cad图纸10张)
摘 要:悬架是现代汽车上的重要总成之一,它把车架(或车身)与车轴(或轮胎) 弹性地连接起来。它的主要作用是传递作用在车轮和车身之间的一切力和力矩,比如支撑力、制动力和驱动力等,并且缓和由不平路面传给车身的冲击载荷、衰减由此引起的振动、保证乘员的舒适性、减小货物和车辆本身的动载荷。
本文主要讲的是奇瑞微客的前悬架设计,重点从该微客前悬架的对比选型、减振器的计算及选型、弹性元件形式的选择计算及选型和横向稳定杆的设计与侧倾角刚度计算。首先,我把形式不同的悬架的优缺点进行了比较,然后定下了汽车前悬架的形式—麦弗逊式悬架。然后围绕麦弗逊式悬架的主要部件进行设计。先是弹簧的设计计算校核,再是减振器的计算选型,最后是横向稳定杆的计算校核。
关键词:微客 ; 悬架; 麦弗逊式 ;参数设计; 校核
One of the guest front suspension design
Abstract: Suspension is one of the important assembles of a modern car, which connects the chassis (or body) and the axle (or tires) flexibly . Mainly, it transfers all the force and moment between the wheels and the body supporting force, such as braking force and the driving forces,ect.. and the uneven road passed by the body to ease the impact load, attenuation resulting vibration, occupant comfort, reduce the goods and the vehicle itself dynamic load.
This paper is about the design of the front suspension chery guest, the key are the comparison of selection of this minibus’s front suspension, calculation and selection of shock absorber, the choice of the form of elastic element calculation and the selection and design of horizontal and lateral stabilizer bar angle stiffness calculation. First, I compared the advantages and disadvantages of different suspensions, and then set the vehicle in the form of front suspension—McPherson suspension. And then design the main components of McPherson suspension . I design and check the spring firstly, then, the calculation is the selection of shock absorbers, calculation and cheek of the stabilizer bar last.
Key words: Micro guest; Suspension ; McPherson ; Parameter design ; Checking
微客的主要参数介绍
该款微客的设计是在公司响应国家汽车下乡政策下进行的,考虑的市场定位是为乡镇私营企业,个体经营商户设计的一款作为创业致富普及型用车。该车外形简洁流畅,棱角分明,车身材质采用加厚钢板,防撞钢梁保护,前端内置加厚钢梁保险杠,后保险杠也做了尾部加强处理。不同于一般的微型车,该微客采用加厚材质钢板,承重力大,即使卸货站人都坚固耐用。内部空间宽绰,三排座椅可轻松容纳8人乘坐,后两排可拆卸,无论载客拉货还是郊游出行,均能满足用车需要。动力方面,该车配装三菱发动机,配合五挡变速器,动力表现出色。初定市场价格在3到4万人民币。
具体参数如下:
整车整备质量:1115kg
轴距:2540mm
空载前轴轴载质量:685kg
空载后轴轴载质量:430kg
满载总质量:1490kg
满载前轴载质量:802kg
前轮轮距:1423mm
后轮轮距:1423mm
满载后轴载质量:688kg
目 录
摘要................................................................................ i
关键字................................................................................ii
目录…................................................................................iii
1 绪论………………………………………………………………………............1
1.1悬架重要性……………………………………………………………………..2
1.2悬架的作用及功能……………………………………………………………. 3
1.3悬架的设计要求……………………………………………………………......4
1.4微客主要参数介绍.............................................................................................. 5
2 悬架的结构分析及选择.................................................................................6
2.1悬架的分类…………………………………………………………………......6
2.1.1非独立悬架优缺点分析…………………………………………………...6
2.1.2独立悬架优缺点分析………………………………………………….......7
2.2独立悬架的分类比较…………………………………………………………..7
2.2.1双横臂式悬架结构及特性分析................................................................... 8
2.2.2单横臂式悬架结构及特性分析................................................................... 8
2.2.3单纵臂式悬架结构及特性分析...................................................................8
2.2.4单斜臂式悬架结构及特性分析.................................................................9
2.2.5麦弗逊式悬架结构及特性分析.................................................................9
2.2.6扭转梁随动臂式悬架结构及特性分析.....................................................10
2.2.7比较选型.....................................................................................................10
3 悬架挠度的计算.................................................................................11
3.1悬架静挠度的计算……………………………………………………………11
3.2悬架动挠度的计算………………………………………………………........11
3.3悬架弹性特征……………………………………………………....................12
4 悬架主要构件的设计计算.................................................................................13
4.1弹性元件的设计计算………………………………………………………....13
4.1.1弹簧参数的计算选择…………………………………………………….13
4.1.2弹簧校核…………………………………………………………………14
4.2减震器的结构类型与主要参数计算……………………………………......15
4.2.1减震器的分类……………………………………………………...........15
4.2.2减震器主要参数的计算…………………………………………….......15
4.3横向稳定杆参数的确定................................................................................18
4.3.1横向稳定杆的作用……...........................................................................18
4.3.2横向稳定杆侧倾角刚度计算……...........................................................19
4.3.3横向稳定杆参数确定...............................................................................19
4.4单横臂长度的确定..........................................................................................20
5 结论................................................................................20
参考文献……………………………………………………………………………21
致谢…………………………………………………………………………………22