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电动汽车右前车门的设计(含CAD图,SolidWorks,IGS三维图)

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电动汽车右前车门的设计(含CAD图,SolidWorks,IGS三维图)(论文说明书9000字,CAD图纸4张,SolidWorks三维图,IGS通用三维格式)
The Design of electric car right front door
摘要
    伴随着社会的高速发展,在全球经济发展的大环境之下,我国各个行业在受到其他国家先进技术冲击的同时,与国外品牌企业的沟通交流的机会也变的越来越多。电动汽车行业通过行业展会、科研合作等多种途径,不断的提高了自身实力和核心竞争力,缩小与发达国家之间的差距。
    在新的市场需求的驱动下,电动汽车的更新和优化升级更加迫切。国内电动汽车生产企业充分挖掘市场潜力,大力发展经济节能型环保节能的电动汽车,在机动车辆向绿色环保化的转变中挥积极作用。一般生产电动汽车的企业对设备环保指数上都有严格的要求。各企业在生产设备时,都充分考虑到设备在运行中可能会出现的种种问题,从而减少设备因为排放的废气以及运行过程中产生的噪音而引起的噪音大、污染重等现象。
     国内电动汽车的研发及制造要与全球号召的低碳经济、绿色世界主题保持一致。加大电动汽车新型节能绿色环保类型的研发及生产是行业发展的大趋势,同时也迎合了国内基础建设发展的需求。
    汽车行业的发展与人类社会的进步和科学技术的水平密切相关。随着科学技术的发展,各学科间相互渗透,各行业间相互交流,广泛使用新结构、新材料、新工艺,目前破碎机正向着大型、高效、可靠、节能、降耗和自动化方向发展。
    本文介绍了电动汽车右前车门的结构组成、结构原理以及主要零部件的设计中所必须的理论计算,由于电动汽车在环保、节能方面的优点日益突出,并且其使用和维护都很方便,深切地响应了人类绿色环保,节能省油的号召,所以设计出新型的电动汽车组件--车门的新型结构势在必行!

关键词:更新;环保节能;电动汽车右前门
 
Abstract
    With the aging of the population problem is becoming more and more serious, the elderly and disabled travel, there is a problem in any country. How to solve this problem, which reflects the developed degree of a society from the level of science and technology to the humanistic care and other aspects of the. Our attention to this situation or not, that is no easy installation in vehicles off disabilities on facilities, this situation there are many inharmonious factors, more make the populationdifferentiation, a decline in social humanistic concern degree. The arrangement oflifting system for disabled people in the car, can improve the above situation.
    The disabled to pedal accessibility, and realize the company by personnel, andtrained personnel to operate this set of machinery, control to complete the disabledspecial automobile seat lifting system, to enable the disabled smoothly on the trainobjective. Should first in-depth discussion from the feasibility scheme of the mechanism, through the hands of the power unit, and then after repeated and carefulfeasibility, safety analysis and correction of motion, the system function analysis, and get and the formation of system's overall structure, and according to the characteristics of the system, to select the most suitable system scheme .
    Therefore, this paper studied the scheme selection. Through the professional knowledge of master designers, relevant information on the Internet and the status ofdesign types at home and abroad, after detailed investigation plan, for this graduation design is to design a set of practical disabled only car seat lifting system. The system uses the locking mechanism in the hydraulic circuit as the power unit, the scissor lift mechanism.

Key Words:Update;Environmental protection and energy saving;Electric car right front door

电动汽车车门结构布局图
本次设计的电动汽车右前车门的设计,采取的方案是:车门外板和内板采用激光焊接的方式电焊,门外办上面装有门锁和拉手,车门上部装有挡风玻璃,铰链安装在门的侧边,上、下各一个。
 

电动汽车右前车门的设计(含CAD图,SolidWorks,IGS三维图)
电动汽车右前车门的设计(含CAD图,SolidWorks,IGS三维图)
电动汽车右前车门的设计(含CAD图,SolidWorks,IGS三维图)
电动汽车右前车门的设计(含CAD图,SolidWorks,IGS三维图)
电动汽车右前车门的设计(含CAD图,SolidWorks,IGS三维图)


目录
1    绪论    1
1.1    本课题研究对象的发展现状    1
  1.2    课题研究的背景及意义    2
1.3    电动汽车的应用    3
1.4    电动汽车的发展方向    5
2  车门的总体方案设计    6
2.1    电动汽车车门结构布局图    7
  2.2  汽车车门的分类    7
    2.2.1  整体冲压成型式车门    8
    2.2.2  窗框内藏式车门    8
    2.2.3  独立窗框式车门    8
    2.2.4  无窗框式车门    9
  2.3  汽车车门的组成部分    10
    2.3.1  车门钣金    11
    2.3.2  门锁    12
    2.3.3  门拉手    12
    2.3.4  挡风玻璃    12   
 3  三维软件设计总结    13
参考文献    14
致谢    15

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