E40-D纯电动物流车的总体设计(英文版)(含CAD零件图装配图,STP三维图)

E40-D纯电动物流车的总体设计(英文版)(含CAD零件图装配图,STP三维图)(任务书,开题报告,文献摘要,外文翻译,论文说明书英文版7000字,CAD图4张,STP三维图)
Abstract
The pure electric logistics vehicle is a vehicle-powered transport and storage material unit mobile assembly equipment. Also known as electric vehicle logistics vehicles, electric logistics transfer vehicles, electric cargo turnover vehicles. Electric vehicles are zero-emission vehicles powered by onboard power batteries. In recent years, the boom in the development of electric vehicles has risen around the world and has gradually developed in the direction of small-lot commercial production. The development of electric vehicle technology depends on the progress of multi-disciplinary technologies. The problem that needs to be solved in particular is to further improve the dynamic performance, increase driving range, and reduce costs.
 Based on some basic parameters of the E40-D pure electric logistics vehicle, this paper studies the drive form of the whole vehicle and the overall layout of the vehicle. For the whole vehicle dynamic matching calculation, the selection of main components. According to the requirement of dynamic performance, the main parameter design and matching calculation of motor power and battery are carried out by using automobile theory, motor and battery related knowledge.
Key Words:Electric vehicle, overall design, parameter matching, driving range.
 

Catalog 
Chapter 1  Introduction    1
Chapter 2 Principles and Structure of Pure Electric Vehicles    4
2.2 Pure Electric Vehicle Technology Introduction    7
Chapter 3 Selection and Design of Pure Electric Logistics Vehicle Parts    9
3.1Pure electric logistics vehicle battery system    9
3.2.Pure electric logistics vehicle motor drive system    9
3.3.Pure electric logistics vehicle suspension system    9
3.4.Pure electric logistics vehicle steering system    10
Chapter 4 Calculation of Overall Parameters and Performance of Pure Electric Logistics Vehicles    11
4.1.The main parameters of the vehicle    11
4.2.Determination of motor power    12
4.2.1.Determine the motor power based on the maximum speed    12
4.2.2.Calculate the grade and acceleration time of pure electric logistics vehicles    12
4.3.Selection of maximum motor speed    14
4.4.Determination of battery quantity and battery parameters    15
4.5.Gearbox matching selection    17
4.5.1.Selection of deceleration transmission mechanism    17
4.5.2.Calculation and matching of speed ratio of transmission    18
Chapter 5 Reference    23
Chapter 6 Acknowledgements    25