无人驾驶微型巴士内饰虚拟设计(含CAD图,STP三维装配图)(英文版)(任务书,开题报告,文献摘要,论文说明书英文版10000字,CAD图纸8张,STP三维装配图)
Abstract
Self-driving Minibus have become an emerging trend in the world. Based on the characteristics of a fixed commuting route of the bus, the use of driverless technology can greatly improve the operating efficiency and save operating costs. Unmanned driving can also provide passengers with greater and more comfortable seating space.Its special driving characteristics determine that its interior is different from regular buses. This paper analyzes the structural form and functional facilities of unmanned buses, comprehensively considers the requirements of dynamics, economy, comfort, ergonomics, etc., reasonably determines the main interior layout of the bus, and designs seats through ergonomics. The process of designing the general layout of the car body is described in detail. It also strictly checked the interior safety according to fire safety, and refined the interior parts according to the user experience.
Keywords: Self-driving Minibus, Interior design, Fire control.
2.2 Size determination
First of all, considering the use of driverless microbuses and the complexities of operating road conditions, the current domestic road conditions are relatively complex. However, the scenic spots and airport road conditions are much better. Therefore, it is decided that the volume of unmanned buses should not be too large; otherwise, they will Flexibility has a big impact. Colleagues also provide passengers with comfortable seating space. After comparing several models, the size of the driverless minibus model was determined as shown in Table 2.1.
Table 2.1 Basic parameters of the car body
Body length 4710mm
Body width 2064mm
Body height 2250mm
Contents
Chapter 1 Introduction 1
1.1 Background of this Question 2
1.2 Purpose and Significance of the Question 5
1.3 Domestic Research Status 6
1.4 Overseas Research Status 7
1.5 The basic content of the study 7
1.6 Research goals 8
1.7 Proposed technical solutions and measures 8
Chapter 2 Model Reference and Determination 9
2.1 Model determination 9
2.2 Size determination 9
2.3 Preliminary design analysis of the interior 9
2.4 Body Design 10
Chapter 3 Seat Design 12
3.1 Front and rear seats 12
3.1.1 Ergonomic analysis 12
3.1.3 Seat support 16
3.2 side folding seat 21
Chapter 4 Auxiliary facilities 24
4.1 Handrails 24
4.2 Displays 25
4.3 Get off button 26
Chapter 5 Fire Safety Facilities 28
5.1 emergency door handle 28
5.2 Fire Hammer 29
5.3 fire extinguisher 30
Chapter 6 Air Conditioning 33
6.1 Air Conditioning 33
6.2 Selection of Compressors 35
Chapter 7 Interior Design 38
7.1 Interior Finishes and Flame Retardant Properties 38
7.2 interior color and lighting 40
Summary 42
Acknowledgements 43
References 44
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