DESIGN AND RESEARCH OF ELECTRIC BRICKS TRANSPORTING CAR IN NON FIRED BRICKS FACTORY

Authors

  • Lin Li Chengde Petroleum College

DOI:

https://doi.org/10.14311/CEJ.2022.01.0010

Keywords:

Unfired brick, Brick conveying trolley, Electric drive, FEA

Abstract

Under the background of building energy saving, unburned bricks emerge as the time requires. The non-fired bricks need to be transported to the maintenance site by transporting equipment after being pressed and moulded, but now the transporting equipment in our country is simple and inefficient. In order to improve the production efficiency and promote the development of non-fired brick industry, the scheme of electric brick cart in this paper is put forward. This paper is centered on the design of electric brick cart. Firstly, the shortcomings of existing brick conveying equipment and the areas needing improvement are expounded, and the main research contents and the main structure scheme are put forward. Specific design includes structure design of main frame and loading car, calculation and selection of lifting system and motor, reducer and chain, calculation and selection of driving system, calculation and selection of motor and chain, selection and design of steering system and braking system. Finally, finite element analysis of bearing components is carried out and the design is summarized. The electric brick car designed in this paper has the advantages of energy saving, environmental protection, high transportation efficiency, simple operation, and can bring higher benefits to the brick factory without burning, and has broad application prospects.

References

Zheng Juaner, Wu Cifang. Research on the current situation, potential and policy design of building energy conservation in China[J]. Chinese Soft Science, 2005(5): 64,76-80.

Si Jingping. Refitting analysis and design key points of special purpose vehicle sub frame [J]. Inner Mongolia Highway and transportation, 1997 (1): 28-29.

Wu Xingmin. New energy vehicle[M]. Beijing: Beijing University of Technology Press, 2018,14.

Rubal Dua, Kenneth White, Rebecca Lindland. Understanding potential for battery electric vehicle adoption using large-scale consumer profile data[J]. Energy Reports,2019,5.

Qiu Xuanhuai. machine design[M]. Fourth Edition. Beijing: Higher Education Press, 2011,280.

Shi Wenku. Automobile structure[M]. Sixth Edition. Beijing: People's Communications Press,2013, 291.

Wang Wangyu. Automobile design[M]. Beijing: Machinery Industry Press, 2004, 219.

Hu Fucai, Zhou Yong. Finite element analysis and experimental study of belt brake[J]. Hoisting and transportation machinery, 2007(8): 80-82.

Downloads

Published

2022-04-30

How to Cite

Li, L. (2022). DESIGN AND RESEARCH OF ELECTRIC BRICKS TRANSPORTING CAR IN NON FIRED BRICKS FACTORY. Stavební Obzor - Civil Engineering Journal, 31(1), 119–142. https://doi.org/10.14311/CEJ.2022.01.0010

Issue

Section

Articles