摘要
为了解决城市中停车位不足的社会需求问题,本文提出一种自平衡式摩天轮智能车库的设计方案。首先,以适应住宅小区多样化需求为前提,构思摩天轮立体车库的结构和运转方式;其次,对立体车库进行平面图绘制、三维立体模型建造及流程设计;最后,对立体车库关键部件进行有限元分析。通过以上研究分析,可以为立体车库的设计制造提供参考依据与理论指导,同时缩短了设计周期,提高了设计效率和可靠性。
In order to solve the problem of insufficient parking space in the city, this paper puts forward a design scheme of self-balancing intelligent garage for Ferris wheel. First of all, to meet the diverse needs of residential areas as the premise of the conception of the structure and operation mode of the Ferris wheel three-dimensional garage;secondly, the plan drawing, three-dimensional model construction and flow design of the opposite body garage;finally, the key components of the op-posite body garage are analyzed by finite element method. Through the above research and analy-sis, it can provide reference and theoretical guidance for the design and manufacture of stereo-scopic garage, at the same time, shorten the design period and improve the design efficiency and reliability.
出处
《机械工程与技术》
2020年第5期421-427,共7页
Mechanical Engineering and Technology
关键词
摩天轮式智能车库
平衡性
偏心机构
存取车
Ferris Wheel Intelligent Garage
Balance
Eccentric Gear
Access to a Car
