• CN:11-2187/TH
  • ISSN:0577-6686

›› 2014, Vol. 50 ›› Issue (1): 38-46.

• 论文 • 上一篇    下一篇

具有变胞功能的电动装载机构构态进化拓扑结构分析与基因建模

潘宇晨;蔡敢为;王红州;高德中;戴建生   

  1. 广西大学机械工程学院;广西大学土木建筑工程学院;伦敦大学国王学院;天津大学机构理论与装备设计教育部重点实验室
  • 发布日期:2014-01-05

Topological Analysis of Configuration Evolution and Biological Modeling of a Novel Type of Electric Loading Mechanism with Metamorphic Functions

PAN Yuchen;CAI Ganwei;WANG Hongzhou;GAO Dezhong;DAI Jiansheng   

  1. College of Mechanical Engineering, Guangxi University College of Civil Engineering and Architecture, Guangxi University King’s College, University of London Key Laboratory for Mechanism Theory and Equipment Design of Ministry of Education, Tianjin University
  • Published:2014-01-05

摘要: 变胞机构是一类具有多功能阶段变化、多拓扑结构变化、多自由度变化等特征的机构。将其应用于装载机研究发明的新型电动装载机构,可按不同阶段的工作需求改变其执行机构的拓扑结构,只需一台驱动电动机就能完成传统两自由度液压装载机铲装、翻转、抬升、卸料等工作任务。采用电动机驱动、连杆传动的方式,能有效克服液压系统零部件加工装配要求高、维护保养困难、易产生漏油等缺点;且电动机均安装在机架上,避免了传统串联式机械手的驱动电动机大都安装在铰链处,导致的刚性差、惯量大等问题。介绍变胞装载机构的变胞源机构以及实现变胞功能的几何变胞方法,利用邻接矩阵和拓扑图描述了各工况对应的子工作阶段机构的拓扑结构变化,分析其工作原理和构态转化特点,得到机构构态演变过程的生物学进化特性。针对机构的结构和连接特点,研究变胞进化生长过程中构型的转化方式和蜕化方法,对各个构型单元分别进行进化计算,得到变胞源机构的基因模型表达式。

关键词: 变胞机构;电动装载机;基因建模;拓扑结构

Abstract: Metamorphic mechanism is a class of mechanism which possesses the characteristics such as multi-stage, multi-topology, multi-degree of freedom (DOF) changes. A novel type of electric loading mechanism is proposed by employing the concepts of the mechanism to the innovative design of loaders, which can change its topological structures to adjust various kinds of demands during the working process. One driving motor can finish multiple tasks such as shoveling, loading, lifting, and dumping. The motor is placed on the frame, problems of traditional serial manipulators such as low stiffness, high inertia of the linkages can be avoided. The source-metamorphic mechanism of the newly invented mechanism is introduced, as well as its metamorphic ways. The adjacent matrix and topological graphs are used to describe the topological changes of each sub-phase of the mechanism, based on which the working principles and characteristics of configuration changing are analyzed. The characteristics during the evolutionary process are obtained. Configuration transformation and its degeneration ways during the genetic growth are studied. The representation of source-metamorphic mechanism is given after generation operations.

Key words: metamorphic mechanism;electric loading mechanism;biological modeling;topological structures

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