科创中国

原文链接：万方

• 作者：

  LUO Yang,LI Qimin,LIU Zhangxing

• 摘要：

  Though the studies of wheel-legged robots have achieved great success, the existing ones still have defects in load distribution, structure stability and carrying capacity. For overcoming these shortcomings, a new kind of wheel-legged robot(Rolling-Wolf) is designed. It is actuated by means of ball screws and sliders, and each leg forms two stable triangle structures at any moment, which is simple but has high structure stability. The positional posture model and statics model are built and used to analyze the kinematic and mechanical properties of Rolling-Wolf. Based on these two models, important indexes for evaluating its motion performance are analyzed. According to the models and indexes, all of the structure parameters which influence the motion performance of Rolling-Wolf are optimized by the method of Archive-based Micro Genetic Algorithm(AMGA) by using Isight and Matlab software. Compared to the initial values, the maximum rotation angle of the thigh is improved by 4.17%, the maximum lifting height of the wheel is improved by 65.53%, and the maximum driving forces of the thigh and calf are decreased by 25.5% and 12.58%, respectively. The conspicuous optimization results indicate that Rolling-Wolf is much more excellent. The novel wheel-leg structure of Rolling-Wolf is efficient in promoting the load distribution, structure stability and carrying capacity of wheel-legged robot and the proposed optimization method provides a new approach for structure optimization.

• 关键词：

  wheel-leg multi-objective optimization Rolling-Wolf hybrid locomotion robot

• 作者单位：

  State Key Laboratory of Mechanical Transmission, Chongqing University

• 基金项目：

  Supported by National Hi-tech Research and Development Program of China (863Program,Grant No.CDJZR13110073)

• 来源期刊：

  中国机械工程学报(英文版)

• 年，卷(期)：

  2014006