中国机械工程 ›› 2016, Vol. 27 ›› Issue (03): 387-390,412.

• 机械基础工程 • 上一篇    下一篇

修边机器人的夹紧机构优化设计及运动分析

李峰平;张正亚;周斯加   

  1. 温州大学浙江省激光加工机器人重点实验室,温州,325035
  • 出版日期:2016-02-10 发布日期:2016-02-03
  • 基金资助:
    国家国际科技合作专项(0S2012ZR0038);国家自然科学基金资助项目 (71101112) 

Optimized Design and Kinematic Analysis of Clamping Mechanism for Trimming Robot

Li Fengping;Zhang Zhengya;Zhou Sijia   

  1. Zhejiang Provincial Key Laboratory of Laser Processing Robot,Wenzhou University,Wenzhou,Zhejiang,325035
  • Online:2016-02-10 Published:2016-02-03
  • Supported by:

摘要:

针对修边机器人夹紧机构的优化设计开展研究。通过分析夹紧机构的机构组成原理,建立了以夹紧机构工作半径最大化为优化目标,以各转动副位置、支撑底座质量、极限位置、工作半径范围、压杆运动稳定性和驱动杆推程为约束条件的机构优化设计数学模型。模型验证实验中,以夹持直径d=40cm的圆形塑料制品为例,得到了压杆位移、压杆与驱动杆速率比随驱动杆位移变化的曲线,并对驱动杆的运动速度曲线进行了规划。仿真结果显示,优化及运动分析结果满足设计要求,从而为修边机器人的优化设计与自动控制提供了设计参考。

关键词: 修边机器人, 夹紧机构, 优化设计, 运动分析

Abstract:

The optimum design of clamping mechanism for a trimming robot was conducted herein.The optimized design model of clamping mechanism was established by analyzing its composition principles, maximizing its working radius as the optimization target and considering the position of each revolute pair, weight of support base, extreme positions, range of working radius, kinematic stability of pressure rod, stroke of drive rod as the constraints. In the model validation experiments, a round plastic product with clamping diameter of 40cm was choosed as the processed sample, the results of kinematic analysis of clamping mechanism show the curves of the displacement change of pressure rod, the ratio change between the pressure rod speed and driving rod speed caused by the displacement changes of drive rod. Finally, the velocity curve of driving rod was planned. Simulation experiments indicate that the results of optimization and kinematic analysis meet the design requirements, and this paper provides an important reference value to the optimized design and automatic control of trimming robot.

Key words: trimming robot;clamping mechanism, optimized design, kinematic analysis

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