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基于力/位混合控制的工业机器人精密轴孔装配 被引量:21

Industrial robot high precision peg-in-hole assembly based on hybrid force/position control
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摘要 为了研究工业机器人在高精密装配领域的应用,针对高精密装配中典型的轴孔装配问题,提出精密轴孔装配流程以及新的力/位混合控制策略实现方式:装配流程包括搜孔、插入、完成3个阶段;新的力/位混合控制策略是基于伺服速度环实现,与传统基于伺服位置环实现的力控制系统相比较具有更大的系统带宽,控制系统结构简单,方便实现,也可以把速度信号进行积分,转化为伺服位置环控制的实现方式,开展仿真和实验以验证方法的有效性,仿真结果表明,基于速度环实现的力控制能够更好地跟踪更高频率的正弦给定信号,具有较好的力跟踪性能.实验采用工业机器人大臂减速机的装配,实验结果表明,采用力/位混合控制方法和螺旋搜孔的方式能够顺利地找到装配孔,很好地完成轴孔装配作业. A peg-in-hole assembly strategy and a new implementation of hybrid force/position control strategy were proposed,in order to analyze the application of industrial robot in high precision assembly field and solve the typical peg-in-hole problem in high precision assembly.The assembly process included three stages:search,insert and complete.The proposed hybrid force/position control system was based on the motors velocity control loop,and had a larger system bandwidth compared to the traditional force control system based on position control loop.The control structure was simple and easy to implement,and could integrate the velocity signal,and transform into implementation based on the motors position control loop.The simulation and experiment were conducted to verify the effectiveness of the method.The simulation results show that the force/position hybrid control method based on the velocity control loop has better performance to track higher frequency sinusoidal signal than traditional method which is based on the position control loop.The industrial robot was used to assembly the reducer of robot arm.Experimental results show that the force/position hybrid control method with spiral search hole strategy can find the assembly hole and finish the peg-in-hole assembly task well.
出处 《浙江大学学报(工学版)》 EI CAS CSCD 北大核心 2018年第2期379-386,共8页 Journal of Zhejiang University:Engineering Science
基金 辽宁省科技创新重大专项资助项目(113003)
关键词 力/位混合控制 力控制 机器人装配 精密装配 机器人 hybrid force/position control force control robotic assembly high precision assembly robot
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  • 1谭福生,葛景国.力控制技术在机器人打磨中的应用及系统实现[J].上海电气技术,2008,1(2):35-40. 被引量:24
  • 2郭彤颖,曲道奎,徐方.机器人研磨抛光工艺研究[J].新技术新工艺,2006(1):84-85. 被引量:22
  • 3李成群,贠超,彭伟,王留呆,孙云权.机器人柔性抛光机床的研究[J].机械工程师,2007(7):100-102. 被引量:7
  • 4Zhang T,Li K,Yang J.Seam tracking control for mobile welding robot based on vision sensor[J].Journal of Central South University of Technology:English Edition,2010,17(6):1320- 1326.
  • 5Seraji H,Colbaugh R.Force tracking in impedance control[C] //IEEE International Conference on Robotics and Automation. Piscataway,NJ,USA:IEEE,1993:499-506.
  • 6Erickson D,Weber M,Sharf I.Contact stiffness and damping estimation for robotic systems[J].International Journal of Robotics Research,2003,22(1):41-57.
  • 7Seraji H,Colbaugh R.Force tracking in impedance control[J]. International Journal of Robotics Research,1997,16(1):97- 117.
  • 8Singh S K,Popa D O.An analysis of some fundamental problems in adaptive control of force and impedance behavior:Theory and experiments[J].IEEE Transactions on Robotics and Automation, 1995,11(6):912-921.
  • 9Love L J,Book W J.Environment estimation for enhanced impedance control[C]//IEEE International Conference on Robotics and Automation.Piscataway,NJ,USA:IEEE, 1995:1854-1859.
  • 10Jung S,Hsia T C,Bonitz R G.Force tracking impedance control of robot manipulators under unknown environment[J].IEEE Transactions on Control Systems Technology,2004,12(3):474- 483.

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