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浙江大学学报(工学版)
J4  2013, Vol. 47 Issue (2): 201-208    DOI: 10.3785/j.issn.1008-973X.2013.02.002
机械工程     
工业机器人自动钻孔及锪窝一体化加工
董辉跃, 曹国顺, 曲巍崴, 柯映林
浙江大学 机械工程学系,浙江杭州 310027
Processing research of industry robots drilling and
countersinking automaticly
DONG Hui-yue, CAO Guo-shun, QU Wei-wei, KE Ying-lin
Department of Mechanical Engineering, Zhejiang University, Hangzhou, 310027, China
 全文: PDF 
摘要:

为了提高工业机器人制孔的位姿精度,控制锪窝深度误差,利用激光跟踪仪跟踪机器人位姿,获得位姿偏差,并对机器人位姿偏差进行补偿,提高机器人制孔的位姿精度;利用光栅尺构成闭环控制系统,将制孔过程中机器人与工件变形引起的误差补偿到制孔刀具的进刀位置,从而保证埋头螺栓孔的锪窝深度.采用该跟踪、补偿系统在平面试验件和曲面试验件上进行了工业机器人制孔位置精度和锪窝深度补偿加工试验.结果表明,机器人的位置精度和角度精度达到0.05 mm和0.05°,锪窝深度误差控制在0.03 mm以内.
关键词: 机器人制孔锪窝补偿精度    
Abstract:

 To improve Pose accuracy and control countersinking error when using industry robot to machining hole, pose of robot was tracked by laser tracker, deviation was got and was used to compensate robot pose. Grating ruler was used to construct a close loop control system, and the system was used to measure feeding position error of tool. Error of the tool final feeding distance caused by deformation of the robot and workpiece was compensated. As a result, the accuracy of countersink depth of bolt hole was met. Pose accuracy and countersink depth experiments were done on planer and surface workpiece. It was shown that error of pose are 0.05 mm and 0.05°respectively, and error of countersink depth is 0.03 mm.
Key words: robot    hole machining    countersinking    compensate    accuracy
出版日期: 2013-03-14
:  TH 62  
基金资助:

中央高校基本科研业务费专项资金资助(2011FZA4002).
通讯作者: 曲巍崴,女,讲师.     E-mail: qwwww@163.com
作者简介: 董辉跃(1974—),男,副教授,从事机加工材料加工工艺研究.E-mail: donghuiyue@zju.edu.cn
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引用本文:

董辉跃, 曹国顺, 曲巍崴, 柯映林. 工业机器人自动钻孔及锪窝一体化加工[J]. J4, 2013, 47(2): 201-208.

DONG Hui-yue, CAO Guo-shun, QU Wei-wei, KE Ying-lin. Processing research of industry robots drilling and
countersinking automaticly. J4, 2013, 47(2): 201-208.

链接本文:

http://www.zjujournals.com/xueshu/eng/CN/10.3785/j.issn.1008-973X.2013.02.002        http://www.zjujournals.com/xueshu/eng/CN/Y2013/V47/I2/201

[1] 袁红璇.飞机结构件连接孔制造技术[J].航空制造技术,2007,1: 96-99.
YUAN Hong-xuan. Manufacturing technology of connecting hole in aircraft structures [J]. Aeronautical Manufacturing Technology, 2007,1: 96-99.
[2] 王黎明,冯潼能.数字化自动钻铆技术在飞机制造中的应用[J].航空制造技术,2008,11: 42-45.
WANG Li-ming, FENG Tong-neng. Application of digital automatic drill-riveting technology in aircraft manufacture[J]. Aeronautical Manufacturing Technology,2008,11: 42-45.
[3] 叶声华,王一,任永杰,等.基于激光跟踪仪的机器人运动学参数标定方法[J].天津大学学报,2007,40(2): 202-205.
YE Sheng-hua, WANG Yi, REN Yongjie, et al. Calibration of robot kinematic parameters based on laser tracker [J].Journal of Tianjin University,2007,40(2): 202-205.
[4] 任永杰,邾继贵,杨学友,等.利用激光跟踪仪对机器人进行标定的方法[J].机械工程学报,2007,43(9): 195-200.
REN Yongjie, ZHU Jigui, YANG Xueyou, et al. Method of robot calibration based on laser tracker[J]. Chinese Journal of Mechanical Engineering,2007,43(9): 195-200.
[5] ALBIN S. Laser feedback control for robotics in aircraft assembly [D]. Sweden: Linkoping University, 2003.
[6] 马兴瑞,宋培林,邹振祝,等.机器人系统的动态混合力/位置控制的几何原理[J].航空学报,1993,14(7): 406410.
MA Xing-rui, SONG Pei-lin, ZOU Zhen-zhu, et al. A geometrical approach to dynamic hybrid force/position control of robot system [J].  Acta Aeronautica Et Astronautica Sinica,1993,14(7): 406-410.
[7] 焦国太,阿.德·依科拉,余跃庆.工业机器人位姿误差的计算[J].机械科学与技术,2002,21(1): 35-36,39.
JIAO Guo-tai, Egorov O, YU Yue-qing. A method for calculating position and orientation errors of industrial robot [J]. Mechanical Science and Technology, 2002,21(1): 35-36,39.
[8] 焦国太,李庆,冯永和,等.机器人位姿误差的综合补偿[J].华北工学院学报,2003,24(2): 104-107.
JIAO Guo-tai,LI Qing,FENG Yong-he, et al. A Compensation method of the robot pose error [J]. Journal of North China Institute of Technology,2003,24(2): 104-107.
[9] ADEL O, RICHARD B, OLIVER G, et al. Feedrate planning for machining with industrial sixaxis robots [J]. Control Engineering Practice, 2010, 18: 471-482.
[10]  ANTONY F, KAMAL Y, HARUHIKO A. Flexible fixture and automatic drilling of sheet metal parts using a robot manipulator [J]. Robotics and ComputerIntegrated Manufacturing, 1989, 5(4): 371-380.
[11] ROBERT I. Drilling with force feedback[D]. Sweden: Department of Electrical Engineering, Linkoping University, 2009.
[12] TOMAS O, MATHIAS H, HENRIK K, et al. Cost-efficient drilling using industrial robots with highbandwidth force feedback [J]. Robotics and ComputerIntegrated Manufacturing, 2010, 26: 24-38.
[13] 杜宝瑞,冯子明,姚艳彬,等.用于飞机部件自动制孔的机器人自动制孔系统[J].航空制造技术,2010,2: 47-50.
DU Baorui, FENG Zi-ming, YAO Yan-bin, et al. Robot drilling system for automatic drilling of aircraft component [J].Aeronautical Manufacturing Technology,2010,2: 47-50.
[14] 员俊峰,姚艳彬,宗光华.基于PLC的机器人制孔执行器控制系统设计[J].机械设计与制造,2010,7: 144-146.
YUAN Jun-feng, YAO Yan-bin, ZONG Guanghua. The design of robot drilling end effector control system based on PLC [J]. Machinery Design & Manufacture,2010,7: 144-146.
[15] 胡挺,吴立军.CATIA二次开发技术基础[M].1版,北京:电子工业出版社,2006: 222.
[16] 张小江,高秀华,张永智.基于DELMIA/IGRIP的工业机器人仿真[J].机械与电子,2007,2: 60-62.
ZHANG Xiao-jiang, GAO Xiu-hua, ZHANG Yong-zhi. Simulation of industrial robot based on DELMIA/IGRIP [J]. Machinery & Electronics,2007,2: 60-62.
[17]  王品,廖启征,庄育锋,等.一般7R串联机器人标定的仿真与实验[J].机器人,2006,28(5):483-487, 494.
WANG Pin, LIAO Qi-zheng, ZHUANG Yufeng. Simulation and experimentation for calibration of general 7R serial robots[J]. Robot,2006,28(5): 483-487, 494.
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