Accuracy Analysis and Calibration of Gantry Hybrid Machine Tool 被引量：4

Accuracy Analysis and Calibration of Gantry Hybrid Machine Tool

导出

摘要 The kinematic accuracy is a key factor in the design of parallel or hybrid machine tools. This analysis improved the accuracy of a 4-DOF (degree of freedom) gantry hybrid machine tool based on a 3-DOF planar parallel manipulator by compensating for various positioning errors. The machine tool architecture was described with the inverse kinematic solution. The control parameter error model was used to analyze the accuracy of the 3-DOF planar parallel manipulator and to develop a kinematic calibration method. The experimental results prove that the calibration method reduces the cutter nose errors from ±0.50 mm to ±0.03 mm for a horizontal movement of 600 mm by compensating for errors in the slider home position, the guide way distance and the extensible strut home position. The calibration method will be useful for similar types of parallel kinematic machines. The kinematic accuracy is a key factor in the design of parallel or hybrid machine tools. This analysis improved the accuracy of a 4-DOF (degree of freedom) gantry hybrid machine tool based on a 3-DOF planar parallel manipulator by compensating for various positioning errors. The machine tool architecture was described with the inverse kinematic solution. The control parameter error model was used to analyze the accuracy of the 3-DOF planar parallel manipulator and to develop a kinematic calibration method. The experimental results prove that the calibration method reduces the cutter nose errors from ±0.50 mm to ±0.03 mm for a horizontal movement of 600 mm by compensating for errors in the slider home position, the guide way distance and the extensible strut home position. The calibration method will be useful for similar types of parallel kinematic machines.

作者唐晓强李铁民尹文生汪劲松

机构地区 Manufacturing Engineering Institute

出处《Tsinghua Science and Technology》 SCIE EI CAS 2003年第6期702-707,共6页 清华大学学报（自然科学版（英文版）

基金 the National High- Tech Research andDevelopm ent Program of China (No.2 0 0 2 AA4 2 1180 )and the Knowledge Innovation Program of ChineseAcademy of Sciences (No.KJCX1- X- 0 1)

关键词 CALIBRATION ACCURACY hybrid machine tool calibration accuracy hybrid machine tool

分类号 TH112 [机械工程—机械设计及理论]

引文网络
相关文献

参考文献4

1丛大成,于大泳,韩俊伟.Stewart平台的运动学精度分析和误差补偿[J].工程设计学报,2006,13(3):162-165. 被引量：11
2唐晓强,汪劲松,段广洪,朱煜.新型并联机床作业空间与奇异性分析[J].中国机械工程,2002,13(10):817-819. 被引量：6
3何雪浤,张敏,谢里阳,左扣成.3-TPT型并联机床的精度分析与仿真[J].中国机械工程,2008,19(11):1336-1339. 被引量：10
4彭斌彬,高峰,王冰,岳义.五轴并联机床的标定仿真[J].组合机床与自动化加工技术,2005(10):13-15. 被引量：3

二级参考文献27

1杨灏泉,赵克定,吴盛林,曹健.飞行模拟器六自由度运动系统的关键技术及研究现状[J].系统仿真学报,2002,14(1):84-87. 被引量：34
2[1]Merlet J P. Workspace-oriented Methodology for Designing a Pa rallel Manipulator. IEEE, Int, Conference on Robtics and Automation, 1996:3726～ 3731
3[2]Pittens K H, Podhordedski R P. A Family of Stewart Platforms with Optimal Dexterity. J of Robotic Systems, 1993, 10(4):463～479
4[3]Grace K. A Six Degree of Freedom Micro-manipulator for Ophthalmic Surger y. Int. Conf. on Robotics and Automation, 1993,2:630～635
5[4]Park F C, Kim J W. Singularity Analysis of Closed Kinematic Chains. ASME J. Mechanical Design, 1999, 121(3):32～38
6[6]Gosselin C M, Angeles J. Singularity Analysis of Closed Loop Kinem atic Chains. IEEE Trans. on Robotics and Automation, 1990,6:281～290
7[7]HUANG Tian, WANG J S, Whitehouse D J. Closed Form Solution to the Positon W orkspace of Stewart Parallel Manipulator. Science in China, 1998, 41(4):393～4 03
8C. M. Wampler, J. M. Hollerbach, T. Arai. An Implicit Loop Method for Kinematic Calibration and its Application to Closed-Chain Mechanism[J]. IEEE Trans. on Robotics & Automation, 1995, 11(5): 710-724.
9A. Nahvi, J. M. Hollerbach, V. Hayward. Calibration of a Parallel Robot Using Multiple Kinematic Closed Loop[D]. Proceedings of IEEE Inter. Conf. on Robotics & Automation, 1996, 407-412.
10H. Zhuang. Self Calibration of Parallel Mechanisms with a Case of Study on Stewart Platforms[J]. IEEE Trans. on Robotics & Automation, 1997, 387-397.

共引文献26

1张代治,赵继,祝佩兴,王义强.5自由度混联式自由曲面研抛机床的运动学分析(二)——运动学逆解[J].机床与液压,2005(9):17-21. 被引量：2
2杨建新,余跃庆.新型平面三自由度冗余并联机构的动力学分析[J].机械设计与研究,2005,21(5):26-28. 被引量：3
3张典范,高峰,金振林.6-(P-2P-S)并联机器人误差分析及参数优化[J].机械设计与研究,2009,25(3):27-29. 被引量：3
4李登静,范守文,姬鹏升.面向混联机床的机械系统容错重构规划方法研究[J].机械传动,2009,33(6):8-12.
5刘芳华,李盈.船舶运动模拟器ADRC控制系统的设计与仿真[J].工程设计学报,2010,17(1):46-50. 被引量：1
6汪威,史铁林,来五星,王峻峰.ICF诊断设备搭载平台结构设计与误差分析[J].强激光与粒子束,2010,22(6):1259-1264. 被引量：2
7宋方臻,冯会民,刘慧.平面并联机构与电主轴耦合系统动态性能研究[J].组合机床与自动化加工技术,2011(3):26-29. 被引量：1
8王海东,张永,唐元恒,丁文勇.一种新型三自由度并联机构的奇异性分析[J].机械传动,2011,35(6):37-40. 被引量：1
9潘勇军,侯亮,王其亮,罗斯进.平地机工作装置混联机构简化位置正解分析[J].浙江大学学报（工学版）,2011,45(8):1346-1351. 被引量：10
10谢平,杜义浩,田培涛,刘彬.一种并联机器人误差综合补偿方法[J].机械工程学报,2012,48(9):43-49. 被引量：24

同被引文献19

1C. M. Wampler, J. M. Hollerbach, T. Arai. An Implicit Loop Method for Kinematic Calibration and its Application to Closed-Chain Mechanism[J]. IEEE Trans. on Robotics & Automation, 1995, 11(5): 710-724.
2A. Nahvi, J. M. Hollerbach, V. Hayward. Calibration of a Parallel Robot Using Multiple Kinematic Closed Loop[D]. Proceedings of IEEE Inter. Conf. on Robotics & Automation, 1996, 407-412.
3H. Zhuang. Self Calibration of Parallel Mechanisms with a Case of Study on Stewart Platforms[J]. IEEE Trans. on Robotics & Automation, 1997, 387-397.
4H. Zhuang, L. Liu. Self Calibration of a Class of Parallel Manipulators[J]. Proceedings of IEEE Inter. Conf. on Robotics & Automation, Minneapolis, Minnesota, 1996, 994-999.
5J. Wang, Q. Masory. On the Accuracy of a Stewart Platform -Part Ⅹ Kinematic Calibration and Compensation[D]. Proceedings of IEEE Inter. Conf. on Robotics & Automation, Atalanta, Georgia, 1993, 725-731.
6K. S. Chai, K. Young, I. Tuersley. A Practical Calibration Process Using Partial Information for a Commercial Stewart Platform[J]. Robotic, 2002(20):315-322.
7H. Zhuang, Z. Roth. A Method for Kinematic Calibration of Stewart Platform[D]. ASME Annual winter meeting, Atalanta, 1991, 43-48.
8P. Maurine, E. Dombre. A Calibration Procedure for the Parallel Robot Delta 4[D]. Proceedings of IEEE Inter. Conf. on Robotics & Automation, 1996, 975-980.
9Wang S M,Ehmann K F.Error model and accuracy analysis of a six-DOF Stewart platform[J].J Sol Ener Eng,Trans ASME,2002,124(2):286-295.
10Wang J,Masory O.On the accuracy of a Stewart platform-part I:The effect of manufacturing tolerances[C]// IEEE Inter Conf on Robotics and Automation.Atlanta:IEEE Press,1993:114-120.

引证文献4

1彭斌彬,高峰,王冰,岳义.五轴并联机床的标定仿真[J].组合机床与自动化加工技术,2005(10):13-15. 被引量：3
2常鹏,李铁民,刘辛军.基于集合理论的并联机构精度分析方法[J].清华大学学报（自然科学版）,2007,47(11):1984-1988. 被引量：7
3何雪浤,张敏,谢里阳,左扣成.3-TPT型并联机床的精度分析与仿真[J].中国机械工程,2008,19(11):1336-1339. 被引量：10
4WANG Liping LIU Dawei LI Tiemin.Homing Strategy for a 4RRR Parallel Kinematic Machine[J].Chinese Journal of Mechanical Engineering,2011,24(3):399-405. 被引量：2

二级引证文献21

1张典范,高峰,金振林.6-(P-2P-S)并联机器人误差分析及参数优化[J].机械设计与研究,2009,25(3):27-29. 被引量：3
2汪威,史铁林,来五星,王峻峰.ICF诊断设备搭载平台结构设计与误差分析[J].强激光与粒子束,2010,22(6):1259-1264. 被引量：2
3宋方臻,冯会民,刘慧.平面并联机构与电主轴耦合系统动态性能研究[J].组合机床与自动化加工技术,2011(3):26-29. 被引量：1
4黄华.基于刚柔结合的并联机构研究[J].机械设计与制造,2011(10):218-220.
5蔡伟,杨波,张学良,盛新兰,史利章.3-RPS并联机床的标定建模及振动分析[J].太原科技大学学报,2012,33(3):186-189.
6汤萍,程刚,顾伟,徐鹏.3SPS+1PS并联仿生试验机误差建模与仿真[J].机械传动,2012,36(7):38-42. 被引量：3
7陈满意,黄忠敏,石永科.基于AutoCAD的CHC型少齿差减速器参数化CAD系统[J].机械传动,2012,36(7):47-51.
8高继良,李开明,乐林林.三平移并联机构的精度分析及结构参数对其影响分析[J].机床与液压,2012,40(13):55-58. 被引量：3
9窦玉超,姚建涛,侯雨雷,段艳宾,赵永生.65米射电望远镜副面调整系统姿态精度监测与回零策略[J].机器人,2012,34(4):399-405. 被引量：11
10于泷,孙杰,张长军,杨辉,付红栓.基于蒙特卡洛法的并联机床误差分析[J].机械与电子,2013,31(6):77-80.

1隋海倬,项万明,戚耀亮.GANTRY轴与主从轴控制在西门子系统上的应用比较[J].机械工程师,2014(6):146-148.
2何小妹,丁洪生,付铁,谢殿煌,许进忠,李华峰,刘惠林.Calibration of a Parallel Kinematic Machine Tool[J].Journal of Beijing Institute of Technology,2006,15(4):389-392.
3FAN Shouwen,WANG Xiaobing,HUANG Hongzhong (School of Electro-Mechanical Engineering,University of Electronic Science and Technology of China,Chengdu 610054,China).Kinematic Modelling and Control Simulation for 1PS+3TPS Type Hybrid Machine Tool[J].武汉理工大学学报,2006,28(S1):181-185.
4S. SHANKAR GANESH A.B. KOTESWARA RAO.Stiffness of a 3-degree of freedom translational parallel kinematic machine[J].Frontiers of Mechanical Engineering,2014,9(3):233-241.
5S. SHANKAR GANESH A. B. KOTESWARA RAO.Error analysis and optimization of a 3-degree of freedom translational Parallel Kinematic Machine[J].Frontiers of Mechanical Engineering,2014,9(2):120-129. 被引量：2
6Chu-Neng Tsai,Jung-Chuan Chou,Tai-Ping Sun,Shen-Kan Hsiung.Study on the Drift Calibration Method and Device for the Tin Oxide pH Electrode[J].稀有金属材料与工程,2006,35(A03):210-212.
7高动态性高柔性化[J].现代制造,2005(17):75-75.
8WANG Liping,JIANG Yao,LI Tiemin.Running Accuracy Analysis of a 3-RRR Parallel Kinematic Machine Considering the Deformations of the Links[J].Chinese Journal of Mechanical Engineering,2014,27(5):890-899. 被引量：2
9WEI Feng-tao,ZHAO Jian-feng,SONG Li.Finite Element Analysis and Optimal Design Based on ANSYS in a XH2408 Gantry Style NC Machining Center[J].International Journal of Plant Engineering and Management,2010,15(3):188-192. 被引量：3
10XieShunqiang,WangJinsong,WangLiping,LongYunjia,ZhangLanxia.INVERSE DYNAMIC FORMULATION OF A NOVEL HYBRID MACHINE TOOL[J].Chinese Journal of Mechanical Engineering,2003,16(2):184-189. 被引量：2

Tsinghua Science and Technology

2003年第6期

浏览历史

内容加载中请稍等...