期刊文献+

Homing Strategy for a 4RRR Parallel Kinematic Machine 被引量:2

Homing Strategy for a 4RRR Parallel Kinematic Machine
下载PDF
导出
摘要 Returning home is the most important process of a parallel kinematic machine (PKM) with incremental encoders.Currently,most corresponding articles focus on the accuracy of homing process,and there lacks the investigation of the operation's safety.For a 4RRR PKM,all servoaxes would be independently driven to their zero positions at the same time based on the traditional homing mode,and that can bring serious interfere of the kinematic chains.This paper systemically investigates this 4RRR PKM's safety of homing process.A homing strategy usually contains three parts which are the home switches' locations,the platform's initial moving space,and each links' homing direction,and all of them can influence the safety of homing operation.For the purpose of evaluating and describing the safety of the homing strategy,some important parameters are introduced as follows:Safely homing ratio (SHR) is used to evaluate the probability of a machine's successfully returning home from an initial moving space;Synchronal rotational angle (SRA) is the four links' largest synchronal rotational angle with given directions from a given pose.Whether a machine can safely return home from a given pose can be judged by comparing the SRA with all four home switches' mounting angles.By meshing the initial moving space and checking the safeties of returning home from all the initial poses on the nodes,the SHR of this initial moving space can be calculate.For the sake of convenience,the platform's initial moving space should be as large as possible,and in this 4RRR PKM,a square zone in the center of the workspace with a giving initial rotation range is selected as the platform's initial moving space.The forward direction is selected as each link's homing direction according to custom,and the platform's initial rotational angle is selected as larger than 0° based on this 4RRR PKM's kinematic characteristics.The platform's initial moving space can be defined only by the side length of the initial moving square.By setting a probable searching step and calculating the SHR of the initial moving square,an optimal procedure of searching for the largest side length of the platform's initial moving square is proposed.The homing strategy proposed is based on a systemic research on the safety of homing process for PKM,and the two new indexes SHR and SRA can clearly describe the safety of homing operation.The homing operation based on this strategy is fast and safe,and the method can also be used in other PKMs with the situation of serious components' interference. Returning home is the most important process of a parallel kinematic machine (PKM) with incremental encoders.Currently,most corresponding articles focus on the accuracy of homing process,and there lacks the investigation of the operation's safety.For a 4RRR PKM,all servoaxes would be independently driven to their zero positions at the same time based on the traditional homing mode,and that can bring serious interfere of the kinematic chains.This paper systemically investigates this 4RRR PKM's safety of homing process.A homing strategy usually contains three parts which are the home switches' locations,the platform's initial moving space,and each links' homing direction,and all of them can influence the safety of homing operation.For the purpose of evaluating and describing the safety of the homing strategy,some important parameters are introduced as follows:Safely homing ratio (SHR) is used to evaluate the probability of a machine's successfully returning home from an initial moving space;Synchronal rotational angle (SRA) is the four links' largest synchronal rotational angle with given directions from a given pose.Whether a machine can safely return home from a given pose can be judged by comparing the SRA with all four home switches' mounting angles.By meshing the initial moving space and checking the safeties of returning home from all the initial poses on the nodes,the SHR of this initial moving space can be calculate.For the sake of convenience,the platform's initial moving space should be as large as possible,and in this 4RRR PKM,a square zone in the center of the workspace with a giving initial rotation range is selected as the platform's initial moving space.The forward direction is selected as each link's homing direction according to custom,and the platform's initial rotational angle is selected as larger than 0° based on this 4RRR PKM's kinematic characteristics.The platform's initial moving space can be defined only by the side length of the initial moving square.By setting a probable searching step and calculating the SHR of the initial moving square,an optimal procedure of searching for the largest side length of the platform's initial moving square is proposed.The homing strategy proposed is based on a systemic research on the safety of homing process for PKM,and the two new indexes SHR and SRA can clearly describe the safety of homing operation.The homing operation based on this strategy is fast and safe,and the method can also be used in other PKMs with the situation of serious components' interference.
出处 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2011年第3期399-405,共7页 中国机械工程学报(英文版)
基金 supported by National Natural Science Foundation of China (Grant No. 50775125,and No. 50775117) National Hi-tech Research and Development Program of China (863 Program,Grant No.2007AA041901) National Basic Research Program of China (973 Program,Grant No. 2004CB318007)
关键词 homing strategy safely homing operation maximum safely homing space redundant parallel kinematic machine homing strategy safely homing operation maximum safely homing space redundant parallel kinematic machine
  • 相关文献

参考文献2

二级参考文献17

  • 1黄田,唐国宝,李思维,李亚,G.Derek Chetwynd,J.David Whitehouse.Kinematic calibration of a class of parallel kinematic machines(PKM) with fewer than six degrees of freedom[J].Science China(Technological Sciences),2003,46(5):515-526. 被引量:8
  • 2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
  • 3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
  • 4Chiu Y J,Perng M H.Self-calibration of a general hexapod manipulator using cylinder constraints. International Journal of Machine Tools and Manufacture . 2003
  • 5Zhuang H,,Liu L.Self-calibration of a class of parallel manipulators. Proceedings of the IEEE International Conference on Robotics and Automation . 1996
  • 6Besnard S,Khalil W.Calibration of parallel robots using two inclinometers. Proceedings of the IEEE International Conference on Robotics and Automation . 1999
  • 7Daney D,Emiris I Z.Robust parallel robot calibration with partial information. Proceedings of the IEEE International Conference on Robotics and Automation . 2001
  • 8Chang P,Li T,Guan L.Minimal linear combinations of the error parameters for kinematic calibration of parallel kinematic machines. Proc5th Chemnitz Parallel Kinematics Seminar . 2006
  • 9Tian Huang Derek G. Chetwynd David J. Whitehouse and Jinsong Wang.A general and novel approach for parameter identification of 6-DOF parallel kinematic machines. Mechanism and Machine Theory . 2005
  • 10Zhuang H,Yan J,Msaory O.Calibration of Stewart platforms and other parallel manipulators by minimizing kinematic residuals. Journal of Robotic Systems . 1998

共引文献11

同被引文献18

引证文献2

二级引证文献16

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部