Kinematic Error Analysis of Parallel Machine Tool Based on Rigid Body Dynamics
To estimate influence of velocity on kinematic accuracy for a cross-linked Stewart type Parallel Machine Tool,position and orientation errors of the moving tool platform are researched.Based on rigid body dynamics,inertial and friction forces and moments are considered.Firstly,analytical expression of driving force is derived for each link.Secondly,change of length is derived using Hookes Law for each link.Then mapping matrix between change of link length and change of platform position and orientation is derived based on both Euler angle and revolving angle around a spatial axis.Finally,analytical expression of position and orientation errors of the moving platform is derived.Figures of distribution of position and orientation errors in workspace under two velocities are obtained respectively.The results show that,in frequently used workspace,all of the three components of position error are less than 3.5μm.All of them increase with z coordinate of platform center.Position error is influenced slightly by velocity.The difference of position error between two velocities is less than 2%.
Error Position and Orientation Dynamics Parallel Machine Tool
CHEN Xiaogang XU Zhaotang WU Haibing
Lab. of Digital Manufacturing Technology, Huaiyin Institute of Technology, Huaian, China, 223003 Faculty of Transportation Engineering, Huaiyin Institute of Technology, Huaian, China, 223003
国际会议
重庆
英文
71-78
2015-03-02(万方平台首次上网日期,不代表论文的发表时间)