论文信息 - Research on the Inverse Dynamics of the Flexible Multi-Body Systems for the Hybrid Polishing Kinematics Machine Tool

Research on the Inverse Dynamics of the Flexible Multi-Body Systems for the Hybrid Polishing Kinematics Machine Tool

The hybrid polishing kinematics machine tool (HPKMT) which is made up of “3 axes parallel + 2 axes series” is developed with the specially designed elastic polishing tool system for the polishing operation on the free-form surfaces by using the characteristic of the elastic polishing adequately by the authors. In order to control the HPKMT effectively, its characteristic of the kinematics and dynamics need be known deeply. Moreover, the problem of inverse dynamics is the theory foundation to apply dynamic control of the HPKMT. The analysis of the inverse of mechanism is the important part in the research of dynamics. On the basis of the differential equations of flexible multi-body dynamics, this paper discusses on the condition of knowing the trace, posture and velocity for the end of bodies how to solve the constraint force and constraint moment of each joint on the 3- PTT parallel mechanism and two-joint series mechanism.

Miao Yu | Ji Zhao

[1] Moshe Shoham,et al. Singularity analysis of a class of composite serial in-parallel robots , 2001, IEEE Trans. Robotics Autom..

[2] Clément Gosselin,et al. Singularity Analysis of a Three-Leg Six-Degree-of-Freedom Parallel Platform Mechanism Based on Grassmann Line Geometry , 2001, Int. J. Robotics Res..

[3] G. Sohl,et al. A Recursive Multibody Dynamics and Sensitivity Algorithm for Branched Kinematic Chains , 2001 .

[4] Ben-Zion Sandler,et al. Rigid 6-DOF parallel platform for precision 3-D micromanipulation , 2001 .