Title :
Conceptual design, performance visualization and dimension improvement of a flexure parallel manipulator
Author :
Zhen Gao ; Dan Zhang
Author_Institution :
Robot. & Autom. Lab., Univ. of Ontario Inst. of Technol., Oshawa, ON, Canada
Abstract :
This paper presents a novel three degrees of freedom parallel manipulator based on flexure structure. There are three limbs connected with a moving stage and a fixed platform. Each limb is configured with a multilayer elastic driven mechanism and four flexure hinges. The kinematics model and Jacobian matrix is derived. Dexterity and workspace as two of the most important performance indices are investigated and visualized. Finite element analysis is conducted to observe the various behaviours including deformation, strain and frequency response under different inputs of piezo actuators. Both of the single objective optimization and multi-objective optimization are implemented to seek the optimal performance with the adjustment of dimensional parameters.
Keywords :
Jacobian matrices; bending; dexterous manipulators; elasticity; finite element analysis; hinges; manipulator kinematics; optimisation; piezoelectric actuators; Jacobian matrix; conceptual design; deformation; dexterity; dimension improvement; dimensional parameter adjustment; finite element analysis; fixed platform; flexure hinges; frequency response; kinematics model; moving stage; multilayer elastic driven mechanism; multiobjective optimization; performance visualization; piezo actuators; single objective optimization; strain; three degrees of freedom flexure parallel manipulator; workspace; Force; Frequency response; Joints; Manipulators; Optimization; Piezoelectric actuators; Strain; Parallel manipulator; evolutionary algorithm; multi-objective optimization; performances indices;
Conference_Titel :
Control & Automation (ICCA), 11th IEEE International Conference on
Conference_Location :
Taichung
DOI :
10.1109/ICCA.2014.6870930
