Title :
Study on micro-displacement worktable based on the compliant mechanism of motion reduction
Author :
Shuai, Wang ; Gang, Su
Author_Institution :
Grad. Univ. of Chinese Acad. of Sci., Beijing, China
Abstract :
In order to meet the requirement of low voltage and light weight in the space environment, a micro-displacement worktable based on the compliant mechanism of motion reduction is designed. It´s driven by ultrasonic motor, and the flexure hinges was used to reduce the output displacement according to lever pricipal, which can adjust the micro-posture of the end of the robotic arm. The reduce factor and and the kinematics of the compliant mechanism of motion reduction were theoretical established and the analyses of the compliant hinges of displacement and maximum stress was done by finite element method. Results from fabrication and experiments testify the feasibility of the presented micro-displacement worktable.
Keywords :
aerospace robotics; bending; compliant mechanisms; finite element analysis; hinges; manipulator kinematics; micromanipulators; motion control; ultrasonic motors; compliant hinges; compliant mechanism kinematics; finite element method; flexure hinges; lever pricipal; maximum stress; microdisplacement worktable; microposture adjustment; motion reduction; output displacement; robotic arm; space environment; ultrasonic motor; Acoustics; Educational institutions; Electronic mail; Fasteners; Laboratories; Manufacturing processes; Robots; Flexible hinges; Reduction mechanism; Three dimensional micro-displacement worktable; Ultrasonic motor;
Conference_Titel :
Control Conference (CCC), 2012 31st Chinese
Print_ISBN :
978-1-4673-2581-3
