机器人2012,Vol.34Issue(2):182-189,8.DOI:10.3724/SP.J.1218.2012.00182
一种基于粘滑运动原理的微小型机器人建模与实验
Modeling and Experiment of a Micro Robot Based on Stick-Slip Motion Principle
摘要
Abstract
To achieve precision motion positioning, a legged micro robot is presented based on stick-slip motion principle. The legs composed of elastic beams with spatially unequal sections are driven by the piezoelectric bimorph. A finite DOF (degree of freedom) model of the flexible leg and a dynamic model of the robot system are built. Then, according to the different characteristics of sticky state and slippage state, statics analysis of the sticky state and transient dynamics analysis of the slippage state are conducted respectively. The relations of displacement versus voltage and of resolution versus voltage are obtained. The variation of friction force and state switch process of leg end during stick-slip process are analyzed. According to analysis results, it is found that the static displacement of the base is nearly linear with driving voltage at sticky state and will step up with the increase of driving voltage. And due to the vibration of the flexible leg and the coupling between the vibration and the friction, the slip displacement of the leg end and the displacement of the base are nonlinear with the driving voltage at slippage state. Finally, a robot prototype is developed, and the resolution and displacement response are tested. The results show that the presented micro robot can achieve the motion resolution of 0.88 μm based on stick-slip motion principle.关键词
微小型机器人/粘滑原理/双压电膜/瞬态动力学Key words
micro robot/stick-slip principle/piezoelectric bimorph/transient dynamics分类
信息技术与安全科学引用本文复制引用
李伟达,李娟,胡海燕,李满天,孙立宁..一种基于粘滑运动原理的微小型机器人建模与实验[J].机器人,2012,34(2):182-189,8.基金项目
国家自然科学基金资助项目(61105106,61005071) (61105106,61005071)
江苏省自然科学基金资助项目(BK2010266,BK2011Y79) (BK2010266,BK2011Y79)
苏州市科技计划资助项目(SYG201038). (SYG201038)
