摘要
在电子、轻工、食品和医药等行业中,通常需要以很高的速度完成诸如插装、封装、包装、分拣等操作,传统生产中这类工作由人工完成,劳动强度大,生产效率低,使用高速运动的机器人进行生产可以极大地提高生产效率。三自由度气动并联机器人以气缸、比例阀、拉绳式位移传感器、比例阀和球铰来构建机械结构,以单片机STM32F373VCT6作为控制芯片设计控制电路,以压缩空气作为能源。根据三自由度气动并联机器人的机械结构及运动特征,得到结构末端的运动学正解和逆解。根据机械结构的约束得到机械手的工作空间,并以二自由度机械臂为例验证了协调控制算法,实验结果证实了该算法的有效性。
In electronics,light industry,food,and medicine industries,it is often necessary to perform operations such as inserting,packaging,packaging,and sorting at a high speed.This type of work in traditional production is done manually,with high labor intensity and low productivity.Using high-speed robots can greatly improve productivity.A three-degree-of-freedom pneumatic parallel robot uses a cylinder,a proportional valve,a pull-rope displacement sensor,a proportional valve,and a ball joint to build a mechanical structure.A control circuit is designed based on STM32F373VCT6.The parallel robot uses compressed air as the energy source.According to mechanical structure and motion characteristics of a three-degree-of-freedom pneumatic parallel robot,the kinematics forward and inverse solutions at the end of the structure are obtained.The manipulator's working space is obtained according to the constraints of mechanical structure,and we verify the coordinated control algorithm using a two-degree-of-freedom manipulator as an example.The experimental results confirm the effectiveness of the algorithm.
作者
王涛
朱爱东
陈金兵
孙中杰
WANG Tao;ZHU Ai-dong;CHEN Jin-bing;SUN Zhong-jie(School of Automation,Beijing Institute of Technology,Beijing 10081)
出处
《液压与气动》
北大核心
2019年第2期55-60,共6页
Chinese Hydraulics & Pneumatics
基金
国家自然科学基金(51375045)
关键词
气动并联机器人
机械结构
工作空间
协调控制算法
pneumatic parallel robot
mechanical structure
working space
coordinated control algorithm
