To optimize the working time of the flexible polishing industrial robot for watchcases,the polishing efficiency should be improved.Based on the quintic B-spline fitting curve trajectory planning method associated with...To optimize the working time of the flexible polishing industrial robot for watchcases,the polishing efficiency should be improved.Based on the quintic B-spline fitting curve trajectory planning method associated with the optimal time interval and the trajectory point angle,the trajectory route of the flexible polishing industrial robot for case parts was optimized by the Matlab software.The operation time of the flexible polishing industrial robot could reach the optimal level.The joints of the robot can be cooperated with each other to ensure that the motion track of the end-effector of the robot arm is closer to the expected motion track.Based on the Adams software,the obtained trajectory curve of multi-objective optimization was simulated,which verified the trajectory fitted after multi-objective optimization.The angular acceleration and angular plus acceleration curves were improved.Theoretical guidance was carried out for the subsequent experiment by Matlab and Adams simulation analysis.展开更多
Tomato picking is a time-consuming and laborious work.The use of intelligent equipment of picking instead of manual picking can improve the production efficiency.The end-effector is an important element in direct cont...Tomato picking is a time-consuming and laborious work.The use of intelligent equipment of picking instead of manual picking can improve the production efficiency.The end-effector is an important element in direct contact with tomato fruit,and it is the key to realize automatic tomato harvest.This paper introduces a rigid-flexible coupling end-effector with a telescopic pneumatic sucker.The end-effector first extends the vacuum sucker of the adhesion mechanism to hold the target tomato and pull it out for a certain distance,and then grips the tomato with a clamping component.The target tomato picking operation was completed through the movement mode of spiral and pull combination.The physical characteristics of tomato and the mechanical characteristics of fruit stem were investigated,aiming at providing a solid theoretical basis for the design and mechanical analysis of end-effector.Then,the stability of suction and pulling force in the process of holding and pulling tomato were analyzed,so as to clarify the specifications of suction and picking parts.Finally,a composite force analysis of the adhesion mechanism and the holding mechanism was undertaken to achieve the mechanical design goal of the tomato adhesion and picking movement process.The picking performance test of the end-effector showed that the picking time of single fruit was about 5.4s and the success rate of picking could reach 88%.This study provides sufficient theoretical basis for the development of tomato picking robot and the design of end-effector.展开更多
基金Science and Technology Foundation of Jiangxi Province,China(No.TGS2018-01-02)。
文摘To optimize the working time of the flexible polishing industrial robot for watchcases,the polishing efficiency should be improved.Based on the quintic B-spline fitting curve trajectory planning method associated with the optimal time interval and the trajectory point angle,the trajectory route of the flexible polishing industrial robot for case parts was optimized by the Matlab software.The operation time of the flexible polishing industrial robot could reach the optimal level.The joints of the robot can be cooperated with each other to ensure that the motion track of the end-effector of the robot arm is closer to the expected motion track.Based on the Adams software,the obtained trajectory curve of multi-objective optimization was simulated,which verified the trajectory fitted after multi-objective optimization.The angular acceleration and angular plus acceleration curves were improved.Theoretical guidance was carried out for the subsequent experiment by Matlab and Adams simulation analysis.
基金supported by the 2023 Open Project of Key Laboratory of Modern Agricultural Equipment and Technology(Jiangsu University),Ministry of Education and High-tech Key Laboratory of Agricultural Equipment and Intelligence of Jiangsu Province of China(MAET202319 and MAET 202327)the Key Agricultural Science and Technological Independent Innovation Fund of Jiangsu Province of China(CX(24)3032 and CX(21)1007).
文摘Tomato picking is a time-consuming and laborious work.The use of intelligent equipment of picking instead of manual picking can improve the production efficiency.The end-effector is an important element in direct contact with tomato fruit,and it is the key to realize automatic tomato harvest.This paper introduces a rigid-flexible coupling end-effector with a telescopic pneumatic sucker.The end-effector first extends the vacuum sucker of the adhesion mechanism to hold the target tomato and pull it out for a certain distance,and then grips the tomato with a clamping component.The target tomato picking operation was completed through the movement mode of spiral and pull combination.The physical characteristics of tomato and the mechanical characteristics of fruit stem were investigated,aiming at providing a solid theoretical basis for the design and mechanical analysis of end-effector.Then,the stability of suction and pulling force in the process of holding and pulling tomato were analyzed,so as to clarify the specifications of suction and picking parts.Finally,a composite force analysis of the adhesion mechanism and the holding mechanism was undertaken to achieve the mechanical design goal of the tomato adhesion and picking movement process.The picking performance test of the end-effector showed that the picking time of single fruit was about 5.4s and the success rate of picking could reach 88%.This study provides sufficient theoretical basis for the development of tomato picking robot and the design of end-effector.
