Transactions of Materials and Heat Treatment

Title：Mechanism design and speed planning on multi-station feeding manipulator

Authors： Chang Xiaocong Cao Chunping

Unit： Nanjing University of Science and Technology

KeyWords： power battery shell multi-station feeding manipulator truss structure speed control algorithm rigid-flexible coupling

ClassificationCode：TG315.5

year,vol(issue):pagenumber：2024,49(3):170-177

Abstract：

In order to realize the automatic production of power battery shell stamping production line, the mechanical structure of feeding manipulator was designed on the basis of multi-station stretching press, which adept a truss structure to realize the three movements of clamping-opening, lifting-falling and transferring-returning by the linear motion module in three degrees of freedom of X，Y and Z directions, and the motion cycle of manipulator was planned. Then, based on the sinusoidal velocity planning algorithm, a four-order S-shaped curve speed control algorithm with continuous jerk was designed to avoid the excessive impact of manipulator in motion. Finally, the rigid-flexible coupling dynamic model of manipulator was established, and the influence of speed optimization algorithm on the motion accuracy of manipulator was researched by analyzing the rigid-flexible coupling motion characteristics of manipulator. The research results show that under the control of speed optimization algorithm, the amplitude of motion is obviously reduced, which meets the design requirements.

Funds：

江苏省科技成果转化专项资金（BA2021067）

作者简介：常孝聪（1996-），男，硕士研究生，E-mail：changxcie@163.com；通信作者：曹春平（1976-），女，博士，副教授，E-mail：ccp_alice@163.com

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