摘要
设计了一套超声焊接系统间隙调整机构,该机构可以对焊接过程中的实时状态进行检测并且进行动态调控。首先进行间隙调整机构原理设计,建立了机构运动学模型;基于确定的行程要求采用粒子群算法求解出了最佳的结构形式;随后对间隙调整机构的各组件进行选型与设计,并确定了总装模型;最后进行了动力学分析,结果表明所设计的间隙调整机构满足超声焊接使用要求。
A set of ultrasonic welding system gap adjustment mechanisms was designed,which can realize the real-time state of the welding process detection and dynamic control.First of all,the gap adjustment mechanism principle design,the establishment of the institutional kinematic model;based on the determination of the stroke requirements using particle swarm algorithm to solve the best structure form;then the gap adjustment mechanism of the components for the selection and design,and to determine the assembly model;finally,the dynamic analysis,the results show that the designed gap adjustment mechanism to meet the use of ultrasonic welding requirements.
作者
殷大澍
王勇
朱国栋
YIN Da-shu;WANG Yong;ZHU Guo-dong(School of Electrical Engineering,Chuzhou Polytechnic,Chuzhou 239000,China;School of Mechanical Engineering,Hefei University of Technology,Hefei 230009,China)
出处
《南阳理工学院学报》
2024年第6期95-102,共8页
Journal of Nanyang Institute of Technology
关键词
超声焊接
间隙调整机构
结构设计
动力学仿真
ultrasonic welding
gap adjustment mechanism
structural design
dynamic simulation
