可重构多功能激光加工系统的设计(英文)

Design of Reconfigurable Multifunctional Laser Machining System

用矩阵描述的方法建立了可重构多功能激光加工系统各组成模块的运动学模型以及任务矩阵,并且给出了选择该系统模块的标准。根据该系统的结构特点及功能要求,由所选择的模块生成该系统的所有拓扑结构,同时结合所给出的方法介绍了可重构多功能激光加工系统的设计。该系统的创新点包括具有高度集成的多功能,采用钢丝绳牵引,模块化,采用分形扫描算法及新的数据通信方法。可重构多功能激光加工系统的设计不仅减少了设计周期,而且大大节约了设计和制造的费用,是今后激光加工系统的发展方向。

By using matrix method, a laser processing system, which has module kinematics model and task matrix, is described and the choice of the system module of the standard is presented. According to the structure characteristic of the system and function requirements, the selected modules could generate all of the system topology, and by combination with the presented method, it is described how to design reconfigurable multifunction laser processing system. The system is highly integrated and multifunctional with five innovations such as steel wire rope traction, modularity, fractal scanning algorithm and a new data communication method. The design of the system not only reduces the design cycle, but also greatly saves the design and manufacturing costs, and it is the future development direction of processing system.