摘要
为提高制造系统对市场和产品变化的快速适应能力 ,探求了制造系统可重组的理论、方法及其应用技术。提出了快速重组制造系统 (RRMS)的基本构架及其特征 ;研究其科学基础 ,得出了RRMS的随机模型及其组态的优化方法 ,发展了用于布局规划优化的拟阵算法 ,提出了系统可诊断性原理并建立了经济可承受性的理论框架 ;初步研究了RRMS的使能技术 ,建立了规划与设计、快速集成、快速运行、快速拆卸与重复利用 4个子系统。研制了组成RRMS的组态制造单元 (CMC) ,研发的基于组态制造单元组成的新颖的阵列式布局的RRMS在汽车和计算机零件生产线上得到成功的应用 。
To improve rapidly the adaptation of manufacturing system to the change in market and products, the theory, method and its application of reconfigurable manufacturing system are explored. The basic structure and features of Rapid Reconfigurable Manufacturing System (RRMS) are pointed out, its scientific base is researched, the optimizing method for RRMS's random model and the optimization method of its configuration is presented, quasi-array algorithm is developed, systematic diagnosable principle is put forward, and an affordable theoretic framework is established. The text preliminarily studies the enabling technology for RRMS, and sets up 4 sub-systems. It studies the configurational manufacturing cell (CMC) consisting RRMS; the novel, CMC-based RRMS which is placed in array has made successful application in production line for automobile and computer parts, this has provided a theoretical base and application tool for developing the manufacturing system of next generation.
出处
《制造技术与机床》
CSCD
北大核心
2001年第8期37-44,共8页
Manufacturing Technology & Machine Tool
基金
国家自然科学基金重点项目 (项目号 :597351 0 0 )
中国机械工业技术发展基金 (项目号 :96JA0 30 7)资助
关键词
快速重组制造系统
可重组制造系统
组态制度单元
随机模型
规划布局
Rapid Reconfigurable Manufacturing System, Configurable Manufacturing System, Configurational Manufacturing Cell, Random Model, Planned Layout