具有替代路径的单元式可重构制造系统中的单元设计与多周期机器加载

Cell design and multi-period machine loading in cellular reconfigurable manufacturing systems with alternative routing

International Journal of Production Research · 2016
被引 69
ABS 3

中文导读

研究了在替代路径和多周期需求下,如何设计可重构制造系统的机器单元并加载机器,以平衡利用率和最小化运输与持有成本。

Abstract

This paper deals with the design and loading of Cellular Reconfigurable Manufacturing Systems in the presence of alternative routing and multiple time periods. These systems consist of multiple reconfigurable machining cells, each of which has Reconfigurable Machine Tools and Computer Numerical Control (CNC) machines. Each reconfigurable machine has a library of feasible auxiliary machine modules for achieving particular operational capabilities, while each CNC machine has an automatic tool changer and a tool magazine of a limited capacity. The proposed approach consists of two phases: the machine cell design phase which involves the grouping of machines into machine cells, and the cell loading phase that determines the routing mix and the tool and module allocation. In this paper, the cell design problem is modelled as an Integer Linear Programming formulation, considering the multiple process plans of each part type as if they were separate part types. Once the manufacturing cells are formed, a Mixed Integer Linear Programming model is developed for the cell loading problem, considering multi-period demands for the part types, and minimising transportation and holding costs while keeping the machine and cell utilisations in each period, and the system utilisation across periods, approximately balanced. An illustrative problem and experimental results are presented.

制造系统单元制造可重构制造整数规划生产调度