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Abstracts
This research mainly focuses on the analysis and comparison of the overall production efficiency of the factory in the production scheduling arrangement. By changing the scheduling method, the production can obtain the maximum efficiency and achieve a win-win situation while ensuring the delivery time as required by the customer.
This research adopts a case study method, and analyzes and studies the coating industry (metal surface treatment) in the screw industry. Because of the uniqueness of this industry, the paints used are all patented products, which are not generally available on the market, and must be produced with customized equipment, so that the client has directly specified the paint (brand) and model when designing product characteristics , Conditions, etc., so its scheduling method will also be different from traditional manufacturing. This research mainly changes the production schedule change method. The original first-in-first-out method is changed into the cumulative volume of orders for one week and the cumulative volume of orders for two weeks, plus the insertion order (urgent order). The impact of performance mainly includes equipment utilization rate and average delivery time.
This research mainly changes the production schedule change method. The original first-in-first-out method is changed into the cumulative volume of orders for one week and the cumulative volume of orders for two weeks, plus the insertion order (urgent order). The impact of performance mainly includes equipment utilization rate and average delivery time.
According to the results of research and statistical analysis, it can be known under very clear circumstances that the maximum equipment utilization rate can be obtained by the two-week cumulative inventory scheduling method, and the production cost can be effectively reduced. However, considering the delivery period, it can be Change to the scheduling method of accumulative incoming goods in a week.
Based on the entire research process and results, it can be adapted to the rules and standardization models that the relevant personnel in the future will follow in scheduling, and even combine various operating systems (MES, ERP) to decide how to make decisions under different conditions. appropriate.
Keywords: screw, coating, production schedule, equipment utilization rate, delivery date
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