由於工廠的生產塗裝H型鋼結構部件的配置複雜性和尺寸因素,H型鋼結構部件的塗層工作通常由人工完成。 H型鋼結構件非常巨大且複雜,這是塗裝廠需要面對的生產率較低的問題,特別是對於行業中高度以客戶為導向的需求。研究目標是為H型鋼部件開發最佳的塗層路徑。文獻綜述提出了用於設置參數,識別構型和優化H型鋼組件塗層路徑的方法。通過針對大多數H型鋼部件的定義數據庫,構建了該算法以高精度(> 90%)識別鋼結構部件,然後進行塗層處理。與手動塗層相比,本研究模擬了100種不同的H型鋼塗層情況。研究結果表明,平均節省時間可達到總手動塗佈時間的24.6%。這是非常重要的,因為該行業正面臨熟練工人的短缺和高塗料成本,這兩者都給從業人員帶來了經營困難。;The coating work for H-steel components is usually carried out by manual due to factory capacity and H-steel components’ configuration complexity and size. The larger and more complex the H-steel components are the lower productivity a coating factory needs to face, especially for highly customer-oriented demands from the industries. The research objective is to develop optimal coating paths for H-steel components. The literature review suggests the methods setting parameters, recognizing configuration and optimizing coating paths for H-steel components. By a given database for most H-steel components, the algorithm is built to recognize the components with a high accuracy (>90%) and then to deal with coating. The evaluation simulates 100 different cases of H-steel coating, compared to manual coating. Findings turn out that the average time saving can reach 24.6% of the total manual coating time. It is significant since the industry is facing the shortage of skillful workers and high coating costs which both have caused difficult for practitioners to run their business.
