近年來科技產業中IC製造業、PC製造業及網通業正以爆炸性的速度在擴充,電子元件需求因而越來越大。若能提高生產設備產能,便能提高生產需求。因此本論文探討如何針對被動元件於不同尺寸產品,利用不同真空吸力,將產品吸入測試轉盤內,達到提高入料率的生產速度之研究。 本論文首先是探討產品尺寸與產品重量以及真空吸力大小等變數對於入孔率的影響,其次探討馬達轉速變化的影響;藉由產品重量、尺寸、測試孔尺寸、真空吸力等控制因子的選定,配合直交表的分析,可得到在不同的測試條件下,以測試數據及圖表計算出最適合的真空吸力值,其次,透過實驗表的資料,可以得知影響參數變動的主要因子,而且我們可以比對模擬與實測的結果,以驗證所測試資料的正確性。
In recent years, IC manufacturing technology like as PC manufacturers and Netcom industry is explosive speed of changing and growing satisfied with required electronic components quantity. If we can improve the functions of production equipments, we can increase the quantity of products. The purpose of this work is to investigate suction rate of passive components with different sizes under different suction pressure when the turntable inhales the components. First, we investigate the variables of suction rate of passive components. The variables are suction pressure, motor speed, size and weight of passive components. When one of variables was selected and changed, we have the data of suction rate with all variables. We can analysis the suction rate data by experimental data table listing. Finally, we can clearly know which variable is important to suction rate. The experimental results will help us to improve suction rate of passive components.