綠色能源產業嚴然已成為最重要新興產業。本論文因配合台達電子與 成大產學合作計畫,須設計一台具有低阻抗之跑步機來配合發電功能,而 其設計來源參考至WOODWAY 公司之跑步機。 對此雛形機設計必須經過尺寸設計、強度和剛性分析、組裝設計、空 間安排與製造圖繪製等多項過程。使用了CATIA 三維設計軟體包含繪圖設 計以及有限元素分析進行製作,並反覆審核後才著手加工製造。然而設計 製作此跑步機主要重點特色在於其滑順度,故機構上必須達到低阻抗的效 果也就是所謂的低摩擦力。為了求得發電量多寡,因此導入軌跡影像量測, 使用LabVIEW 軟體與USB 攝像機拍攝人體足部運動軌跡後處理分析,藉 此希望可得軌跡路徑替未來跑步機提供好的設計曲線能獲得更多能量,以 及藉由得知曲線行進路徑,並引用他人論文有關於運動足部作用力等資訊 整合運算出作功能量後,並與實測量值比較分析,提供設計跑步機參考。
The green energy industry has become an important novel industry. We have to design a low impedance treadmill with the power generation function because participating the Delta Electronics and National Cheng Kung University of the University-Industry Cooperation Program. The design source reference to the WOODWAY company. The design of the treadmill must be the dimensions design, strength-rigidity analysis, assembly design, arrangement of space and drafting. we use the CATIA 3D design software to do Part Design and Finite Element Method Analysis. We confirm carefully before making. The main feature of the treadmill is running glidingly. Therefore, mechanism has to accomplish the low-impedance effect. The human foot trajectory use LabVIEW software processing and USB camera shooting. Computing work with trajectory path and foot force information of reference papers. Finally, Comparing analysis with actual measurement and theory to provide treadmill of design reference.