Please use this identifier to cite or link to this item: http://hdl.handle.net/11455/2091
標題: 避震跑步機研究
Study of the Treadmill with Suspension System
作者: 施欣杰
Shih, Hsin- Chien
關鍵字: Anti-shock Treadmill;避震跑步機;Design Rule;ADAMS;設計法則;ADAMS
出版社: 機械工程學系所
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摘要: 
跑步機是一種受歡迎的室內運動器材,作動原理在於模擬跑步運動所設計之機器,具備提升心肺功能、增加肌耐力、瘦身等全面性的運動功效,使用者可以在室內達到運動效果,不用受到外在氣候與場地之影響。由於跑步運動具備許多優點,因此有值得設計發展的空間。
本論文目的在於針對避震跑步機進行改良設計,首先參考各種不同設計法則,進行整合,再依循所整理之設計法則進行避震跑步機之設計,利用有規律之思考邏輯來循續漸進,縮短研發時程。
最後將Solid Works繪圖軟體所建立之避震跑步機3D模組匯入電腦軟體ADAMS進行分析,針對避震跑步機避震系統之阻尼係數、彈性係數、與衝擊能量間之關係加以討論。

The treadmill designed for people to run and jog on is one of the most popular indoor exercise equipment. By training on treadmills, this indoor exercise can improve health status, such as the endurance of heart and lung, the strength of muscles and losing weight, without the influence by weather condition or place. The treadmill is worth to develop owing to those health-progressed advantages of running and jogging.
The purpose of this thesis is to improve the anti-shock performance of the treadmill. First, different design criteria are studied then integrated to form a systematic design rule for treadmill's design. By doing so, a logistic design process can be used to improve the performance of anti-shock treadmill in an efficient way. And then the verification of the treadmill design is processed by with 3D models creation and the conflict check of composing relationship.
The anti-shock performance of treadmill designed according to the design rule is analyzed by using SolidWorks CAD software to build 3D model and ADMAS software to simulate mechanism dynamic motion to study the relationships among the damping coefficient, the elastic coefficient and the energy of the impact.
URI: http://hdl.handle.net/11455/2091
其他識別: U0005-2208200812493400
Appears in Collections:機械工程學系所

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