隨著科技的進步以及環保意識的抬頭，節能減碳越來越受到人們的重視，各行各業都試圖在不影響產品功能情況下進行節能改良。在工具機業也不例外，如何改善產生的汙染以及降低耗費的能源，是一個很迫切的課題。但是要產生一台能夠永續節能的工具機需要設計者花費大量的心血與精力，光是找尋靈感的時間便占去大部分。而本論文所研究的目標，是提出一套無論在改良或創新設計工具機方面，皆可提供設計者節能參考方向，使其大量節省時間的方法。
本論文結合案例式推理(Case-Based Reasoning tool, CBR)與TRIZ之40項發明法則訂定出一套綠色工具機的創新設計方法並建立了綠能案例資料庫。此套方法依照各案例標籤比較案例相似程度，找出與目標最相似案例，供設計者找出創新工具機的大方向。案例標籤經過反覆測試與修改，無論標籤種類或是權重皆具有一定的合理性。引入TRIZ之40項發明法則，讓參考的元素更豐富多元。在資料庫部分，本論文蒐集了許多現有的節能永續案例資料，除了工具機以及零組件外，相關的節能策略與最新的節能技術亦收錄於資料庫中，且引入一般非工具機之節能案例資料刺激設計者想法。本論文使用Microsoft Excel 2013設立一套計算相似度與統計TRIZ法則的程式，讓設計者能對本論文研究方法輕易上手，並且快速找出相似案例與對應的TRIZ法則，加速新設計產出的時間。

With the advancement of technology and environmental consciousness, more and more attention has been paid to energy saving and carbon reduction. Industries are trying to conduct energy-saving improvements without affecting product functionality, and there is no exception in the machine tool industry. How to reduce pollution production and energy consumption is a very urgent issue. This study aims to propose a method to provide designers reference direction for energy saving, either improved or innovative design of machine tools. This proposed method could help designers saving lots of time.
This study integrates case-based reasoning with TRIZ 40 inventive principles, which provides an innovative design methods of green machine tools and establishes database of xenergy-saving cases. The proposed method identifies the most similar case according to the similarity function, and inspires designers to find out new green machine tool. Introducing TRIZ 40 inventive principles makes reference content more rich and diverse. In this study, many of the existing green energy-saving case data are collected, not only machine tools and components, the industrial energy strategies and the latest energy-saving technologies are also included in the database. There are also some general energy-saving cases to stimulate designers. A software program was developed by using Microsoft Excel 2013 to calculate the similarity function and related TRIZ principles. Designers can easily get started on this method by using this software program. Then designers can quickly identify similar cases and the corresponding TRIZ principles, and accelerate the new design output time.

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