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系統識別號 U0026-2408201509141800
論文名稱(中文) 一種混合動力車傳動系統之改良設計
論文名稱(英文) On the Improve Design of the Transmission System of a Hybrid Vehicle
校院名稱 成功大學
系所名稱(中) 機械工程學系
系所名稱(英) Department of Mechanical Engineering
學年度 103
學期 2
出版年 104
研究生(中文) 謝雅竹
研究生(英文) Ya-Ju Hsieh
電子信箱 azure0421@hotmail.com
學號 n16024535
學位類別 碩士
語文別 中文
論文頁數 61頁
口試委員 指導教授-顏鴻森
口試委員-黃文敏
口試委員-黃馨慧
中文關鍵字 混合動力車  傳動系統  行星齒輪系  機構創意設計 
英文關鍵字 Hybrid vehicles  transmission system  planetary gear train  creative mechanism design 
學科別分類
中文摘要 本研究的目的是藉由創意性機構設計方法,針對HAITEC混合動力車現有設計的傳動系統作改良設計。首先透過文獻搜尋及專利檢索,分析現有的混合動力車傳動機構,得到其機構簡圖、拓樸構造矩陣、及一般化鏈,並歸納出設計需求與限制。接著以顏氏創意性機構設計方法為主要之設計流程,並藉由混合動力車傳動機構的設計限制做調整。得到兩個具體化的混合動力車傳動機構的概念設計。其後,進行運動分析與齒數設計,得到兩種提升輸出扭矩的新型機構。兩種新型機構的輸出扭矩僅雙太陽行星齒輪系可以達到預定的設計目標,雙環齒輪行星齒輪系則因尺寸限制無法達到輸出扭矩的提升;其中,雙太陽齒輪行星齒輪系在編號a的狀況下,可提升78%的輸出扭矩,而雙太陽齒輪行星齒輪系在編號c的狀況下,則是降低60%的輸出扭矩,可知雙太陽齒輪行星齒輪系在編號a的狀況下,在改善輸出扭矩有較好的表現。
英文摘要 The purpose of this work is to improve the HAITEC’s hybrid transmission system by applying the creative mechanism design methodology. Firstly, literature review and patent search are carried out. Based on the analysis of this existing design, the corresponding schematic diagram, topological matrix and generalized kinematic chain are obtained. In addition, design requirements and constraints of the hybrid system are concluded. By applying the design procedure according to Yan’s creative mechanism design methodology, two feasible design concepts are synthesized subject to the design requirements and constraints. Then, the kinematic analysis and the gear teeth design of the new concepts are carried out. And two designs with improved output torque are achieved. The design with a dual sun planetary gear train system enhances 78% of the output torque in situation (a) and that dual sun planetary gear train system reduces 60% of the output torque in situation (c), as comparing with the HAITEC’s system.
論文目次 摘要 I
Abstract II
Extended Abstract III
致謝 VII
目錄 VIII
表目錄 XI
圖目錄 XII
第一章 前言 1
1-1 動機 1
1-2 研究目的與內容 2
第二章 系統分類、歷史沿革及專利分析 4
2-1 系統分類 4
2-2 歷史沿革 6
2-3 專利分析 8
第三章 現有設計 16
3-1 基本行星齒輪系 16
3-2 構造分析 17
3-3 運動分析 20
3-3-1 速比分析 20
3-3-2 扭矩分析 25
3-3-3 功流分析 25
3-4 小結 26
第四章 概念設計 28
4-1 設計流程 28
4-2 構造合成 29
4-2-1 一般化 29
4-2-2 數目合成 31
4-2-3 設計需求與設計限制 32
4-2-4 特殊化 34
4-2-5 具體化 36
4-3 小結 37
第五章 運動分析與齒數設計 38
5-1 運動分析 38
5-1-1 速比分析 38
5-1-2 離合器與制動器配置 45
5-1-3 扭矩分析 46
5-1-4 功流分析 46
5-2 齒數設計 51
5-2-1 雙太陽齒輪行星齒輪系 52
5-2-2 雙環齒輪行星齒輪系 53
5-3 小結 54
第六章 結論與建議 55
參考文獻 57
自述 60
著作權聲明 61
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