離合器元件組成之機車油電混合動力系統

I-Ming Chen; 陳羿名

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/9330

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	劉霆
dc.contributor.author	I-Ming Chen	en
dc.contributor.author	陳羿名	zh_TW
dc.date.accessioned	2021-05-20T20:17:50Z	-
dc.date.available	2009-07-14
dc.date.available	2021-05-20T20:17:50Z	-
dc.date.copyright	2009-07-14
dc.date.issued	2009
dc.date.submitted	2009-06-30
dc.identifier.citation	參考文獻 1.中華民國交通部98年三月機動車輛登記數 2.Jiun-Horng Tsai, Yih-Chyun Hsu, Hung-Cheng Weng, Wen-Yinn Lin, Fu-Tien Jeng. “Air-pollution emission factors from new and in-use motorcycles.” ATMOSPHERIC ENVIRONMENT, Volume: 34, Issue: 28, Pages: 4747-4754, Published: 2000. 3.Keith Hoffman, Dennis Grieve. “Designing a Hybrid Electric Scooter.” AUPEC2005, Volume1, S075. 4.Massimo Ceraolo, Alessandro Caleo, Paolo Capozzella, Maurizio Marcacci, Luca Carmignani, Alberto Pallottini. “A parallel-hybrid drive-train for propulsion of a small scooter.” IEEE TRANSACTIONS ON POWER ELECTRONICS. Volume: 21, Issue: 3, Pages: 768-778, Published: MAY 2006. 5.Jian-Feng Tsai, Yon-Ping Chen. “Design and performance analysis of an axial-flux disk-type switched reluctance motor for hybrid scooters.” JSME INTERNATIONAL JOURNAL SERIES C-MECHANICAL SYSTEMS MACHINE ELEMENTS AND MANUFACTURING, Volume: 49, Issue: 3, Pages: 882-889, Published: SEP 2006. 6.Kuen-Bao Sheu, Tsung-Hua Hsu. “Design and implementation of a novel hybrid-electric-motorcycle transmission.” APPLIED ENERGY, Volume: 83, Issue: 9, Pages: 959-974, Published: SEP 2006. 7.Kuen-Bao Sheu. “Analysis and evaluation of hybrid scooter transmission systems.” APPLIED ENERGY, Volume: 84, Pages: 1289-1304, Published: 2007. 8.Kuen-Bao Sheu. “Conceptual design of hybrid scooter transmissions with planetary gear-trains.” APPLIED ENERGY, Volume: 84, Issue: 5, Pages: 526-541, Published: MAY 2007. 9.Kuen-Bao Sheu. “Simulation for the analysis of a hybrid electric scooter powertrain.” APPLIED ENERGY, Volume: 85, Issue: 7, Pages: 589-606, Published: 2008. 10.Michael H. Westbrook. “The Electric and Hybrid Electric Car.” SAE international, Page: 142-164, 2001. 11.K.T. Chau, Y.S. Wong. “Overview of power management in hybrid electric vehicles” Energy Conversion and Management, 43, Page: 1953-1968, 2002. 12.江承舜. “混合動力系統之理念設計方法.” 國立台灣大學工學院機械工程學系碩士論文, July 2008. 13.http://www.ferret.com.au/c/Norman-G-Clark/Norman-G-Clark-offer-W-Type-pin-guided-centrifugal-clutches-n815660 14.離合器結構圖冊國防工業 15.鄭振東編譯實用圖解自動控制基礎篇建興出版社民國81年 16.http://adcats.et.byu.edu/ADCATS/Example_Problems/ProE_Analyzer/5Clutch/5Clutch.html 17.http://www.yanclutch.com.tw/CHINESE/c_esc.htm 18.蕭瑞聖編著科學圖書大庫機車原理與機構徐氏文教基金會民國94年 19.Hans Reinbeck. “Motor-Driven Vehicle with Hybrid Internal Combustion and Electrical Drive.” US Patent No. 3,888,325, June 10, 1975. 20.Troy A. Cummings. “Internal Combustion Electric Power Hybrid Power Plant.” US Patent No. 4,148,192, Apr. 10, 1979. 21.Shiro Kawakatsu, Shoji Honda. “Control Apparatus and Method for Engine/ Electric Hybrid Vehicle.” US Patent No. 4,407,132, Oct. 4, 1983. 22.Paulus Heidemeyer, Werner Zantopp. “Hybrid Drive for A Vehicle, in Particular An Automobile.” US Patent No. 4,553,011, Aug. 6, 1985. 23.C.H. Wu, Gerald P.T. Wu. “Vehicle with Multiple Power Source.” US Patnet No. 4,697,660, Oct. 6, 1987. 24.Lucio Masut. “Hybrid Propulsion System for Vehicles, in Particular for Road Vehicles.” US Patent No. 5,193,634, Mar. 16, 1993. 25.Tai-Her Yang. “Driving Electrical Machine Speed Controlled Power Combined System and Device.” US Patent No. 5,644,200, Jul. 1, 1997. 26.Huan-Lung Gu, Chin-Taz Wu, Pan-Hsiang Hsieh, Wen-Bin Lee, Chun-Hsien Lu. “Hybrid Power System.” US Patent No. 6,663,524 B2, Dec. 16, 2003. 27.Chien-Chang Ho. “Vehicle with Motor and Engine.” US Patent No. 6,752,229 B2, Jun. 22, 2004. 28.Tai-Her Yang. “Dynamo-Electric Drive Unit Controlled Coumpound Power System.” US Patent No. 6,843,751 B2, Jan. 18, 2005. 29.吳仙堯, 吳國南, 李美宏. “混合動力機車系統.” 497564, 2002. 30.廖白光. “馬達與引擎混合動力傳輸結構.” 513359, 2002. 31.葉啓南, 王啓良, 游建長. “機車混合動力系統.”200637744, 2006. 32.陳柏全, 吳浴沂, 黃銀大. “機車混合動力裝置.”200637745, 2006. 33.許坤寶, 許源鏞, 邱國慶, 朱存權.“結合電動馬達與內燃機引擎之混合動力裝置.”200815217, 2008.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/9330	-
dc.description.abstract	本研究之目的在於分析及發展以傳統離合器組成之機車用油電混合動力系統。研究首先建立功能動力圖示法，該圖示法可表示所有以離合器元件組成之油電混合動力系統，並使系統各元件的連接關係更明確。為使各系統之評估有統一之標準，建立系統功能及系統複雜度評估方法。其次，針對現有文獻中以離合器元件組成之混合動力系統進行分析，釐清現有系統之功能及特性。接著以合成方法進行系統設計，發展Matlab自動化程式建立完整的系統配置資料庫。研究最後針對三種合成所得之創新系統進行驗證。本研究經由上述過程，客觀的分析了現有系統之功能及複雜度，並以合成方法設計出創新的機車混合動力系統，其結果可作為混合動力機車後續發展時之參考。	zh_TW
dc.description.abstract	The Purpose of this study is to analyze and develop fuel-electric hybrid systems composed of traditional mechanical clutching units for scooters. In the research, firstly, the graph called “functional power graph” is developed, which can transform the traditional mechanical diagrams into a simplied graph for representing its mechanical structure and function. To make the evaluation of all systems objectively, a standard evaluative method is also proposed. Then, some current hybrid systems which composed of traditional mechanical clutching unit are analyzed and their functions and complixity have been assessed. By synthesis method, some new systems have been developed, and the automatical synthesis using Matlab program have been established. Finally, three new systems have been inspected. In this study, the characteristics of current systems have been clarified, and new systems have been invented. The result could be a considerable consultation for further research in hybrid scooters.	en
dc.description.provenance	Made available in DSpace on 2021-05-20T20:17:50Z (GMT). No. of bitstreams: 1 ntu-98-R96522602-1.pdf: 2315828 bytes, checksum: 7fdb2c2b1efbe8bb570ff31c358b163f (MD5) Previous issue date: 2009	en
dc.description.tableofcontents	誌謝 III 摘要 IV Abstract V 目錄 VI 圖目錄 IX 表目錄 XI 第一章緒論 1 1-1 研究背景 1 1-2 文獻回顧 2 1-3 研究動機與目的 3 1-4 研究架構與步驟 3 第二章理論基礎及分析方法 5 2-1 油電混合動力系統之介紹 5 2-1-1 油電混合動力系統之基本原理 5 2-1-2 油電混合動力系統之分類 6 2-2 功能動力圖 6 2-2-1 系統組成元件 7 2-2-2 功能動力圖之建立步驟與規則 12 2-3 系統分析與評估方法 14 2-3-1 車輛行車模態 15 2-3-2 系統動力模式 16 2-3-3 系統功能 18 2-3-4 系統複雜度 21 2-4 小結 22 第三章現有系統之整理與分析 23 3-1 系統簡介 23 3-2 現有系統之功能動力圖 35 3-2-1 功能動力圖建立步驟實例 35 3-2-2 各系統之功能動力圖 38 3-3 系統連接線路結構分類 40 3-4 系統離合器配置整理及分析 42 3-4-1 Y形線路系統 42 3-4-2 YD形線路系統 45 3-4-3 YT形線路系統 49 3-4-4 Δ形線路系統 50 3-5 現有系統功能及複雜度評估 52 3-5-1 Y形線路系統 52 3-5-2 YD形線路系統 54 3-5-3 YT形線路系統 57 3-5-4 Δ形線路系統 58 3-6 小結 59 第四章系統合成與評估 61 4-1 系統合成 61 4-1-1 Y形線路系統 61 4-1-2 YD形線路系統 63 4-1-3 Δ形線路系統 64 4-2 系統評估 66 4-2-1 Y形線路系統 67 4-2-2 YD形線路系統 68 4-2-3 Δ形線路系統 69 4-3 系統合成與評估自動化程式 70 4-4 系統合成與評估結果 70 4-4-1 Y形線路系統 71 4-4-2 YD形線路系統 73 4-4-3 Δ形線路系統 76 4-5 小結 77 第五章創新系統之檢驗與實現 78 5-1 系統檢驗 78 5-2 系統實現 79 5-2-1 Y形線路創新系統 79 5-2-2 YD形線路創新系統 83 5-2-3 Δ形線路創新系統 87 5-3 小結 91 第六章結論與建議 92 6-1 結論 92 6-2 未來發展與建議 93 參考文獻 94 附錄 97 附錄ㄧ US Patent No. 6,843,751 B2系統功能動力圖 97 附錄二 Y形線路系統達成各項功能之系統數 103 附錄三 YD形線路系統達成各項功能之系統數 105 附錄四 Δ形線路系統達成各項功能之系統數 107 附錄五 Y形線路系統合成與評估自動化Matlab程式 110 附錄六 YD形線路系統合成與評估自動化Matlab程式 113 附錄七 Δ形線路系統合成與評估自動化Matlab程式 116 附錄八 Y形線路系統合成與評估結果 119 附錄九 YD形線路系統合成與評估結果 121 附錄十 Δ形線路系統合成與評估結果 125
dc.language.iso	zh-TW
dc.title	離合器元件組成之機車油電混合動力系統	zh_TW
dc.title	Fuel-Electric Hybrid Systems Composed of Mechanical Clutching Units for Scooters	en
dc.type	Thesis
dc.date.schoolyear	97-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	陽毅平,尤正吉
dc.subject.keyword	離合器,機車,混合動力系統,功能動力圖,分析與合成,	zh_TW
dc.subject.keyword	clutch,scooter,hybrid power system,function power graph,analysis and synthesis,	en
dc.relation.page	126
dc.rights.note	同意授權(全球公開)
dc.date.accepted	2009-06-30
dc.contributor.author-college	工學院	zh_TW
dc.contributor.author-dept	機械工程學研究所	zh_TW
顯示於系所單位：	機械工程學系

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