Please use this identifier to cite or link to this item: http://hdl.handle.net/11455/1670
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dc.contributor黃宜正zh_TW
dc.contributorYi-Cheng Huangen_US
dc.contributor陳昭亮zh_TW
dc.contributorJau-Liang Chenen_US
dc.contributor.advisor邱顯俊zh_TW
dc.contributor.advisorShean-Juinn Chiouen_US
dc.contributor.author蔡志仁zh_TW
dc.contributor.authorTsai, Chih-Jenen_US
dc.contributor.other中興大學zh_TW
dc.date2007zh_TW
dc.date.accessioned2014-06-05T11:41:23Z-
dc.date.available2014-06-05T11:41:23Z-
dc.identifierU0005-2208200623071600zh_TW
dc.identifier.citation[1]アイダ。プレス研究会,”知りたいプレス機械”,2001年10月1日。 [2]G. Erdman, G N. Sandor , ”MECHANISM DESIGN”, New Jersey.. Prentice-Hall, 1997。 [3]Schuler. – Berlin, ”Metal Forming HandBook”, New York, Springer ,1998. [4]Freudenstein F. and Maki E. R. ”Development of an Optimum Variable-Stroke Internal Combustion Engine Mechanism from the Viewpoint of Kinematic Structure,” ASME Journal of Mechanisms, Transmissions, and Automation in Design, Vol. 105,No.2,June 1983,pp.259-266. [5]Freudenstein F. and Maki E. R. ”Then Creation of Mechanisms According to Kinematic Structure and Function,” Journal of Environment and Planning, Vol. 6, pp. 375-391. [6]H.-S. Yan, “A METHODOLOGY FOR CREATIVE MECHANISM DESIGN”,Cheng Kung University, Taiwan. R.O.C.1981 [7]許正和 著,機構構造設計學 ,高立圖書有限公司,91年7月。 [8]Crossley, F. R. E., 1964, “A Contribution to Grubler’s Theory in Number Synthesis of Plane Mechanisms,” ASME Journal of Engineering for Industry, Vol. 86B, pp. 1-8. [9]H.-S. Yan, “Creative Design of Mechanical Devices “,Springer-Verlag Singapore Pte. Ltd. 1998 [10]C. R. Barker, “A Complete Classification of Planar Four-Bar Linkages” ,Mechanism and Machine Theory, Vol.20, No.6, 1985, pp.535-554. [11]C. R. Barker, P.-L. Tso, “Characteristic Surfaces for Three-Position Function Generation With Planar Four-Bar Mechanisms”, Journal of Mechanisms, Transmission, and Automation in Design, Vol.111, March 1989, pp.104-109. [12]C. R. Barker, P.-L. Tso, “Three Position Path Generation Synthesis of Planar Four-Bar Mechanisms Using Syntra”, ASME Mechanism Conference, 1988. [13]C. R. Barker, J Baumann, “Characteristic Surfaces for Three- Position Motion Generation with Planar Four-Bar Mechanisms”, Journal of Mechanisms, Transmission, and Automation in Design, Vol.109, June 1987, pp.183-188. [14]黃耀慶,牽桿式沖床驅動機構之尺寸設計,碩士論文,國立成功大學機械工程學系,民國八十三年六月。 [15]吳祖陽,瓦特二型六連桿機構在沖床上之合成與應用,碩士論文,國立清華大學動力機械工程學系,民國八十五年六月。 [16]黃艦緯,精密連桿沖床電腦輔助機構設計之研究,碩士論文,國立清華大學動力機械工程學系,民國91年7月。 [17]孫允祥,多連桿沖床之電腦輔助機構設計,碩士論文,國立清華大學動力機械工程學系,民國93年8月。 [18]張政泰,史蒂芬生三型六連桿機構在沖床上的合成與應用,碩士論文,國立清華大學動力機械工程學系,民國八十五年六月。 [19]相復山,八桿件連桿驅動式沖床傳動機構運動合成最佳化與其機構尺寸誤差暨接頭間隙影響之研究,碩士論文,大葉大學機械工程學系,民國九十二年二月。 [20]侯捷 譯著,C++ Primer 中文版,碁峯資訊股份有限公司,民國89年9月。 [21]吳俊煌 編著,沖床與沖模設計,復文出版社,民國88年2月。 [22]橋本明,米村泰貞 著,沖床作業讀本,復漢出版社,民國88年4月。 [23]Aida Engineering, Ltd. ,”ADIA PRESS HANDBOOK” ,1992年7月。 [24]EDWARD J. HAUG, “Computer Aided Kinematics and Dynamics of Mechanical Systems”, Massachusetts.. Allyn and Bacon, 1989。 [25]張慶堂 著,機構分析,五南圖書出版公司,民國九十年六月。 [26]C. R. Barker, “A Complete Classification of Planar Four-Bar Linkages” ,Mechanism and Machine Theory, Vol.20, No.6, 1985, pp.535-554. [27]邱文盟,六連桿橢圓運動機之改良與運動合成,碩士論文,國立中興大學機械工程學系,民國九十四年六月。zh_TW
dc.identifier.urihttp://hdl.handle.net/11455/1670-
dc.description.abstract本文主要是在於複動式沖床之研究,利用類型合成及數目合成與機構之創造性方法,參考已知的機構,決定機構運動鏈之迴路數,計算求得標的之連桿數及接點數。再由所設定的拘束條件,剔除不符合拘束條件的機構,得到所要的機構圖譜,找出異於現有十二連桿沖壓機械機構之十連桿新機構;並利用機構尺寸合成的方法,進行尺寸合成的研究,將雙滑塊十連桿機構分解為四個子機構,再分別利用向量座標關係計算推導合併成完整的合成理論。 在本文的推導中,配合沖床設計過程中常用的已知條件及運動特性,分別給定不同的合成及分析拘束條件。最後利用雙滑塊十連桿機構中的三個三接頭連桿的角度,分別建立解答平面,並藉由解答平面的建立,分析此機構特性,以利於設計理想的連桿機構。並利用電腦程式快速地找出桿長尺寸,再藉由適當的改變拘束參數,提供較好的機構特性,以改善現有沖床機構曲線的不足點。最後,將所建立之滑塊位置速度分析合成做成電腦輔助設計分析及合成軟體,並利用ADAMS電腦輔助設計分析軟體分析機構滑塊之位置速度曲線,與所自行推導的軟體比對,驗證結果之正確性。 本文新設計的雙滑塊十連桿機構,是利用史蒂芬生三型六連桿機構作為主動驅動機構,並搭配具有較佳下死點停留能力的瓦特二型六連桿機構作為輔助,針對新設計機構進行運動分析以及尺寸合成,由分析及合成的例子中,得知在相同條件的要求下,新設計機構可達到比原先的十二連桿機構更佳的運動需求,由此可知,新設計機構可以得到滿足雙滑塊連桿式沖床的設計需求,且具有較佳的運動特性。zh_TW
dc.description.abstractThis paper is a study on Double action presses. The study utilized the method of type synthesis, number synthesis and creative mechanism design and also consulted known mechanism to determine independent loops and to calculate the number of joints and number of links of the target found. And then, by the constrained conditions set up, the purposes of this study aim to delete mechanism that does not accord with constrained terms and to find out the new kinematic chain. With the method of mechanism dimensional synthesis, this research divided double action ten link into four sub-mechanisms and then using geometrical relation to synthesize this new mechanism. In this research, we set different analysis and synthesis constrain condition referring to known motion characteristics, which is used on presses design process. The purpose is to create solution plane by three angles of three triple link of double slide ten link mechanism and to analyze the characteristics of mechanism through solution plane for the design of a better mechanism. It also sought to find out the dimension of links by using computer and changing constrain parameter to supply better character of mechanism. The study finally sought to complete a computer program and synthesis design by utilizing slide position analysis and synthesis used to compare to ADAMS to ensure the correctness of the results. In this study for the newly design of ten link mechanism, Stevenson Ⅲis used as main drive mechanism (inner slide). Besides, Watt Ⅱis also used as support. With research and analysis on the newly design mechanism and dimensional synthesis, it is shown that the newly design can get better motion requirement than previous twelve link mechanism. Consequently, the newly design mechanism can meet the needs of design of double slide link drive presses and further obtain better motion functions.en_US
dc.description.tableofcontents目錄 摘要……………………………………………………………………Ⅰ Abstract………………………………………………………………Ⅱ 目錄……………………………………………………………………Ⅲ 表目錄…………………………………………………………………Ⅵ 圖目錄…………………………………………………………………Ⅶ 第一章 緒論 …………………………………………………………..1 1-1前言………………………………….…………………..………..1 1-2研究的動機及目的..…………………………………….………..2 1-3相關文獻回顧……….………….………………………..…….…4 1-4研究方法………….………….………………………………...…6 1-5論文大綱….……………….…………………………...…………7 第二章 複動式沖床及其機構類型合成……….……………………..9 2-1沖床之定義………………………………..………...…..………9 2-1-1沖壓加工特性…………………………………….......…...10 2-1-2沖切加工的基本………...………………………......…...12 2-1-3沖床之能力……………….………………………......…...13 2-2 複動式沖床之功能構造與分類…………………...…..………16 2-3 創造性設計方法程序..…………………………………...…..18 2-4構造合成……………..…………...…………………………….20 2-3-1 既有設計與研究迴路決定……………………........…...20 2-3-2 機構之一般化 …….………………………........……...24 2-3-3 數目合成 …………..……………………….......……...26 2-3-4 特殊化 …………….………………………........……...30 2-3-5 再生化 …………….………………………........……...32 第三章 雙滑塊十連桿機構分析理論推導………………………..…36 3-1機構分析理論…………………………………………....……..36 3-2四連桿機構分析……………………………………………....…38 3-3滑塊連桿機構分析………………………..…………………..…43 3-4史蒂芬生三型六連桿機構分析………………………....……..46 3-5瓦特二型六連桿機構分析…………………………………......48 3-6雙滑塊十連桿機構分析實例………………………………......50 3-6-1分析實例一…………………………………………......53 3-7分析結論………………………………….………………….....56 第四章雙滑塊十連桿機構合成理論推導………………….......…57 4-1研究方法簡介…….………………………………………….…..57 4-2已知條件的決定…………………………………….…………...59 4-3合成的推導…………….…..……………………….…………..60 4-3-1座標系的定義……….…………………………………...60 4-3-2α、β、γ 的選擇…………...…………………….………61 4-3-3機構分解………..…………….………………………….61 4-4推導步驟………………….……………..……………………….62 4-5結論………………………..……….…………………….……..72 第五章雙滑塊機構合成設計實例………………………….…………74 5-1前言……………...……………………………….……………..74 5-2合成實例一 - 固定α、β、γ角……………....………………..74 5-3合成實例二 解答平面的合成 - 變動 α、β、γ角……….....79 5-4合成實例三微調分析 -(調整 α、β、γ 作曲線的微調)……82 5-5多連桿動態機構分析模擬…...………….……………………..90 5-6結論…………………………...………….……………………..92 第六章 結論與未來展望 ………………………………..……………94 6-1結論……………...………………………………..……………..94 6-2未來展望…………………………………...…..………………..95 參考文獻 ……………………………………………..……………….96zh_TW
dc.language.isoen_USzh_TW
dc.publisher機械工程學系所zh_TW
dc.relation.urihttp://www.airitilibrary.com/Publication/alDetailedMesh1?DocID=U0005-2208200623071600en_US
dc.subjectdouble action pressesen_US
dc.subject複動式沖床zh_TW
dc.subjecttype synthesisen_US
dc.subjectnumber synthesisen_US
dc.subjectdimensional synthesisen_US
dc.subject類型合成zh_TW
dc.subject數目合成zh_TW
dc.subject尺寸合成zh_TW
dc.title複動式連桿沖床機構之合成研究zh_TW
dc.titleThe study on Synthesis of Double-Action Press Mechanismen_US
dc.typeThesis and Dissertationzh_TW
item.openairecristypehttp://purl.org/coar/resource_type/c_18cf-
item.openairetypeThesis and Dissertation-
item.cerifentitytypePublications-
item.fulltextno fulltext-
item.languageiso639-1en_US-
item.grantfulltextnone-
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