Please use this identifier to cite or link to this item: http://hdl.handle.net/11455/1514
DC FieldValueLanguage
dc.contributor陳昭亮zh_TW
dc.contributor黃宗立zh_TW
dc.contributor陳孝武zh_TW
dc.contributor.advisor邱顯俊zh_TW
dc.contributor.author吳宗輝zh_TW
dc.contributor.authorWu, Tsung-Huien_US
dc.contributor.other中興大學zh_TW
dc.date2008zh_TW
dc.date.accessioned2014-06-05T11:41:02Z-
dc.date.available2014-06-05T11:41:02Z-
dc.identifierU0005-0502200721064300zh_TW
dc.identifier.citation[1]鄒秉毓,”旋轉體在不平衡質量作用下的動態分析 ”,國立成功大學造船及船舶機械工程研究所碩士論文,2002年七月。 [2]郭承獻,”機車動態系統及耐久性分析 ”,國防大學中正理工學院兵器系統工程研究所碩士論文,2001年。 [3]林弘宗,”泛用型自動插件機之結構分析及改進設計 ”,淡江大學機械工程學系碩士論文,2001年六月。 [4]辛正雄,”阻絕中低頻振動傳遞之分析及實驗 ”,國立海洋大學系統工程暨造船學系碩士論文,2001年。 [5]吳德和、鄭瑋嶸,”利用ADAMS 分析引擎運轉對摩托車車架震動之影響 ”,第八屆中華民國震動與噪音工程學術論文研討會,2000年 p.251-256。 [6] Daniel J Inman,” Engineering Vibration ”,Prentice-Hall, Inc,A Simon And Schuster Company,1994。 [7] Arthur G.Erdman, George N. Sandor, Sridhar Kota,” Mechanism Design:Analysis and Synthesis Volume 1 ” ,Prentice-Hall Inc,2001,p22(TABLE 1.2)、p105(TABLE 2.2)、p121。 [8] Wowk, Victor.,” Machinery Vibration:Measurement and analysis ”,McGraw-Hill, Inc,1991,p129、148。 [9] Hiromu Nakazawa,” Principles of Precision Engineering ”,Oxford University Press,1994。 [10] Meriam J.L. and Kraige L.G.,” Engineering Mechanics:Dynamics ”,John Wiley & Sons,Inc,1987,p346-p351。 [11]William T. Thomson and Marie Dillon Dahleh,” Theory of Vibration with Applications 5th ”,Prentice-Hall Inc,1998,p89-91。 [12]Sahin Yildirim, Ibrahim Uzmay,” Neural network applications to vehicle’s vibration analysis”,Mechanism and Machine Theory 38 (2003) 27–41。 [13] Yuan Kang,Ming-Hsuan Tseng,Shih-Ming Wang,Chih-Pin Chiang,Chun-Chieh Wang,” An Accuracy Improvement For Balancing Crankshafts ”,Mechanism And Machine Theory 38 (2003) 1449–1467。 [14]S.Bae, J.M.Lee, Y.J.Kang, J.S.Kang and J.R.Yun,” Dynamic Analysis of an Automatic Washing Machine With a Hydraulic Balancer ”,Journal of Sound and vibration (2002) 257(1), 3-18。 [15] H. Yamaguchi and M. Yashima,” Vibration Reduction And Isolation Performance For On–Off Control Of A Friction Force At A Spring Support”,Journal of Sound and Vibration ,1997,208(5),729-743。 [16] Hans-Jurgen von Martens,” Traceability of Vibration and Shock Measurements by Laser Interferometry ”,Measurement 28 (2000) 3–20。 [17] S. K. Lee And P. R. White,” The Enhancement Of Impulsive Noise And Vibration Signals For Fault Detection In Rotating And Reciprocating Machinery ”,Journal of Sound and Vibration (1998)217(3),485-505。 [18] I. Bucher,D. J. Ewins,”Multidimensional Decomposition Of Time-Varying Vibration Response Signals In Rotating Machinery ”,Mechanical Systems and Signal Processing (1997) 11(4),577-601。 [19] G.Dalpiza and A.Revola,”Condition Monitoring And Diagnostic In Automatic Machine:Comparison Of Vibration Analysis Techniques ”,Mechanical System and Signal Processing,New York,1997(11)1,53-73。 [20] Enrico Primo Tomasini,”Introduction: vibration measurements by laser techniques ”,Measurement 35 (2004) 161–162。zh_TW
dc.identifier.urihttp://hdl.handle.net/11455/1514-
dc.description.abstract本文針對橫式包裝機械之端封口機構提出分析設計,文中也特別針對振動的問題作探討及分析,因為通常這類旋轉式的機器在運轉時都伴隨著振動的產生。 振動問題的改良是提高機器整體表現的ㄧ個關鍵因素,而改善振動問題的第一步驟就是正確地找出振動源,因此本文以實際的振動測量來作機器振動源的分析。 本文將此機器視為一質量與彈簧系統,此系統是由一垂直懸吊於彈簧的質量及另ㄧ繞此質量中心旋轉的較小質量所組成的,此質量與彈簧系統因為較小質量的不平衡旋轉而產生振動。而本文的主要目的就是找出此系統的運動方程式並建立實驗來測量振動的情形,同時以電腦輔助分析軟體ADAMS來建立機構的電腦模型,進而以動態模擬其振動結果,以作為機構分析設計的驗證。 本文利用ADAMS建立三種封口機構的電腦模型及其運動方程式,其中第一種旋轉式封口機構的偏心質量可視為質點來處理,其餘兩種搖籃式封口機構因其自轉的運動因素則必須以剛體的模式來處理。 根據本文所提的設計分析方法,提出低振動的改良式封口機構設計並建立其ADAMS的電腦模型,並以其模擬結果來驗證其改良成效。zh_TW
dc.description.abstractThis research presents the analysis and design of the end sealing mechanism of a Horizontal F-F-S (Form-Fill-Seal) Packaging Machine. In general, this kind of machine always has vibration problem due to the rotating mechanism. Therefore, the phenomenon of vibration is discussed in this research. Reducing the vibration is one of the key factors to improve the performance of this kind machine. The first step of reducing vibration is to find the source of vibration. In this research, analyzing the source of vibration is done by experiment. In this research, a mass-spring system is used to represent this machine. This system is consisted of a smaller mass rotating about the center of another mass which is suspended from a spring. The vibration of this system is induced by the unbalanced rotation of that small mass. The purpose of this research is to derive the equation of motion of this system, and establish the experiment for measuring the vibration of this packaging machine. Also a computer aided analysis software ADAMS is used to perform dynamic simulation to analyze the vibration of this machine. Three types of the end sealing mechanisms are analyzed numerically and simulated by the ADAMS software. The first type, rotary type, mechanism can be treated as an unbalanced rotation of a point mass, while the other two, box-motion type, must be treated as rigid body due to the self-rotation of the unbalanced mass. The new design of the low vibration end sealing mechanism is presented in this research based on the analysis and synthesis of previous mechanisms. The result is verified by the dynamic simulation using ADAMS software.en_US
dc.description.tableofcontents目錄 致謝 Ⅰ 中文摘要 Ⅱ Abstract Ⅲ 目錄 Ⅳ 圖目錄 Ⅶ 表目錄 ⅩⅠ 第一章 序論 1 1-1 前言 1 1-2 文獻回顧 1 1-3 研究動機與目的 4 1-4 研究方法 4 1-5 論文架構 5 第二章 介紹與理論推導 6 2-1理論介紹 6 2-1-1振動原理基本概念 6 2-1-2振動問題分析流程 7 2-1-3不平衡的旋轉運動 8 2-1-4 Form-Fill-Seal Horizontal Flow Wrapper動作流程介紹 10 2-2旋轉式與搖籃式封口機構介紹 13 2-2-1封口機構說明: 14 2-2-2封口機構分析比較 19 2-3振動測量理論及設備 20 2-3-1振動量測理論 20 2-3-2振動量測設備 21 2-3-3振動量測結果 23 第三章 封口機構設計分析與電腦程式模擬分析 26 3-1 機器振動來源分析 26 3-2 旋轉式封口機構之減振及提高速度的方法 27 3-3 搖籃式封口機構設計分析 35 3-3-1搖籃式Ⅰ型封口機構設計分析 35 3-3-2搖籃式Ⅱ型封口機構設計分析 37 3-4 搖籃式Ⅱ型封口機構設計改良 39 3-4-1搖籃式Ⅱ型封口機構設計改良 39 3-4-2搖籃式改良式封口機構拘束設計 47 第四章電腦程式模擬分析結果與討論 51 4-1封口機構模擬及分析 51 4-1-1封口機構模擬 51 4-1-2封口機構ADAMS模型建立 51 4-2封口機構ADAMS模擬結果 55 4-2-1旋轉式封口機構(Type1_rf) 55 4-2-2搖籃式Ⅰ型封口機構(Type2_b1f) 60 4-2-3搖籃式Ⅱ型封口機構(Type3_b2f) 66 4-2-4搖籃式改良Ⅰ型封口機構(Type4_b3f) 72 4-2-5搖籃式改良Ⅱ型封口機構(Type5_b4f) 75 4-3封口機構ADAMS模擬結果分析比較 78 4-4封口機構振動分析比較 90 第五章結論與建議 101 6.參考文獻 103 7.附錄 105zh_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=U0005-0502200721064300en_US
dc.subjectSealing Mechanismen_US
dc.subject封口機構zh_TW
dc.subjectVibrationen_US
dc.subjectUnbalanced Rotationen_US
dc.subjectDynamic Simulationen_US
dc.subject振動zh_TW
dc.subject不平衡旋轉zh_TW
dc.subject動態模擬zh_TW
dc.title橫式包裝機封口機構分析設計zh_TW
dc.titleAnalysis and Design of the End Sealing Mechanism of a Horizontal Flow Wrapperen_US
dc.typeThesis and Dissertationzh_TW
item.languageiso639-1en_US-
item.openairetypeThesis and Dissertation-
item.cerifentitytypePublications-
item.grantfulltextnone-
item.fulltextno fulltext-
item.openairecristypehttp://purl.org/coar/resource_type/c_18cf-
Appears in Collections:機械工程學系所
Show simple item record
 

Google ScholarTM

Check


Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.