跳到主要內容

臺灣博碩士論文加值系統

(3.239.4.127) 您好!臺灣時間:2022/08/16 02:50
字體大小: 字級放大   字級縮小   預設字形  
回查詢結果 :::

詳目顯示

我願授權國圖
: 
twitterline
研究生:黃佳凰
研究生(外文):Chia-Huang Huang
論文名稱:曲齒聯軸器齒形創成之研究
論文名稱(外文):A Study on the Generating of Tooth Profiles of Curvic Couplings
指導教授:蔡穎堅
指導教授(外文):Ying-Chien Tsai
學位類別:碩士
校院名稱:國立中山大學
系所名稱:機械與機電工程學系研究所
學門:工程學門
學類:機械工程學類
論文種類:學術論文
論文出版年:2002
畢業學年度:90
語文別:中文
論文頁數:104
中文關鍵詞:齒形創成曲齒聯軸器包絡理論
外文關鍵詞:Envelope TheoryCurvic CouplingGenerating of Tooth Profiles
相關次數:
  • 被引用被引用:5
  • 點閱點閱:455
  • 評分評分:
  • 下載下載:0
  • 收藏至我的研究室書目清單書目收藏:1

曲齒聯軸器目前已經廣泛的應用在工業界,其生產設備大部分是利用美國格里森公司(Gleason Works Co.)所發展的Gleason No.120型專用磨床機。所以為了要提高國內生產曲齒聯軸器的設計及製造之自主能力,本研究發展出另一種曲齒聯軸器齒形製造方式。
本研究為了探討該齒形之幾何形狀特性。首先,利用空間座標轉換矩陣理論,配合磨輪加工路徑與刀具之位置關係,推導出製造曲齒聯軸器之刀具輪廓方程式,再根據創成刀具之運動軌跡方程式,配合刀具與工件之嚙合方程式,求出刀具創成出齒形之包絡面,也就是曲齒聯軸器之幾何數學模式。最後,依據推導的齒面數學模式,建構實體模與使用Gleason No.120型專用磨床機加工方式的齒形作比較,並針對其中加工參數的變化建構圖表,分析其齒面性質,以作為後續依不同應用場合選擇適當設計參數之研究基礎。


Curvic couplings have been widely applied to various industrial applications. Presently the Gleason No.120 special grinding machine developed by Gleason Works Co. is one of the commonly used machine tool for the curvic coupling manufacturing. On the other hand, in response to the issue of improving the domestic design and manufacturing ability, an alternative manufacturing method of curvic coupling is introduced in this study.
In this study the geometrical characteristics of the novel gear profile are investigated. Firstly, applying the spatial transformation matrix theorem to the relationship between the cutting tool path and the cutting tool position, the cutting tool profile equation of curvic coupling is successfully derived. Secondly, the mathematical model of the envelope surface of the generating tool, or generally being called the gear surface, is constructed based on the trajectory equation of the generating tool motion and the tool-workpiece meshing equation. Finally, the solid model is established based on the obtained mathematical model, and the comparison works with the conventional curvic coupling are also carried out. The analysis of gear surface is graphically depicted with respect to the various machining parameters. It is believed that this thesis provides a useful tool for the following studies of curvic couplings for the different demand of application fields.


摘要I
AbstractII
目錄III
圖目錄V
表目錄VIII
符號說明IX
第一章 緒論1
1-1研究背景及目的1
1-2文獻回顧2
1-3論文組織與章節4
第二章 創成曲齒聯軸器之刀具數學模式5
2-1聯軸器種類5
2-2曲齒聯軸器簡介6
2-3格里森曲齒聯軸器加工方式7
2-4研究流程9
2-5本文發展的曲齒聯軸齒形製造方式10
2-5-1創成刀具之數學模式13
2-5-2刀具之實體模型建構及刀具設計探討22
第三章 曲齒聯軸器之齒面數學模式25
3-1包絡理論25
3-2嚙合方程式27
3-2-1刀具曲面之法向量29
3-2-2相對速度32
3-2-3嚙合方程式36
3-3刀具軌跡方程式37
3-4曲齒聯軸器之數學模式42
第四章 曲齒聯軸器之實體建構及探討44
4-1齒面建構44
4-2本文製造方式與格里森製造方式的曲齒聯軸器齒形之比較48
4-2-1齒形之比較48
4-2-2齒形加工量54
4-2-3齒形邊緣分析64
4-2-4應用71
第五章 結論與建議72
參考文獻74
附錄A 擺線軌跡方程式77
附錄B 曲齒聯軸器之齒面方程式87


1.Bannister, R. H., 1980, “Methods for Modeling Flanged and Curvic Couplings for Dynamic Analysis of Complex Rotor Constructions,” ASME, Transactions Journal of Mechanical Design, Vol. 102, Jan. pp. 130-139.2.Davidson, J. K., and Wilcox, L. E., 1976, “Minimizing Assemble Runout in Turbo-machines Made with Curvic Coupling,” ASME, Journal of Engineering for Power, Vol. 98, No. 1, pp. 37-46.3.Demin, A. I., 1978, “Calculation and Design of Curvic Couplings,” Machines & tooling, Vol. 49, Issue 1, pp. 27-30.4.Denavit, J., and Hartenberg, R. S., 1955, “A Kinematic Notation for Lower-Pair Mechanisms Based on Matrices,” ASME, Journal of Applied Mechnism, Ser. E., Vol. 22, No. 2, pp. 215-221.5.Garrett Turbine Engine Co., 1982, Curvic Couplings, Care and Handling, Rochester, New York.6.Garrett Turbine Engine Co., 1995, Coupling, Rigid Shaft, General Requirements for Curvic Couplings, Rochester, New York.7.Gleason Works Co., 1973, Curvic couplings Dimension Sheet Explanations, Rochester, New York.8.Gleason Works Co., 1979, Fixed Curvic Couplings, Rochester, New York.9.Litvin, F. L., 1989, Theory of Gearing, NASA Reference Publication, 1212, AVSCOM Technical Report, 88-C-035.10.Litvin, F. L., 1994, Gear Geometry and applied Theory, PTR Prentice Hall, Englewood Cliffs, New Jersey.11.Litvin, F. L., and Krylov, N. N., 1975, “Generation of Tooth Surfaces by Two-Parameter Enveloping,” Mechanism and Machine Theory, Vol. 10, pp.365-373. 12.Miao, H. C., and Koga, H., 1996 “Design and Analysis of Plunge Shaving for Finishing Gears with Tooth Profile Modifications,” ASME Power Transmission and Gearing Conference, DE-Vol.88, pp. 275-281.13.Mueller, H., Wiener, D., and Dutschk, R., 2000, “A Modular Approach to Computing Spiral Bevel Gears and Curvic Couplings,” Gear Technology, May/June, pp. 32-38.14.Pisani, S. R., and Rencis, J. J., 1993, “Investigating Curvic Coupling Behavior by Utilizing the Two- and Three-Dimensional Boundary and Finite Element Methods,” Boundary Element XV: Stress Analysis Proceedings of the International Conference on Boundary Element Methods, Worcester, MA, USA, Aug 10-13, pp. 271-275.15.Richardson, I. J., Hyde, T. M., Becker, A. A., and Taylor, J. W., 2000, “A Three-dimensional Finite Element Investigation of the Bolt Stresses in an Aero-engine Curvic Coupling Under a Blade Release Condition,” Proceedings of the Institution of Mechanical Engineers, Vol. 214, Part G, pp. 231-245. 16.Spivak, M., 1979, A Comprehensive Introduction to Differential Geometry, Publish or Perish, inc., Berkeley, Houston.17.Tsay, D. M., and Hwang, G. S., 1994, “Application of the Theory of Envelope to the Determination of Camoid Profile with Translating Followers,” ASME Journal of Mechanical Design, Vol.116, No. 1, pp. 320-325.18.Tsutsumi, M., Hazem, S., and Ito, Y., 1985, “Static Behavior of Turret Head with Curvic Couplings,” Manufacturing Engineering Transaction, pp.277-282.19.Yan, H. S., and Chen, H. H., 1994, “Geometry Design and Machining of Roller Gear Cams with Cylindrical Rollers,” Mechanism and Machine Theory, Vol. 29, No. 6, pp. 803-812.20.Yin, Z., Ou, Y., Hu, B., and Li, Y., 1994, “Influencis of Curvic Coupling Connection and Variable Axial Forces,” Journal of Aerospace Power, Vol. 9, No. 2, pp. 218.21.Yin, Z., Ou, Y., Li, Y., and Mei, Q., 1994, “Dynamic Characteristic Analysis of Axially Prestressed Rotor Systems with Curvic Couplings,” Journal of Aerospace Power, Vol. 9, No. 2, pp. 219.22.Yin, Z., Ou, Y., Li, Y., Yang, D., and Mei, Q., 1993, “Stiffness of A Shaft Section with Curvic Coupling and its effect on dynamic characteristic of a Rotor,” Journal of Vibration Engineering, Vol. 6, No. 1, pp. 63-67.23.江樹勳,1998,齒式聯軸器應用於旋轉定位臺之研究,碩士論文,國立中山大學機械工程學系,高雄。24.沈大維,1999,曲齒聯軸器之剛性與誤差分析,碩士論文,國立中山大學機械工程學系,高雄。25.林政達,2000,曲齒聯軸器加工誤差及定位精度之研究,碩士論文,國立中山大學機械工程學系,高雄。26.邱垂元,1995,“分度與旋轉機構之功能介紹”,機械工業雜誌,No. 9,pp.109-115.27.張志文、羅豐祥,1996,“NC旋轉工作臺迴轉精度之檢測技術”,機械工業雜誌,No. 9,pp. 127-135.28.張信良、蔡中杓,1997,“非圓形齒輪之創成及其齒形”,機械月刊,Vol. 23,No. 12,pp. 216-222.29.廖上平,1998,Helipoid齒輪之接觸分析,碩士論文,國立交通大學機械工程學系,新竹。30.鄭鈞文,1993,E型蝸桿蝸輪之幾何數學模式,碩士論文,國立交通大學機械工程學系,新竹。

QRCODE
 
 
 
 
 
                                                                                                                                                                                                                                                                                                                                                                                                               
第一頁 上一頁 下一頁 最後一頁 top