跳到主要內容

臺灣博碩士論文加值系統

(54.224.117.125) 您好!臺灣時間:2022/01/26 17:23
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:許能昌
研究生(外文):Neng-Chang Hsu
論文名稱:高彎曲度之人工膝關節多軸向動態磨耗試驗機開發
論文名稱(外文):Development of Multiaxial Dynamic High Flexion Knee Wear Simulator
指導教授:林上智
學位類別:碩士
校院名稱:國立中央大學
系所名稱:機械工程研究所
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:2007
畢業學年度:95
語文別:中文
論文頁數:101
中文關鍵詞:逆向設計膝關節磨耗試驗機凸輪高度彎曲步態
外文關鍵詞:CamHigh flexionGait cycleReverse designKnee wear simulator
相關次數:
  • 被引用被引用:1
  • 點閱點閱:195
  • 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
本論文主要研究目的重點是開發高度彎曲運動型式之膝關節多軸向動態磨耗試驗機,由於目前尚無標準規範訂立高度彎曲運動型式的運動數據,所以蒐集相關量測高彎曲度的研究文獻,自行彙整了一套膝關節高彎曲度的運動學數據資料;同時也開發正常步態運動型式的膝關節磨耗試驗機,期許未來可分別透過這兩種運動型式對目前主流的PS型人工膝關節進行磨耗測試,評估其使用壽命。
膝關節磨耗試驗機的機構設計最主要是以逆向設計的理念來規劃;其模擬運動型式結果由人工股骨與人工脛骨輸出運動軌跡,藉由這輸出結果反向的往輸入端推進,在希望可以由馬達輸入定速轉速的情況下,透過凸輪機構來達到輸出端所預期的結果;利用動態模擬分析軟體(CAE)求得運動型式之運動軌跡,將其封閉的運動軌跡透過CAD軟體繪製符合運動型式的凸輪機構。膝關節的彎曲與伸展和前後向位移運動由凸輪機構來表現其運動軌跡,內轉與外轉的運動型式直接由馬達來控制;其機構設計的建立透過動態模擬分析的結果與預期的結果相當接近;證明以逆向設計理念的機構比正向設計的機構較能準確的掌握運動型式之運動軌跡,提供更符合膝關節運動型式的模擬磨耗測試空間。
This dissertation deal with development of multiaxial dynamic high flexion knee wear simulator. The high flexion motion form has not established the standard yet. We searched for research with regard to measure knee in high flexion motion and build set of kinematics data. Simultaneously development of normal gait knee wear simulator. The normal gait motion form used ISO 14243 standard profile. Input normal gait profile and high flexion profile to simulator is provided by known data. It simulated the gait cycle and squat down of human knee movement. The knee wear simulator typically applies flexion-extension, internal-external rotation,anterior-posterior displacement and axial load. The main concept of the reverse design that compelled motion trace of femoral component and tibial component attain to expect results. First, used computer-aided engineering (CAE) software obtained closed motion trace. Second, trace transform draft and grow substantiation by computer-aided design (CAD) software. The closed irregular shape is the cams that conform to motion profile. The cam mechanism can indeed represent the motion trace. It have two station can test two knee prostheses simultaneously. The posterior stabilized knee prosthesis is popular recently that we estimate wear situation and lifespan.
中文摘要 i
英文摘要 ii
誌謝 iii
目錄 iv
圖目錄 vi
表目錄 x
一、緒論 1
1-1 研究動機與目的 1
1-2 文獻回顧 3
1-2-1 膝關節解剖學與生物力學介紹 3
1-2-2 膝關節病理學介紹 7
1-2-3 膝關節磨耗試驗機之國際標準規範介紹 12
1-2-4 膝關節正常步態與高度彎曲運動介紹 14
1-2-5 人工膝關節磨耗測試機介紹 20
1-3 本文架構 32
二、材料與方法 33
2-1 膝關節力學資料蒐集 33
2-1-1 正常步態運動型式 34
2-2-2 高度彎曲運動型式 37
2-2 膝關節磨耗試驗機之電腦模型建立 43
2-2-1 前後向位移運動型式機構設計 44
2-2-2 彎曲與伸展運動型式機構設計 48
2-2-3 內轉與外轉運動型式機構設計 52
2-2-4 人工膝關節裝置介面機構設計 54
2-3 膝關節磨耗試驗機之電腦輔助動態分析 56
2-3-1 運動學參數設定 57
2-3-2 動力學參數設定 59
2-4 運動曲線評估指標 63
三、結果 68
3-1 彎曲與伸展運動型式動態模擬結果 68
3-2 前後向位移運動型式動態模擬結果 71
3-3 內轉與外轉運動型式動態模擬結果 74
四、討論 76
4-1 正常步態運動型式磨耗試驗機台文獻比較 76
4-2 正常步態與高度彎曲運動型式之磨耗試驗機比較 81
五、結論與未來展望 83
參考文獻 85
[1]John W. Hole, Jr., Karen A. Koos, Human Anatomy,胡銘一、孫穆乾、陳懿慧等譯,藝軒出版社,民國81年
[2]Martini, Bartholomew, Essentials of Anatomy & Physiology,林自勇、鄧志娟、 陳瑩玲等譯,解剖生理學,全威圖書,民國九十二年
[3]Susan J. Hall, PH.D., Basic Biomechanics, New York, 2003
[4]P. Bowker, D. N. Condie, D. L. Bader, D. J. Pratt, W. A. Wallace, Biomechanical Basic of Orthotic Management, OXFORD, 1993
[5]Cynthia C. Norkin, Ed.D., P.T., Pamela K. Levangie, M.S., P.T., Joint Structure & Function, A Comprehensive Analysis Second Edition, Printed in the United States of American, 1992
[6]James A. Rand, M.D., Total Knee Arthroplasty, New York, 1993
[7]李勇達,蘇侃,“人工膝關節磨耗試驗機”,中華民國專利新型第三四一一一八號,民國八十七年。
[8]DesJardins, J.D., Walker, P.S., Haider, H., and Perry, J., 2000. “The use of a force-controlled dynamic knee simulator to quantify the mechanical performance of total knee replacement designs during functional activity,” J. Biomechanics, v 33, p 1231-1242.
[9]Grood, E.S., and Suntay, W.J., 1983. “A joint coordinate system for the clinical description of three-dimensional motions﹕application to the knee,” J. Biomech. Engng, v 105, p 136-144.
[10]T. S. Johnson, M. P. Laurent, J. Q. Yao, “The effect of displacement control input parameters on tibiofemoral prosthetic knee wear”, Wear, Vol. 250, Issue 1-12, 222-226, 2001.
[11]Walker, P.S., Blunn, G.W., and Broome, D.R., 1996. “A knee simulating machine for performance evaluation of total knee replacements,” J. Biomechanics, v 30, n 1, p 83-89.
[12]Wirz, W., and Jakob, R.P., 1999. “Knee joint simulator: an anatomical reconstruction of the joint surfaces and of the ligamentous structures of the knee joint for teaching purposes,” Knee Surg, Sports Traumatol, Arthrosc, v 7, p 59-62.
[13]Guoan Li Shay Zayontz, Louis E. DeFrate, Ephrat Most, Jeremy F. Suggs Harry E. Rubash,“Kinematics of the knee at high flexion angles: an in vitro investigation”, Journal of Orthopaedic Research 22 (2004) 90-95
[14]A. Hemmerich, H. Brown, S. Smith, S.S.K. Marthandam, U.P. Wyss, “Hip, Knee, and Ankle Kinematics of High Range of Motion Activities of Daily Living”, JOURNAL OF ORTHOPAEDIC, Res 24:770–781, 2006
[15]SUSAN J. MULHOLLAND and URS P. WYSS, “Activities of daily living in non-Western cultures: range of motion requirements for hip and knee joint implants” International Journal of Rehabilitation Research 24, 191-198, 2001.
[16]I C Burgess, M Kolar, J L Cunningham* and A Unsworth, “Development of a six station knee wear simulator and preliminary wear results” Proceedings Of The Institution Of Mechanical Engineers. Part H, Journal Of Engineering In Medicine, 1997; Vol. 211 (1), pp. 37-47
[17]P I Barnett, H M J McEwen, D D Auger, M H Stone, E Ingham, J Fisher. “Investigation of wear of knee prostheses in a new displacement/force-controlled simulator”. Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine, 2002;Vol. 216 , pp. 51-61
[18]Hon So* and Yung-Ta Lee, “Wear mechanisms of UHMWPE for artificial knee joint in combined rolling and sliding cycle motion” Journal of the Chinese Institute of Engineers , Vol.126,No.6,pp.825 -834(2003)
[19]American Society for Testing and Materials F1715- “Standard guide for wear assessment of prosthetic knee designs in simulator devices. ” West Conshohocken, PA, American Society for Testing and Materials International 2002.
[20]ISO 14243-1 “Implants for surgery—Wear of total knee joint prostheses—Part1:Loading and displacement parameters for wear-testing machines with load control and corresponding environmental conditions for test.” 2002-03-15,First edition
[21]ISO 14243-3 “Implants for surgery—Wear of total knee joint prostheses—Part3:Loading and displacement parameters for wear-testing machines with displacement control and corresponding environmental conditions for test.” 2004-09-15,First edition
[22]徐正會,賴治維,「膝關節之步態運動分析」,2004第四屆精密機械製造研討會,國立台北科技大學,台北,2004年11月。
[23]陳煌仁,「可程式之人工膝關節模擬磨耗機的研製」,私立中原大學,碩士論文,民國九十二年
QRCODE
 
 
 
 
 
                                                                                                                                                                                                                                                                                                                                                                                                               
第一頁 上一頁 下一頁 最後一頁 top