Please use this identifier to cite or link to this item: http://hdl.handle.net/11455/1676
DC FieldValueLanguage
dc.contributor卓漢明zh_TW
dc.contributor王焜潔zh_TW
dc.contributor.advisor曾柏昌zh_TW
dc.contributor.author毛俊凱zh_TW
dc.contributor.authorMao, Jun-Kaien_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.identifierU0005-2308200614231400zh_TW
dc.identifier.citation英文部分 【1】F.P.Wardle,S.J.Lacey,S.Y.Poon,“Dynamic and Static Characteristics of a Wide Speed Range Machine Tool Spindle”,Precision Engineering, Vol. 5, No. 4, pp. 175~183, 1983. 【2】J.A.Brandon,K.J.H.Al-Shareef,“On the Validity of Several Common Assumptions in the Design of Machine Tool Spindle-Bearing Systems”,International Journal of Machine Tools and Manufacture,vol.31,no.2,pp. 235~248,1991. 【3】M.Weck,“Handbook of Machine Tools- Vol. 2- Construction and Mathematical Analysis”, John Wiley & Sons, pp.193~194, 1984. 【4】Martin,D.L.,A.N.Tabenkin and F.G.Parsons, "Precision Spindle and Bearing Error Analysis",Int. J. Mach. Tools Manufact. Vol.35, No.2,pp.187-193,1995. 【5】Lee,E.S.and H.G.Wi, "A Comprehensive Technique for Measuring the Three-Dimensional Positioning Accuracy of Rotating Object",Int J Adv Manuf Technol 14,pp.330-335,1998. 【6】Marsh,E.and Grejda,R. "Experiences with the master axis method for measuring spindle error motions",Precision Engineering 24(2000) pp.50-57,2000. 【7】Yang, SHUZI, "A Study of Static Stiffness of Machine Tool Spindle",Int. J. Mach. Tools Des.Res.Vol21No.1 pp.23-40,1981. 【8】J.Tlusty,R.Livingston IV,Y.B.Teng,“Non-linearities in Spindle Bearings and Their Effects”, Annals of the CIRP, 35, 1pp .269~273, 1986. 【9】N. Lynagh, H. Rahnejat, M. Ebrahimi, R. Aini, “Bearing Induced Vibration in Precision High Speed Routing Spindles”, International Journal of Machine Tools and Manufacture, vol. 40, pp. 561~577,2000. 【10】N.T.Liao,J.F.Lin,“A New Method for the Analysis of Deformation and Load in a Ball Bearing with Variable Contact Angle”, Journal of Mechanical Design, Vol. 123, pp. 304~312, 2001. 【11】T.A.Harris,“Rolling Bearing Analysis-3rd ed.”, John Wiley & Sons, 1991. 【12】F.P.Wardle,S.J.Lacey,S.Y.Poon, “Dynamic and Static Characteristics of a Wide Speed Range Machine Tool Spindle”, Precision Engineering, Vol.5,No. 4,pp. 175~183,1983. 【13】M.F.While,“Rolling Element Bearing Vibration Transfer Characteristics: Effect of Stiffness”, Journal of Applied Mechanics,Vol. 46, pp. 677~684, 1979. 中文部分 【14】王焜潔,” CNC雙刀塔立式車床之剛性及模態分析”,修平學 報,第四期 民國九十一年三月。 【15】趙相松,"陶瓷軸承主軸單元動(特)性的實驗研究",中國機 械工程,Vol.10,1999。 【16】黃俊弘,“工具機主軸的專利回顧”,機械工業雜誌,四月號, 中華民國83 年,pp.197~206。 【17】徐國慶,“CNC 綜合加工機整機規格分析”, PMC 圖書 室,002049,pp. 107~163。 【18】王文瑞,“主軸性能檢測方法”,機械工業雜誌,三月號,中華 民國86 年,pp.223~233。 【19】台中精機集團, “工具機主軸靜剛性分析與測試之整合”, http://www.or.com.tw/mz。 【20】周麟恩, “高速主軸軸承系統之運動與動態特性分析”, 碩 士論文, 中山大學機械工程研究所, 中華民國90 年6 月。 【21】廖天志,”工具機長方形結構肋條配置之剛性比較”,PMC技術 通報第一期,1994,P4~8。 【22】張錫晴,蔡垂錫“主軸特性對高速切削加工之影響”,工具機 技術專輯,第204期 89年03月號。 【23】楊文洲,“主軸迴轉精度量測”,精機通訊 http://www.or.com.tw/MZ/down_mz_2/down_mz_2-a-24.htm。 【24】蕭仁忠,“主軸迴轉精度測試分析技術資料”,精密機械研究 發展中心,1995年。 【25】FAG 軸承型錄。zh_TW
dc.identifier.urihttp://hdl.handle.net/11455/1676-
dc.description.abstract在工具機的製造過程當中,主軸組件的性能是影響工具機加工品質與生產效率極其重要的關鍵因素,今若以工程設計之觀點,「測試分析」為驗證設計之優劣或變更設計之參考依據,以裝配之觀點,「測試分析」可為驗證組裝之依據,並作為提升產品性能之參考。然若以客戶之觀點,「測試分析」之結果與其需求相較之下,其可做為購買機台設備時之參考。 本論文針對主軸做單體的測試平台規劃開發,希望可以由以往的主軸整機檢測或模擬分析,改由此測試平台來做主軸單體檢測分析,減少工具機結構、熱傳等等問題,藉此以更瞭解主軸的靜動態特性,以確保主軸的性能。 本研究利用完成的測試平台,針對了二支不同型態的主軸做靜剛性檢測分析、溫升運轉測試及熱變位分析、迴轉精度量測,一支為前後端軸承接觸角均為250降預壓的主軸,降預壓之目的是避免溫升過高,另一支為前端軸承接觸角250,後端軸承接觸角150未降預壓的主軸,檢測出的結果,不管在徑向剛性或軸向剛性,後端軸承150未降預壓之主軸都比後端軸承250降預壓之主軸的高,二支主軸在迴轉精度方面的檢測,可以看出軸承接觸角及預壓對迴轉精度的影響不大。在熱變位方面,主軸在注入冷卻液的情況下,比較不容易受到環境溫度的影響。以往的溫升運轉測試皆是在大氣中做測試,但經由測試平台檢測的結果,在套筒注入冷卻液後,可在較短的時間內達到油脂均勻甩油的效果。zh_TW
dc.description.abstractIn the manufacturing process of the machine tools, the performance of spindle is the key point in machine tools, and it decides the working process quality and production efficiency. With the view of engineering design, test and analyze is used to verify the quality and design after designed. With the view of assembled, test and analyze is used to verify the basis assembled, and is regarded as the reference for improve the products quality. With the view of customer, the result of analyze is to take for a reference that customer demand. It this paper, we developed the spindle single test platform, and planed the procedure about test and analyze of spindle. The object is to understand the quiet dynamic characteristic of the spindle even more by this. All of the results done by the test platform we developed, include amount of dynamic rotational accuracy is examined to make static stiffness measuring and is analyzed , running-in test and thermal displacement to the spindle of two different attitudes(each for before and after bearing contacting angle 250 and down preload of spindle, contact another piece for back end bearing contact angle 150 of spindle). The result Inspection, no matter in radial stiffness or axial stiffness, it is taller than 250 ones that lowered the spindle preload of back end bearing that 150 back end bearings have not lowered the spindle preload, The Inspection in dynamic rotational accuracy of two spindle, can find out that it is not high to the influence which dynamic rotational accuracy that the bearing is contact angle and preload, In thermal displacement, the spindle is more difficult to be influenced by environment temperature in case of pouring into cooling liquid, It is to make testing in the atmosphere that the past Running-in, but the result Inspection by way of the test platform, after the sleeve pours into the cooling liquid , can reach the even result of lubrication within shorter time.en_US
dc.description.tableofcontents中文摘要........................................i Abstract........................................ii 表目錄..........................................vi 圖目錄..........................................vii 第一章 緒論.....................................1 1.1 前言.....................................1 1.2 研究動機及目的...........................4 1.2.1 研究動機.................................5 1.2.2 研究目的.................................5 1.3 文獻回顧.................................7 1.4 論文架構.................................10 第二章 主軸檢測機台設計規劃.....................12 2.1 檢測機台的結構材料......................12 2.2 肋的佈置................................13 2.3 測試機台的設計..........................16 2.4 測試機台共振頻分析......................18 第三章 工具機主軸靜剛性測試分析................28 3.1 靜剛性測試..............................30 3.2 靜剛性測試結果與分析....................31 3.2.1 靜剛性測試結果..........................32 第四章 主軸溫升運轉測試與熱變位................38 4.1 主軸的構造..............................39 4.2 滾珠軸承的特性..........................40 4.3 軸承的潤滑 ..............................41 4.4 主軸運轉測試分析........................42 4.5 主軸熱變位量測..........................46 4.6 主軸熱變位測試與分析....................51 第五章 工具機主軸迴轉精度檢測..................58 5.1 主軸迴轉精度測試儀器及方法..............58 5.2 主軸動態精度檢驗結果與分析..............63 第六章 結論與與未來研究方向....................73 參考文獻........................................75zh_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=U0005-2308200614231400en_US
dc.subjectstatic stiffnessen_US
dc.subject熱變位zh_TW
dc.subjectdynamic rotational accuracyen_US
dc.subjectRunning-inen_US
dc.subjectthermal displacementen_US
dc.subject動態迴轉精度zh_TW
dc.subject靜剛性zh_TW
dc.subject溫升運轉測試zh_TW
dc.title工具機主軸靜動態特性分析測試平台開發zh_TW
dc.titleThe Development of Machine Tool Spindle Test Platform for Static and Dynamic Characteristics Analysisen_US
dc.typeThesis and Dissertationzh_TW
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