Please use this identifier to cite or link to this item: http://hdl.handle.net/11455/2454
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dc.contributor蔡東憲zh_TW
dc.contributor黃敏睿zh_TW
dc.contributor.advisor李吉群zh_TW
dc.contributor.author劉沛縈zh_TW
dc.contributor.authorLiu, Pei-Yingen_US
dc.contributor.other中興大學zh_TW
dc.date2011zh_TW
dc.date.accessioned2014-06-05T11:43:24Z-
dc.date.available2014-06-05T11:43:24Z-
dc.identifierU0005-1508201016335600zh_TW
dc.identifier.citation[1] Cao Linxiang "The measuring accuracy of the multistep method in the error separation technique," J. Phys. E:Sci. Instrum. 1989;22;903-906. [2] Eric Marsh,Jeremiah Couey,Ryan Vallance, "Nanometer– Level Comparison of Three Spindle Error Motion Separation Techniques," Manufacturing Science and Engineering,2005;128:180-187. [3] Eric R. Marsha, David A. Arnesonb,Donald L. Martinc," A comparison of reversal and multiprobe error separation", Precision Engineering2010;34:85-91. [4] Kanazawu-ku,Matsuura-cho"Estimation of sphericity by means of statistical processing for roundness of spherical parts"Precision Engineering 1997;20:117-122. [5] Linxiang Cao, Hong Wang, Xiongua Li and Qinghong Shen," Full-harmonic error separation technique, "Measurement Science and Technology, 1992;3:1129-1132. [6] N. Cho, J. Tu "Roundness modeling of machined parts for tolerance analysis" Precision Engineering.2001;25:35–47. [7] Ruedi Thalmann, Jürg Spiller "A primary roundness measuring machine"Proceedings of SPIE, 2005;5879:140- 149. [8] Tau Jiubiu,Qiaug Xiru,Diug Xueaisi, "A Super precision Measuring Method and the Corresponding Measuring System for Error Movement of Instrument Spindles," Industrial Electronics, Control and Instrumentation 1991;3:2449-2454. [9] Wei Gao, Satoshi Kiyono,Takamitu Sugawara"High- accuracy roundness measurement by a new error separation method," Precision Engineering 1997;21:123- 133. [10] Weiqian Zhao, Jiubin Tan, Zi Xue and Shaoliang Fu,"SEST: A new error separation technique for ultra- high precision roundness" Measurement Science and Technology,2005;16:833–841. [11] W.Q. Zhao, Z. Xue, J.B. Tan, Z.B. Wang"SSEST: A new approach to higher accuracy cylindricity measuring instrument" International Journal of Machine Tools & Manufacture 2006;46 :1869–1878 [12] Xiuming Li, Zhaoyao Shi "The relationship between the minimum zone circle and the maximum inscribed circle and the minimum circumscribed circle"Precision Engineering 2009;33:284-290. [13]范光照、張郭益, 精密量測. 高立圖書有限公司,2005 [14]黃梓輔,三探針真圓度量測軸誤差分離技術之研究,國立中興大 學機械工程學系碩士論文,2007zh_TW
dc.identifier.urihttp://hdl.handle.net/11455/2454-
dc.description.abstract傳統多步法廣泛使用在真圓度量測儀,其主軸旋轉重覆性必須很高,才能確保量測精確度,而且量測在轉位的整數倍會有諧波抑制的情形。 本論文中量測待測物和參考圓的半徑差,此時量測數據就與主軸旋轉重覆性無關,為了改善量測精確度,並提出誤差分離法-混合多步法,以擺脫諧波抑制所造成量測之影響。 本文使用的混合多步法與一般傳統多步法比較,用在真圓度量測裝置,混合多步法能消除在1-180upr的範圍諧波抑制而且誤差分離系統也較簡單。 實驗架設部份,真圓量測設備與旋轉軸承,包括主軸上的增量編碼器,直流馬達和接觸探針與雷射干涉儀,以及軟體將得到數據進行估算。最後實際量測一個鋼珠來分離參考圓誤差得到輪廓數據,待濾波後利用最小平方圓求真圓度,並重覆量測數次,驗證真圓度量測儀的重覆性。zh_TW
dc.description.abstractThe multistep method is one of the error separation techniques. It is widely used to roundness measuring instruments, the repeatability of the spindle turntable must be required very precision, verification of the measuring accuracy of the multistep method. and multistep method can of harmonic restraint. In this paper, we measurement precision article and the reference circle at same time, therefore the measurement data has no relation with the repeatability of the spindle turntable, to improve accuracy ,presented a error separating method-the combined multi-step method can get rid of harmonic restraint. In this paper, in comparison with the multi-step separation technique commonly used in roundness measuring instruments, mixed multi-step can be used to totally eliminate any harmonics restraint in the range of 1-180 upr and to make the error separation system very simple. The experimental instruments, the roundness measurement instrument is equipped with a rotating spindle. Include an incremental encoder on the spindle, a DC motor, the contact probe and laser interferometers, software for data acquisition and evaluation. Finally we compute the least squares roundness of a spherical article We measure the roundness of this spherical article four times to verify the repeatability of our system.en_US
dc.description.tableofcontents摘要 I Abstract II 誌謝 III 目錄 IV 圖目錄 VI 表目錄 VIII 符號說明 IX 第一章、緒論 1 1.1前言 1 1.2真圓度量測方法 1 1.2.1傳統量測方法 1 1.2.2真圓度量測儀 4 1.2.3使用雷射技術的真圓度檢測 5 1.2.4三次元量床量測真圓度誤差 5 1.2.5線上量測真圓度誤差 6 1.3研究目的與方法 7 1.4文獻回顧 7 1.5論文架構 8 第二章、誤差分離技術 9 2.1誤差分離 9 2.1.1反轉法 10 2.1.2多探針法 11 2.1.3兩步法 14 2.1.4多步法 16 2.2真圓度誤差值 21 2.2.1最小環帶圓 22 2.2.2最大內切圓 22 2.2.3最小外接圓 23 2.2.4最小平方圓 24 2.3誤差分析 25 2.3.1量測儀旋轉精度 25 2.3.2阿貝誤差 25 2.3.3隨機誤差 26 第三章、模擬實驗結果和分析 27 3.1濾波原理 27 3.2模擬誤差分離傳統多步法與混合多步法的結果 28 3.2.1傳統多步法 28 3.2.2混合多步法之模擬 32 3.3分析濾波與誤差分離順序不同的影響 37 第四章、真圓度量測實驗架設 39 4.1量測過程 39 4.2量測原理 41 4.3量測結果 44 第五章、結論與未來展望 50 5.1結論 50 5.2未來展望 50 參考文獻 51zh_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=U0005-1508201016335600en_US
dc.subjectroundness measurementen_US
dc.subject真圓度量測zh_TW
dc.subjecterror separation techniqueen_US
dc.subjectmulti-step methoden_US
dc.subjectmixed multi-step methoden_US
dc.subject誤差分離技術zh_TW
dc.subject多步法zh_TW
dc.subject混合多步法zh_TW
dc.title真圓檢測誤差分離技術zh_TW
dc.titleRoundness measurement and error separation techniqueen_US
dc.typeThesis and Dissertationzh_TW
item.fulltextno fulltext-
item.languageiso639-1en_US-
item.openairetypeThesis and Dissertation-
item.cerifentitytypePublications-
item.openairecristypehttp://purl.org/coar/resource_type/c_18cf-
item.grantfulltextnone-
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