Please use this identifier to cite or link to this item: `http://hdl.handle.net/11455/1819`
DC FieldValueLanguage
dc.contributor.author賴明獻zh_TW
dc.contributor.authorLai, ming-xianen_US
dc.date2005zh_TW
dc.date.accessioned2014-06-05T11:41:45Z-
dc.date.available2014-06-05T11:41:45Z-
dc.identifier.urihttp://hdl.handle.net/11455/1819-
dc.description.abstract本文主要的目的是針對光機引擎之液晶板（LCD Panel）的散熱情形及風扇噪音問題做設計與改良。本文分析方法主要採用數值分析，並部份從事實驗量測溫度。在數值分析上採用計算流體力學（CFD）之套裝軟體來模擬與分析系統散熱流場的情形，並配合田口法，試以找出光機引擎最佳設計方案來加以改良，並提供業界的參考。本文所得到的數值結果並與實驗中所量取的溫度來驗證數值分析之正確性。本文所考慮的參數為四個風扇的風量與轉速。本文經由田口法得到最佳化條件為A3（吸風風扇風量與轉速減少）、B1（排風風扇風量與轉速增加）、C2（鼓風機風量與轉速不變）、D1（小風扇風量與轉速增加）。 本文數值結果經由上述田口法所得結果發現，由下方鼓風機吹上來的風量將會使得三片液晶板(編號R、G、B)中的編號B溫度升高。這是由於氣流旋轉流將熱帶至B而所造成的結果。為了解決氣流旋轉流的不良影響，本文針對模型結構稍作修改，改良後的模型簡稱P1。改良型（P1）為在迴流區鏡片下方作開孔之改良。本文所改良型（P1）與改良前做比較後發現改良型的散熱效率提高了20.2％。 關鍵字：投影機，光機引擎，CFD，散熱，田口法zh_TW
dc.description.abstractThe purpose of this study is focused on the design and improvement of fan noise and heat dissipation at LCD Panel of optical engine. The measured temperature was proceeded in the laboratory of CHUANG YEOU technology company. The temperature results of numerical analysis were agreed with the present experimental measured temperature data. The numerical software of CFD code was employed to simulate and analyze the dissipative heat transfer in optical engine system. The Taguchi's method was also used to find the best dissipative heat transfer with improvement and design of an optical engine. The considered parameters of this study are airflows and rotational speed of four fans. According to the analysis of Taguchi's method, we had obtained that the best conditions of this optical engine system are A3(decreased airflow and rotational speed of suction fan),B1(increased airflow and rotational speed of discharge fan),C2(constant airflow and rotational speed of blower),D1(increased airflow and rotational speed of small fan). The present calculated results had analyzed an optimum condition by Taguchi's method, then we had found that the high temperature at B panel of LCD Panels (called R,G,B respectively) because the heat flow of an optical engine was brought to B by the rotated flow field was increased with the blowing upward airflow with rotation from blower. In order to improve the effects of rotating airflow, in this study we had presented the modified model(called P1) which is a punching hole under mirror. The calculated results of the modified model(P1) was shown that the thermal efficiency was better than the original model at 20.2%. Keywords: projector, optical engine, CFD, heat transfer ,Taguchi's methoden_US
dc.description.tableofcontents摘 要 I ABSTRACT II 目 錄 III 表目錄 VII 圖目錄 VIII 符號說明 XII 第一章 緒論 1 1.1前言 1 1.2 光機引擎簡介 3 1.2.1 LCD光機引擎 4 1.2.2 LCOS光機引擎 6 1.3 研究目的與動機 7 1.4 文獻回顧 10 第二章儀器設備規劃與試驗方法 12 2.1儀器設備 12 2.1.1 熱電偶 12 2.1.2 可程式恆溫恆濕試驗機 13 2.1.3 資料擷取設備 13 2.1.4 噪音量測設備 13 2.2 試驗方法 14 2.2.1 試驗模型 15 第三章 數值方法 16 3.1 簡介 16 3.2 FVM的簡介 17 3.3 基本假設 18 3.4 網格系統 19 3.5 有限體積法 20 3.5.1網格單元命名 21 3.6 求解方法 24 3.7 紊流模式 25 3.8 收斂條件 26 3.9 數值模擬流程 27 3.9.1 前處理 27 3.9.2 求解 28 3.9.3 後處理 28 第四章 最佳化研究方法 29 第五章 物理模型建構 30 5.1 物理模型建構 30 5.2 光機引擎散熱系統簡介 31 5.3 直交表的建立 31 第六章 結果與討論 33 6.1 網格測試 34 6.2 模擬結果與量測數據比較 34 6.3 光機引擎散熱設計與改良結果之分析 35 6.3.1 變異數分析 35 6.3.2 最佳光機引擎風扇散熱組合分析 36 第七章 結論與建議 38 7.1 結論 38 7.2 建議 39 參 考 文 獻 40 附錄A 田口實驗計畫法[丁志華、戴寶通，2001；張季娜等人，1992] 84 A.1 直交表 86 A.2 因子水準效果 88 A.3 變異數分析 90 A.4 田口法實驗步驟 92 誌 謝 93zh_TW
dc.language.isoen_USzh_TW
dc.publisher機械工程學系zh_TW
dc.subjectprojectoren_US
dc.subject投影機zh_TW
dc.subjectoptical engineen_US
dc.subjectCFDen_US
dc.subjectheat transferen_US
dc.subjectTaguchi's methoden_US
dc.subject光機引擎zh_TW
dc.subjectCFDzh_TW
dc.subject散熱zh_TW
dc.subject田口法zh_TW
dc.title提升光機引擎散熱系統設計之研究zh_TW
dc.titleA Study of Optical Engine System Design With Promoting Heat Transferen_US
dc.typeThesis and Dissertationzh_TW
Appears in Collections:機械工程學系所
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