200921078 九、發明說明: 【發明所屬之技術領域】 本發明係有關一種平面式發光體之檢測系統及方法,尤指 一種包括有一光纖、一量測位置移動機構、一光譜分析儀及一 電腦裝置,藉由上述裝置之連結,俾能由該電腦裝置作出待測 平面式發光體之色度、色溫及輝度的分析與結果顯示者。 【先前技術】 隨著網際網路與無線電通訊技術的急遽發展,資訊化漸漸 普及於個人’因此’可攜式資訊產品,如筆記型電腦、行動電 話、數位相機、及個人數位助理等,均快速發展與成長。由於 液晶顯不器具有薄型化、輕量化、低耗電量、無輻射污染、且 能與半導體製程技術相容等優點,並順應著這股網際網路數位 資訊化市場的興起,產品之應用更呈飛躍性的成長。Tft—lcd 顯示器工業近期在台灣蓮勃發展,帶動相關光學零組件上、中、 下游迅速發展,而在光學零組件新產品設計、開發、驗註皆需 仰賴光學檢測系統來掌控產品設計品質,因此檢測系統穩定、 精度相當重要,因此機械光學視覺檢測系統廣泛應用於 TFT-LCD各個相關零組件製程上 液晶顯示器挾著許多優異的特性,例如比較不容易使眼睛 疲勞、低電磁波、低操作電壓、低耗電量以及與半導體相容的 製程技術,已經成為平面顯示器的主流而且逐漸取代CRT映像 管顯示器,並結合薄膜電晶體(TFT)於短時間就開拓出筆記型 電腦市場,並且繼續朝向大塑化及大面積化發展。相較於傳統 的陰極射線管顯示器,液晶顯示器最大的優點在於薄型、輕量, 以及低消耗電功率。目前液晶顯示器正朝大晝面、高密度化、 200921078 低成本化及彩色化的方向發展,而竇 易的架構便是採用背光(BlackUght)搭配彩色化最容 FUter)的組合,所以彩色濾、光片自然而 ^片(Color 器不可或賴如元件之—。―色渡光片液晶顯示 化的關鍵元件,透過彩色濾光片 曰曰·、、、員不器彩色 ⑴、綠⑹、藍⑴三原光,再將三原^^方式產生紅 混合而呈現各種色彩,使液晶顯示器得以顯示出3強弱比例 隨著平面顯示器的技術不斯地推陳出新 ^ 平面顯示器的標準當然也要同步 7去疋義一個 可做色度、色溫、亮度的分析,確J可的檢測系統都 析及管理,但其分析過程太過 2做好品質的分 的效果,*造成產品的損壞。、f時間’無法達到即時檢測 有鑑於此’同領域之業去 '者已開發出如下所列之專利前案: 透過-傳輸裝置與-電腦進^置’該影像錄数之訊號, 有-平面發光體光場輝度“=該電腦之儲存I置内包括 均勻性檢測副程式裝置、式裝置、—平面發光體光場 副程式裝置、—平面發w面發光體光場n點數目之設定 置、-平面發細㈣量^^量難尺权衫副程式裝 腦内之微處理料由傳齡=自動制肺式裝置,並由電 面發光 體之影像資料予=所接收自影 像操取裝置摘取之平 窗化該量測項目及結果。昇、檢測’並於電腦之顯示器上視 200921078 (2)中華民國專利發明第 裝置』,包括:位置定位模組、^『平面發光體視覺檢測 示模組及資料判斷儲存模組。其、、且、輝度檢測模組、顯 固定燈管,並可移動背光燈管置定位模組具有失持器可 背光燈管由位置定位模組移‘ ^待檢測定位。供電模組在 電源並點亮燈管,此時,輝心:目測位置時’提供背光燈管 對這些輝度訊號作一統計運算 ,以二輝度訊號,並 果不符合一既定彳#準佶# w于1一運算結果,當此運算結 級值時’則輪出-警示訊號,並透過顯示模 的方民國專 第558633號『lcd依存之輝度特性 之位置,且輝;心點垂直且相距-量測距離 示面板且垂直、夜4 法包括下列步驟:透過平行液晶顯 轉至各待量it:: 一邊的轉動軸將液晶顯示面板旋 各個量度檢測模組’使輝度檢測模組對準 再利用、二、㈣點在不同待檢測角度時之輝度值, 輝度均輝度值计算付合_9之液晶顯示面板角度依存之 能,惟述專利刚案雖然皆具備液晶顯示面板輝度檢測功 檢·面檢測液晶顯示面板之各量測點… …、法衫顯;此外,該習用結構僅是具備輝度檢測功 200921078 其並無色度、色溫專之檢測功能,因而液晶顯示面板較容易有 色彩飽和度不佳及色偏的情形產生。 緣是,本發明人有鑑於習用結構所造成諸多的缺失,本發 明人等人經不斷地努力研發下,終於研發出改善該習用結構缺 -失的本發明。 ' 【發明内容】 本發明主要目的在於提供一種具有五個自由度調整位移功 能以做為檢測平面式發光體之位置、範圍及視角上的控制,而 可增加平面式發級的彳貞測範圍,因而具有麟㈣與分析精 準度誤差值小以及㈣對色度、色溫、亮度作出分析與顯示結 果等特點的平面式發光體之檢測系統及方法。 為達成上述功效,本發明檢測系統所採用之技術手段,包200921078 IX. Description of the Invention: [Technical Field] The present invention relates to a detection system and method for a planar illuminator, and more particularly to an optical fiber, a measurement position moving mechanism, a spectrum analyzer and a computer device By means of the connection of the above devices, the computer device can be used to analyze and display the chromaticity, color temperature and luminance of the planar illuminant to be tested. [Prior Art] With the rapid development of Internet and radio communication technologies, information technology has gradually become popular among personal 'so-portable information products, such as notebook computers, mobile phones, digital cameras, and personal digital assistants. Rapid development and growth. Because the liquid crystal display device has the advantages of thinness, light weight, low power consumption, no radiation pollution, and compatibility with semiconductor process technology, and conforms to the rise of the Internet digital information market, the application of the product More rapid growth. The Tft-lcd display industry has recently developed in Taiwan's Libo, which has driven the rapid development of relevant optical components in the upper, middle and lower reaches. The design, development and inspection of optical components are subject to optical inspection systems to control product design quality. Therefore, the stability and accuracy of the detection system are very important. Therefore, the mechanical optical vision detection system is widely used in various related component processes of TFT-LCD. The liquid crystal display has many excellent characteristics, such as less eye fatigue, low electromagnetic wave, and low operating voltage. Low power consumption and semiconductor-compatible process technology have become the mainstream of flat panel displays and are gradually replacing CRT image tube displays, and combined with thin film transistors (TFTs) to open up the notebook market in a short time, and continue to face Great plasticization and large-scale development. Compared with the conventional cathode ray tube display, the liquid crystal display has the greatest advantages of being thin, lightweight, and low power consumption. At present, the liquid crystal display is developing towards large-scale, high-density, low-cost and colorization of 200921078, and Douyi's architecture is a combination of backlight (BlackUght) and colorized most FUTER), so color filter, The light film is natural and the film is not suitable for the component. The key components of the liquid crystal display are through the color filter 曰曰······································ (1) Three original light, then the three original ^^ way to produce red mixed to present a variety of colors, so that the liquid crystal display can show the strength of the weak 3 with the flat-panel display technology to introduce new ^ flat display standard, of course, also to synchronize 7 to An analysis of chroma, color temperature and brightness can be done. It is true that the detection system of J can be analyzed and managed, but the analysis process is too much to achieve the effect of quality, * causing damage to the product. The instant detection is based on the fact that the 'business in the same field' has developed the following patents listed below: through the transmission device and the computer to set the signal of the video recording, there is - plane Body light field luminance "= The computer's storage I includes a uniformity detection subroutine device, a device, a planar illuminator light field subprogram device, and a set of n-point numbers of the planar gamma illuminator light field. -Flat hair thin (four) quantity ^^ amount of difficulty 尺 权 副 副 副 副 装 装 微 微 微 = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = The flattened window is used to measure the measurement project and the result. The rise and the test are displayed on the display of the computer. 200921078 (2) The invention of the invention of the Republic of China, including: position positioning module, ^" planar illuminant visual inspection The module and the data judgment storage module are provided, and the brightness detection module, the fixed fixed lamp, and the movable backlight tube positioning module have a missing device and the backlight tube is moved by the position positioning module. ^Position to be detected. The power supply module is on the power supply and illuminates the lamp. At this time, the fascination: when the position is visually measured, 'provide the backlight tube to perform a statistical operation on these luminance signals, with a two-luminance signal, and the fruit does not meet the established彳#准佶# w于1一运As a result, when the value of the operation is leveled, 'the wheel is turned off - the warning signal, and the position of the luminance characteristic of the lcd dependence is transmitted through the display of the model of the Republic of China No. 558633, and the heart point is vertical and the distance is measured. The panel and the vertical and night 4 methods include the following steps: through parallel liquid crystal display to each of the standbys:: one side of the rotating axis rotates the liquid crystal display panel to each measurement detection module to align the brightness detection module with reuse, (4) The luminance value at the different angles to be detected, and the luminance uniform luminance value is calculated according to the angle of the liquid crystal display panel of the _9, although the patents have the liquid crystal display panel brightness detection power inspection surface detection liquid crystal display The measuring points of the panel are...and the shirts are displayed; in addition, the conventional structure only has the brightness detecting function 200921078, and has no detection function of color and color temperature, so the liquid crystal display panel is more likely to have poor color saturation and color. A partial situation arises. On the other hand, the inventors of the present invention have been continually striving to develop and improve the present invention by improving the conventional structure in view of the many disadvantages caused by the conventional structure. SUMMARY OF THE INVENTION The main object of the present invention is to provide a five-degree-of-freedom adjustment displacement function for detecting the position, range, and viewing angle of a planar illuminator, and to increase the measurement range of the planar gradation. Therefore, it has a detection system and method for planar illuminators characterized by the fact that Lin (4) and the analysis accuracy error value are small and (4) the analysis and display results of chromaticity, color temperature and brightness are obtained. In order to achieve the above effects, the technical means adopted by the detection system of the present invention,
應的該數據資料進行比對,而可^ 度色/皿及輝度的分析與結果顯示 而可作出待測該平面式發光體之色 一收光口 ’該量測位置移動機構設有 定的定位元件,該定位元件具有相對 X、Y及Z軸位移的功能,使該光纖之 待測該平面式發光體之預定位置上, 匕體所投射的亮度資訊,其 面為X-Y平面’而其法線方 辦又另端耦合,用以多重分析 色溫及輝度之量測值,且於該電腦 、色溫及輝度數據資料的資料庫, 所分析之該量測值與該資料庫中相 為達成上述功效, 本發明檢剛方法所採狀技術手段,其 200921078 ^將該光纖之二端蚊於該量測位置移動機構之—定位元 =上’_量測位置移動機構之該定位元件 :使::光口被定位而朝向一待測該平面式發光體之預定位 ,上’其中,制該平面式發光體之發光平面為W平面,而 ϋ光體轴’再以4收光口收集及由該光纖傳輸該平面 射的亮度資訊,再將該光譜分析儀與該光纖之另 ㈣ί多重分析該亮度資訊並產生色度、色溫及輝度之量 測值’並於該電腦裝置内建有—用以儲存色度、色溫及輝度數 據資料的資料庫,以該電腦裝置將該光譜分析儀所分析之該量 測值與該資料庫中減㈣數據#料進行關,再㈣電腦裝 置做出相該平面式發光體之色度、色溫及輝度的分析與結果 顯示者。 【實施方式】 壹·本發明之基本技術特徵 請參看第一圖所示,本發明主要係做為平面式發光體 色度、色溫及輝度的檢測系統,其包括有: 一光纖(ίο),其相對地面呈縱軸線延伸,該光纖(10)一端 具有一收光口(11); 一量測位置移動機構(20)(如第二至第四圖所示),其具有 一供該光纖(10)之另端固定的定位元件(21),該定位元件(21) 具有相對於一待測平面式發光體(3〇)之χ、γ及z軸位移的功 能’使該光纖(10)之該收光口(丨丨)得以被定位於待測該平面式 發光體(30)之預定位置上,用以收集及傳輸待測該平面式發光 體(30)所投射的亮度資訊,其中,待測該平面式發光體(3〇)之 200921078 發光平面為χ〜γ平面,而其法線方向為z輪丨 重純儀⑽,其與該光纖⑽之另端衫,用以多 重刀析/儿度貝汛而可產生色度、色溫及輝度之量測值;及夕 未内= 射處八广(中未不),该電腦装置(50)將該光譜分析 比#該量測值與該資料庫中相應的該數據資料進行 比對’而可作出待測該平面式發光體( 的分析與結果顯示。 μ “及輝度 &疮月圖所不’本發明主要係做為平面式發光體(30) 色度、色^及輝度的檢測方法,其包括有: ) 提七、量'則位置移動機構(20)、一光纖(10)、一光级八献 一弟一知,該光纖(10)之該第一端具有一收光口(11); 將忒光纖(1〇)之該第二端固定於該量測位置移動機構(2〇 之一定位元件(21)上; 以該量測位置移動機構(20)之該定位元件(21)驅動該光纖 (10)之該收光口(11)往一待測該平面式發光體(3〇)之發光平面 之X、Y及Z軸方向位移,使該收光口(11)被定位而朝向一待測 該平面式發光體(3〇)之預定位置上,其中,待測該平面式發光 體(30)之發光平面為χ-γ平面,而其法線方向為ζ轴; 再以該收光口(11)收集及由該光纖(10)傳輸該平面式發光 體(30)所投射的亮度資訊; 將該光譜分析儀(40)與該光纖(1〇)之另端耦合,以多重分 析該亮度資訊並產生色度、色溫及輝度之量測值; 200921078 並於該電腦裝置(50)内建有一用以儲存色度、色溫及輝户 數據資料的資料庫,以該電腦裝置(50)將該光譜分析儀(4〇)所 分析之該量測值與該資料庫中相應的該數據資料進行比對; 再以該電腦裝置(50)做出待測該平面式發光體(30)之色 度、色溫及輝度的分析與結果顯示。 貳·本發明技術特徵之具體實施 2·1量測位置移動機構的具體實施 請參看第一至四圖所示’本發明之量測位置移動機構主要 係驅動該光纖(1〇)至平面式發光體(3〇)之預定位置上,以進行 檢測作業,且該量測位置移動機構(2〇)與該電腦裝置(5〇)之一 I/O界面(圖中未示)電性連接,使該電腦裝置(5〇)得以控制該 1測位置移動機構(2〇)的位移,為達上述功效,本發明量測位 置移動機構(20)之定位元件(21)包含有: X轴驅動拉組(2 3 ),用以驅動該定位元件(21)帶著今光 纖(10)相對待測該平面式發光體(30)之該發光面往該χ軸方 位移; ° 一 Υ軸驅動模組(24),用以驅動該定位元件(21)帶著該光 纖(10)相對待測該平面式發光體(30)之該發光面往該γ軸方向 位移;及 一 Ζ軸驅動模組(25),用以驅動該定位元件(21)帶著該光 纖(10)相對待測該平面式發光體⑽之該發光面往該ζ轴^;向 位移。 5月參看第六圖所示,本發明量測位置移動機構之第一 種具體實_中,其更包括有—方㈣驅域組(26),用以驅 使該光纖⑽之該收光Ρ⑴)相對待職平面式發光體(3〇)之 11 200921078 該x軸旋轉’且該方位角驅動模組⑽包括有—供該平面 光體(30)設置的測試平台(22)。 請參看第七圖所示,本發明量測位置移動機構⑽之第二 種具體實施例中,其更包括有一高度角驅動模組⑼,用以驅 .使該光纖(10)之該收光口⑴)相對待測該平面式發光體(3〇)之 該Y軸旋轉,且該高度角驅動模組⑽包括有—供該平面式發 光體(30)設置的測試平台(22)。 2 · 2光纖的具體實施 請參看第五圖所示,為驅使該光纖⑽之該收光口(⑴相 對待測該平面式發光體(30)朝向該χ軸或γ轴旋轉,本發明光 纖(10)之一種具體實施例中,該光纖(1〇)設有一可撓部(12), 用以調整該收光口相對該平面式發光體(3〇)之高^角與方位 角。 、 請參看第人、九圖所示,為增加檢測範圍,本發明光纖⑽ 之另-種具體實施例中,鄰近該光纖〇〇)之該第一端之該收光 口(11)加設有-鏡片加裝模組⑽),該鏡片加裝模組⑽)供安 裝一鏡片(80)介於該光纖(10)之該收光口(11)與待測該平面式 發光體(30)之間,用以調整該收光口(11)對待測該平面式發= 體(30)之收集光線範圍,其中,該鏡片(8〇)係選自透鏡及^散 鏡片之其中一種。 ' 上述具體實施例中第一種可行實施例,該鏡片加裝模組(6〇) 包含有: '' 一固定座(61),供定位在該光纖(1〇)上;及 一鏡片定位座(62),其與該固定座(61)連接,其上設有一 定位部(620)以供裝置該鏡片(8〇)。 又 上述具體實施例中第二種可行實施例,該鏡片加裝模組(6〇) 12 200921078 包含有: 一固定座(61),供定位在該光纖(1〇)上; 一鏡片定位座(62),並樞設在該固定座(61)上,其上設有 複數個定位部(620),每一該定位部(620)供裝置一該鏡片(80)。 上述具體實施例中之可行實施例,係以選用該光纖(10)之 收光口(11)的口徑大小來控制該平面式發光體(3〇)的檢測範 圍。 2 · 3電源供應裝置的具體實施 請參看第一圖所示’為使平面式發光體(3〇)發出亮度資 訊’本發明更包含有一電源供應裝置(7〇),用以供應該平面式 發光體(30)所需之電源。 2 · 4平面式發光體的具體實施 凊參看第一至第四圖所示,本發明係以平面式發光體(3〇) 做為待測物件,該平面式發光體(3〇)係選自液晶顯示器及電漿 顯示器之其中一種。 2 · 5電腦裝置的具體實施 請參看第一圖所示,本發明之該電腦裝置(5〇)寫入一三色 光刺激值計算程式,並以該三色光刺激值計算程式算出該平面 式發光體(30)之彩色濾、光片在色域座標上的位置,以做為比對 色度之依據。 上述具體實施财之可行實施例,該量測位置移動機構(2〇) 驅動該光纖⑽係以分析點125_的範圍進行逐點分析,且該 電腦襄置⑽寫人有-平面發光體測試程式,該平面發光體測 試程式以亮度鮮差、最大值、最小值及平均值做為評估該平 面,發光體面板品質之差異性,且該平面發光體測試程式,其 在党度瑕虹可以根據亮度最大值與最小值做評估,並可檢測 13 200921078 出光亮度、暗點、色溫、色彩彩度之差里 請參看第十三圖所示,上 二。 該平面發光體測試程式可於電==彳中洲 顯示至少-操作界面,該操:=;_(50)之-顯示器⑸)中 度值、X起始值、γ起始值、χ辦量值不有色— 度值、色溫值、亮 Υ軸行程值' 開始測試鍵、中^ 增量值、Χ軸打程值、 式鍵。 γ斷彳τ止鍵、讀取光譜鍵及結束程 請參着篦本發明具體實施例的運作 ._ 不,百先將平面式發光體(30)固定於量 之平台(22)上,並與點燈設備(圖中未示) 以於人汉備(圖中未不)電性連接,調整電源供應裝置⑺: 之雨入ί、件’再將平面式發光體(3())之點燈狀態調整至規格值 並予以點亮’待平面式發光體⑽輝度呈現穩定狀態後便可將 心號輸人议備予以職’使平面式發光體⑽)齡適當之晝面 後便可開始量測’此外,平面式發光體(3())之顯示區域與量測 設備配置需依照待測特性之量測規範所設置。 *如表一所不’當持續加熱不可燃燒的黑體物質(例如像是鐵, 鎢等金屬)時,在某一段溫度範圍内,黑體會放射出帶有顏色的 黑體輪射(色光)出來’如果我們紀錄下色光顏色與溫度的關 係,會發現到當溫度加熱到某—程度以上時,黑體的顏色會有 紅色-橙色-黃色-白色-藍色的變化,利用此種黑體輻射色光變 化的特性,可以得到顏色表示的簡化方法,即如果某色光的顏 色座標與某一溫度下黑體輻射的顏色座標一致時,則該色光顏 色就可以使用黑體輻射所對應的溫度來表示,此時的溫度稱為 色溫(color temperature) ° 200921078 表一 "'Ρ〇κ'~ Τί)‘:Η)Ί「 ι·ϋ)〇κ 111·:胤 2Ή;Η'Κ 真疆威mw 發紅的鎳絲 廢黃商这火——...................................... 也大.............................—............................................... 石故:ιί的火坊,嫌‘…天 .乙m................................................. 2740K 1¾.丽 ~mIK 3200Κ 37001\.. "ΜΜΓ ΊΤοοκ 1丽『The data should be compared, and the analysis and results of the color/dish and brightness can be displayed to determine the color of the planar illuminator to be measured. The measuring position moving mechanism is fixed. a positioning component having a function of shifting relative to the X, Y, and Z axes, such that the brightness information projected by the body of the optical fiber at a predetermined position of the planar illuminator to be tested is XY plane The normal line is also coupled to the other end for multiple analysis of the color temperature and the brightness measurement, and in the database of the computer, color temperature and luminance data, the measured value is compared with the database. The above-mentioned effect, the technical method of the method for detecting the rigid body of the present invention, the 200921078^ the second-end mosquito of the optical fiber in the measuring position of the moving mechanism - the positioning element = the upper part of the measuring position moving mechanism: The optical port is positioned to face a predetermined position of the planar illuminator to be tested, where the illuminating plane of the planar illuminator is the W plane, and the illuminating body axis is collected by the 4 illuminating port. And transmitting the plane from the optical fiber The brightness information of the shot, and then the spectrum analyzer and the optical fiber are additionally analyzed for the brightness information and the measured values of the chromaticity, the color temperature and the luminance are generated and stored in the computer device to store the chromaticity, a database of color temperature and luminance data, wherein the measured value of the spectrum analyzer is compared with the subtraction (4) data# in the database, and (4) the computer device makes the planar illuminator The analysis and results of the chromaticity, color temperature and luminance are displayed. [Embodiment] The basic technical features of the present invention are shown in the first figure. The present invention is mainly used as a detection system for the chromaticity, color temperature and luminance of a planar illuminator, which comprises: an optical fiber (ίο), The optical fiber (10) has a light collecting port (11) at one end thereof; a measuring position moving mechanism (20) (as shown in the second to fourth figures) having a fiber for the optical fiber (10) (10) a fixed positioning element (21) at the other end, the positioning element (21) having a function of χ, γ and z-axis displacement with respect to a planar illuminator (3 待) to be measured 'to make the optical fiber (10) The light-receiving port (丨丨) is positioned at a predetermined position of the planar light-emitting body (30) to collect and transmit the brightness information projected by the planar light-emitting body (30) to be tested. Wherein, the 200921078 illumination plane of the planar illuminator (3〇) to be tested is a χ~γ plane, and the normal direction thereof is a z rim repurifier (10), and the other end of the optical fiber (10) is used for multiple Knife analysis / child 汛 汛 可 可 可 可 可 色 色 色 色 色 色 色 色 色 色 色 色 色 色 色 色 色 色 色 色 色八广(中中不不), the computer device (50) compares the spectral analysis ratio with the corresponding data in the database, and can make the planar illuminant to be tested Analysis and results show that μ "and luminance & sore map does not" the invention is mainly used as a planar illuminant (30) chromaticity, color ^ and luminance detection methods, including: 'The position moving mechanism (20), an optical fiber (10), a light level, and a younger brother know that the first end of the optical fiber (10) has a light collecting port (11); The second end is fixed to the measuring position moving mechanism (one of the positioning elements (21); the positioning element (21) of the measuring position moving mechanism (20) drives the optical fiber (10) The light-receiving port (11) is displaced in the X, Y, and Z-axis directions of the light-emitting plane of the planar light-emitting body (3〇) to be measured, so that the light-receiving port (11) is positioned to face the plane to be tested. At a predetermined position of the illuminator (3〇), wherein the plane of illumination of the planar illuminator (30) to be tested is a χ-γ plane, and its normal direction is ζ And collecting, by the optical port (11), the brightness information projected by the planar illuminator (30) by the optical fiber (10); and the other of the optical spectrum analyzer (40) and the optical fiber (1 〇) End-coupled to multi-analyze the brightness information and generate the measured values of chromaticity, color temperature and luminance; 200921078 and a database for storing chromaticity, color temperature and data of Huihu in the computer device (50), Comparing the measured value analyzed by the spectrum analyzer (4〇) with the corresponding data in the database by the computer device (50); and then performing the test with the computer device (50) Analysis and result display of chromaticity, color temperature and luminance of the planar illuminator (30).贰· The specific implementation of the technical features of the present invention 2. The specific implementation of the measuring position moving mechanism, please refer to the first to fourth figures. The measuring position moving mechanism of the present invention mainly drives the optical fiber (1〇) to the planar type. a predetermined position of the illuminant (3〇) for performing a detecting operation, and the measuring position moving mechanism (2〇) is electrically connected to an I/O interface (not shown) of the computer device (5〇) The positioning device (21) of the measuring position moving mechanism (20) of the present invention comprises: the X axis, so that the computer device (5〇) can control the displacement of the 1 measuring position moving mechanism (2〇). Driving the pull group (23) for driving the positioning component (21) to carry the current optical fiber (10) relative to the light emitting surface of the planar light emitter (30) to be measured to the axis of the axis; a driving module (24) for driving the positioning component (21) to move the optical fiber (10) relative to the light emitting surface of the planar light emitting body (30) to the γ axis direction; and a 驱动 axis driving a module (25) for driving the positioning component (21) with the optical fiber (10) relative to the plane to be tested ⑽ light emitting surface of the shaft to the ζ ^; displacement. Referring to FIG. 6 in May, the first specific embodiment of the measuring position moving mechanism of the present invention further includes a (four) drive domain group (26) for driving the light receiving raft of the optical fiber (10). Relative to the on-the-go planar illuminator (3〇) 11 200921078 The x-axis rotation 'and the azimuth drive module (10) includes a test platform (22) for the planar light body (30). Referring to the seventh embodiment, the second embodiment of the measuring position moving mechanism (10) further includes a height angle driving module (9) for driving the optical fiber (10) to receive light. The mouth (1) is rotated relative to the Y axis of the planar illuminator (3 〇) to be tested, and the height angle driving module (10) includes a test platform (22) for the planar illuminator (30). For the specific implementation of the 2 · 2 fiber, please refer to the fifth figure, in order to drive the light-receiving port of the optical fiber (10) ((1) is rotated relative to the planar illuminator (30) to be tested toward the y-axis or the γ-axis, the optical fiber of the invention In a specific embodiment, the optical fiber (1) is provided with a flexible portion (12) for adjusting a height angle and an azimuth angle of the light-receiving port relative to the planar light-emitting body (3〇). For the purpose of increasing the detection range, in another embodiment of the optical fiber (10) of the present invention, the light-receiving port (11) of the first end adjacent to the optical fiber 〇〇) is added. a lens mounting module (10) for mounting a lens (80) between the light receiving port (11) of the optical fiber (10) and the planar light body to be tested (30) Between the two, the lens (8 〇) is selected from one of a lens and a lens, for adjusting the light collection range of the flat light body (30). In the first possible embodiment of the above specific embodiment, the lens mounting module (6〇) comprises: '' a fixing seat (61) for positioning on the optical fiber (1〇); and a lens positioning The seat (62) is connected to the fixing base (61), and a positioning portion (620) is disposed thereon for the lens (8〇). In a second possible embodiment of the above specific embodiment, the lens mounting module (6〇) 12 200921078 comprises: a fixing base (61) for positioning on the optical fiber (1〇); a lens positioning seat (62), and is pivotally mounted on the fixing base (61), and a plurality of positioning portions (620) are disposed thereon, and each of the positioning portions (620) is provided for the lens (80). In a possible embodiment of the above specific embodiment, the detection range of the planar illuminator (3 〇) is controlled by the size of the aperture of the light-receiving port (11) of the optical fiber (10). 2 · 3 power supply device implementation, please refer to the first figure 'to make the planar illuminator (3 〇) to emit brightness information' The present invention further includes a power supply device (7 〇) for supplying the planar The power source required for the illuminator (30). 2 · 4 planar illuminant specific implementation 凊 Referring to the first to fourth figures, the present invention uses a planar illuminant (3 〇) as an object to be tested, the planar illuminator (3 〇) is selected One of the liquid crystal display and the plasma display. 2 · 5 computer device implementation, please refer to the first figure, the computer device (5〇) of the present invention writes a three-color light stimulation value calculation program, and calculates the planar illumination by the three-color light stimulation value calculation program The color filter of the body (30) and the position of the light sheet on the color gamut coordinates are used as the basis for comparing the chromaticity. In the above specific implementation example, the measuring position moving mechanism (2〇) drives the optical fiber (10) to perform point-by-point analysis with the analysis point 125_, and the computer device (10) writes a human-plane illuminant test. The program, the planar illuminant test program uses the brightness difference, the maximum value, the minimum value, and the average value as the evaluation of the plane, the difference in the quality of the illuminator panel, and the planar illuminant test program, which can be used at the party level According to the maximum and minimum brightness, the evaluation can be performed. 13 200921078 The difference between the brightness, dark point, color temperature and color chroma of the light is shown in the thirteenth figure. The planar illuminant test program can display at least the operation interface in the electric == 彳中洲, the operation: =; _ (50) - display (5)) medium value, X start value, γ start value, χ The value has no color - degree value, color temperature value, bright axis travel value 'start test key, medium ^ incremental value, 打 axis play value, type key. γ 彳 彳 止 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 And the lighting equipment (not shown) for the human body (not shown), the power supply device (7): the rain into the ί, the piece 'the planar illuminator (3 ()) The lighting status is adjusted to the specification value and is illuminated. After the brightness of the flat illuminator (10) is stable, the heart can be placed in the position to make the flat illuminator (10) age appropriate. Start measurement 'In addition, the display area of the planar illuminator (3()) and the measurement equipment configuration are set according to the measurement specifications of the characteristics to be tested. * As shown in Table 1, when the incombustible blackbody (such as iron, tungsten, etc.) is continuously heated, the black body emits a black-colored shot (color) out of color within a certain temperature range. If we record the relationship between the color of the shade and the temperature, we will find that when the temperature is heated to a certain level or above, the color of the black body will have a red-orange-yellow-white-blue change, which is changed by the black body radiation color. Characteristic, a simplified method of obtaining a color representation, that is, if the color coordinates of a certain color light coincide with the color coordinates of the black body radiation at a certain temperature, the color of the color light can be expressed by the temperature corresponding to the black body radiation, and the temperature at this time It is called color temperature ° 200921078 Table 1 "'Ρ〇κ'~ Τί)':Η)Ί" ι·ϋ)〇κ 111·:胤2Ή;Η'Κ Zhenjiangwei mw red nickel Silk waste yellow merchants this fire -..................................... Also big.. ...........................-...................... ......................... Stone: ιί's fire workshop, suspected '...day. B. m.......... . ...................................... 2740K 13⁄4.丽~mIK 3200Κ 37001\.. " ;ΜΜΓ ΊΤοοκ 1 Li
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刪OK 20000〜 ...逛⑽〇κ 嵚狐*乙煥1火焰 ^1050½ ΛλΓ~·*?Ϊ ~~ ’.… — 一… /f-'? r] =〔;出 黃'姜 7、VC€— ;4Ui白天來「彳太.¾的白色:丨先... 晴閉白天高绿上太哥+琢百~兵:-召·' ':[:- ..Λ—..·~™—V·!·# *# / 晴朗的藍天光 ..·....··............-.............................................…j 首先利用兩張透光片用來測試光亮度分析,將其中一、 光片塗上有兩種顏色’基於顏色影響透光性,因而 =透 同受度結果如第十—圖所示,再將另—張透以塗上有單= 色,其檢測出之亮度結果如第十圖所示,並由第十、十:員 則,出分析果’以曲面圖做統計整理出來,明: 度較低以淡紫色顯示出區塊,暗紅色則是 二色則疋it光片上無塗過痕跡透明區塊,在淡藍色部份出現 :小塊為—個亮度最高,原因在於此模擬 燈光之燈罩並非均勻射出燈光所照成區塊上的 的透看第十二圖所示’以^柱錯塊將寫上『虎尾』二字 上塗金,定’並放置於白光燈上,再用奇異筆在透光片 檢測。=:=光片所透出光的亮暗度,如此’即可 15 200921078 肆·本發明具體實施的成果 ㈣之最小量測區域可準確精細至125帅,已足以應付 1太為0·25_左右之平面式發光體(3〇)的檢測精度需 ^•之輝度及色溫檢測提出—種適合和有效率的方法檢 =基^平面式發光體⑽輝度的均句度為參考實驗數據之 2是顯示光亮度品質考量因素之―,在輝度瑕疵上 可根^度最大值與最小值做評估,對於隨的技_發出新 面板時,同樣要面對製造品質穩定度的分析,若-樣原料、技 術,甚至是相同時間與地點所做出來的數個 —— 〇 „上的差異,為了降低誤比率,== >JHL ^列為品官重要項目之 相對以上所提出本發明之檢測方式,可檢測出光亮度、暗 點、色溫、色彩彩度之差異,本發明除了可檢測品質,更可明 確知道各個廠牌技術製造之平面式發光體(30)差異性與特性, 在了解弱點之後不斷改進’在改善平面式發光體⑽)技術上是 一大突破。 所以,本發明主要提供一套自動化供量測彩色濾光片中 R、G、B像素各別的穿透率及在整個考色濾光片上分佈的均勻 度。將所測得的數據與資料庫中的數據作比對,一但有異常現 象便由電腦裝置(50)立即回饋生產中心,對產品的良率提高、 品質提昇及產能增加都有莫大的助益。由於平面式發光體(3〇) 尤其是液晶顯示器之飽和度取決於彩色濾光片的透射光譜,因 此,僅需掌握彩色濾光片穿透率光譜的穩定性,運用本發明已 建立的三色光刺激值計算程式,算出此彩色濾光片在色域座標 上的位置’即可確保平面式發光體(3〇)的色彩飽和鮮豔的品質。 伍.結論 16 200921078 因此,藉由上述技術特徵的設置,使得本發明確實具有如 下所列的特點: (1) 本發明之定位元件具有五個自由度,可供調整平面式發 光體之檢測位置、範圍及視角。 Λ (2) 本發明X軸驅動模組及γ軸驅動模組雙軸構成2d平面 驅動機制,以使光譜分析儀可為平面式發光體準確精細至 1. 25μηι的精度。 (3) 本發明之電腦裝置可以即時將所測得的數據與資料庫 中的數據作比對’作出色度、色溫、亮度的分析,對產品的良 率提高、品質提昇及產能增加。 (4) 本發明利用標準光源進行光譜與光強校正,因而使得待 測之平面式發光體可以獲得較為正確的色溫以及較佳之色彩飽 和度。 以上所述’僅為本發明之一可行實施例,並非用以限定本 ,明之專利範圍,凡舉依據下列申請專利範圍所述之内容'特 徵以及其精神而為之其他變化的等效實施,皆應包含於本發明 之專利範圍内。本發明之方法及其機構,除上述優點外,並深 具,業之利用性’可有效改善習用所產生之缺失,而且所具體 界疋於申請專利範圍之特徵,未見於同類物品’故而具實用性 與進步性’已符合發明專利要件,爰依法具文提出申請,謹請 鈞局依法核予專利,以維護本申請人合法之權益。 【圖式簡單說明】 第-圖係本發明基核構之示意圖。 圖係本發明X軸驅動模組之動作示意圖。 第二圖係本發明γ軸驅動模組之動作示意圖。 第四圖係本發明2細動模組之動作示意圖。 17 200921078 第五圖係本發明高度角與方位角調整之示意圖。 第六圖係本發明另一實施例之方位角調整示意圖。 第七圖係本發明另一實施例之高度角調整示意圖。 第八圖係本發明使用透鏡之實施示意圖。 第九圖係本發明使用擴散鏡片之實施示意圖。 第十圖係本發明亮度檢測結果之示意圖。 第十一圖係本發明另一亮度檢測結果之示意圖。 第十二圖係本發明又一亮度檢測結果之示意圖。 第十三圖係本發明操作界面之示意圖。 【主要體符號說明】 (10)光纖 (11)收光口 (12)可撓部 (13)透鏡 (14)擴散鏡片 (20)量測位置移動機構 (21)定位元件 (22)平台 (23)X軸驅動模組 (24)Y軸驅動模組(25)Ζ軸驅動模組(26)方位角驅動模組 (27)南度角驅動模組(3〇)平面式發光體(4〇)光譜分析儀 (50)電腦裝置 (51)顯示器 (60)鏡片加裝模組 (61)座體 (62)固定座 (620)定位部 (70)電源供應装置(80)鏡片 18Delete OK 20000~...Walk (10)〇κ 嵚狐*乙焕1火焰^10501⁄2 ΛλΓ~·*?Ϊ ~~ '.... — a... /f-'? r] =[;Yellow' ginger7, VC€— ;4Ui comes during the day. “彳太.3⁄4的白:丨先... Sunny closed daytime high green on the brother + 琢百~兵:-召·' ':[:- ..Λ—..· ~TM—V·!·# *# / Sunny blue sky light................................-............. ...................................j First use two light transmissive sheets to test the brightness analysis, First, the light film is coated with two colors 'based on the color to affect the light transmission, so = the same acceptance results as shown in the tenth - picture, and then another - through to apply a single = color, which detects The brightness results are shown in the tenth figure, and are calculated by the tenth and tenth members: the analysis results are summarized by the surface map. The lower degree is lavender showing the block, and the dark red is the second. The color is not coated with transparent traces on the light sheet, appearing in the light blue part: the small block is the highest brightness, because the lampshade of the simulated light is not evenly emitted by the light. Look at the picture shown in the twelfth ^Column block will be written on the word "Huwei", painted "and placed on the white light, and then detected in the transparent sheet with a strange pen. =: = light and darkness of the light, so 15 200921078 肆· The results of the implementation of the invention (4) The minimum measurement area can be accurately fined to 125 handsome, which is enough to cope with the detection accuracy of a planar illuminator (3 〇) with a temperature of about 0·25_ • The brightness and color temperature detection are proposed as a suitable and efficient method to detect = base ^ planar illuminant (10) the uniformity of the luminance of the reference is the reference experimental data 2 is the display of the brightness quality considerations - on the luminance 瑕疵The maximum and minimum values of the roots are evaluated. For the new technology, when the new panel is issued, the analysis of the manufacturing quality stability is also required. If the raw materials, technology, or even the same time and place are made, The difference between the two - 〇 „, in order to reduce the false ratio, == > JHL ^ is listed as the important item of the product. The detection method of the present invention can detect the brightness, dark point, color temperature, color saturation. Difference between the present invention and the detectable product Quality, and more clearly know the differences and characteristics of the planar illuminators (30) manufactured by each brand technology. It is a breakthrough in improving the planar illuminator (10) after understanding the weaknesses. Therefore, the present invention mainly provides a set of uniformity of the R, G, and B pixels in the automatic color measurement color filter and the uniformity of distribution over the entire color filter. Comparing the measured data with the data in the database, once the abnormal phenomenon occurs, the computer device (50) immediately returns to the production center, which greatly assists the product yield improvement, quality improvement and capacity increase. beneficial. Since the saturation of the planar illuminator (3 〇), especially the liquid crystal display, depends on the transmission spectrum of the color filter, it is only necessary to grasp the stability of the color filter transmittance spectrum, and the three established by the present invention are used. The color light stimulus value calculation program calculates the position of the color filter on the color gamut coordinates to ensure the color saturation of the planar light emitter (3〇).伍. Conclusion 16 200921078 Therefore, by the above technical features, the present invention does have the following features: (1) The positioning element of the present invention has five degrees of freedom for adjusting the detection position of the planar illuminator , scope and perspective. Λ (2) The X-axis driving module and the γ-axis driving module of the present invention form a 2d plane driving mechanism, so that the spectrum analyzer can accurately scale the planar illuminator to an accuracy of 1.25μηι. (3) The computer device of the present invention can instantly compare the measured data with the data in the database to make an analysis of chromaticity, color temperature, and brightness, and improve product yield, quality, and productivity. (4) The present invention utilizes a standard light source for spectral and light intensity correction, thereby allowing the planar illuminator to be measured to obtain a relatively correct color temperature and better color saturation. The above description is only one of the possible embodiments of the present invention, and is not intended to limit the scope of the invention, and the equivalents of the other features of the invention as described in the following claims. All should be included in the scope of the patent of the present invention. The method and the mechanism of the present invention, in addition to the above advantages, are well-established, and the utility of the industry can effectively improve the lack of use, and the specific boundary is not limited to the similar articles. "Practicality and Progressiveness" have met the requirements of the invention patent, and the application has been filed in accordance with the law. The SIPO is required to approve the patent in accordance with the law to protect the legitimate rights and interests of the applicant. BRIEF DESCRIPTION OF THE DRAWINGS The first figure is a schematic diagram of the basic structure of the present invention. The figure is a schematic view of the operation of the X-axis driving module of the present invention. The second figure is a schematic diagram of the operation of the γ-axis driving module of the present invention. The fourth figure is a schematic diagram of the action of the 2 fine motion module of the present invention. 17 200921078 The fifth figure is a schematic diagram of the elevation angle and azimuth adjustment of the present invention. The sixth figure is a schematic diagram of azimuth adjustment of another embodiment of the present invention. The seventh figure is a schematic diagram of height angle adjustment according to another embodiment of the present invention. The eighth figure is a schematic view showing the implementation of the lens of the present invention. The ninth drawing is a schematic view of the implementation of the present invention using a diffusing lens. The tenth figure is a schematic diagram of the brightness detection result of the present invention. The eleventh drawing is a schematic diagram of another brightness detection result of the present invention. The twelfth figure is a schematic diagram of still another brightness detection result of the present invention. Figure 13 is a schematic illustration of the operational interface of the present invention. [Main body symbol description] (10) Optical fiber (11) Light-receiving port (12) Flexible part (13) Lens (14) Diffusion lens (20) Measuring position moving mechanism (21) Positioning element (22) Platform (23 X-axis drive module (24) Y-axis drive module (25) Ζ-axis drive module (26) azimuth drive module (27) south angle drive module (3 〇) flat illuminator (4 〇 Spectral analyzer (50) computer device (51) display (60) lens mounting module (61) seat body (62) fixing seat (620) positioning portion (70) power supply device (80) lens 18