578438 C7 _D7___ 五、創作說明() 也因此更顯現出本發明之簡單槪念但卻具可g施性。 (請先閱讀背面之注意事項再填寫本頁) 除此之外,在相關的先前專利技術文獻方面,如中華 民國專利公報第4 4 9 9 3 6號「發光二極體及該製造方法」發 明專利案、及歐洲專利E P ] 0 6 1 5 9 0 A ]號 「U g h t E m ί t t i n g Diode and ] t s Manufacturing Method」案,貝l!皆揭不一 種在G a A s P晶體材料製成的錠H表面,形成有若干细粒之粗 面之技術與製造方法,亦說明了此槪念之可實行性。 習知的0LED製法中,常Μ玻璃或習知的高分子基材為 透光表層,經真空鍍膜或塗膜法於透光表層形成一透明導 電電極,作為發光元件的正極,使用的材料包括ΙΤ0 (indium tin οχ 丨 de)、氧化絪(indium oxide)、氧化 ΙΦΖηΟ 、氧化鍊 ΗίΟ、Sb203等相關的化合物,或是摻雜態的導電 高分子(如聚苯胺系、聚塞吩等共軛高分子及其相關的摻 雜態物種)等具有發射電洞功能的材料都可應用之,而這 正極材料視應用之需求將配合黃光微影技術進一步蝕刻出 各類的圖案。 經濟部智慧財產局員工消費合作社印製 繼之將有機發光層及各載子傳導層利用真空蒸鍍或溼 式塗膜法(如旋轉塗佈法、嗔墨法或各類的凹、凸板印刷 法)成膜於上述之含正極的透光表層上,最後再將具有發射 電子的功能的負極鍍膜於上,其材料可為Al、In、Mg、Ca 、Li或上列各金屬所形成的合金(alloy)。如上所述,為增 加顯示器的可靠度,在上述的負極上加鍍上一保護封裝層, 較常用的材料如 Ag、Au等鈍性金屬或其他金屬氧化物、 氮化物等,並结合封裝玻璃或金屬蓋板完成全部的製程。 上所揭橥之習知的0LED製程視需求而有所變化,如將 -4 一 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) 經濟部智慧財產局員工消費合作社印製 578438 C7 ___D7__ 五、創作說明() 負極電極的厚度減少至半透明態,或搭配透明的金屬氯化 物製作成透明的電極,如此的顯示器將變成雙面透光的元 件或稱為可穿透式有機發光顯示器(transparent OLE D、 簡稱 T 0 L E D );除此之外,或將製程順序反向製作,如在透 光表層先行製作負極Z 3 %再依續完成Z 2,、Z 1、Z 2及Z 3各 層的製作,最後同樣再结合封裝保護層完成顯示器的製作 。在此需要說明的本發明所提及的有機發光顯示器不論製 程/结構如何變化,都不脫Μ有機材料為發光體之範蟮,而 所謂有機發光層乃指該元件在外加電壓時,可由該層或該 層的兩面發出各種光色的光,其特色為材料具有發光特質 (Luminance),常使用的材料如具螢光或磷光特質的染料 、顔料(dye或pigment)或高分子,或者因需要加入其他 填充物質。 同時不論0LED的製程及结構如何變化,都可结合本發 明而形成一高效率之有機發光顯示器。 〈發明目的及概述〉 緣此,本發明之主要目的,即是在於提供一種有機發 光顯示器及其製造方法,方法精簡不必大幅改變元件之结 構,但可提昇顯示器的發光效率。 本發明再一目的即是在於提供一種有機發光顯示器及 其製造方法,使顯示元件不需提高工作電流即可獲得高發 光效率之顯示效果,達到省電及提高顯示器之使用壽命。 本發明之又一目的,即是在於提供一種有機發光顯示 一 5 一 本紙張尺度適用中國國家標準(CNS)A4規格(210 x 297公釐) (請先閱讀背面之注意事項再填寫本頁)578438 C7 _D7___ Fifth, the creation description () therefore also shows the simple idea of the present invention, but it can be applied. (Please read the notes on the back before filling this page) In addition, in terms of related prior patent technical documents, such as the Republic of China Patent Gazette No. 4 4 9 9 3 6 "Light Emitting Diodes and the Manufacturing Method" Invention patent case, and European patent EP] 0 6 1 5 9 0 A] case "U ght E m tting Diode and] ts Manufacturing Method" case, Bayer! Has not disclosed a kind of crystal material made in G a A s P crystal material The technology and manufacturing method of forming a coarse surface with several fine grains on the surface of the ingot H formed also illustrates the feasibility of this idea. In the conventional 0LED manufacturing method, the normal M glass or the conventional polymer substrate is a light-transmitting surface layer, and a transparent conductive electrode is formed on the light-transmitting surface layer by vacuum coating or coating method. As the positive electrode of the light-emitting element, the materials used include ΙΤ0 (indium tin οχ 丨 de), osmium oxide (indium oxide), oxidized IΦZηΟ, oxidized chain ΗίΟ, Sb203 and other related compounds, or doped conductive polymers (such as conjugated polyaniline, polythiophene, etc.) Materials such as polymers and related doped-state species) that have the function of emitting holes can be used, and this cathode material will be further etched with yellow light lithography technology to etch various patterns depending on the needs of the application. Printed by the Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs, followed by the organic light-emitting layer and each carrier conductive layer by vacuum evaporation or wet coating method (such as spin coating method, black ink method or various types of concave and convex plates (Printing method) is formed on the above-mentioned light-transmitting surface layer containing the positive electrode, and finally the negative electrode having the function of emitting electrons is plated on it, and the material can be formed of Al, In, Mg, Ca, Li or the above listed metals Alloy. As mentioned above, in order to increase the reliability of the display, a protective packaging layer is plated on the above-mentioned negative electrode. More commonly used materials such as passive metals such as Ag, Au or other metal oxides, nitrides, etc. are combined with the packaging glass. Or metal cover to complete the entire process. The conventional 0LED process disclosed above varies according to demand. For example, a paper size of -4 applies the Chinese National Standard (CNS) A4 specification (210 X 297 mm). Printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs. System 578438 C7 ___D7__ V. Creation instructions () The thickness of the negative electrode is reduced to a translucent state, or made of transparent metal chloride to make a transparent electrode. Such a display will become a double-sided light-transmitting element or called transmissive Organic light-emitting display (transparent OLE D, T 0 LED for short); in addition, the process order can be reversed, such as making the negative electrode Z 3% on the light-transmitting surface layer and then completing Z 2, 1, Z 1, The production of Z 2 and Z 3 layers, and finally combined with the protective packaging layer to complete the production of the display. The organic light-emitting display mentioned in the present invention, which needs to be explained here, does not remove organic materials from the range of light-emitting body regardless of the process / structure change. The so-called organic light-emitting layer means that when the element is applied with voltage, The layer or both sides of the layer emits various light-colored lights, which are characterized by materials with luminance. Materials that are commonly used, such as dyes, pigments or polymers with fluorescent or phosphorescent characteristics, or Need to add other fillers. At the same time, no matter how the process and structure of the OLED changes, it can be combined with the present invention to form a high-efficiency organic light-emitting display. <Objective and Summary of the Invention> Therefore, the main object of the present invention is to provide an organic light-emitting display and a method for manufacturing the same. The method can be simplified, and the structure of the device does not need to be greatly changed, but the light-emitting efficiency of the display can be improved. Another object of the present invention is to provide an organic light emitting display and a manufacturing method thereof, so that the display element can obtain a high light emitting efficiency display effect without increasing the working current, thereby achieving power saving and improving the service life of the display. Another object of the present invention is to provide an organic light-emitting display. The paper size is applicable to China National Standard (CNS) A4 (210 x 297 mm) (Please read the precautions on the back before filling this page)
經濟部智慧財產局員工消費合作社印製 578438 C7 _D7__ 五、創作說明() 器及其製造方法,可增加顯示元件發光時的出光角度,使 顯示元件内部的光線有效逃脫進入空氣,進而大幅提昇顯 示元件的發光效率。 本發明之又一目的,即是在於提供一種有機發光顯示 器及其製造方法,可増加顯示元件的發光時的出光面積, 使顯示元件内部的光線更有機會逃脫進入空氣,同樣的達 到提昇顯示元件的發光效率。 為達上述之目的,本發明之有機發光顯示器及其製造 方法,包含有一出光基層及透光表層,透光表層结合於出 光基層之頂、底至少一面上,且在於出光基層或透光表層 之任一者表面,利用蝕刻方式在其表面形成有若干不特定 形狀之微小透鏡單元或連縯微小齒狀圖案,使出光基層在 發光或透過透光表層出光時,得以藉由透鏡單元或連續齒 狀圖案擴散出光,減少全反射機會或增加出光面積,進而 提昇元件的發光效率;本發明之另一特點為所製作透鏡單 元或齒狀圖案為微米或次微米尺寸,遠小於一般顯示器之 像素 (pixel),故完全無對位上的問題,大幅簡化製程; 除此之外,在此透鏡單元或連續齒狀圖案表面上亦可鍍上 一抗反射層 (anti-reflective layer),亦可有效提高元 件顯示之對比程度。 W下,為使 貴審査委員得K明瞭本發明的技術手段 及技術内容,茲列舉若干實施例,並配合參照各附圖,詳 细說明本發明之實施例如下,其中: (一) 圖式簡單說明: 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) (請先閱讀背面之注意事項再填寫本頁) * H *ϋ I— ft I— It I— y 口_ I n· n _1 I— n n- 經濟部智慧財產局員工消費合作社印製 578438 A7 ___B7___ 五、發明說明() _ 圖一係本發明之第一實施例的發光顯示器剖視圖; 圖二為一俯視圖,顯示第一實施例中之透光表層的各透 鏡單元排列狀態; 圖三a為圖一之第一實施例中透光表層的透鏡單元剖視 放大圖; 画三b為一剖視放大圖,顯示透光表層的透鏡簞元之第 二實施例; 圖三c為一剖視放大圖,顯示透光表層的透鏡單元之第 三實施例; 圖三d為一剖視放大圖,顯示透明表層的透鏡單元之第 四實施例; 圖四為本發明第一實施例之製造流程圖; 圖五為本發明的顯示器之第二實施例圖; 圖六為本發明的顯示器之第三實施例圖; 圖七為本發明的顯示器之第四實施例圖; 圖八為本發明的顯示器之第五實施例圖; 圖九a為圖八之第五實施例中透光表層的透鏡單元剖視 放大圖; 圖九b為一剖視放大圖,顯示第五實施例中透光表層的 透鏡單元之第二實施例; 圖九c為一剖視放大圖,顯示第五實施例中透光表層的 透鏡單元之第三實施例; 圖九d為一剖視放大圖,顯示第五實施例中透光表層的 透鏡單元之第四實施例; 圖十為本發明顯示器的第六實施例圖; 一 7 — 本紙張尺度適用中國國家標準(CNSM4規格(210 x 297公f ) (請先閒讀背面之注意事項再填寫本頁) · n n n n ϋ n n 一 口,i n ϋ ϋ n n n . 578438 A 7 _Β7 ___ 五、發明說明() 圖十一為本發明顯示器的第七實施例圖; 圖十二為本發明顯示器的第八實施例圖; 圖十三為本發明顯示器的第九實施例 圖十四為一局部放大圖,顯示圖十三中之出光光線在連 讀齒狀圖荼中的折射情形; 圖十五為圖十三所示第九實施例之製造方法流程圖; 圖十六為習知有機發光元件之基本構造示意圖; 圖十七為圖十六的分解结構圖; 圖十八為習知OLED顯示器發光圖; 圖十九為理想狀態的顯示器光線發射示意圖; (請先閱讀背面之注意事項再填寫本頁) -裝 (二 圖號說明: 〈本發明部份〉 10 0 顯 示 器 10 透 光 表 層 11 透 鏡 單 元 1 1 * 透 鏡 單 元 12 抗 反 射 層 13 细 齒 圖 案表面 1 3 1 细 齒 ---1T---------. 經濟部智慧財產局員工消費合作社印製 〈習知部份〉 XI 有 機 發 光 層 X2 出 光 基 層 X 3 封 裝 保 護 層 Y 發 光 點 Z 1 有 機 發 光 層 Z2 電 洞 傳 遞層 一 8 - 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) 578438 Λ7 _ B7 ___五、發明說明() Z2’ 電子傳遞層 Z3 正極 Z3’ 負極 αΐ 光線折射路徑 2 α 徑 路 射 折 線 光 第 的 明 發 本 為 示 所 a三 圖 > 及 明 二 說圖 细、 詳一 例 圖 施閱 實參 之請 明 發 < 層 表 光 透1 含 包 ο ο 1 器 示 顯 構 结 之 ο ο U 器 示 顯 的 例 施 實及 限景玻 不背明 並件透 式元為 方知10 光習層 發的表 或中光 構九透 结十, 成圖中 組 ~ 其 之六。 2 十述 層圖赘 基在行 光已再 出也不 該構, , 结明 20的說 層细 Μ 基詳加 光,份 出制部 CSJ 鏡所 層透二 基干圖 光若如 出有< 的形面 述成表 上,的 於式 1 合方層 结刻表 , 蝕光 成 Μ 透 組面此 料表在 材10列 光層排 透表佈 的光分 效透勻 等於均 他在 , 其而11 或,元 璃上單 圖 在 狀 球 圓 卜半 示圼 mam 二 三 圖 圖 、 如 1 線 元光 單高 鏡提 透來 該, ,鏡 中透 例獨 施單 實一 一 為 第成 的而 示丨 顯 示 光配 向搭 方於 個在 各10 之層 射表 發光 所透 時此 光而 發, 在制 20限 層之 基度 光角 出界 使臨 ’ 光 果出 效有 脫會 逃不 的線 時單 20鏡 層透 基個 光各 出在 的, 類外 1J 種肚 何 ; 任果 都 (請先閱讀背面之注意事項再填寫本頁)Printed by the Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs 578438 C7 _D7__ V. Creation instructions and manufacturing methods can increase the angle of light when the display element emits light, so that the light inside the display element can effectively escape into the air, thereby greatly improving the display Element luminous efficiency. Another object of the present invention is to provide an organic light emitting display and a method for manufacturing the same, which can increase the light emitting area of the display element when it emits light, so that the light inside the display element has a better chance to escape into the air, and can also improve the display element. Luminous efficiency. In order to achieve the above-mentioned object, the organic light-emitting display of the present invention and a manufacturing method thereof include a light-emitting base layer and a light-transmitting surface layer, and the light-transmitting surface layer is combined with at least one of the top and bottom surfaces of the light-emitting base layer and lies on the light-emitting base layer or the light-transmitting surface layer. On any surface, a number of micro-lens units of unspecified shapes or continuous micro-dental patterns are formed on the surface by etching, so that when the light-emitting base layer emits light or emits light through the light-transmitting surface layer, the lens unit or continuous teeth can be used. The light-like pattern diffuses light, reducing the chance of total reflection or increasing the light-emitting area, thereby improving the luminous efficiency of the device. Another feature of the present invention is that the lens unit or tooth-like pattern produced is micron or submicron size, which is much smaller than the pixels of a general display ( pixel), so there is no alignment problem, which greatly simplifies the manufacturing process. In addition, an anti-reflective layer can be plated on the surface of the lens unit or continuous tooth pattern, which is also effective. Increase the contrast of component displays. In order to make your reviewing committee aware of the technical means and technical content of the present invention, several examples are listed below, and the accompanying drawings will be used to describe the embodiments of the present invention in detail, of which: (1) Schematic Brief explanation: This paper size is applicable to Chinese National Standard (CNS) A4 (210 X 297 mm) (Please read the precautions on the back before filling this page) * H * ϋ I— ft I— It I— y 口 _ I n · n _1 I— n n- Printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs 578438 A7 ___B7___ V. Description of the invention () _ Figure 1 is a sectional view of a light emitting display according to the first embodiment of the present invention; Figure 2 is a top view , Showing the arrangement of the lens units of the light-transmitting surface layer in the first embodiment; FIG. 3 a is an enlarged sectional view of the lens unit of the light-transmitting surface layer in the first embodiment of FIG. 1; and drawing 3 b is an enlarged sectional view. A second embodiment showing a lens unit of a light-transmitting surface layer; FIG. 3 c is an enlarged sectional view showing a third embodiment of a lens unit of the light-transmitting surface layer; FIG. 3 d is an enlarged sectional view showing a transparency Surface lens unit fourth Fig. 4 is a manufacturing flowchart of the first embodiment of the present invention; Fig. 5 is a diagram of the second embodiment of the display of the present invention; Fig. 6 is a diagram of the third embodiment of the display of the present invention; FIG. 8 is a diagram of a fifth embodiment of the display of the present invention; FIG. 9a is an enlarged sectional view of a lens unit of a light-transmitting surface layer in the fifth embodiment of FIG. 8; FIG. 9b is An enlarged sectional view showing a second embodiment of the lens unit of the light-transmitting surface layer in the fifth embodiment; FIG. 9c is an enlarged sectional view showing a third embodiment of the lens unit of the light-transmitting surface layer in the fifth embodiment Fig. 9d is a sectional enlarged view showing a fourth embodiment of the lens unit of the light-transmitting surface layer in the fifth embodiment; Fig. 10 is a diagram of a sixth embodiment of the display of the present invention; China National Standard (CNSM4 specification (210 x 297 male f) (please read the precautions on the back before filling this page) · nnnn ϋ nn, in ϋ ϋ nnn. 578438 A 7 _Β7 ___ 5. Description of the invention () Figure Eleven is the seventh of the display of the present invention Fig. 12 is a diagram of an eighth embodiment of the display of the present invention; Fig. 13 is a ninth embodiment of the display of the present invention; Fig. 14 is a partially enlarged view showing that the light rays in Fig. 13 are continuously read Refraction in the dentate diagram; Figure 15 is a flowchart of the manufacturing method of the ninth embodiment shown in Figure 13; Figure 16 is a schematic diagram of the basic structure of a conventional organic light emitting device; Figure 17 is a schematic diagram of Figure 16 Exploded structure diagram; Figure 18 is a conventional OLED display light-emitting diagram; Figure 19 is an ideal display of the light emission of the display; (Please read the precautions on the back before filling out this page) Invention part> 10 0 Display 10 Light-transmitting surface layer 11 Lens unit 1 1 * Lens unit 12 Anti-reflection layer 13 Fine tooth pattern surface 1 3 1 Fine tooth --- 1T ---------. Wisdom of the Ministry of Economic Affairs Printed by the Employees' Cooperative of the Property Bureau <Learning Section> XI Organic light-emitting layer X2 Light-emitting base layer X 3 Encapsulation protective layer Y Light-emitting point Z 1 Organic light-emitting layer Z2 Hole-transmitting layer 8-Applicable to this paper standard National Standard (CNS) A4 specification (210 X 297 mm) 578438 Λ7 _ B7 ___ V. Description of the invention () Z2 'Electron transfer layer Z3 Positive Z3' Negative αΐ Ray refraction path 2 α Path of light The book is shown in the three pictures of the display, and the second picture is detailed, and an example of the picture is shown. Please read the actual reference. <Layer table light transparent 1 contains package ο ο 1 device display structure ο ο U device The example of the display and the limitation of the scene are not clear. The transparent element is a table of 10 light layers or a medium light structure. 2 The layer structure of the ten-layer diagram is no longer in the line of light, and the structure of the layer 20 is detailed and detailed, and the layer of the second-layer diagram of the CSJ mirror of the production department is as follows. The shape of the surface is described on the table, and the composite layer engraved table in Formula 1 is etched into M through the surface. This material table has 10 columns of light layers, and the light distribution of the table cloth is equal to the other. 11 or, the single picture on Yuanli is shown in the shape of a circle, and the second and third pictures are as shown in the figure. For example, the line 1 of the Yuanguang single-height mirror is taken through. The result shows that the light alignment partner emits this light when it shines through the 10-layer shooting table, and the 20-layer limit of the base angle of the light angle is out of bounds, so that the light effect will escape. When the line is not in line, the single 20-mirror layer is transparent, and the light is in the outside, and the type is 1J. He Rendu (please read the precautions on the back before filling this page)
I · n d ( n n n n )al,I I n ϋ n I if ft I 元 效層 進射 改反 的抗 好層 良 一 到上 得鍍 可再 的, 樣面 同表 經濟部智慧財產局員工消費合作社印製 比 對 的 件 元 高 提 步1 進 更 可 層 表 、 光 1透 三該 圖 , 合中 配例 再施 請實 1 第 S a Γ t η ο 三 圖 所 dI · nd (nnnn) al, II n ϋ n I if ft I The comparison of the element is higher, and the step 1 is more advanced, and the light 1 passes through the figure, and the matching example is applied again. 1 S a Γ t η ο The three diagrams d
單 鏡 三透 圖的 及10 C 明 發 本 示 顯 是 示 幾 外 另 的 狀 形 11 11 元 三施 圖實 如其 , 為 例狀 施形 實塊 的角 同三 不體 個立 起凸 凸為 M11 是 1 1元 1 i 1 ΑΠΓ 元鏡 單透 鏡的 透 的 示 所 中 C 三 圖 元 單 鏡 透 的 中 d 三 圖 及 K * 一 例 9 施 I 實 的 狀 形 塊 形 梯 體 立 之 起 本紙張尺度適用中國國家標準(CNS)A4規格(2]〇χ297公釐) 578438 Λ7 ___ B7_ 五、發明說明( ) 11,為^立、半橢匮f塊形狀的實施例,而無論是何種的凸起的 立體塊狀之透鏡單元11,’均可提高顯示器100發光效率之 效果。 請再參閱圖四所示,是圖一〜圖三所示第一實施例的 製造流程圖,其步驟包含: (200)透光表層蝕刻處理-搭配使用光阻材料及習知 的黃光技術(photolithograph)在玻璃面形成所需的蝕刻 光罩(或蝕刻圖案),(2 1 〇 )配合具蝕刻能力的乾式蝕刻機 對透明玻璃表層10進行蝕刻;在透明玻璃表層10表面上做 出有助出光的微小透鏡單元11或11、其單顆透鏡單元11或 n,的半徑小於lOvro,間距亦小於ΙΟαΒ,均勻的散佈在 整個透光表層 10上。 (220)透鏡單元表面鍍上抗反射層。 (230)習知0LED製程一即為圖十六〜圖十七所示 之習知出光基層20的各層堆叠姐合,以及透光表層與出 光基層20間之組合製程。Μ上步驟200〜步驟230之製程是 適用在各種出光基層20搭配第一實施例中之透光基層 而得以製出具有提昇發光效率之顯示器100產品。 請再配合圖五所示,為本發明顯示器100的第二實施 例,其中,與第一實施例不同之處,是該出光基層20f為可 雙面透光之型態,即向頂、底部發出光源之種類。因此’ 在出光基層20的頂、底面均结合有一透光表層1〇,在透光 表層ίο表面也均形成有若干個透鏡單元11·每個透鏡單元 11表面則鍍有抗反射層12,可讓出光基部20進行雙面透光 時,具有與第一實施例相同的減少出光光線全反射問題及 一 1 0 一 本紙張尺度適用中國國家標準(CNS)A4規格(2]〇x 297公釐) (請先閱讀背面之注意事項再填寫本頁) --------^ . I I----- 經濟部智慧財產局員工消費合作社印製 經濟部智慧財產局員工消費合作社印製 578438 Λ7 __B7 ___ 五、發明說明() 提昇發光效率的功效。上述第二實施例所示之顯示器100 的製造方法是可Μ比照圖四所示之製造方法來簧施。 請再參閱圖六及圖t所示,為本發明顯示器100的第三 實施例及第四實施例,對照上面第一實施例及第二實施例 兩者,其間的差異之處是在於透鏡單元11之表面不作抗反 射層12之蒸鍍,如圖六為出光基層20僅作單面發光之型態 ;而圖七為出光基層20作雙面發光之型態,此顯示器100 可Μ應用在不需提高對比效果的顯示場合中。 請再配合圖八所示,為本發明顯示器100之第五實施 例,其中,與上述第一實施例〜第四實施例差異之處,是 在於該透光表層10表面上之各個透鏡單元11,是Κ除了原 透明表層Μ外的第二種透光材料所構成,如透明的樹脂、 高分子材料、無機氧化物(SiOx)或氮化物(Si3Nx),也就是 在透光表層10表面上,預先结合Μ該第二種透光材料,再 Μ如同圖四中所示的製程中之步驟2 0 0〜2 2 0的步驟,使透 光表層10表面均勻分佈有若干透鏡單元11,同樣可Μ達到 諶出光基層20所發出的光線擴散與消除全反射現象,提昇 其發光效率。此實例可針對上述四個實施例做進一步的改 進,針對需求選擇第二種透光材料*其折射率介於空氣與 原透光表層的材料,如此其發光效率將可得到進一步的提 昇。 請再參閲圖九a、圖九b、圖九c及圖九d所示,是顯示 圖八所示的第五實施例中,該透光表層10的透鏡單元11形 狀的不同實施例,如圖九a所示,是與第一實施例中所示者 相同,為立體半圓球狀;圖九b中所示的透鏡單元11’是Μ -1 1 一 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) (請先閱讀背面之注意事項再填寫本頁) -H I— 一 0、a n n n I -1 ϋ n · 578438 經濟部智慧財產局員工消費合作社印製 A7 B7_ 五、發明說明() 凸起立體三角塊形狀為其實施例;圖九c中的透鏡單元11’ 為凸起之立體梯形塊形狀的實施例,Μ及;圖九d中的透鏡 單元11*為立體半橢圓塊形狀的簧施例,無論是Μ上何種 的凸起立體塊狀之透鏡單元11或11^,均可達到與圖八中所 示之第五實施例相近的發光效率。 請再配合圖十所示,為本發明顯示器100的第六簧施例 ,其中,與圖八所示之第五實施例的差異,是在於該出光 基層20是雙面發光型態,也就是在發光基材20頂、底兩面 發光的透光表層10之表面上,结合有若干個Μ第二種透光 材料構成的透鏡單元11,相同地,亦可減少光基曆20所發 出的光線臨界角度限制並提昇發光效率。 請再配合圖十一及圖十二所示,為本發明顯示器100的 第七實施例與第八實施例,其中,皆是顯示在可雙面透光 的出光基層20,结合以不同實施例型態的透光表層10及透 鏡單元11,如以圖十一所示之第七實施例,則是在出光基 層20頂面结合Μ如第一實施例所示的透光表層10,該每個 透鏡單元11表面均鍍有一層抗反射層12,而出光基層20底 面則结合第五實施例所示的透光表層10及透鏡單元11,該 每一個透鏡單元11均是除了透明玻璃外的第二種透光材料 所構成;同樣地,在圖十二所示的第八實施例中,該出光 基層20的頂面則结合第三實施例所示的透光表層10及透鏡 單元11,該每一個透鏡單元11表面無抗反射層12,而出光 基層20之底部則结合W第五實施例之透光表層10與透鏡單 元11,即每一透鏡單元11為第二種透光材料所構成。 由以上圖十一及圖十二所示本發明顯示器100之第七 -1 2 - 本紙張尺度適用中國國家標準(CNS)A4規格(2】〇χ 297公t ) (請先閱讀背面之注意事項再填寫本頁)The single-mirror three-through picture and the 10 C Mingfa display show a few other shapes. 11 11 Yuan Sanshi is as it is, as an example, the corners of the solid shape are the same as those of the three bodies. M11 is a 1 1 yuan 1 i 1 ΑΠΓ lens with a single lens through the display C three elements with a single lens through the middle d three pictures and K * Example 9 Example I Real shape block ladder stand up The paper size applies the Chinese National Standard (CNS) A4 specification (2) 0 × 297 mm. 578438 Λ7 ___ B7_ V. Description of the invention () 11 is an example of a standing, semi-ellipsoidal f-block shape, no matter what it is The convex three-dimensional block-shaped lens unit 11 ′ can improve the light-emitting efficiency of the display 100. Please refer to FIG. 4 again, which is a manufacturing flowchart of the first embodiment shown in FIG. 1 to FIG. 3, the steps include: (200) transparent surface etching treatment-using a photoresist material and a conventional yellow light technology (Photolithograph) forming the required etching mask (or etching pattern) on the glass surface, (2 10) cooperating with the dry etching machine with etching ability to etch the transparent glass surface layer 10; the surface of the transparent glass surface layer 10 is made with The tiny lens units 11 or 11 and the single lens units 11 or n that help to emit light have a radius smaller than 10 vro and a pitch smaller than 10αB, and are evenly distributed on the entire light-transmitting surface layer 10. (220) The surface of the lens unit is plated with an anti-reflection layer. (230) The first known LED process is the stacking process of the layers of the conventional light-emitting base layer 20 shown in FIGS. 16 to 17 and the combined process between the light-transmitting surface layer and the light-emitting base layer 20. The process from step 200 to step 230 above is applicable to various light-emitting base layers 20 combined with the light-transmitting base layer in the first embodiment to produce a display 100 product with improved luminous efficiency. Please cooperate with FIG. 5 to show a second embodiment of the display 100 according to the present invention. The difference from the first embodiment is that the light-emitting base layer 20f is a type that can transmit light on both sides, that is, to the top and bottom. Type of light source. Therefore, a light-transmitting surface layer 10 is combined on the top and bottom surfaces of the light-emitting base layer 20, and a plurality of lens units 11 are also formed on the surface of the light-transmitting surface layer. Each surface of the lens unit 11 is plated with an anti-reflection layer 12. When the light-emitting base 20 is allowed to transmit light on both sides, it has the same problem of reducing the total reflection of the light-emitting light as in the first embodiment, and the paper size applies to the Chinese National Standard (CNS) A4 specification (2) 0x297 mm. ) (Please read the notes on the back before filling out this page) -------- ^. I I ----- Printed by the Consumers ’Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs # 578438 Λ7 __B7 ___ 5. Description of the invention () The effect of improving luminous efficiency. The manufacturing method of the display 100 shown in the second embodiment described above can be applied in comparison with the manufacturing method shown in FIG. Please refer to FIG. 6 and FIG. T again, the third embodiment and the fourth embodiment of the display 100 according to the present invention. Compared with the first embodiment and the second embodiment above, the difference lies in the lens unit. The surface of 11 is not used for the evaporation of the anti-reflection layer 12. As shown in Figure 6, the light-emitting base layer 20 only emits light on one side; and Figure 7 shows the light-emitting base layer 20 as light emitting on both sides. This display 100 can be used in It is not necessary to increase the contrast effect in the display occasion. Please refer to FIG. 8 as a fifth embodiment of the display 100 according to the present invention. The difference from the first to fourth embodiments is that each lens unit 11 on the surface of the transparent surface layer 10 is different. It is composed of a second light-transmitting material in addition to the original transparent surface layer M, such as transparent resin, polymer material, inorganic oxide (SiOx) or nitride (Si3Nx), that is, on the surface of the light-transmitting surface layer 10 In combination with the second light-transmitting material in advance, and then performing the same steps as steps 200 to 220 in the manufacturing process shown in FIG. 4, a plurality of lens units 11 are evenly distributed on the surface of the light-transmitting surface layer 10. It can achieve the diffusion of the light emitted from the light emitting base layer 20 and the elimination of the total reflection phenomenon, thereby improving its luminous efficiency. This example can be further improved for the above-mentioned four embodiments, and a second light-transmitting material * is selected according to requirements. The material whose refractive index is between air and the original light-transmitting surface layer, so that its luminous efficiency can be further improved. Please refer to FIG. 9 a, FIG. 9 b, FIG. 9 c, and FIG. 9 d again, which show different embodiments of the shape of the lens unit 11 of the transparent surface layer 10 in the fifth embodiment shown in FIG. As shown in Fig. 9a, it is the same as that shown in the first embodiment, and it is a three-dimensional semi-spherical shape. The lens unit 11 'shown in Fig. 9b is M-1. A paper size is applicable to Chinese national standards ( CNS) A4 specification (210 X 297 mm) (Please read the precautions on the back before filling out this page) -HI— 一 0, annn I -1 ϋ n · 578438 Printed by A7 B7_ V. Description of the invention () The shape of the convex three-dimensional triangular block is an example thereof; the lens unit 11 ′ in FIG. 9c is an example of the shape of a convex three-dimensional trapezoidal block, M and; the lens unit 11 in FIG. The spring embodiment in the shape of a three-dimensional semi-ellipsoidal block, no matter what kind of convex three-dimensional block-shaped lens unit 11 or 11 ^ on M, can achieve a luminous efficiency similar to that of the fifth embodiment shown in FIG. Please cooperate with FIG. 10 as a sixth spring embodiment of the display 100 according to the present invention. The difference from the fifth embodiment shown in FIG. 8 is that the light-emitting base layer 20 is a double-sided light-emitting type, that is, On the surface of the light-transmitting surface layer 10 that emits light on the top and bottom sides of the light-emitting substrate 20, a plurality of lens units 11 made of the second light-transmitting material are combined. Similarly, the light emitted by the light-based calendar 20 can also be reduced. The critical angle limits and improves luminous efficiency. Please refer to FIG. 11 and FIG. 12 for the seventh embodiment and the eighth embodiment of the display 100 according to the present invention. All of them are displayed on the light-emitting base layer 20 that can transmit light on both sides. Different embodiments are combined. According to the seventh embodiment shown in FIG. 11, the light-transmitting surface layer 10 and the lens unit 11 of the type are combined with the light-transmitting surface layer 10 as shown in the first embodiment on the top surface of the light-emitting base layer 20. The surface of each lens unit 11 is plated with an anti-reflection layer 12, and the bottom surface of the light-emitting base layer 20 is combined with the light-transmitting surface layer 10 and the lens unit 11 shown in the fifth embodiment. Each lens unit 11 is made of transparent glass. It is made of a second light-transmitting material. Similarly, in the eighth embodiment shown in FIG. 12, the top surface of the light-emitting base layer 20 is combined with the light-transmitting surface layer 10 and the lens unit 11 shown in the third embodiment. The surface of each lens unit 11 has no anti-reflection layer 12, and the bottom of the light-emitting base layer 20 is combined with the light-transmitting surface layer 10 and the lens unit 11 of the fifth embodiment, that is, each lens unit 11 is made of a second light-transmitting material. Make up. As shown in Figures 11 and 12 above, the seventh display of the display 100 of the present invention 1-2-This paper size is applicable to the Chinese National Standard (CNS) A4 specification (2) 〇χ 297 公 t) (Please read the note on the back first (Fill in this page again)
-· n n ϋ n n n d 一_口、( n I n n It n 1 I 經濟部智慧財產局員工消費合作社印制衣 578438 Λ7 _B7___ 五、發明說明() 及第八實施例中,充份顯示本發明可依顯示器100應用及發 光埸合之不同,而分別組成適合應用的顯示器型態,可使 顯示器100在發光顯示過程中,具有良好的提昇發光效率效 果與應用範疇。 請再配合圖十三及圖十四所示,為本發明顯示器〗00 的第九實施例,其中,與Μ上第一實施例〜第八實施例不 同之處,是在於透光表層10表面形成有密集之齒狀圖案13 *其中的每一個细齒13'的形狀可為任何的形狀,位置可為 有規則或不均勻分佈,细齒大小不拘但均為1.0/iinM下, 每個细齒的深度亦在1/iinK内,如此將形成可增加出光面 積的粗化表面(roughing surface),如在圖十四示,可明 顯看到由出光基層20向上發射的光線(如圖十四中之各箭 頭所示),提高了折射的路徑機會同時亦增加其出光面積, 相同地,也可達到提昇顯示器100發光效率之功效。 請再參閱圖十五所示,為圖十三及圖十四所示本發明 之第九實施例的顯示器100之製造流程圖,其步驟包含有: (300)透光表層塗佈PS樹脂彈性球一對透光表層10, 利用旋轉佈塗佈的方式塗上聚苯乙稀(PS,polystyrene)樹 脂的彈性球(直徑 0.1、0·2、0.3、0.5、1·〇αι»,Alfa 藥 品),之後在120TC烤乾5分鐘,形成待蝕刻光罩。 (310)表面蝕刻處理一將透光表層10,利用 乾式蝕刻機或蝕刻溶液(如強鹼性溶液)對玻璃進行蝕刻, 形成連縝齒狀圖案之粗化表面13,细齒13’的深度約0.1// m〜1.0/uin ,而這可由蝕刻進行的時間長短得到。 (320)習知傳統0LED製程一即將步驟310所得之透明玻 -1 3 - 本紙張尺度適用中國國家標準(CNS)A4規格(210x297公釐) (請先閱讀背面之注意事項再填寫本頁)-· Nn ϋ nnnd 一 _ 口 , (n I nn It n 1 I Printed clothing of the employee's consumer cooperative of the Intellectual Property Bureau of the Ministry of Economy 578438 Λ7 _B7___ 5. In the description of the invention () and the eighth embodiment, it is fully shown that the present invention can Depending on the application of the display 100 and the combination of light emission, the display types that are suitable for the application can be formed, so that the display 100 can have a good effect of improving light emission efficiency and application scope during the light emitting display process. Please cooperate with FIG. 13 and FIG. Fourteenth is a ninth embodiment of the display device 00 according to the present invention. The difference from the first to eighth embodiments on M is that a dense tooth pattern 13 is formed on the surface of the light-transmitting surface layer 10. * The shape of each of the fine teeth 13 'can be any shape, the location can be regular or unevenly distributed, the size of the fine teeth is not limited but all are 1.0 / iinM, and the depth of each fine tooth is also 1 / iinK In this way, a roughening surface that can increase the light output area will be formed. As shown in FIG. 14, the light emitted upward by the light emitting base layer 20 can be clearly seen (as shown by the arrows in FIG. 14). improve At the same time, the path of refraction also increases its light emitting area. Similarly, the effect of improving the luminous efficiency of the display 100 can also be achieved. Please refer to FIG. 15 again for the ninth implementation of the present invention shown in FIGS. 13 and 14 The manufacturing flow chart of the example display 100 includes the following steps: (300) A light-transmitting surface layer is coated with a pair of light-transmitting surface layers 10 of a PS resin elastic ball, and is coated with polystyrene (PS, polystyrene) by a rotating cloth coating method. ) Resin elastic ball (diameter 0.1, 0.2, 0.3, 0.5, 1.0a, and Alfa Pharmaceuticals), and then baked at 120TC for 5 minutes to form a photomask to be etched. (310) The surface etching treatment will pass through For the light surface layer 10, the glass is etched by a dry etching machine or an etching solution (such as a strong alkaline solution) to form a roughened surface 13 of a flail tooth pattern. The depth of the fine teeth 13 'is about 0.1 // m to 1.0 / uin. This can be obtained by the length of time that the etching is performed. (320) Knowing the transparent glass obtained in step 310 of the traditional 0LED process-3-This paper size applies the Chinese National Standard (CNS) A4 specification (210x297 mm) (Please Read the notes on the back before filling Page)
經濟部智慧財產局員工消費合作社印製 578438 Λ7 B7 ___ 五、發明說明() 璃表層10,進行相同於圖四所示的步驟220的傳統OLED製 程。 步驟3 0 0所述之製造次微米蝕刻光罩為一簡單實施例* 實施者亦可利用習知的次微米黃光技術配合光阻製造出次 微米的待蝕刻光罩,再進一步對透光表層進行蝕刻,完成 本發明之製作。 以上圖十三〜圖十五所示之第九實施例的顯示器100结 構與其製造方法,是可K比照使用在可雙面發光的出光基 層20頂、底面來使用。 在K上本發明之第一個實施例〜第九實施例中說明了 在透光表層10元件中使用了微米鈒或次微米鈒的透光單元 11或連續齒狀之圖案13來增加出光效率,如前所述造成出 光角度不佳的原因乃因全反射角的存在,而在物理學上可 知圓形是完全不會有出光角度的限制,也就是說其出光臨 界角可達90度,比較現存的習知技藝中,如TFT-LCD顯示器 有時會Μ —大透鏡來增加元件的開口率,但大透鏡(直徑 在數百y m)對具微小像素Pixel的0LED顯示器並無太大的 作用,且可能會導致發光的不均句,因此在0LED顯示器上 需有如同本發明的结構及精细的作法,才可Μ得到均勻且 有效的出光設計。 圖一〜圖十五所示本發明之顯示器100结構,當透光表 層10的透鏡單元11或連續齒狀之圖案13其圖案尺寸、寬度 愈小•愈有利提昇亮度,如在第九實施例中利用次微米 (0.1/iin)的聚乙稀為光罩,在經過乾式蝕刻後將次微米圖 案轉至玻璃上,成功的增加出光面積,達到提高發光效率 一 1 4 一 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) (請先閱讀背面之注意事項再填寫本頁)Printed by the Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs 578438 Λ7 B7 ___ V. Description of the invention () The glass surface layer 10 is subjected to the same traditional OLED process as step 220 shown in FIG. The fabrication of the sub-micron etching mask described in step 300 is a simple example. The implementer can also use the conventional sub-micron yellow light technology with a photoresist to manufacture a sub-micron etching mask, and further transmit light. The surface layer is etched to complete the production of the present invention. The structure of the display 100 and the manufacturing method of the ninth embodiment shown in the above FIG. 13 to FIG. 15 can be used by comparing the top and bottom surfaces of the light emitting base layer 20 that can emit light on both sides. In the first to ninth embodiments of the present invention on K, it is described that a light transmission unit 11 or a continuous toothed pattern 13 of micron or submicron 鈒 is used in the transparent surface layer 10 element to increase the light output efficiency. As mentioned above, the reason for the poor light output angle is due to the existence of total reflection angle, and physics knows that the circle has no limit on the light output angle, that is, its critical light angle can reach 90 degrees, Compared with the existing conventional technologies, for example, TFT-LCD displays sometimes have M-large lenses to increase the aperture ratio of the components, but large lenses (diameters in the hundreds of ym) are not too large for 0LED displays with tiny pixels. Function, and may cause uneven sentence of light emission, so the structure and fine method of the present invention on the OLED display are required to obtain a uniform and effective light output design. The structure of the display 100 of the present invention shown in FIGS. 1 to 15 is as follows: When the lens unit 11 or the continuous tooth-like pattern 13 of the light-transmitting surface layer 10 has a smaller pattern size and width, the more advantageous it is to increase the brightness, as in the ninth embodiment. The submicron (0.1 / iin) polyethylene is used as a photomask. After the dry etching, the submicron pattern is transferred to the glass, which successfully increases the light output area and improves the luminous efficiency. 1 1 4 This paper is suitable for China National Standard (CNS) A4 Specification (210 X 297 mm) (Please read the precautions on the back before filling this page)
I I I 578438 Λ7 _ B7_ 五、發明說明() 的目標。 K上圖一〜圖十五所示本發明有機發光顯示器及其製 技拘 其而 述因 閜不 於並 便’ 為隅 , 1 式之 圖例 及施 明實 說佳 'II較 相之 的為 示所 揭段 所手 中術 其技 mV , 與 法容 方内 造術 部圍 细範 的其 構而 结 , 、_ 程範 製之 的明 明發。 發本之 本脫定 對不界 針當來 是,圍 凡換範 舉置利 , 效專 且等請 並的申 。件之 _ 元下 範或M 其飾由 限修將 5 (請先閱讀背面之注意事項再填寫本頁) I · n n n n n n n 一-口、I n ϋ ϋ ϋ ϋ ϋ . 經濟部智慧財產局員工消費合作社印製 本紙張尺度適用中國國家標準(CNS)A4規格(210x297公釐) 578438 C5 D5 四' 中又創作摘要(創作 < 名鲁機發光顯示器及其製造方法 一種效率有機發光顯示器及其製作方法,包含有一出 光基層及透光表層,出光基層為有機發光顯示器结構,透 光表層為透明玻璃或第二種透光材料,透光表曆结合於出 光基層頂、底面中的至少一面,利用餘刻方式在出光基曆 或透光表層之至少一者表面,蝕刻形成若干個不特定形狀 的透鏡單元或連續齒狀圖樣,並在該透鏡犟元或連績齒狀 圖樣表面鍵上一層抗反射層,譲出光基層在發光時或透過 透光表層出光時,藉由改良的透光表層增加出光的臨界角 度及面積,進而提昇顯示器的發光效率。 英文創作摘要(創作之名稱: 1 本紙張尺度適用中國國家標準(CNS)A4規格(210X297公釐) 578438 A8 B8 C8 D8 、申請專利範圍 1. 一種有機發光顯示器,包括: 至少一透光表層,Μ蝕刻方式在表面蝕刻成形有若干不 底 、 頂 於 材 基 之 光 發 ; 面 及一 W少 , 至 元底 單 、 鏡頂 透為 之 , 起層 凸基 狀光 肜出 定 一 特 鏡 透 各 的 面 。 表光 之出 層散 表擴 明作 透線 由光 藉之 而出 , 發 層所 表使 光, 透用 合作 结鏡 面透 一 的 少元 至 單 中狀 其形 , 维 器角 示 、 顯形 光梯 發、 機形 有球 的 圓 逑半 所體 項立 1 為 第元 圍單 範鏡 利透 專之 請層 申表 如光 2 透 示 顯 光 發 機 有 的 逑 所 項 2 第 或 。項 , 1 合第 πQSS3I 0 S 之範 狀利 形專 各請 逑申 上如 及 3 反 抗 層1 有 鍍 面 表 元 單 鏡 透 個1 每 之 層 表 光 透 中 其。 ’ 層 器 射 示外 顯璃 光玻 發明 機透 有了 的除 述為 所元 項單 2鏡 第|§ 透 或 3 個 項1 一 第每 圍之 範層 利表 專光 請透 申 , 如中 4 其 器 成 組 料 材 光 透 種 二 第 之 料 5 材 子 分 高 : 的 含 知。包 習等驟 般物步 一 化其 為氮, 可或法 類物方 種化造 料氧製 材的的 其性器 , 特示 光顯 透光 具發 或機 脂有 樹種 (請先閱讀背面之注意事項再填寫本頁) 衣 *1Τ 經濟部智慧財產局員工消費合作社印製 阻圖 a)光用 {類刻 各蝕 層 表 光 透 一 供 提 若透 b 成個 ί形整 刻在 之 需 所 造 製 術 技 影 微 光 黃 用 利 案 ; 圖案 形 方 形 圓 如 等 等 形 角 三 進 為 步 理 處 刻 蝕 行 進 層 表 光 透 對 蝕 上 面 表 層 表 光 透 在 元 單 鏡 透 的 起 凸 體 立 ; 狀上 形層 定表 特材 不基 干明 佈 散 的 勻 均I I I 578438 Λ7 _ B7_ V. The purpose of the invention description (). The above-mentioned organic light-emitting display of the present invention and its manufacturing techniques shown in Figures 1 to 15 above are described as inconvenient and inconvenient. The technique mV of the technique revealed in the uncovered paragraph is in accordance with the structure of the faculty of the surgery department in Fa Rongfang, and the clear development of Cheng Fanzhi. The deduction of the origin of the book should be true for the unbounded needle, and the application of changes in the interests of the others, the effect of special and waiting for the merger. _ Yuan Xiafan or M The decoration is limited to repair 5 (Please read the precautions on the back before filling out this page) I · nnnnnnn One-mouth, I n ϋ ϋ ϋ ϋ ϋ ϋ Employees ’Intellectual Property Bureau Consumption The paper size printed by the cooperative is applicable to the Chinese National Standard (CNS) A4 specification (210x297 mm) 578438 C5 D5 IV's Creative Abstract (Creation & Ming Luji light-emitting display and manufacturing method thereof. An efficient organic light-emitting display and its production The method includes a light-emitting base layer and a light-transmitting surface layer. The light-emitting base layer is an organic light-emitting display structure. The light-transmitting surface layer is transparent glass or a second light-transmitting material. The light-transmitting calendar is combined with at least one of the top and bottom surfaces of the light-emitting base layer. On the surface of at least one of the light-emitting calendar or the light-transmitting surface, a plurality of lens units or continuous toothed patterns with an unspecified shape are etched to form a surface, and a layer of anti-corrosion is formed on the surface of the lens element or continuous toothed pattern. Reflective layer, radiated light When the base layer emits light or emits light through the light-transmitting surface layer, the critical angle and area of light are increased by the improved light-transmitting surface layer, thereby improving the display efficiency. The luminous efficiency of the device. English abstract (the name of the creation: 1 this paper size applies to the Chinese National Standard (CNS) A4 specification (210X297 mm) 578438 A8 B8 C8 D8, patent application scope 1. An organic light emitting display, including: at least A light-transmissive surface layer, the M-etching method is etched on the surface to form a number of non-bottomed, top-based light hair; the surface and a small W, to the bottom of the lens, the top of the lens is transparent, and the layer-like convex base light radiates out A special lens is used to penetrate each surface. The surface layer of the light spreads out as a line of light borrowed from the light, and the layer of light expresses the light. The surface of the light is transmitted through the cooperative lens to a single element. Shape, dimensional angle display, visible light staircase, machine-shaped ball-shaped half of the scorpion body set 1 is the Yuanwei single-fan mirror Litou special application, such as light 2 transparent display light machine has The item 2 of the item 2 or the item 1 of the π QSS3I 0 S, please refer to the above table and 3. Resistive layer 1 There are plated surface elements, a single lens through 1 and the light through each layer Its. 'Layer shooter The clear description of the invention of the transparent glass invented by the glass is as follows: Yuan Yuan single mirror 2 | § through 3 The material is light and transparent, the second material is 5 and the material is high: the content of the knowledge. You can learn the steps to turn it into nitrogen, and you can use the French method to plant the material of oxygen. The light is light-transmitting or has a tree species (please read the precautions on the back before filling out this page). Clothes * 1Τ Printed resistance map by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs a) Light use {Etch each etching layer The surface light is transparent, one is provided, and the other is b. The shape is engraved, and the light technology is used. The light is yellow, and the pattern is a square, such as a circle, and the angle is three. The surface of the top layer is transparent, and the surface light is transmitted through the convex body of the single lens. The top layer is fixed and the surface is not dry.
上 元 單 鏡 透 的 成 形 已 述 上 於 膜 鍍 層 射 反 抗 行 進 C /IV 6 本纸張尺度適用中國國家標準(CNS ) A4規格(210X297公釐)The formation of the single-lens through lens on the upper element has been described above. The film is coated to resist the advancing movement. C / IV 6 This paper size is applicable to China National Standard (CNS) A4 (210X297 mm).