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TW594158B - Structure of liquid crystal display and manufacture method thereof - Google Patents

Structure of liquid crystal display and manufacture method thereof Download PDF

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Publication number
TW594158B
TW594158B TW92100203A TW92100203A TW594158B TW 594158 B TW594158 B TW 594158B TW 92100203 A TW92100203 A TW 92100203A TW 92100203 A TW92100203 A TW 92100203A TW 594158 B TW594158 B TW 594158B
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Taiwan
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liquid crystal
substrate
crystal display
patent application
scope
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TW92100203A
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Chinese (zh)
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TW200412450A (en
Inventor
Yu-Chi Lee
Po-Hsiu Shih
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Chunghwa Picture Tubes Ltd
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Publication of TW200412450A publication Critical patent/TW200412450A/en

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Abstract

A structure of liquid crystal display and manufacture method thereof are described. The liquid crystal display is manufactured by a one-drop fill process. The display comprises a first substrate, a second substrate, a conductive pattern layer, a black matrix layer, a liquid crystal layer and an ultraviolet type of seal glue. The metal pattern layer is made of indium tin oxide and formed on the first substrate. Therefore, the metal pattern layer is a transparent layer allowed the ultraviolet light passing through. The ultraviolet type of seal glue is pro-cured by the ultraviolet light from the first substrate direction to the seal glue, and then cured by a heating process. Hence, the liquid crystal pollution problem is reduced.

Description

594158 _案號 92 五、發明說明(1) 發明所屬之技術領域 年月曰 修正594158 _ Case number 92 V. Description of the invention (1) Technical field to which the invention belongs

特別 結構 本發明係有關於一種液晶顯示器的結構與製造方法, 是有關於一種具有改善液晶污染情形的液晶顯示器 與製造方法。 "勺 先前技術 攝錄放影機、葦記型電 隨著光學科技與半導體技術的進步,液晶顯示裝置 (Liquid Crystal Display; LCD)已廣泛的應用於電 品顯示裝置上。液晶顯示器因具有高晝質、體積小、子產 輕、低電壓驅動、低消耗功率及應用範圍廣等優點,重量 用於可攜式電視、行動電話、媒綠说勒槐、技一 故應 腦 示器 桌上型顯示器、以及投影電視等消費性電子或電腦產。 已取代陰極射線管(Cathode Ray Tube; CRT)成為_ 的主流。 一般液晶顯示器之主體為液晶單元,主要是由兩片透明美 板以及被封於基板之間的液晶所構成。目前液晶顯示器是 以薄膜電晶體(T h i n F i 1 m T r a n s i s t 〇 r ; T F T )液晶顯示器 為主,而一般薄膜電晶體液晶顯示器之製作可大致區分為 薄膜電晶體陣列(TFT Array)製程、彩色濾光板製程、液 晶顯示單元組裝(L C C e 1 1 A s s e m b 1 y )製程、液晶顯示模組 (Liquid Crystal Module; LCM)製程。Special structure The present invention relates to a structure and a manufacturing method of a liquid crystal display, and relates to a liquid crystal display and a manufacturing method having an improved liquid crystal pollution situation. " Scoop prior art video camcorders, reed-type electricity With the advancement of optical technology and semiconductor technology, liquid crystal display devices (Liquid Crystal Display; LCD) have been widely used in electronic display devices. Because of its advantages such as high daylight quality, small size, light production, low voltage drive, low power consumption, and wide application range, the liquid crystal display is used in portable TVs, mobile phones, media green speakers, and technical applications Brain display desktop displays, and consumer electronics or computer products such as projection televisions. Cathode Ray Tube (CRT) has been replaced by mainstream. The main body of a general liquid crystal display is a liquid crystal cell, which is mainly composed of two transparent plates and a liquid crystal sealed between the substrates. At present, liquid crystal displays are mainly thin film transistor (Thin F 1 m Transistor; TFT) liquid crystal displays, and the production of general thin film transistor liquid crystal displays can be roughly divided into thin film transistor array (TFT Array) manufacturing processes, Color filter manufacturing process, liquid crystal display unit assembly (LCC e 1 1 A ssemb 1 y) manufacturing process, liquid crystal display module (Liquid Crystal Module; LCM) manufacturing process.

594158 __ 案號92100203_壬_月 日 修正 玉、發明說明(2) 在製作薄膜電晶體液晶顯示器時,薄膜電晶體陣列製程係 用以製作薄膜電晶體基板,其上薄膜電晶體陣列與顯示電 極陣列,彼此為一對一之關係。而彩色濾光板製程是用以 製作彩色濾光板’其上有由不同顏色的彩色濾光片陣列所 組成之彩色濾光層(color Filter)與包圍彩色濾光片四周 之遮光層(Black Matrix)。 接下來液晶顯示單元的組裝製程,則是將薄膜電晶體基板 與彩色遽光板加以平行組裝,由二者間之間隙構成液晶 槽。再於液晶槽中注入液晶材料,並將液晶槽之注入口密 封,以完成液晶顯示單元之製作。 而液晶顯不模組則是將偏光板(p〇lar izer )貼附於液晶顯 不面板(Panel)上,並將驅動晶片(Driver 1C)與液晶顯示 面板的電路連接。然後再與反射板(Ref lector)或背光源 (Back Light)組合,經先期測試(Burn—ιη)後完成模組之 製作。 基本上’上述之每個顯示電極和每個彩色濾光層係為-- 對應之關係’而遮光層則覆蓋在薄膜電晶體以及連結不同 薄膜電晶體之金屬線上方。 薄膜電晶體液晶顯示器,利用個別之薄膜電晶體對相對應 594158 _m 9^〇2〇3_ 年月日 修正 五、發明說明(3) ~~ ~ -- 之顯不電極加電壓,以決定液晶分子的晶軸方向,使得局 部之液晶呈現透光或不透光的情況。而其所顯示出來之顏 色,係利用衫色濾光片的顏色來決定透光光線的色彩,例 如當光線經過紅色的彩色濾光片時,則顯示出紅色。而複 雜的顏色則疋經過二原色光(紅藍綠)的混光作用,呈現出 全彩的影像。 傳統液晶注入製程非常繁瑣,因此藉由液晶滴下(〇ne Drop Fi11; ODF)製程,可有效的簡化生產流程。使用qdf 製程一般採用紫外線硬化型框膠,來確保製程良率。 ,在實際生產時,卻常常發現,使用0DF製程所生產的液 晶顯不面板的液晶遭受框膠污染,因而降低生產的良率及 造成生產的瓶頸。 因此’如何有效改善此種液晶污染的問題,不僅可提高生 產良率’並可提高產量,因而增加獲利,為液晶顯示器生 產薇商所殷殷企盼 : 發明内容 寥於上述之發明背景中,使用0DF製程所生產的液晶顯示 面板的液晶遭受污染,因而降低生產的良率及造成生產的 瓶頸。594158 __ Case No. 92100203_ 仁 _Modified jade and description of the invention (2) When making a thin film transistor liquid crystal display, the thin film transistor array process is used to make a thin film transistor substrate, on which the thin film transistor array and display electrodes Arrays are in a one-to-one relationship with each other. The color filter process is used to make a color filter. It has a color filter layer composed of color filter arrays of different colors and a black matrix (Black Matrix) surrounding the color filter. . In the subsequent assembly process of the liquid crystal display unit, a thin film transistor substrate and a color phosphor plate are assembled in parallel, and a liquid crystal cell is formed by a gap between the two. Then, a liquid crystal material is injected into the liquid crystal cell, and the injection port of the liquid crystal cell is sealed to complete the production of the liquid crystal display unit. The LCD display module attaches a polarizer (pollarizer) to the LCD panel and connects the driver chip (Driver 1C) with the circuit of the LCD panel. Then it is combined with a reflector or a back light, and the module is manufactured after a preliminary test (Burn_ιη). Basically 'each display electrode and each color filter layer mentioned above is in a corresponding relationship', and the light-shielding layer covers the thin film transistor and the metal lines connecting different thin film transistors. Thin-film transistor liquid crystal display, using individual thin-film transistor pairs corresponding to 594158 _m 9 ^ 〇2〇3_ year, month, day, amendment five, description of the invention (3) ~~ ~-the display electrode voltage is applied to determine the liquid crystal molecules The direction of the crystal axis makes the local liquid crystal appear transparent or opaque. The color displayed by the color filter is used to determine the color of the transmitted light. For example, when the light passes through the red color filter, it displays red. The complex colors are mixed by the two primary colors (red, blue, and green) to produce a full-color image. The traditional liquid crystal injection process is very cumbersome, so the liquid crystal dropping (One Drop Fi11; ODF) process can effectively simplify the production process. The use of qdf process generally uses UV-curable frame adhesives to ensure process yield. However, in actual production, it is often found that the liquid crystal display panel produced by the 0DF process is contaminated with frame glue, which reduces the production yield and causes a bottleneck in production. Therefore, 'how to effectively improve the problem of liquid crystal pollution can not only improve the yield rate of production', but also increase the yield and thus increase the profit. It is hoped by the liquid crystal display manufacturer Wei: The content of the invention is less than the above background of the invention. The liquid crystal of the liquid crystal display panel produced by the 0DF process is contaminated, thereby reducing the production yield and causing a bottleneck in production.

594158 -^〜^ 案號92100203 年月 l 五Λ發明說明(4) 本發明的目的之一,係利用改善紫外線硬 政果,使改善液晶污染的情況。 本發明的又一目的,改善液晶污染的情況 良率及產量。 __ 化型框膠的硬化 ’以提高生產的 ,發明的在一目的,係利用氧化銦錫(Indium Tin IT0)之透明線路,以改善紫外線硬化型框膠的硬 1匕欢果,改善液晶污染的情況。 根據以 顯示器 /夜晶顯 提供一第一基板 上所述之 製造方法 示器 此 之氧化 供一第 光的現 基板之 或第二 基板黏 燈,由 紫外線 膠完全 板,而 銦錫線路 二基板, 象。利用 上,再利 基板之中 者在一起 第一基板 硬化型框 硬化。其 第二基板 ’係使用液 液晶顯示器 ’具有液晶 ,因此具有 具有遮蔽層 紫外線硬化 用液晶滴下 間。使用真 ’並將中間 方向’照射 膠預硬化, 中上述之第 係為顏色濾 明係一種 晶滴製造顯示 使紫 ,用 型框製程 空組 氣體 紫外 下製 方法 器之 外線 來防 膠塗 ,將 立製 排出 線硬 接著再使 一基板係 光層玻璃 液晶滴下製程之液晶 程以生產薄膜電晶體 包含下列步驟。首先 周圍驅動線路所形成 光穿透的能力。再提 止顯示器周圍發生漏 佈於第一基板或第二 液晶塗佈於第一基板 程,第一基板與第二 。最後使用紫外線 化型框膠約3 0秒,使 用熱硬化製程,使框 為薄膜電晶體玻璃基 基板。594158-^ ~ ^ Case No. 92100203 l Five Λ Description of the Invention (4) One of the purposes of the present invention is to improve the hardening effect of ultraviolet rays to improve the liquid crystal pollution. Another object of the present invention is to improve the yield and yield of liquid crystal pollution. __ The hardening of the plastic frame adhesive is used to improve the production. One purpose of the invention is to use the transparent circuit of indium tin oxide (Indium Tin IT0) to improve the hardness of the UV-curable frame adhesive and improve the liquid crystal pollution. Case. According to the manufacturing method described on the first substrate provided by the display / night crystal display, the present substrate or the second substrate is oxidized to provide a first light or the second substrate is adhered to the lamp, and is completely plated by ultraviolet glue, and the second substrate of indium tin circuit , Like. Use it, and then use one of the substrates together. The first substrate hardening frame is hardened. The second substrate ′ is a liquid crystal display using liquid crystal display ”and has a liquid crystal, and therefore has a UV-curable liquid crystal dripping area with a shielding layer. Use true and pre-harden the glue in the middle direction. The first series mentioned above is the color filter series, which is a kind of crystal droplets to make purple. Use the frame frame process to empty the outside of the device to prevent glue coating. The process of hardening the vertical discharge line and then making a substrate-based optical layer glass liquid crystal dropping process to produce a thin film transistor includes the following steps. First, the ability of the surrounding drive lines to transmit light. Furthermore, leakage around the display is prevented from being spread on the first substrate or the second liquid crystal is applied on the first substrate, the first substrate and the second substrate. Finally, a UV-curable frame adhesive was used for about 30 seconds, and the frame was a thin film transistor-based glass substrate using a thermal curing process.

第10頁 外丄 五、發明說明^——^正 雜結構, 此液晶 基板、遮 案層,形 形成,由 的能力。 周圍發生 成。紫外 電圖案層 線硬化型 外線硬化 使用熱硬 第一基板 渡光層玻 圍_動電 使^二ΐ可說是,一種液晶滴下製程之液晶顯示 顯干^ Γ滴下製程以生產薄膜電晶體液晶顯示器 =含1 -基板、導電圖案層、第二 成於第j曰曰層與紫外線硬化型框膠。其中導電圖 t作々π μ基板之上,係為液晶顯示器之周圍線略 錫材料所構成,0此具有使紫外線光穿透 層’位於第二基板之上,用來防止顯示器 ;爲光的現象。液晶層則係使用液晶滴下製程來形 線硬化型框膠,黏著第一基板與第二基板,使導 與遮蔽層中間形成一儲存液晶層之空間。而紫外 框膠,利用紫外線燈,由第一基板方向,照射紫 型框膠約3 0秒,使紫外線硬化型框膠預硬化,並 化製程約6 0分鐘,使框膠完全硬化。其中上述之 係為薄膜電晶體玻璃基板,巾第二基板係為顏色 璃基板。而^述之周圍線路係為液晶顯示器之周 路’位於顯示器面板之非顯示區域上。 因此本?月之液晶滴下製程之液晶顯示器結構盥製造方 法’有效的改善框膠的預硬化1因而有效的舞j二 示面板污染的問題。 旧(又。,夜日日顯 實施方式 當使用ODF製程時,通常採用 由上述之發明背景中可知Page 10 External 丄 V. Description of the invention ^ —— ^ The heterostructure, the liquid crystal substrate, the masking layer, is formed by the ability of. It happened around. Ultraviolet electrical pattern layer line-hardening type external line hardening uses a heat-hard first substrate to cross the optical layer of glass. _Electrical power ^ ΐ ΐ can be said that a liquid crystal display process of the liquid crystal display is dry ^ Γ dropping process to produce thin-film transistor liquid crystal Display = Contains 1-substrate, conductive pattern layer, second layer in the J-th layer, and UV-curable frame adhesive. The conductive pattern t is on the 々π μ substrate, which is made of a tin material around the liquid crystal display. This has a UV light transmission layer on the second substrate to prevent the display; it is light. phenomenon. The liquid crystal layer uses a liquid crystal dropping process to form a line-hardening type frame adhesive, which adheres the first substrate and the second substrate, so that a space for storing the liquid crystal layer is formed between the guide and the shielding layer. The ultraviolet sealant is irradiated with a purple sealant from the direction of the first substrate for about 30 seconds using an ultraviolet lamp to pre-harden the ultraviolet curing sealant, and the curing process is about 60 minutes to completely cure the sealant. The above-mentioned system is a thin film transistor glass substrate, and the second substrate is a color glass substrate. The peripheral circuit described above is the circuit of the liquid crystal display. It is located on the non-display area of the display panel. So Ben? The manufacturing method of the liquid crystal display structure of the liquid crystal dropping process of the month 'effectively improves the pre-curing of the frame adhesive1 and thus effectively eliminates the problem of panel contamination. Old (again., Day and night). Implementation. When using the ODF process, it is usually adopted.

594158594158

紫外線硬化型框膠 產的液晶顯示面板 顯示面板污染的問 的目標。 ,來確保製程良率 的液晶遭受污染, 題,已成為液晶顯 °但卻常常發現所生 如何有效的改善液晶 示面板製造廠商重要 精神, 後,當 不脫離 液晶顯 本發明 5 〇,二 顯示器 後面, 使用鉻 '線路係 非顯示 以圖:及本發明之較佳實施例,詳細說明本發明之 如熟心此技術之士員在瞭解本發明之較佳實施例 可由本發明所教示之$彡衫 ' 技術,加以改變及修飾,其並 本發明之精神與範圍。參閱第一圖為本發明之TFT 示器框膠位置之局部結構剖面示意圖。如圖中所示 之TFT液晶顯不器具有第一基板j丨〇及第二基板 -者皆為透明之玻璃材質。一般而言,在製作液晶 日寸,將導電圖案層1 2 〇之線路,隱藏在遮光層i 4 〇之 而在第一基板,也就是TFT基板,的周圍配線,常 (Cr )、銘\A1 )、銅(Cu)等等金屬配線。上述之周圍 為液晶顯示器之周圍驅動電路,位於顯示器面板之 區域上。 明之TFT液晶顯示器,由於係使用液晶滴下的製程, n 丁液晶塗佈的工作,也因為如此,故本發明之框膠 木用紫外線硬化型的框膠,以提高生產時之方便性, 用絷外線加速框膠的預硬化。 當第 11 0上之導電圖案層i 2 〇形成之後,同時也在第Liquid crystal display panels produced by UV-curable frame adhesives are targets for display panel contamination. In order to ensure that the liquid crystal of the process yield is contaminated, the problem has become a liquid crystal display. However, it is often found that how to effectively improve the important spirit of the liquid crystal display panel manufacturer. In the following, the use of chrome 'line is not shown for illustration: and the preferred embodiment of the present invention, and a person skilled in the art who understands the present invention in detail will understand the preferred embodiment of the present invention which can be taught by the present invention. T-shirts' technology can be changed and modified, which is within the spirit and scope of the present invention. Refer to the first figure for a schematic cross-sectional view of the partial structure of the frame adhesive position of the TFT display of the present invention. As shown in the figure, the TFT liquid crystal display has a first substrate and a second substrate, both of which are made of transparent glass. Generally speaking, in the production of LCD screens, the wiring of the conductive pattern layer 1220 is hidden in the light-shielding layer i4〇 and the wiring around the first substrate, that is, the TFT substrate, is often (Cr), Ming \ A1), copper (Cu), and other metal wiring. The above-mentioned peripherals are peripheral driving circuits of the liquid crystal display, which are located on the area of the display panel. The Mingzhi TFT liquid crystal display uses the process of liquid crystal dropping and the coating process of n-but liquid crystal. Because of this, the frame bakelite of the present invention uses a UV-curable frame adhesive to improve the convenience during production. The outside line accelerates the pre-hardening of the frame rubber. After the conductive pattern layer i 2 0 on the 110th is formed,

第12頁 594158 -~~—案 5虎 92100203____J|_3_修正______ 五、發明說明(7) 二基板1 5 0上形成遮光層1 4 0,在此第二基板1 5 0係為彩色 濃光層之基板。接著再將框膠塗佈於基板的周圍,再利用 ODF製程將液晶1 6 〇滴在基板中間。最後使用真空組立製 私’將兩個基板壓合後,進行紫外線光線的照射約3 〇秒, 在進行熱硬化的步驟將框膠完全烘乾定型。本發明並不限 定框膠塗佈與液晶滴下的基板。使用本發明之液晶滴下製 .· 程之液晶顯示器製造方法,可依實際需要選擇欲進行框膠 塗佈與液晶滴下的基板,也就是說,可分別選擇第一基板 或第二基板,以進行框膠塗佈與液晶滴下製程。同時,本 發明亦不限定先進行框膠塗佈或是先進行液晶滴下,還是 鲁 同時進行框膠塗佈與液晶滴下,僅需於此二製程完成後, 進入真空組立製程,將第一基板與第二基板加壓黏著並排 出内部之氣體。接著進行紫外線光線照射的工作約3 0秒, 以使框膠預硬化,再進行熱硬化約6 〇分鐘,使框膠完全硬 化。 由於在TFT液晶顯示器的周圍遮光層ι4〇為避免背光燈管以 * 及配向異常領域的漏光情形發生,故使用遮光層1 4 〇將周 - 圍完全封閉。所以在0DF製程中,因使用紫外線硬化型框 膠’當欲使用紫外線燈進行框膠的預硬化時,經由第二基 鲁 板1 5 0側,紫外線將無法穿透遮光層1 4 〇,進入基板中間使 框膠硬化,尤其是在;I 7吋以下之TFT液晶顯示器,本身的 遮光層1 4 0已經彳艮細小,不宜再縮小。因此,只能選擇由 第一基板11 0側,照射紫外線,以使框膠硬化。傳統上,Page 12 594158-~~ — Case 5 Tiger 92100203 ____ J | _3_Amendment ______ V. Description of the invention (7) A light-shielding layer 1 4 0 is formed on the two substrates 1 50 0, and the second substrate 1 50 is colored dense Substrate for light layer. Then, the sealant is coated around the substrate, and the liquid crystal 160 is dropped in the middle of the substrate by the ODF process. Finally, the two substrates are laminated using a vacuum assembly, and then irradiated with ultraviolet light for about 30 seconds, and the frame adhesive is completely dried and shaped in the step of thermal curing. The present invention is not limited to a substrate for applying a sealant and dripping a liquid crystal. Using the liquid crystal dropping method of the invention. · Cheng Zhi's liquid crystal display manufacturing method, the substrate to be coated with the sealant and the liquid crystal dropping can be selected according to the actual needs, that is, the first substrate or the second substrate can be selected separately for Frame adhesive coating and liquid crystal dropping process. At the same time, the present invention is not limited to the first application of the sealant coating or the liquid crystal dropping, or the simultaneous application of the sealant coating and the liquid crystal dropping, as long as the two processes are completed, a vacuum assembly process is performed to place the first substrate. It is pressure-bonded to the second substrate and exhausts the internal gas. Then, the ultraviolet light is irradiated for about 30 seconds to pre-harden the sealant, and then heat-cured for about 60 minutes to completely harden the sealant. Since the light-shielding layer ι40 is used around the TFT liquid crystal display to avoid light leakage in backlight tubes and misaligned areas, the light-shielding layer 1400 is used to completely seal the periphery. Therefore, in the 0DF process, due to the use of UV-curable frame adhesive 'When you want to use a UV lamp for pre-curing the frame adhesive, the UV will not pass through the light-shielding layer 14 0 through the second base plate 1 50 and enter The frame adhesive is hardened in the middle of the substrate, especially in the case of TFT liquid crystal displays with a size of less than 7 inches. The light-shielding layer 140 is already small, and it should not be shrunk. Therefore, only the 110 side of the first substrate can be selected to irradiate ultraviolet rays to harden the sealant. in tradition,

594158 __案號 五、發明說明(8) 92100203 ±___月日 修正 在第基板1丨0周圍的線路所構成之導電圖案層220,因為 使用鉻鋁銅等金屬配線,故形成網狀的袼子形狀。 參閱第二圖’為第一圖中之本發明之液晶顯示器之框膠位 置之正面示意圖。由圖中可清楚看出,導電圖案層22〇若 由金屬配線所形成,將形成一格子形狀的透光區域,係為 網狀電路中間未遮蔽的區域所構成之區域。而框膠2 3 〇塗 佈的區域則位於這些透光的區域,遮光層24〇則位於框膠 2 3 0與導電圖案層2 2 0的下方,將完全遮住框膠2 3 〇的塗佈 區域。圖中左側為液晶2 6 〇的示意位置。 本發明為更進一步,使紫外線預硬化框膠之工作,能進行 的更為徹底,故將本發明之液晶顯示器周圍的金屬線路, 全部改變為使用ITO材料來生產,由於IT0材料形成之線 路,係為透明線路,可允許紫外線光線穿過,因此導電圖 案層2 2 0,在非線路經過的地方與線路經過的地方均為透σ 明,可改善使用傳統之金屬線路進行紫外線照射時,框膠 無法完全被紫外線照射,而無法有效的預硬化。因此當液 晶接觸到框膠時,框膠被液晶腐蝕而造成液晶的污染。 本發明利用ΙΤΟ材料之透光性,有效的改善〇DF製程中,框 膠預硬化不完全而產生污染的現象,不僅使本發明之液晶 顯示器的品質提升,更可加速生產製程,減少不良率 對使用ODF製程生產之液晶顯示器,提供一重要的貢獻。 如熟悉此技術之人員所瞭解的,以上所述僅為本發明之較594158 __ Case No. V. Description of the invention (8) 92100203 ± ___ On the day of the month, the conductive pattern layer 220 composed of the lines around the first substrate 1 丨 0 is modified. Because metal wiring such as chrome aluminum copper is used, it is formed into a mesh. Zongzi shape. Refer to the second figure 'for a schematic front view of the sealant position of the liquid crystal display of the present invention in the first figure. It is clear from the figure that if the conductive pattern layer 22 is formed of metal wiring, a grid-shaped light-transmitting area will be formed, which is an area composed of an unshielded area in the middle of the mesh circuit. The area covered by the frame adhesive 2 3 0 is located in these light-transmitting areas, and the light-shielding layer 24 0 is located below the frame adhesive 2 3 0 and the conductive pattern layer 2 2 0, which will completely cover the application of the frame adhesive 2 3 0 Cloth area. The left side of the figure is a schematic position of the liquid crystal 26. The present invention is further to make the work of UV pre-curing the frame adhesive more thorough. Therefore, all the metal circuits around the liquid crystal display of the present invention are changed to use ITO material for production. Because of the circuit formed by the IT0 material, It is a transparent circuit that allows ultraviolet light to pass through. Therefore, the conductive pattern layer 2 2 0 is transparent in places where the circuit does not pass and where the circuit passes. It can improve the frame when using traditional metal circuits for ultraviolet irradiation. The glue cannot be completely irradiated with ultraviolet light, and cannot be effectively pre-cured. Therefore, when the liquid crystal contacts the sealant, the sealant is corroded by the liquid crystal and the liquid crystal is contaminated. The invention utilizes the light transmittance of the ITO material to effectively improve the phenomenon of incomplete pre-curing of the frame adhesive during the DF process, which not only improves the quality of the liquid crystal display of the present invention, but also accelerates the production process and reduces the defective rate. Provides an important contribution to the production of LCDs using the ODF process. As understood by those skilled in the art, the above is only a comparison of the present invention.

第14頁 594158 案號 92100203 年 月 曰 修正 五、發明說明(9) 佳實施例而已,並非用以限定本發明之申請專利範圍;凡 其它未脫離本發明所揭示之精神下所完成之等效改變或修 飾,均應包含在下述之申請專利範圍内。 ΦPage 14 594158 Case No. 92100203 Amendment V. Description of the Invention (9) The preferred embodiment is not intended to limit the scope of patent application for the present invention; all other equivalents are completed without departing from the spirit disclosed by the present invention Alterations or modifications shall be included in the scope of patent application described below. Φ

第15頁 594158 _:_案號92100203_年月曰 修正_ 圖式簡單說明 本發明的較佳實施例於說明文字中輔以下列圖形做更詳細 的闡述,其中: 第一圖為本發明之液晶顯示器框膠位置之局部剖面示意 圖;以及 第二圖為第一圖中之本發明之液晶顯示器之框膠位置之正 面示意圖。 圖式標記說明 110 第 一 基板 120 導 電 圖案層 130 框 膠 140 遮光 層 150 第 二 基板 160 液 晶 220 導 電 圖案 層230 框 膠 240 遮 光 層2 6 0 液 晶Page 15 594158 _: Case No. 92100203_ Year Month Revision _ Schematic Brief Description of the Preferred Embodiment of the Invention The following figures are supplemented in the explanatory text for a more detailed explanation, of which: The first figure is the A partial cross-sectional view of the position of the frame adhesive of the liquid crystal display; and the second view is a front view of the position of the frame adhesive of the liquid crystal display of the present invention in the first view. Description of drawing symbols 110 First substrate 120 Conductive pattern layer 130 Frame adhesive 140 Light-shielding layer 150 Second substrate 160 Liquid crystal 220 Conductive pattern layer 230 Frame adhesive 240 Light-shielding layer 2 6 0 Liquid crystal

第16頁Page 16

Claims (1)

594158 _;_案號92100203_年月曰 修正_ 六、申請專利範圍 1. 一種液晶滴下製程之液晶顯示器製造方法,係使用液晶 滴下製程以生產薄膜電晶體液晶顯示器,其中該製造方法 至少包含: 提供一第一基板,具有該液晶顯示器之周圍線路形成之一 導電圖案層,其中該導電圖案層係由氧化銦錫材料所構 成,其中該第一基板係為一薄膜電晶體玻璃基板; 提供一第二基板,具有一遮蔽層,用來防止該顯示器周圍 發生漏光的現象,其中該第二基板係為一顏色濾光層玻璃 基板; 使用一紫外線硬化型框膠塗佈於該第一基板之上; 滴下一液晶於該第一基板之中間; 使用真空組立製程,將該第一基板與該第二基板黏著在一 起; 使用紫外線燈,由該第一基板方向,穿過該導電圖案層, 照射該紫外線硬化型框膠3 0秒,使該紫外線硬化型框膠預 硬化;以及 使用熱硬化製程,進行烘烤6 0分鐘,使該框膠完全硬化。 2 .如申請專利範圍第1項所述之製造方法,其中上述之周 圍線路包含該液晶顯示器之周圍驅動電路,其位於該顯示 器面板之非顯示區域。 3 .如申請專利範圍第1項所述之製造方法,其中上述之真 空組立製程包含將該第一基板與第二基板中間的氣體排594158 _; _ Case No. 92100203_ Year Month Amendment _ 6. Application for Patent Scope 1. A liquid crystal display manufacturing method for a liquid crystal dropping process, which uses the liquid crystal dropping process to produce a thin film transistor liquid crystal display, wherein the manufacturing method includes at least: Provide a first substrate having a conductive pattern layer formed by the surrounding circuits of the liquid crystal display, wherein the conductive pattern layer is composed of an indium tin oxide material, wherein the first substrate is a thin-film transistor glass substrate; The second substrate has a shielding layer for preventing light leakage around the display, wherein the second substrate is a color filter glass substrate; and an ultraviolet curing frame adhesive is used to coat the first substrate. Top; drop a liquid crystal in the middle of the first substrate; use a vacuum assembly process to adhere the first substrate and the second substrate together; use an ultraviolet lamp to pass through the conductive pattern layer from the direction of the first substrate, Irradiate the UV-curable frame adhesive for 30 seconds to pre-harden the UV-curable frame adhesive; and use heat Of the process, and baked 60 minutes to complete curing of the sealant. 2. The manufacturing method according to item 1 of the scope of patent application, wherein the above-mentioned peripheral circuit includes a peripheral driving circuit of the liquid crystal display, which is located in a non-display area of the display panel. 3. The manufacturing method according to item 1 of the scope of patent application, wherein the above-mentioned vacuum assembling process includes exhausting gas between the first substrate and the second substrate. 第17頁 594158 ______案號 92100203_年月日__ 六、申請專利範圍 出。 4 ·如申請專利範圍第1項所述之製造方法,其中上述之步 驟,使用一紫外線硬化型框膠塗佈於該第一基板之上,可 由使用一紫外線硬化型框膠塗佈於該第二基板之上之步驟 取代。 5 ·如申請專利範圍第1項所述之製造方法,其中上述之步 驟,滴下一液晶於該第一基板之中間,可由滴下一液晶於 該第二基板之中間之步驟取代。 6. —種液晶滴下製程之液晶顯示器結構,係使用液晶滴下 製程以生產薄膜電晶體液晶顯示器,其中該液晶顯示器結 構至少包含: 一第一基板; 一導電圖案層,形成於該第一基板之上,係由該液晶顯示 器之周圍線路形成,其中該導電圖案層係由氧化銦錫材料 所構成; 一第二基板; 一遮蔽層,位於該第二基板之上,用來防止該顯示器周圍 發生漏光的現象; 一液晶層,係使用液晶滴下製程形成;以及 一紫外線硬化型框膠,黏著該第一基板與該第二基板,使 該導電圖案層與該遮蔽層中間形成一空間以儲存該液晶Page 17 594158 ______ Case No. 92100203 _ year month day __ Six, the scope of patent application issued. 4 · The manufacturing method according to item 1 of the scope of the patent application, wherein the above-mentioned steps are coated on the first substrate with an ultraviolet curable frame adhesive, and can be coated on the first substrate with an ultraviolet curable frame adhesive. Steps on the two substrates are replaced. 5. The manufacturing method according to item 1 of the scope of patent application, wherein in the above step, the step of dropping liquid crystal in the middle of the first substrate can be replaced by the step of dropping liquid crystal in the middle of the second substrate. 6. A liquid crystal display structure of a liquid crystal dropping process, which uses the liquid crystal dropping process to produce a thin film transistor liquid crystal display, wherein the liquid crystal display structure includes at least: a first substrate; a conductive pattern layer formed on the first substrate; Above, it is formed by the surrounding circuit of the liquid crystal display, wherein the conductive pattern layer is made of indium tin oxide material; a second substrate; a shielding layer is located on the second substrate to prevent the surrounding of the display from occurring. The phenomenon of light leakage; a liquid crystal layer formed using a liquid crystal dropping process; and an ultraviolet curable frame adhesive, which adheres the first substrate and the second substrate, so that a space is formed between the conductive pattern layer and the shielding layer to store the liquid crystal 第18頁 594158 ______案號 92100203_年月日__ 六、申請專利範圍 層,其中該紫外線硬化型框膠,利用紫外線燈,由該第一 基板方向,穿過該導電圖案層,照射該紫外線硬化型框膠 一預定時間,使該紫外線硬化型框膠預硬化,並使用熱硬 化製程,使該框膠完全硬化。 7 .如申請專利範圍第6項所述之液晶顯示器結構,其中上 述之第一基板包含薄膜電晶體玻璃基板。 8 .如申請專利範圍第6項所述之液晶顯示器結構,其中上 述之第二基板包含顏色濾光層玻璃基板。 9 .如申請專利範圍第6項所述之液晶顯示器結構,其中上 述之周圍線路包含該液晶顯示器之周圍驅動電路,其位 於該顯示器面板之非顯示區域。 1 0 .如申請專利範圍第6項所述之液晶顯示器結構,其中上 述之紫外線硬化型框膠,黏著該第一基板與該第二基板之 後,更利用真空組立製程將該空間中的氣體排出。 1 1.如申請專利範圍第6項所述之液晶顯示器結構,其中上 述之預定時間為3 0秒。 1 2 .如申請專利範圍第6項所述之液晶顯示器結構,其中上 述之熱硬化製程,係為進行烘烤6 0分鐘。Page 18 594158 ______ Case No. 92100203_Year_Month__ Sixth, the patent application layer layer, wherein the ultraviolet curing type frame adhesive uses an ultraviolet lamp from the direction of the first substrate, passes through the conductive pattern layer, and irradiates The UV-curable frame adhesive is pre-cured for a predetermined time, and the heat-curing process is used to completely harden the frame adhesive. 7. The liquid crystal display structure according to item 6 of the scope of patent application, wherein the first substrate comprises a thin film transistor glass substrate. 8. The liquid crystal display structure according to item 6 of the patent application scope, wherein the second substrate comprises a color filter glass substrate. 9. The liquid crystal display structure according to item 6 of the scope of the patent application, wherein the peripheral circuit includes a peripheral driving circuit of the liquid crystal display and is located in a non-display area of the display panel. 10. The liquid crystal display structure according to item 6 of the scope of the patent application, wherein the above-mentioned ultraviolet-curable frame adhesive adheres the first substrate and the second substrate, and then uses a vacuum assembly process to exhaust the gas in the space. . 1 1. The liquid crystal display structure according to item 6 of the scope of patent application, wherein the predetermined time is 30 seconds. 12. The liquid crystal display structure according to item 6 of the scope of patent application, wherein the heat curing process is performed for 60 minutes for baking. 第19頁Page 19
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