M359725 五、新型說明: 【新型所屬之技術領域】 ,本創作關於一種液晶顯示裝置’特別係有關於一種具 有擋牆之液晶顯示裝置’所述擋牆係於黑矩陣層或遮: 上製作,以利於有效避免液晶與未硬化框膠的汙染。’’" 【先前技術】 隨著光學科技與半導體技術的進步,液晶顯示裝置已 廣泛的應用於電子產品顯示裝置上。液晶顯示器具有高書 質 '體積小' 重量輕、低電壓驅動、低祕功率及應用範 圍廣等優點’故應用於可攜式電視、行動電話、攝錄放影 機、筆記型電腦、桌上型顯示器以及衛星導航顯示器等電 子產扣或電月自產品’其已取代傳統的陰極射線管成為顯示 器的主流技術。 、在先前技術中,|^造液晶顯示器時,4了防止液晶污 染而製作框膠於非顯示區之中。然而,當框膠預硬化程度 不完整時’免不了造成液晶的污染。 換《之售知技術關於液晶顯示裝置之製造方法存在 上述缺點’因此’本創作提供—種避免) 夜晶與未硬化框膠 >可染的液晶顯示結構與方法,其比習知技術更進一步,為 %技#所無去比擬者,並且可以有效地阻絕液晶與框膠 的污染並減少製程的成本和時間。 【新型内容】 為了克服前述問題’本創作之目的在於提供一種液晶 ‘、、、頁不裝置’其係利用在彩色Μ基板上(或彩色滤光片形成 3 M359725 於薄膜電晶體陣列上夕u 區域,利用色層堆疊的方^^假像素(dummy pixel) ^^ ^ LV βΒ ,a 町万式形成—個擋牆結構,此種設計 方式可以阻絕液晶與框膠的污染。 本創作之再一目的 構可以減少製程的成本種液晶顯示裝置’所述結 太制今j乍之$目的在於提供—種液晶顯示裝置,其中 之、Q構在框膠與液晶同時照射時不會造成液晶的汗 乘0M359725 V. New description: [New technical field] The present invention relates to a liquid crystal display device, in particular to a liquid crystal display device having a retaining wall, which is fabricated on a black matrix layer or a cover: In order to effectively avoid the pollution of liquid crystal and uncured sealant. </'" [Prior Art] With advances in optical technology and semiconductor technology, liquid crystal display devices have been widely used in electronic product display devices. The liquid crystal display has the advantages of high book quality, small size, light weight, low voltage drive, low power and wide application range. Therefore, it is used in portable TVs, mobile phones, video recorders, notebook computers, and desks. Type displays and satellite navigation displays and other electronic production or electric moon products "have replaced the traditional cathode ray tube into the mainstream technology of the display. In the prior art, when the liquid crystal display is manufactured, 4 is prevented from being contaminated by the liquid crystal to form a sealant in the non-display area. However, when the pre-hardening degree of the sealant is incomplete, it is inevitable that the liquid crystal is contaminated. There is a disadvantage in the above-mentioned shortcomings in the manufacturing method of the liquid crystal display device. Therefore, the present invention provides a nighttime crystal and an unhardened sealant> dyeable liquid crystal display structure and method, which are more than the prior art. Further, it is no match for the % technology, and can effectively block the pollution of the liquid crystal and the sealant and reduce the cost and time of the process. [New content] In order to overcome the aforementioned problems, the purpose of the present invention is to provide a liquid crystal ',, and page device' which is used on a color germanium substrate (or a color filter to form 3 M359725 on a thin film transistor array) In the area, the dummy pixel is used to form a dummy pixel ^^ ^ LV βΒ , a machi-style to form a retaining wall structure, which can block the pollution of the liquid crystal and the sealant. A purpose structure can reduce the cost of the process. The liquid crystal display device of the present invention is intended to provide a liquid crystal display device in which the Q structure does not cause liquid crystal when the frame glue and the liquid crystal are simultaneously irradiated. Sweat by 0
作所提供之液晶顯示裝置,包含第-基板與第二 土反:對應配置;複數個黑矩陣層配置於第一基板上丨第 ,色光;慮光單70、第二色光濾光單元以及第三色光遽光單 元依序配置於第一基板上,第一堆疊層、第二堆疊層及第 三堆疊層對應配置於複數個黑矩陣層之其中之一上,堆叠 配置成一播牆並圍續所抽;夕贷 μ, _ 押一 圓現所述之第一、第二以及第三色光濾光 單元其中第一色光濾光單元、第二色光濾光單元與第三 色光濾光單元形成於複數個黑矩陣層之上,其中第一色光 滤光單,、第二色㈣光單元與第三色光遽光單元分別與 第-堆豐層、第二堆4層及第三堆疊層同時形成;及框膠 配置於第一基板與第二基板間,框膠圍繞擋牆。 其中所述之第一基板可為彩色濾光基板或彩色濾光片 形成於薄膜電晶體陣列上方之基板,第二基板為主動元件 陣列基板或透明導電基板。第一堆疊層、第二堆疊層及第 三堆疊層形成於第一基板之假像素區域上。第一、二或第 二色光濾光單元係選自紅光濾光單元、綠光濾光單元、藍 4 M359725 光濾光單元之一。 【實施方式】 本創作將配合其較佳實施例與隨附之圖示詳述於下。 應可理解者為本創作中所有之較佳實施例僅為例示之用, 並非用以限制。因此除文中之較佳實施例外’本創作亦可 廣泛地應用在其他實施例中。且本創作並不受限於任何實 •施例’應以隨附之申請專利範圍及其同等領域而定。 為了克服習知技術問題,本創作提供一種液晶顯示裝 、係利用於黑矩陣層或遮光層上製作擋牆,以有效地 避免液晶與未硬化框膠的汙染。 ^在先前技術中’必須利用紫外線(uv)光使液晶產生預 傾角’並且其為了避免於框膝硬化製程時同時照射紫外線 、:了此會產生液晶與框膠污染的情形,所以需額外一道 I外線光罩使鄉和液晶分開照射,先使鄉先行硬化後 再進行液曰曰材料的硬化,如此導致整個製程時間增加及設 _備成本。 ,本創作之液晶顯示裝置係利用色層堆叠的$式形成一 個播u於假像素(dummy pixel)區域之上,纟中擒牆結 、構配置於顯示區與框膠之間。此種設計方式可以阻絕液晶 .與框膠的污染,其中不會增加製程的設備和時間,並且框 二’、液μ可以同時照射’此為本創作之重要技術特徵。換 本創作提供—種比f知技術更進—步的液晶顯示裝 置木構,其為習知技術所無法比擬者。 第A E圖為本創作之第—實施例的液晶顯示裝置 5 M359725 作之各實施例中,相同構成要件不重複敘述 ^ ,本創作之實施例僅用於說明本創作之概念 並非用於限定本創作方法所製作之液晶顯示裝置,其他^ 晶顯不裝置中所可能包括之元件或構成要件於圖示 略。 ’::务A〜e圖,其為本實施例所提供之液晶顯示裝 置之裝ie方法之戴面圖。首先提供彩色渡光基板⑼,然後 黑矩陣層(black matrix)61、…形成於彩色遽光基板的 ^。舉一實施例而言,彩色遽光基板6G為透明基板,其材 f例如為玻璃、石英或可撓性材質,而黑矩陣層61、61a 之材貝例如為樹脂或其他適當材質,以符合環境保護的需 求。上述黑矩陣層61、61a配置於彩色濾光基板6〇上,其 於顯示區内定義出多個次畫素區。The liquid crystal display device provided includes a first substrate and a second earth reverse: corresponding arrangement; a plurality of black matrix layers are disposed on the first substrate, the color light; the light single sheet 70, the second color light filter unit, and the first The three color light-emitting units are sequentially disposed on the first substrate, and the first stacked layer, the second stacked layer, and the third stacked layer are correspondingly disposed on one of the plurality of black matrix layers, and the stack is configured as a broadcast wall and is continuous The first color filter unit, the second color light filter unit, and the third color light filter unit are formed on the first, second, and third color light filtering units. Above the plurality of black matrix layers, wherein the first color light filter, the second color (four) light unit and the third color light light unit are simultaneously with the first stack layer, the second stack 4 layer and the third stack layer Forming; and the sealant is disposed between the first substrate and the second substrate, and the sealant surrounds the retaining wall. The first substrate may be a color filter substrate or a color filter formed on the substrate above the thin film transistor array, and the second substrate is an active device array substrate or a transparent conductive substrate. The first stacked layer, the second stacked layer, and the third stacked layer are formed on the dummy pixel region of the first substrate. The first, second or second color filter unit is selected from the group consisting of a red filter unit, a green filter unit, and a blue 4 M359725 optical filter unit. [Embodiment] This creation will be described in detail below in conjunction with its preferred embodiment and accompanying drawings. It should be understood that all of the preferred embodiments of the present invention are for illustrative purposes only and are not intended to be limiting. Therefore, the present invention can be widely applied to other embodiments except for the preferred embodiment of the text. And this creation is not limited to any actual application. It should be based on the scope of the patent application and its equivalent fields. In order to overcome the conventional technical problems, the present invention provides a liquid crystal display device for making a retaining wall on a black matrix layer or a light shielding layer to effectively avoid contamination of liquid crystal and uncured sealant. ^ In the prior art, 'the ultraviolet light (UV) light must be used to make the liquid crystal pre-tilt angle' and it is necessary to simultaneously irradiate the ultraviolet light in the frame knee hardening process: this will cause liquid crystal and sealant contamination, so an additional one is needed. I. The external line mask separates the township and the liquid crystal separately. First, the township is first hardened and then the liquid helium material is hardened. This leads to an increase in the entire process time and the cost of the installation. The liquid crystal display device of the present invention uses a pattern of color layer stacks to form a broadcast on the dummy pixel area, and the wall is arranged between the display area and the sealant. This design can block the contamination of the liquid crystal and the sealant, which will not increase the equipment and time of the process, and the frame 2', the liquid μ can be irradiated simultaneously. This is an important technical feature of the creation. The present invention provides a liquid crystal display device that is more advanced than the prior art, which is unmatched by conventional techniques. The AE drawing is the liquid crystal display device 5 M359725 of the first embodiment of the present invention. In the respective embodiments, the same constituent elements are not repeated. The embodiment of the present invention is only used to explain the concept of the present invention and is not intended to limit the present invention. The liquid crystal display device produced by the authoring method, the components or constituent elements that may be included in other devices are omitted. ':: A to e diagram, which is a wearing diagram of the method of mounting the liquid crystal display device provided in the embodiment. First, a color light-emitting substrate (9) is provided, and then a black matrix 61, ... is formed on the color light-emitting substrate. In one embodiment, the color light-emitting substrate 6G is a transparent substrate, and the material f is, for example, glass, quartz or a flexible material, and the material of the black matrix layer 61, 61a is, for example, a resin or other suitable material to conform to The need for environmental protection. The black matrix layers 61, 61a are disposed on the color filter substrate 6A, and define a plurality of sub-pixel regions in the display region.
Ik之彩色濾光單元位於彩色濾光基板6〇上,例如包括 、工光濾光單兀62、綠光濾光單元63以及藍光濾光單元64 _依序形成於彩色濾光基板6〇所定義出的次晝素區上,舉— 實鈿例而σ,其材質可分別為紅色光阻、綠色光阻及藍色 光阻。另外,紅光濾光單元62、綠光濾光單元63以及藍 '光濾光單元64可形成於黑矩陣層61上。更詳細而言,本 創作在分別形成紅光濾光單元62、綠光濾光單元63以及 藍光濾光單元64的同時,於彩色濾光基板6〇之假像素 (dummy plxei)區域上依序形成對應之第一堆疊層62&、第 一堆$層03a及第三堆疊層64a於黑矩陣層6U或遮光層 上,結果形成擋牆66以作為液晶擋牆。黑矩陣層61a係位 6 M359725 於假像素(dummy pixel)區域舉 氺罝分π μ门士 丰例而$ ’於形成紅光遽 早的同㈣成第—堆疊層仏,即第一堆疊層仏 形成於黑矩陣層61或遮光層上,如第 成綠光遽光單元63的同時幵,成第圖所示;於形 .^ ^ 扪丨j時形成第一堆疊層63a,即第二堆 疊層63a形成於第一堆疊層 、t 且層之上,如第一 B圖所示; 以於形成藍光濾光單元64的同時形成第三堆疊層⑷, 即第f堆疊層64a形成於第二堆疊層…之上,如第一 c _ =Γ、°其Γ上述紅光濾、光單元62、綠光遽光單元63以 及藍光濾光單元64形成於黑矩陣層61區域之上,而第一 堆疊層62a、第二堆疊層63a及第三堆疊層⑷形成於黑 矩陣層61a區域之上。換言之,本創作之製造擔牆%無需 增加額外的製程設備或光罩,故可改善先前技術缺失但不 會增加製程成本。另夕卜,第一堆疊層62a、第二堆疊層— 及第三堆疊層64a組合的順序亦可隨彩色渡光單元形成的 次序或光罩之設計而有對應改變與調整,自不待言。並且, 也不限定其必須與彩色濾光單元同時形成。 然後’形成共用電極65於彩色濾光基板60上,而此 共用電極65配置於部分的黑矩陣層61與彩色濾光單元 上,如第一 D圖所示。在一實施例中,共用電極65的材 質可為銦錫氧化物(indium tin oxide,ιτο)、銦鋅氧化物 (indium zinc oxide,izo)或是其他透明導電材料。利用如第 一 D圖所圖示之彩色濾光基板60可製作本創作之液晶顯 示面板。 請參照第一 E圖,本創作之液晶顯示面板包括上述之 7 M359725 形色濾光基板60、主動元件陣列基板69以及液晶層。其 中,液晶層配置於彩色濾光(CF)基板6〇與主動元件陣列基 板69之間。在本實施例中’彩色濾光基板6〇上係形成彩 色遽光單元62、63、64,而在主動元件陣列基板69上係 形成薄膜電晶體(TFT)陣列。畫素電極67配置於主動元 件陣列基板69上。在—實施例中,晝素電極67的材質可 為銦錫氧化物(ITO)、銦辞氧化物(IZO)或是其他透明導電 材料。 # 之後’形成一框膠68以配置於彩色遽光基板60與主 動元件陣列基板69之間,如第一 £圖所示。此框膠Μ於 液晶顯不器周圍的非顯示區形成一環狀 膠⑽圍繞擔牆66,並且利用框膠⑽使彩色遽光 與主動疋件陣列基板69彼此黏合。值得注意的是,擔牆 66圍繞顯示區中的彩色濾光單元。 在上述之液晶顯示面板形成的過程中,彩色滤光基板 馨60、’&過框膠68塗佈之後’接下來進行與主動元件陣列基 板69壓合以及注人液晶於彩色濾光基板6G與主動元件陣 歹J基板69之間而形成液晶層之步驟,以得到液晶顯示面 、板/,如第一 E圖所示。在注入液晶至彩色濾光基板60上 之後,液晶會逐漸擴散至擋牆66。值得注意的是,由於撐 牆66圍繞顯示區中的您A、南止话_ L〒的衫色濾先早凡,所以當液晶流動至擋 牆6 6時會被擋住而停止流動。由於液晶層中的液晶受阻於 擂牆66,框膠68與擔牆66之間無液晶分子存在,因此、, 本創作之設計可以阻絕液晶層中的液晶與未@化之框膠 8 M359725 68的接觸而污染。框膠68與液晶可以同時照射,在 照射情況下’由於擋牆66具有阻擔液晶作用,所以、夜:4 會與未固化的框膠68接觸而導致的液晶污染,此為本:: 之重要技術特徵。 下 多閱第E圖,其中包括彩色濾、光基板配置於其中, 其在製作紅⑻、綠⑹、藍⑻色阻之同時利用色層堆叠的 方式來完成擋牆的製作。舉一實施例而言,本創作可以依 據製程上的需要而調整紅(R)、綠⑹、藍(B)色阻高度(或^ 度)或㈣66的高度(或厚度)。播牆66配置於顯示區與框 膠68之間,並且框膠68圍繞擋牆%。由於擋牆結構係配 置於假像素區域上,因此本創作的製作方法不會影響主動 區域(Active Area)的大小以及基板利用率。 一參照第二圖,其為本創作另一實施例所提供之液晶顯 示名置。值得一提的是,在此實施例中,包括彩色濾光基 板60為透明導電基板,而彩色濾光片(單元)形成於薄膜 _電晶體陣列上方(color filter on array, c〇A)之基板7〇,彩 色渡光片形成於薄膜電晶體陣列上方之基板上配置 有薄膜電晶體陣列(未圖示)、彩色渡光單元62、63、64 與播牆66,彩色濾光單元62、63、64形成於薄膜電晶 -體陣列之上。共用電極65形成於彩色濾光基板60之下, 而晝素電極67a、67b、67c分別形成於彩色濾光單元62、 63、64之上,畫素電極67a、67b、67c於彩色濾光片形成 於薄Μ電晶體陣列上方之基板70之上為非連續膜層。 彩色慮光片形成於薄膜電晶體陣列上方之基板7 〇包含 9 M359725 ^色慮光陣列結構’因此,彩色濾光片形成於薄膜電晶 -陣列上方之基板70本身就具有濾光的功能。換言之, 本創作之設計方式也可以應用於包含彩色遽光陣列及薄 膜 <電晶豸陣列結構的液晶顯示裂置上。在此實施例中, 在衫色濾光片形成於薄膜電晶體陣列上方之基板7〇上 之假像素(dummy pixel)區域上,第一堆疊層—、第二堆 .疊層63a及第三堆疊層⑷依序形成於黑矩陣層…或遮 •光層結果形成擔牆66以作為液晶擔牆。 綜上所述,本創作所提出之堆疊層、彩色遽光基板、 主動7L件陣列基板以及液晶顯示面板至少具有下列優點: (),隹疊層與色濾'光單兀同時形成,當利用具有此堆疊層 的¥色濾、光基板或彩色濾光片形成於薄膜電晶體陣列 上方(COA)之基板製作液晶顯示面板時,液晶的流動會被 隹且層所阻擔,因此液晶無法與未固化的框膠接觸,所以 可以避免液晶受到污染。 # (2)本創作所提出之堆疊層結構、彩㈣、綠板、彩色 慮光片形成於薄膜電晶體陣列上方(⑶A)之基板以及液 晶顯示面板之製作無須增加額外的製程設備或光罩,故其 生產成本不會增加。 對熟心此領域技藝者,本創作雖以較佳實例闡明如 上、w其並非用以限定本創作之精神。在不脫離本創作之 精神與犯圍内所作之修改與類似的配置,均應包含在下述 之申請專利範圍内,此範圍應覆蓋所有類似修改與類似結 構,且應做最寬廣的詮釋。 10 M359725 【圖式簡單說明】 上述元件,以及The color filter unit of the Ik is disposed on the color filter substrate 6 , for example, including the work filter unit 62 , the green filter unit 63 , and the blue filter unit 64 — sequentially formed on the color filter substrate 6 . The defined sub-tend region is exemplified by σ, which can be red, green and blue. Further, the red light filtering unit 62, the green light filtering unit 63, and the blue 'light filter unit 64 may be formed on the black matrix layer 61. In more detail, the present invention sequentially forms the red light filter unit 62, the green light filter unit 63, and the blue light filter unit 64 on the dummy plxei region of the color filter substrate 6〇. A corresponding first stacked layer 62&, a first stack of layers 03a and a third stacked layer 64a are formed on the black matrix layer 6U or the light shielding layer, and as a result, a retaining wall 66 is formed to serve as a liquid crystal retaining wall. The black matrix layer 61a is at the position 6 M359725 in the dummy pixel region, and is divided into π μ gates and the same layer is formed in the same layer as the first stack layer. The germanium is formed on the black matrix layer 61 or the light shielding layer, such as the first green light-emitting unit 63, as shown in the figure; the first stacked layer 63a is formed in the shape of ^^ 扪丨j, that is, the second The stacked layer 63a is formed on the first stacked layer, t and above the layer, as shown in the first B; to form the third stacked layer (4) while forming the blue light filtering unit 64, that is, the fth stacked layer 64a is formed in the first Above the two stacked layers, the first red light filter, the light unit 62, the green light-emitting unit 63, and the blue light filtering unit 64 are formed on the black matrix layer 61 region, for example, the first c _ = Γ, ° The first stacked layer 62a, the second stacked layer 63a, and the third stacked layer (4) are formed over the area of the black matrix layer 61a. In other words, the creation wall of this creation does not require additional process equipment or reticle, which can improve the prior art and not increase the process cost. In addition, the order in which the first stacked layer 62a, the second stacked layer, and the third stacked layer 64a are combined may also have corresponding changes and adjustments depending on the order in which the color light-emitting units are formed or the design of the reticle, and it goes without saying. Moreover, it is not limited that it must be formed simultaneously with the color filter unit. Then, the common electrode 65 is formed on the color filter substrate 60, and the common electrode 65 is disposed on a portion of the black matrix layer 61 and the color filter unit as shown in the first D. In one embodiment, the material of the common electrode 65 may be indium tin oxide (indium tin oxide), indium zinc oxide (izo) or other transparent conductive material. The liquid crystal display panel of the present invention can be fabricated by using the color filter substrate 60 as illustrated in Fig. D. Referring to FIG. 1A, the liquid crystal display panel of the present invention includes the above-mentioned 7 M359725 color filter substrate 60, active device array substrate 69, and liquid crystal layer. The liquid crystal layer is disposed between the color filter (CF) substrate 6A and the active device array substrate 69. In the present embodiment, color light-emitting units 62, 63, 64 are formed on the color filter substrate 6, and a thin film transistor (TFT) array is formed on the active device array substrate 69. The pixel electrode 67 is disposed on the active element array substrate 69. In the embodiment, the material of the halogen electrode 67 may be indium tin oxide (ITO), indium oxide (IZO) or other transparent conductive material. #后' A frame glue 68 is formed to be disposed between the color light-emitting substrate 60 and the active element array substrate 69 as shown in the first £. The frame is formed in a non-display area around the liquid crystal display to form an annular glue (10) surrounding the support wall 66, and the colored phosphor and the active element array substrate 69 are bonded to each other by the sealant (10). It is worth noting that the wall 66 surrounds the color filter elements in the display area. In the process of forming the liquid crystal display panel described above, the color filter substrate sin 60, '& after the squeegee 68 is applied,' is then pressed into the active device array substrate 69 and the liquid crystal is applied to the color filter substrate 6G. The step of forming a liquid crystal layer with the active device array J substrate 69 to obtain a liquid crystal display surface, a board/, as shown in the first E diagram. After the liquid crystal is injected onto the color filter substrate 60, the liquid crystal gradually diffuses to the retaining wall 66. It is worth noting that since the wall 66 is around the front of the display area, the color of the shirt is filtered, so that when the liquid crystal flows to the retaining wall 66, it will be blocked and stop flowing. Since the liquid crystal in the liquid crystal layer is blocked by the crucible wall 66, there is no liquid crystal molecule between the sealant 68 and the support wall 66. Therefore, the design of the present invention can block the liquid crystal in the liquid crystal layer from the uncoated frame glue 8 M359725 68 Contact and pollution. The frame glue 68 and the liquid crystal can be simultaneously irradiated. In the case of irradiation, since the retaining wall 66 has a liquid crystal blocking effect, the night: 4 will be in contact with the uncured frame glue 68 to cause liquid crystal contamination, which is: Important technical features. Referring to Figure E, a color filter and a light substrate are disposed therein, and the red (8), green (6), and blue (8) color resists are used to form the retaining wall by stacking the color layers. For one embodiment, the present invention can adjust the height (or thickness) of red (R), green (6), blue (B) color resist height (or ^ degree) or (iv) 66 depending on the needs of the process. The broadcast wall 66 is disposed between the display area and the seal 68, and the sealant 68 surrounds the retaining wall%. Since the retaining wall structure is placed on the dummy pixel area, the creation method of this creation does not affect the size of the active area and the substrate utilization. Referring to the second figure, it is a liquid crystal display name provided by another embodiment of the present invention. It is worth mentioning that in this embodiment, the color filter substrate 60 is a transparent conductive substrate, and the color filter (cell) is formed on the color filter on array (c〇A). a substrate 7A, a color light-emitting sheet formed on the substrate above the thin film transistor array, a thin film transistor array (not shown), color light-emitting units 62, 63, 64 and a wall 66, a color filter unit 62, 63, 64 are formed on the thin film electro-crystal array. The common electrode 65 is formed under the color filter substrate 60, and the halogen electrodes 67a, 67b, 67c are formed on the color filter units 62, 63, 64, respectively, and the pixel electrodes 67a, 67b, 67c are on the color filter. Above the substrate 70 formed over the thin germanium transistor array is a discontinuous film layer. The color filter is formed on the substrate 7 above the thin film transistor array and comprises a 9 M359725^color light array structure. Therefore, the substrate 70 formed by the color filter above the thin film electro-crystal array itself has a filtering function. In other words, the design of the present invention can also be applied to liquid crystal display cracks including a color light-emitting array and a thin film < In this embodiment, the first color layer, the second stack, the laminate 63a, and the third layer are formed on the dummy pixel region of the substrate 7 on the substrate 7 above the thin film transistor array. The stacked layers (4) are sequentially formed on the black matrix layer or the light-shielding layer to form the support wall 66 as a liquid crystal wall. In summary, the stacked layer, the color light-emitting substrate, the active 7L device array substrate, and the liquid crystal display panel proposed by the present invention have at least the following advantages: (), the germanium layer stack and the color filter 'light single layer are simultaneously formed, when utilized When a color filter having a stacked layer, a light substrate, or a color filter is formed on a substrate above the thin film transistor array (COA) to form a liquid crystal display panel, the flow of the liquid crystal is blocked by the layer and the liquid crystal cannot be The uncured frame glue is in contact, so the liquid crystal can be prevented from being contaminated. # (2) The stacked layer structure, color (4), green plate and color light-proof sheet proposed by the present invention are formed on the substrate above the thin film transistor array ((3)A) and the liquid crystal display panel is produced without adding additional processing equipment or mask Therefore, its production costs will not increase. For those skilled in the art, this creation is exemplified by a better example. It is not intended to limit the spirit of the creation. Modifications and similar configurations made without departing from the spirit and scope of this creation should be included in the scope of the patent application below, which should cover all similar modifications and similar structures and should be interpreted broadly. 10 M359725 [Simple description of the diagram] The above components, and
之液晶顯示裝置製造方法之截 與優點’藉由閱讀實 乍之第一實施例,為本創作 面示意圖。 第二圖根據本創作之第二 。 晶顯示裝置之截面示意圖。施例,為本創作之另一液 【主要元件符號說明】 彩色濾光基板60 黑矩陣層61、61 a 紅光濾光單元62 綠光濾光單元63 藍光遽光單元64 第一堆疊層62a 第一堆疊層63a 第二堆疊層64a 共用電極65 擋牆66 旦素電極 67、67a、67b、67c 框膠68 主動元件陣列基板69 體陣列上方之基板70 表色:慮光片形成於薄膜電晶The advantages and disadvantages of the method of manufacturing a liquid crystal display device are shown in the first embodiment of the reading. The second picture is based on the second of this creation. A schematic cross-sectional view of a crystal display device. Example, another liquid of the present invention [Major component symbol description] Color filter substrate 60 Black matrix layer 61, 61 a Red light filter unit 62 Green light filter unit 63 Blue light-emitting unit 64 First stacked layer 62a First stacking layer 63a second stacking layer 64a common electrode 65 retaining wall 66 denier electrodes 67, 67a, 67b, 67c sealant 68 active device array substrate 69 substrate above the body array 70 color: the light sheet is formed on the thin film crystal