201202808 六、發明說明: 【發明所屬之技術領域】 本發明有關於-種平面顯示器技術 種可改盖Μ映立丨私/ . 寸乃Ί疋有關於一 J馭剝離(seal peeling)的液晶顯示面板。 【先前技術】 近年來,隨著電子產品發展技術的進步及其 的應用,像是行動電話、個人數位 八皿汽, PDA)及筆記型電腦的^ ^rS°nal叫制 相比呈使得與傳統顯示器 相比八有較小體積及電力消耗特性的平面顯示器(制 display,FPD)之需求與日俱增, 電子應用產品之-。 要的 液晶顯示器為上述平面顯示器的其中一種,其通常包 括—車列基才反彩色濾光片基板以及位於其間的液晶 層:第1、圖係緣示出-習知液晶顯示面板的局部結構剖面 不意圖。液晶顯示面板]〇包括:一彩色渡光片基板12、 一陣列基板14、以及位於其間的液晶層2 〇。彩色濾光片基 板12由内而外依序具有一顯示區12a、一框膠區以及 一邊緣區12c。再者,陣列基板14與彩色漁 經由對應於框膠區】2b的一框膠材料層18而彼此貼"合並在 其間形成液晶槽以放置液晶層20。彩色遽光片基板12上 通吊覆盍了作為共用電極的一透明導電層]6,其自顯示區 ]2a延伸至框膠區]2b及邊緣區]2c。然而,由於透明導電 層16與框膠材料層】8之間的黏合能力不佳,因此容易在 透明導電層]6與框膠材料層〗8之間發生剝離而導致彩色 9109-A35085TWF P2010004 4 201202808 濾光片基板12與陣列基板14分離,降低液晶顯示面板ι〇 的良率。 因此,有必要尋求一種新的液晶顯示面板結構,其可 解決上述的問題。 ’ 【發明内容】 本發明一實施例提供一種影像顯示系統。此系統包括 -液晶顯示面板,其包括:—陣列基板;—彩色濾光片基 ♦板,與陣列基板相對設置且具有一顯示區、環繞顯示區的 一框膠區以及環繞框膠區的一邊緣區;一透明導電圖荦 層:覆蓋顯示區的彩色濾光片基板而露出框膠區及邊緣區 的衫色渡光片基板’且面㈣列基板;以及—框膠材料層, 設置於陣聽板與彩W、以基板之間,且對應於框膠 區,使框膠材料層與露出的框勝區的彩色滤光片基板至^ 一部分接觸。 【實施方式】 ^下。兒月本么a月貫施例之景多像顯示系統。請參照第从 圖及第2B圖,其中第2八圖本發明一實施例之具有液晶顯 不面板的影像顯示系統局部結構剖面示意圖,而第2b圖係 繪不出第2A目中具有透明導電圖案層的彩色渡光片基板 平面示意圖。在本實施例中,液晶顯示面板細至少包括: -陣列基板120、-彩色遽光片基板以及—框膠材料 層130。陣列基板⑶上通常具有-薄膜電晶體 transistor,TFT)陣列,并步达 7 此處為了間化圖式,僅繪示出以一 9I09-A35085TWF P2010004 201202808 平整基板。彩色濾光片基板100與陣列基板120相對設置。 彩色濾光片基板100通常具有彩色濾光片陣列,此處為了 簡化圖式’僅繪示出以一平整基板。再者,彩色濾光片基 板100具有一顯示區l〇〇a、一框膠區100b以及一邊緣區 100c,其中框膠區]〇0b環繞顯示區1〇〇a,且邊緣區I〇〇c 環繞框膠區l〇〇b,如第2B圖所示。 框勝材料層130,其由有機材料所構成,例如熱固型 環氧樹脂或光硬化樹脂,設置於彩色濾光片基板1〇〇與陣 列基板120之間,且對應於彩色濾光片基板1〇〇的框膠區 ]00b。陣列基板120與彩色滤光片基板1 〇〇經由對應於框 膠區l〇〇b的框膠材料層130而彼此貼合並在其間形成液 晶槽以放置液晶層]40。 一透明導電圖案層112設置於彩色濾光片基板1〇〇 上,且面向陣列基板12〇,以作為液晶顯示面板2〇〇的一 共同電極。在一實施例中’透明導電圖案層112可包括銦 錫氧化物(indium tin oxide,ITO)。在其他實施例中,透 明導電it層112也可包括銦鋅氧化物(indiumzinc〇xide, ιζο)或氧化鋅(Zn0)。在本實施例中特別的是透明導電 圖案層112僅位於顯示區1〇〇&的彩色遽光片基板1〇〇上: 完全露出位於框勝區嶋及邊緣區i账的彩色濾光片基 板100,使鄉材料層13G能夠與露出的框膠區1⑽ 色濾光片基板]00接觸。 / 二W3A圖及圖係為本潑 %例之具有液晶顯示面板的影像顯示系統局^ 拙示意圖,而第3B圖係繪示出第3A圖中具有透明 9109-A350S5TWF^P2〇|〇〇〇4 6 201202808 圖案層的形色濾、光片基板平面示意圖。在第圖及第祁 略::目同於第2A圖及第2B圖的部件係使用相同標號並省 /、祝明。在本實施例中,不同於第2 A圖及第2 B圖所示 貫%例之處在於除了透明導電圖案層112之外, 2 = 設置於彩色滤光片基板1〇0上,且位於彩色 肩先片基板⑽的框膠區嶋内。再者,透明導電圖案層 14與至少—部分的透明導電圖案層⑴連接。在一實ς201202808 VI. Description of the Invention: [Technical Field of the Invention] The present invention relates to a kind of flat-panel display technology which can be modified to cover the 丨 丨 丨 / / . . 寸 寸 Ί疋 Ί疋 Ί疋 Ί疋 s s s s s s s s s s s s s s s s panel. [Prior Art] In recent years, with the advancement of electronic product development technology and its applications, such as mobile phones, personal digital eight-disc, PDA) and notebook computers, ^^rS°nal is compared with Traditional displays have a growing demand for flat-panel displays (FPDs) with smaller size and power consumption characteristics, and electronic applications. The liquid crystal display is one of the above-mentioned flat-panel displays, which generally includes a car-column-based inverse color filter substrate and a liquid crystal layer interposed therebetween: the first embodiment shows a partial structure of a conventional liquid crystal display panel The profile is not intended. The liquid crystal display panel 〇 includes a color light guide substrate 12, an array substrate 14, and a liquid crystal layer 2 therebetween. The color filter substrate 12 has a display area 12a, a sealant area, and an edge area 12c sequentially from the inside to the outside. Further, the array substrate 14 and the colored fish are attached to each other via a layer of the sealant material 18 corresponding to the sealant region 2b to form a liquid crystal cell therebetween to place the liquid crystal layer 20. A transparent conductive layer 6 as a common electrode is overlaid on the color filter substrate 12, and extends from the display region 2a to the sealant region 2b and the edge region 2c. However, since the adhesion between the transparent conductive layer 16 and the sealant layer 8 is not good, it is easy to peel off between the transparent conductive layer 6 and the sealant layer 8 to cause color 9109-A35085TWF P2010004 4 201202808 The filter substrate 12 is separated from the array substrate 14 to reduce the yield of the liquid crystal display panel. Therefore, it is necessary to find a new liquid crystal display panel structure which can solve the above problems. SUMMARY OF THE INVENTION An embodiment of the invention provides an image display system. The system comprises: a liquid crystal display panel, comprising: an array substrate; a color filter base board, disposed opposite to the array substrate and having a display area, a frame glue area surrounding the display area, and a surrounding rubber area An edge region; a transparent conductive layer: a color filter substrate covering the display region to expose the shirt color plate substrate of the sealant region and the edge region, and a surface (four) column substrate; and a layer of a sealant material disposed on The lining board and the color W, the substrate, and the glue-bonding area, the visor material layer is in contact with the exposed color filter substrate of the frame area. [Embodiment] ^下下. The child's monthly experience is like a display system. Referring to FIG. 2 and FIG. 2B , FIG. 2 is a schematic cross-sectional view showing a partial structure of an image display system having a liquid crystal display panel according to an embodiment of the present invention, and FIG. 2b is not a transparent conductive material in the second object. A schematic plan view of a color plate substrate of a pattern layer. In this embodiment, the liquid crystal display panel is at least: - an array substrate 120, a color calender substrate, and a masking material layer 130. The array substrate (3) usually has a thin film transistor (TFT) array, and is up to 7 here. For the sake of the pattern, only the substrate is shown as a 9I09-A35085TWF P2010004 201202808. The color filter substrate 100 is disposed opposite to the array substrate 120. The color filter substrate 100 typically has a color filter array, and only a flat substrate is shown here for simplicity. Furthermore, the color filter substrate 100 has a display area 10a, a sealant area 100b, and an edge area 100c, wherein the glue area 〇0b surrounds the display area 1〇〇a, and the edge area I〇〇 c Surround the frame rubber zone l〇〇b as shown in Figure 2B. The frame material layer 130 is composed of an organic material, such as a thermosetting epoxy resin or a photo-curing resin, disposed between the color filter substrate 1 and the array substrate 120, and corresponds to the color filter substrate. 1 〇〇 box glue area] 00b. The array substrate 120 and the color filter substrate 1 are bonded to each other via a sealant material layer 130 corresponding to the seal region lb to form a liquid crystal groove therebetween to place the liquid crystal layer 40. A transparent conductive pattern layer 112 is disposed on the color filter substrate 1A and faces the array substrate 12A as a common electrode of the liquid crystal display panel 2''. In an embodiment, the transparent conductive pattern layer 112 may include indium tin oxide (ITO). In other embodiments, the transparent conductive layer 112 may also include indium zinc oxide (indium zinc oxide) or zinc oxide (Zn0). In this embodiment, in particular, the transparent conductive pattern layer 112 is only located on the color filter substrate 1〇〇 of the display area 1〇〇&: completely exposing the color filter located in the frame area and the edge area The substrate 100 allows the home material layer 13G to be in contact with the exposed sealant region 1 (10) color filter substrate 00. / The two W3A diagrams and diagrams are schematic diagrams of the image display system with a liquid crystal display panel, and the 3B diagram shows that the 3A diagram has a transparent 9109-A350S5TWF^P2〇|〇〇〇 4 6 201202808 The color filter of the pattern layer and the schematic diagram of the light substrate. In the drawings and the following:: The components in the same manner as in Figs. 2A and 2B are given the same reference numerals and are omitted. In the present embodiment, the difference between the second embodiment and the second embodiment is that, in addition to the transparent conductive pattern layer 112, 2 = is disposed on the color filter substrate 1〇0, and is located. The colored shoulder first substrate (10) is inside the frame rubber area. Further, the transparent conductive pattern layer 14 is connected to at least a portion of the transparent conductive pattern layer (1). In a real
明導電圖案層114與透明導電圖案層ιΐ2可由同 二==所構成。在其他實施例中,透明導電圖案層ιΐ4 =柯不同於透明導電圖案層112且包括銦錫氧化物 (Τ〇)、銦鋅氧化物(肋)或氧化鋅(Ζη0)。 卞此ft別f疋透明導電圖案層114具有複數開口 114a,且 该二開口]14a的總面積為框勝區1 〇〇b總面積的5%至95〇/ 使框膠材料層13。經由該些開D114a而盘部分二 形色遽先片基板H)〇接觸。在—實施例中,開口⑽ 矩形,如第3B®所示。在其他實施例中,開口丨…可為 :二:—一或不規則形。在本實施 ==LU4a可具有相同或不相同的形狀及尺寸。 再者’该些開口 114a可具有規則或不規則的排列。 另-第且t圖及第犯圖’其中第4A圖係為本發明 貝也例之八有液晶顯示面板的影像顯 =示意圖’而第4B圖係緣示出第4a圖中具有透^ =The conductive conductive pattern layer 114 and the transparent conductive pattern layer ι2 may be composed of the same two ==. In other embodiments, the transparent conductive pattern layer ι4 = ke is different from the transparent conductive pattern layer 112 and includes indium tin oxide (yttrium), indium zinc oxide (rib) or zinc oxide (??). The transparent conductive pattern layer 114 has a plurality of openings 114a, and the total area of the two openings] 14a is 5% to 95 Å of the total area of the frame area 1 〇〇 b / the layer 13 of the sealant material. Through the opening D114a, the disk portion is in contact with the dichroic substrate H). In the embodiment, the opening (10) is rectangular, as shown in Figure 3B®. In other embodiments, the opening 丨... can be: two: one or irregular. In this implementation == LU4a may have the same or different shapes and sizes. Further, the openings 114a may have a regular or irregular arrangement. In addition, the second and the second diagrams and the first map are the fourth embodiment of the invention. The image of the liquid crystal display panel is shown in the figure of the invention. The image of the fourth panel is shown in Fig. 4a.
彩色濾光片基板平面示意圖。在第 B =相同於第3A圖及第3B圖的部件係使3 略其說明。在本實施例中,不同於第Μ圖及第二:: 9109-A35085TWF—Ρ201 〇〇〇4 7 201202808 實施例之處在於除了透明導電圖案層112及u 透明導電圖案層U6設置於彩色渡光片基板⑽上,且: 於彩色濾、光片基板_的邊緣區職。再者 位 案層H6與至少-部分的透料電綠層]14連接。^圖 實施例中,透明導電圖案層116與透明導電圖荦 ^ ^可由同—材料層所構成。在其他實施例卜i明導^ 圖案層116的材料可不同於透明導電圖案層112及/或114 且包括銦錫氧化物(ΙΤΟ )、钿钮备 · (Ζη〇)。 υ)轉軋化物(ΙΖΟ)或氧化鋅 一請參照第5Α圖及第沾圖,其中第5八圖係本發明另 之具有液晶顯示面板的影像顯示系統局 :不思圖’而第5Β圖輪出第靖具有透明導電圖 案層的彩色遽光片基板平面示意圖。在第5 ^目^於第2Α圖及第2Β圖的部件係使用相同標號並省略 施;:Ϊ本實施例中’不同於第2Α圖及第⑸圖所示實 施例之處在於除了透明導電圖案層U2之外, 116設置於彩色濾光片基板1〇〇上,且位於彩色遽 明導的邊緣區嫩’使轉材制m夾設於透 月=電圖案層U2與透明導電圖案層116之間,且能夠虚 =區祕中露出的彩色濾'光片基板100接觸。在-ί施 1 中、,’;透明導電圖案層116與透明導電圖案層Η2可由同 的=層所構成。在其他實施例中’透明導電圖案層m 可不同於透明導電圖案層n2且包括姻錫氧化物 ()、銦鋅氧化物Πζ〇)或氧化鋅(Zn0)。 根據上述實施例,由於彩色遽光片基板通常包括 9l〇9-A35085TWF_P2〇|〇〇〇4 0 201202808 由有機材料所構成的彩色濾光片,因此可透過框膠材料層 130與彩色濾光片基板100之間良好的黏著性而增加陣列 基板120與彩色濾光片基板100之間的黏合能力。再者, 由於具有開口 114a的透明導電圖案層114可增加其與框膠 材料層130的接觸面積,因此也可提升框膠材料層130與 透明導電圖案層114之間的黏合能力,進而提升液晶顯示 面板200的良率。另外,由於透明導電圖案層自顯示區延 伸至框膠區及/或邊緣區,因此可進一步改善液晶顯示面板 _ 的靜電放電(electrostatic discharge, ESD )防護。 第6圖係繪示出根據本發明另一實施例之具有影像顯 示系統方塊示意圖,其可實施於一平面顯示器(FPD) 300 或電子裝置500,例如一筆記型電腦、一手機、一數位相 機、一個人數位助理(PDA)、一桌上型電腦、一電視機、 一車用顯示器、或一攜帶型DVD播放器。平面顯示器300 可具有之前所述的液晶顯示面板200,因而平面顯示器300 可為液晶顯示器。如第6圖所示,平面顯示器300包括一 • 液晶顯示面板200,如第2至5圖中的液晶顯示面板200 所示。在其他實施例中,電子裝置500可具有平面顯示器 300。如第6圖所示,電子裝置500包括:一平面顯示器 300及一輸入單元400。再者,輸入單元400係耦接至平面 顯示器300,用以提供輸入信號(例如,影像信號)至平 面顯示器300以產生影像。 雖然本發明已以較佳實施例揭露如上,然其並非用以 限定本發明,任何所屬技術領域中具有通常知識者,在不 脫離本發明之精神和範圍内,當可作更動與潤飾,因此本 9109-A35085TWF P2010004 9 201202808 毛明之保_圍#視後附之申請專利範圍所界定者為準。 【圖式簡單說明】 第1圖係繪示出一習4 示意圖; 白头,夜曰曰顯不面板的局部結構剖^ 第2A圖係繪示出根據本發明一 示面板的影像顯示系統局部結二之具有液晶顯 弟2B圖係繪示出第9 Δn丄 色遽光片基板平面示意圖;目中具有透明導電圖案層的彩 第3A圖係緣示出根據本發明一實施例之 示面板的影像顯示系统局部結構剖面示意圖Γ ,A schematic view of the color filter substrate. In the case of the Bth = the same as the parts of the 3A and 3B, the description is omitted. In this embodiment, different from the second drawing and the second:: 9109-A35085TWF-Ρ201 〇〇〇4 7 201202808 The embodiment is that the transparent conductive pattern layer 112 and the u transparent conductive pattern layer U6 are disposed in the color crossing light. On the substrate (10), and on the edge of the color filter and the light substrate _. Further, the layer H6 is connected to at least a portion of the transmissive green layer 14 . In the embodiment, the transparent conductive pattern layer 116 and the transparent conductive pattern 可由 ^ can be composed of the same material layer. In other embodiments, the material of the pattern layer 116 may be different from the transparent conductive pattern layer 112 and/or 114 and include indium tin oxide (ΙΤΟ), 钿 备 · (。η〇). υ) Rolling compound (ΙΖΟ) or zinc oxide, please refer to Figure 5 and the first immersion diagram, wherein the fifth image is another image display system with liquid crystal display panel of the present invention: not thinking 'and the fifth picture A schematic plan view of a color slab substrate having a transparent conductive pattern layer is taken out. The components in the 5th and 2nd drawings are denoted by the same reference numerals and are omitted; in the present embodiment, the embodiment different from the second and fifth embodiments is in addition to the transparent conductive. In addition to the pattern layer U2, 116 is disposed on the color filter substrate 1〇〇, and is located in the edge region of the color 遽 导 ' 使 使 使 转 转 转 转 转 转 转 转 转 转 = = = = = = = = = = = = = = = = = = = = Between 116, and can be contacted by the color filter 'light substrate 100 exposed in the virtual area. In the "," transparent conductive pattern layer 116 and the transparent conductive pattern layer 可由2 may be composed of the same = layer. In other embodiments, the transparent conductive pattern layer m may be different from the transparent conductive pattern layer n2 and includes a tin oxide (), indium zinc oxide (ITO) or zinc oxide (Zn0). According to the above embodiment, since the color slab substrate generally comprises a color filter composed of an organic material, the smear material layer 130 and the color filter can be transmitted through the lining material layer 130 and the color filter. The good adhesion between the substrates 100 increases the adhesion between the array substrate 120 and the color filter substrate 100. Moreover, since the transparent conductive pattern layer 114 having the opening 114a can increase the contact area with the sealant material layer 130, the adhesion between the sealant material layer 130 and the transparent conductive pattern layer 114 can also be improved, thereby improving the liquid crystal. The yield of the display panel 200 is displayed. In addition, since the transparent conductive pattern layer extends from the display region to the sealant region and/or the edge region, the electrostatic discharge (ESD) protection of the liquid crystal display panel can be further improved. 6 is a block diagram showing an image display system according to another embodiment of the present invention, which can be implemented in a flat panel display (FPD) 300 or an electronic device 500, such as a notebook computer, a mobile phone, and a digital camera. , a number of assistants (PDAs), a desktop computer, a television, a car display, or a portable DVD player. The flat panel display 300 may have the liquid crystal display panel 200 previously described, and thus the flat panel display 300 may be a liquid crystal display. As shown in Fig. 6, the flat panel display 300 includes a liquid crystal display panel 200 as shown in the liquid crystal display panel 200 in Figs. 2 to 5. In other embodiments, electronic device 500 can have a flat display 300. As shown in FIG. 6, the electronic device 500 includes a flat panel display 300 and an input unit 400. Moreover, the input unit 400 is coupled to the flat display 300 for providing an input signal (eg, an image signal) to the flat display 300 to generate an image. Although the present invention has been disclosed in the above preferred embodiments, it is not intended to limit the invention, and any one of ordinary skill in the art can be modified and retouched without departing from the spirit and scope of the invention.本9109-A35085TWF P2010004 9 201202808 毛明之保_围# As defined in the scope of the patent application, the scope of application is subject to change. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing a conventional structure; a white head, a partial structure of a night illuminating panel; Fig. 2A is a partial view showing an image display system of a panel according to the present invention; 2 has a liquid crystal display 2B diagram showing a plan view of the ninth Δn 遽 color enamel substrate; the color of the transparent conductive pattern layer in the color of the 3A diagram rim shows the panel according to an embodiment of the present invention Schematic diagram of the partial structure of the image display system,
第3B圖係緣示出第3 A 色遽光片基板平面示意圖圖中具有透明導電圖案層的彩 -面系繪示出根據本發明-實施例之具有液晶顯 不面板的衫像顯示系統局部結構剖面示意圖; ,··,、 第4B圖係繪示出第从圖中具有透明導電圖案層的彩 色滤光片基板平面示意圖; 〃 / 第从圖係繪示出根據本發明—實施例之具有液晶顯 不面板的Θ像顯示系統局部結構剖面示意圖; ' 第5B圖係繪示出第5八圖中 色濾光片基板平面示意圖;以及 电〜層的夯 第6圖係繪示出根據本 每 示系統方塊示意圖。 W — A例之具有影像顯 【主要元件符號說明】 9109-A35085TWF_P2010004 10 201202808 習知 1 〇〜液晶顯不面板, 12〜彩色濾光片基板; 12a〜顯示區; 12b〜框勝區, 12 c〜邊緣區, 14〜陣列基板; 16〜透明導電層; 18〜框膠材料層, 20〜液晶層。 實施例 100〜彩色濾光片基板; 10〇3~顯不區, 1001)~框膠區, 100c〜邊緣區; 112、114、116〜透明導電圖案層; 0 114a〜開口; 120〜陣列基板; 130〜框膠材料層; 140〜液晶層; 200〜液晶顯不面板, 300〜平面顯示器; 400〜輸入單元; 500〜電子裝置。 9I09-A35085TWF P20100043B is a plan view showing a plan view of a 3A A color slab substrate having a transparent conductive pattern layer in a plan view showing a portion of the jersey display system having a liquid crystal display panel according to the present invention. FIG. 4B is a schematic plan view showing a color filter substrate having a transparent conductive pattern layer in the drawing; 〃 / the following diagram shows the embodiment according to the present invention. A schematic cross-sectional view of a partial structure of an image display system having a liquid crystal display panel; '5B is a plan view showing a color filter substrate in FIG. 8; and FIG. 6 is a diagram showing an electric layer Each block diagram of the system. W - A case with image display [Main component symbol description] 9109-A35085TWF_P2010004 10 201202808 Convention 1 〇 ~ LCD display panel, 12 ~ color filter substrate; 12a ~ display area; 12b ~ frame win area, 12 c ~ edge area, 14 ~ array substrate; 16 ~ transparent conductive layer; 18 ~ frame glue material layer, 20 ~ liquid crystal layer. Embodiment 100 to color filter substrate; 10〇3~ display area, 1001)~ frame glue area, 100c~edge area; 112, 114, 116~ transparent conductive pattern layer; 0 114a~open; 120~ array substrate ; 130 ~ frame glue material layer; 140 ~ liquid crystal layer; 200 ~ liquid crystal display panel, 300 ~ flat display; 400 ~ input unit; 500 ~ electronic device. 9I09-A35085TWF P2010004