200921200 九、發明說明: 【發明所屬之技術領域】 本發明係關於一種平面切換式液晶顯示裝置裝置,具 有一像素電極及一普通電極形成在同一基材,且尤指一種 平面切換式液晶顯示裝置,其具有抑制因外部靜電所造成 之 液晶偏光之能力,以改善圖像顯不品質’其係措由在 一第一傳導層及一第二傳導層之間形成一感應電場,一普 通電壓透過一電氣連接而施加至該感應電場。 【先前技術】 近來,平面切換式液晶顯示裝置(IPS LCD)已被廣泛地 研究。該平面切換式液晶顯示裝置包括在同一基材形成兩 個電極,以致一電壓施加在兩電極之間,以產生與該基材 有關之一水平電場或一邊界電場。 其後,一習知的平面切換式液晶顯示裝置將隨同圖式 予以欽述。 第一圖係為一習知平面切換式顯示器之橫切圖。 由於第一圖所展示之習知平面切換式液晶顯示裝置包 括具有一像素電極及一普通電極之一像素陣列22,且形成 在一下部基材20之一侧,當靜電從一不具有電極的上部基 材產生時,一液晶偏光可能會因靜電而產生在一液晶層(LC, 40)中,從而使顯示圖像品質惡化。為了避免該液晶偏光出 現,使用了 一種將從外部經由一 SUS框30所引進之靜電 接地之方法,該靜電的引導方式係藉由塗佈一透明傳導層 200921200 16於該上部基材1〇的後端表面上,並連接一銅帶%至該 才匸,該SUS框3〇係環繞一模鱗框架29。 一如上所述’該透明傳導層16與該SUS框30接觸,如 同:接地終端運作,以預防作為一介電材料之該上部基材 10藉由外靜電的導人而充電,從而預防因該靜電而使得 該電場侵入一液晶40。 然而,當該SUS框30被移除以形成一小型、輕量及 緊捃之裝置,如一行動或可攜設備時,形成在該上部基材 10的後邛表面之該透明傳導層16必須被浮起,使其不可 能完美地屏蔽該靜電。 【發明内容】 本發明已經記取相關先前技術產生之問題,且本發明 之目標係提供-種平面切換式液晶顯示I置,其具有抑制 導因於外部靜電之一液晶偏光之能力 質。 以改善顯示圖像品 料㈣上述目標,按照本發明之〜觀點,係提 平面切換式液—示裝置,包括:-第〜基材,具有 傳V層及第〜傳導層,該第—傳導層 在該第—基材之每-面;—第二基材, 極及:透料,極形成在該第二紐面透2 -傳導層’ 1氣連接部份,被配置 ' 傳導層至該透明教、^^ 电虱地連接該 之一益通電壓胃·極’其中’施㈣該透明普竭 曰 ,#透過該電氣連接部分被施加至該第 200921200 導層。 按照本發明之另-觀點,# ^ 示裝置,包括材千面切換式液晶顯 道& n 材,具有—第一傳導層、第二傳 絕=,在該第—傳導層及第二傳導層之間; 成二像素電極及-透明普通電極,形 成在5亥弟一基材之一表面,面對該第二傳導声. 接部份,係被配置以電氣地連 : ^ 補雷搞甘士 逻楼该弟一傳導層至該透明普 電和Ί ’施加至該透明f 透過該電氣連接部份施加至該第二傳導層曰通電壓’係 坦化該絕緣層可能為塗佈層(。赠咖心㈣以改善平 導 該彩色濾光片層可能形成在該第 個彩色遽光片圖案,且該第二傳導層可能被圖宰 性遮光層形成在該等彩色遽光片圖案之間。 、 形 狀。該第-傳導層可能被圖案化形成相應該遮光層之一 該 彩 層 ^ 色濾光片層可能進—步形成在該第—基材上, 片層包括複數個彩色攄光⑼案及形成在該等 係圖案化形成相應該傳導性遮光層之—形狀°。弟一傳導 該第-傳導層可能為—料性偏光板取代。 更佳地,該平面切換式液晶顯示裝置,更進— 一傳導性偏光板在該第一傳導層上。 /匕括 該第一傳導層可能由一金屬 田鱼屬材科或一傳導性樹脂所形 200921200 成。 该第-傳導層可能完全由一透明金屬材料或一透 導性樹脂所形成。 ' 更佳地,該平面切換式液晶顯示裝置,更進一步包括 -彩色濾、光片層形成在該第—基材,該彩色濾、光片層包含 複數個彩色絲片圖案及-遮⑽包含彩色濾光片圖案。 更佳地,該平面切換式液晶顯示裝置,更進一步包括 -塗佈層在該第-傳導層及該第二傳導層之間。 【實施方式】 為充分瞭解本發明之目的、特徵及功效,茲藉由下述 具體之實施例,並配合所附之圖式,對本發明做一詳㈣ 明,說明如後。然而,本發明可以許多不同形式而實施且 不應被認為係被該等具體實施例所限制。更確切地,該等 具體實施例已完全揭露,且完全傳達本發明之^屬 技術領域者。 图丁所屬 第二A圖為符合本發明之一具體實施例的一平面切換 =晶顯4置,橫_ ’且第圖為—平面切換式液 曰曰,員不表置包括第二A圖的—轉移打點部份之平面圖。 於後,符合本發明之一具體實施例之該平面切換式液 晶顯:裝置將參照第二A圖及第圖說明。 裝置月體實施例之該平面切換式液晶顯示 土材210,複數個彩色濾光片層212R、 2β ’-傳導性遮光層2】4,-傳導層216,一第 200921200 二基材220,一像素陣列222,包括一透明像素電極及一透 明普通電極’及一電氣連接部份224。 該傳導層216係形成在該第一基材21〇之一表面。當 該傳導層216係形成在該第一基材21〇之一表面全部時, 該傳導層216可能由一透明傳導樹脂或-透明傳導金屬材 料,例如具有相對較佳的光透射率之銦錫氧化物(indium tin oxide, ITO)或銦鋅氧化物zinc 〇xide, IZ〇)所形成。 r 另外,當該傳導層216係在該第一基材21〇之一表面形成 圖案以配合該傳導性遮光層214時,該傳導層216可能由 各種形式之金屬材料及傳導性樹脂所形成,包括該透明傳 導性樹脂及該透明傳導金屬材料。在此,該透明傳導性樹 月曰可能由銦錫氧化物(indium tin oxide)粉末及丙烯盤基 (IT0粉末加丙烯藤基)之一混合物、環氧化物,或其類似物 所形成。 一上部傳導性偏光板219可能被形成在該傳導層 216。除此之外’該上部傳導性偏光板219可能被形成在該 第一基材210而沒有該傳導層216。 該傳導性遮光層,換言之,即複數個黑色矩陣,係用 以預防漏光,且可能包含鉻(Cr)。該傳導性遮光層214係 以預定之複數間隔而形成在該第一基材210之另一表面, 一般用以區分紅色、綠色及藍色之該彩色濾光片層212r、 212G 及 212B。 該等彩色濾光片層212R、212G及212B,一般由一感 光有機材料形成,係交替地依紅色、綠色及藍色彩色渡光 10 200921200 片圖案次序排列在該等傳導性遮光層214之間。同時,一 塗佈層218可能被選擇性地形成在該等彩色濾光片層 212R、212G及212B之下,以移除由該等彩色滤光片層 212R、212G 及 212B 所產生之一階差(step dif、ference)及改 善平坦性。 — 一像素陣列222,包括一透明像素電極及一透明普通 - 電極,係被形成在該第二基材220之一表面。雖然沒有特 r 別地表示,每一像素區域係由複數個閘線及複數個資料線 彼此形成交叉而被定義。複數個切換裝置係被配置在該等 閘線與該等資料線之交叉點處。該像素電極及該透明普通 電極係被彼此隔開,以—絕緣層插入彼此之間以重疊一預 定之區域,且係被配置於該像素區域,用以施加一電壓至 一液晶層230 ,從而調整光透射率。 該電氣連接部份224係電氣地連接至該傳導性遮光層 214及該像素㈣222之透明普通電極,並包括—轉移打 v 卩如,其包含具有咼傳導性之一金屬,較佳地為銀(Ag), 或包含金(An)之一傳導性密封構件。 § 一普通電壓被施加至該像素陣列 222之透明普通電 極時該音通電壓係透過該電氣連接部份—施加至該傳 導性遮光層214 ’以在該傳導性遮光層214及該傳導層216 之間形成-感應電場’從而避免外部靜電影響該液晶層 亦_即第一 A圖裡該第—基材21〇中垂直方向的雙向 ^頭所不’該感應電場係被形成在該傳導層216及該傳導 遮光層214之間,以避免在該液晶層230中產生-液晶 200921200 偏光。 在第二A圖,元件符號225# 符號226指定為一下A 在封構件,兀件 光單元,[二:板’元件符號228指定為-背 先早1及爾號229指定為-模鑄樞架。 虽该電氣連接部份224炎 _ _ , B圖所示,該轉移打點部份時,如第二 域之密封構件225的外“。4可月b形成在環繞該像素區 / \ 在此,當該解層^ 取代時,該感應電場係被4 ^生偏光板219 及該傳導性遮光層214之間成在該上㈣導性偏光板219 液曰I:-:為付口本發明另—具體實施例之-平面切換式 液日日顯不裝置的橫切圖。 考第―圖,符合本發明之—具體實施例的該平面切 if日顯示裝置’包括—第—基材31G,複數個彩色滤 光片層312R、312G及312B,一遮光層314,一第一傳導 層316,-第二傳導層317,—第二基材划,包括一透明 像素電極及-透明普通電極之—像素陣列322,及一電氣 連接部份3 3 2。 , 该第一傳導層316係被形成在該第一基材31〇之一表 面。當該第一傳導層316係被形成在該第一基材31〇之一 表面全部時,該第一傳導層316可能由一透明傳導性樹脂 或一透明傳導金屬材料,例如具有較佳地光穿透率之銦錫 氧化物(indium tin oxide,IT0)或銦鋅氧化物⑽丨職* oxide,IZ0)所形成。另外,當該第—傳導層316係在該第 12 200921200 一基材310之一表面形成圖案以配合該遮光層314時,該 第-傳導層316可能由各種類型之金屬材料及傳導性樹脂 所形成,包括該透明傳導性樹脂及該透明傳導金屬材料。 在此,該透明傳導性樹脂可能由銦錫氧化物(indium dn oxide)粉末及丙烯醛基(IT〇粉末加丙烯醛基)之一混合 物、環氧化物,或其類似物所形成。 一上部傳導性偏光板319可能被形成在該第一傳導層 316。在另一方面,該上部傳導性偏光板319可能被形成 在該第一基材310而沒有該第一傳導層gw。 該遮光層314用以預防漏光,且可能包括樹脂。由樹 月曰所形成之該遮光層314,可以實施清晰的顯示,甚至是 在一戶外環境之中,因為該遮光層314不會反射外界的入 射光。另外,在執行超高亮度,由該内部反射造成的一淡 紅的顏色問題,可以立即地被解決,且該液晶顯示裝置的 設計及其一製造過程可以被簡化。 該等遮光層314係以預定之複數間隔而被形成在該第 一基材310之另一表面,一般用以區分該等紅色、綠色及 藍色彩色濾光片層312R、312G及312Β。 該等彩色濾光片層312R、312G及312Β,一般由一感 光有機材料形成,係交替地依紅色、綠色及藍色彩色濾光 片圖案依序排列在該等遮光層314之間。 該第二傳導層317實質地在該遮光層314下被圖案化 以形成相應該遮光層314之一形狀。 同時,一塗佈層318可能被選擇性地形成在該等彩色 13 200921200 滤光片層312R、312G及薦之下,以移除由該等彩色滤 先片層312R、312G及312B所產生之階差及改善平坦性。 在本例中,該第二傳導層317可能被形成在該塗佈層318 之下:,此,該塗佈層318可能包括一熱凝材料。 為第—傳導層317可能被形成在該第二基材320及該 以^ 314之間。在本例中,該第二傳導層317被圖案化 j成相應該遮光層314之—形狀,或完整形成在 基材320上。 i 像素陣列322,包括—透明像素電極及—透明普通 夸二係被形成在該第二基材32G之—表面。同時,每一 被域係由複數個閘線及複數個資料線彼此形成交叉而 線=六|魏個城裝置餘配置錢㈣線及該等資料 被彼處(未展示)。該像素電極及該透明普通電極係 預定7開,以一絕緣層(未展示)插入彼此之間以重叠 至__2域,且係被配置於該像素區域,用以施加-電 次日日層330,從而調整光透射率。 3Π 2氣連接部份332係電氣地連接至該第二傳㈣ 打點部;像:車:2二?普通電極’並包括, (切,。二 ―金屬,較佳地為《 卷次包3金(Au)之一傳導性密封構件。 電極Ξι通電壓被施加至該像素陣列322之該透明^ 第二傳^日通電壓係透過該電氣連接部份332施加至言 316^= 317,以在該第二傳導層317及該第—傳& 切成-感應電場,從而避免外部靜電影響該液曰ε 14 200921200 層330亦即,如t -傳導層316及該第二傳導/感應電場係被形成在該第 層330中產生1晶偏光::3士17之間’以避免在該液晶 切換式液晶顯示裴置更進同寸如第二圖所示,該平面 部偏光板326、—背光單_步包括一密封構件325、一下 在此,當該第〜傳導328,及一模鑄框架329。 所取代時,-感應電2 316被該上部傳導性偏光板319 及該第二傳導層317之=皮形成在該上部傳導性偏光板319 同時,由於該液晶顯示 敘述,例如一薄膜命0 "之基本構件皆未有特別地 、甩日日體、—其从 類,且與習知的液晶顯^ ^、:液Μ,及諸如此 省略。 冋,因此洋細的敘述將被 再-示繼例之-平面_式 範實=,該平面切換式液晶顯示裝置將根據本示 根據本不|&貝知例之該平面切換式液晶顯示裝置,包 第基材410 ’複數個彩色濾光片層4咖、4咖及 412B,-傳導性遮光層414,一傳導層416,—第—塗佈層 417 ’ -第一基材侧’包含—透明像素電極及—透明普通 電極之一像素陣列422,及—電氣連接部分424。該傳導層 416係被形成在該第一基材41〇及一第一塗佈層417之間。 t該傳導層416係被形成在該第一基材41〇之下部表面全 部時,該傳導層416可能由一透明傳導性樹脂或一透明傳 15 200921200 導金屬材料所組成,如具有相對地極好的光穿透率之銦錫 氧化物(indium tin oxide, ITO)或銦鋅氧化物(in(jium zinc oxide,IZO)。更進一步,當該傳導層416被形成在該第一 基材410之下且配合該傳導性遮光層414以形成圖案時, 該傳導層416可能由各種金屬材料及傳導性樹脂所形成, 包括該透明傳導性樹脂及該透明傳導金屬材料。 §玄透明傳導性樹脂可能由銦錫氧化物(indium tin oxide) 粉末及丙稀酸基的一混合物(ITO粉末加丙稀醛基)或環氧 化物所組成。更進一步,一上部傳導性偏光板419可能被 形成在該第一基材410。 該傳導性遮光層414用以預防漏光,且可能包括鉻。 該等傳導性遮光層414係被形成在該第一塗伸層417之 下’以一預定距離彼此分開。一般而言,該傳導性遮光層 414用以區分該等紅色、綠色及藍色彩色濾光片層412R、 412G 及 412Β。 5亥專遽光片層412R、412G及412Β,由'一感光有機材 料所形成,係交替地依紅色、綠色及藍色彩色濾光片圖案 次序排列在該等個別的傳導性遮光層414之間。同時,該 等第二塗佈層418可能被選擇性地形成在該等彩色濾光片 層412R、412G及412B之下,以移除由該等彩色濾光片層 412R、412G及412B形成之一階差及改善平坦性。 該像素陣列422,包括一像素電極及一透明普通電極, 係形成在該第一基材420之一表面。同時,雖然沒有展示, 該等個別的像素區域係由形成於彼此交叉的方向之複數個 16 200921200 閘線及複數個資料線所定義,且複 在該等間線及該等資料線之交叉點處 ^置係被形成 電極及該透明普通電極係被彼此隔開,步’該像素 此,間以二—預定區域,且係被形 以施加-電壓至—液晶#㈣ /像素&域,用 氣連接部份424 ^曰 而§周整光透射率。該電 孔連接孙似係電氣地連接至該傳200921200 IX. Description of the Invention: [Technical Field] The present invention relates to a planar switching liquid crystal display device having a pixel electrode and an ordinary electrode formed on the same substrate, and particularly a planar switching liquid crystal display device It has the ability to suppress the polarization of the liquid crystal caused by external static electricity to improve the image quality. The method is to form an induced electric field between a first conductive layer and a second conductive layer. An electrical connection is applied to the induced electric field. [Prior Art] Recently, a planar switching type liquid crystal display device (IPS LCD) has been extensively studied. The planar switching liquid crystal display device includes two electrodes formed on the same substrate such that a voltage is applied between the electrodes to generate a horizontal electric field or a boundary electric field associated with the substrate. Thereafter, a conventional planar switching liquid crystal display device will be described with the accompanying drawings. The first figure is a cross-sectional view of a conventional planar switched display. The conventional planar switching liquid crystal display device shown in the first figure includes a pixel array 22 having a pixel electrode and a common electrode, and is formed on one side of a lower substrate 20, when static electricity is from one without an electrode. When the upper substrate is produced, a liquid crystal polarized light may be generated in a liquid crystal layer (LC, 40) due to static electricity, thereby deteriorating the display image quality. In order to avoid the occurrence of the liquid crystal polarized light, a method of electrostatically grounding introduced from the outside via an SUS frame 30 using a transparent conductive layer 200921200 16 on the upper substrate 1 is used. On the rear end surface, and a copper tape is connected to the 匸 frame, the SUS frame 3 is wound around a die scale frame 29. As described above, the transparent conductive layer 16 is in contact with the SUS frame 30 as if the ground terminal is operated to prevent the upper substrate 10, which is a dielectric material, from being charged by the external static electricity, thereby preventing the Static electricity causes the electric field to intrude into a liquid crystal 40. However, when the SUS frame 30 is removed to form a compact, lightweight, and compact device, such as a mobile or portable device, the transparent conductive layer 16 formed on the back surface of the upper substrate 10 must be Floating up makes it impossible to shield the static electricity perfectly. SUMMARY OF THE INVENTION The present invention has been made in view of the problems associated with the prior art, and the object of the present invention is to provide a planar switching liquid crystal display I having the ability to suppress polarization of a liquid crystal which is caused by external static electricity. In order to improve the display image material (4) the above object, in accordance with the present invention, a planar switching type liquid-display device comprising: - a base material having a V layer and a first conductive layer, the first conduction The layer is on each side of the first substrate; the second substrate, the pole and the: the material is formed on the second button, and the conductive layer is disposed The transparent teaching, ^^ electrically connected to the one of the Yitong voltage stomach, the pole 'where' (Shi) the transparent exhaust, # through the electrical connection part is applied to the 200921200 conductive layer. According to another aspect of the present invention, the device includes a material, a switched surface liquid crystal display, and a material having a first conductive layer, a second pass, and a second conductive layer. Between the layers; a two-pixel electrode and a transparent common electrode formed on one surface of a substrate of 5 hai, facing the second conductive sound. The connecting portion is configured to be electrically connected: ^ a conductive layer of the Ganshiluo building, the conductive layer is applied to the transparent f, and the voltage is applied to the second conductive layer through the electrical connection portion. The insulating layer may be a coating layer. (a gift of the heart (4) to improve the flattening of the color filter layer may be formed in the first color light film pattern, and the second conductive layer may be formed by the patterned light shielding layer in the color light film pattern The shape of the first conductive layer may be patterned to form one of the corresponding light shielding layers. The color filter layer may be formed on the first substrate, and the layer includes a plurality of colors. The Twilight (9) case and the formation of the lines are patterned to form the corresponding conductive light shielding layer - Shape °. The conduction of the first conductive layer may be replaced by a material-based polarizing plate. More preferably, the planar switching liquid crystal display device further includes a conductive polarizing plate on the first conductive layer. The first conductive layer may be formed by a metal genus or a conductive resin. The first conductive layer may be formed entirely of a transparent metal material or a transparent resin. The planar switching liquid crystal display device further includes a color filter layer formed on the first substrate, the color filter layer and the light sheet layer comprising a plurality of color filament patterns and a mask (10) comprising color filters More preferably, the planar switching liquid crystal display device further includes a coating layer between the first conductive layer and the second conductive layer. [Embodiment] In order to fully understand the object and features of the present invention And the present invention will be described in detail by the following specific embodiments, and with the accompanying drawings, which are illustrated in the following. However, the present invention can be implemented in many different forms and should not be considered as being These The embodiments are fully described, and more specifically, the specific embodiments are fully disclosed and fully convey the technical field of the present invention. Figure 2A of Figure 2 is a plane consistent with one embodiment of the present invention. Switching = crystal display 4, horizontal _ 'and the figure is - plane switching liquid enthalpy, the staff does not represent the plan view of the transfer dot portion including the second A picture. Thereafter, in accordance with one embodiment of the present invention For example, the planar switching liquid crystal display device will be described with reference to the second A and the drawings. The planar switching liquid crystal display soil material 210 of the device moon body embodiment, the plurality of color filter layers 212R, 2β '-conducting The light shielding layer 2] 4, the conductive layer 216, a 200921200 second substrate 220, a pixel array 222, including a transparent pixel electrode and a transparent common electrode 'and an electrical connection portion 224. The conductive layer 216 is formed on one surface of the first substrate 21 . When the conductive layer 216 is formed on all surfaces of the first substrate 21, the conductive layer 216 may be made of a transparent conductive resin or a transparent conductive metal material, such as indium tin having relatively good light transmittance. Formed by indium tin oxide (ITO) or indium zinc oxide (zinc 〇xide, IZ〇). In addition, when the conductive layer 216 is patterned on one surface of the first substrate 21 to match the conductive light shielding layer 214, the conductive layer 216 may be formed of various forms of metal materials and conductive resins. The transparent conductive resin and the transparent conductive metal material are included. Here, the transparent conductive tree may be formed of a mixture of indium tin oxide powder and propylene disk (IT0 powder plus propylene vine), an epoxide, or the like. An upper conductive polarizing plate 219 may be formed on the conductive layer 216. In addition to this, the upper conductive polarizing plate 219 may be formed on the first substrate 210 without the conductive layer 216. The conductive light-shielding layer, in other words, a plurality of black matrices, is used to prevent light leakage and may contain chromium (Cr). The conductive light shielding layer 214 is formed on the other surface of the first substrate 210 at a predetermined plurality of intervals, and is generally used to distinguish the color filter layers 212r, 212G, and 212B of red, green, and blue. The color filter layers 212R, 212G, and 212B are generally formed of a photosensitive organic material and are alternately arranged in the order of the red, green, and blue color light 10 in the order of the pattern of the 200921200 sheets between the conductive light shielding layers 214. . Meanwhile, a coating layer 218 may be selectively formed under the color filter layers 212R, 212G, and 212B to remove a step generated by the color filter layers 212R, 212G, and 212B. Difference (step dif, ference) and improved flatness. - A pixel array 222 comprising a transparent pixel electrode and a transparent common-electrode formed on one surface of the second substrate 220. Although not specifically indicated, each pixel region is defined by a plurality of gate lines and a plurality of data lines crossing each other. A plurality of switching devices are disposed at intersections of the gate lines and the data lines. The pixel electrode and the transparent common electrode are separated from each other, and the insulating layer is interposed between each other to overlap a predetermined region, and is disposed in the pixel region for applying a voltage to the liquid crystal layer 230, thereby Adjust the light transmittance. The electrical connection portion 224 is electrically connected to the conductive light shielding layer 214 and the transparent common electrode of the pixel (four) 222, and includes a transfer buffer, for example, which comprises a metal having germanium conductivity, preferably silver. (Ag), or a conductive sealing member containing one of gold (An). § When a normal voltage is applied to the transparent common electrode of the pixel array 222, the sound voltage is transmitted through the electrical connection portion to the conductive light shielding layer 214' to the conductive light shielding layer 214 and the conductive layer 216. Forming an -inducing electric field between them to prevent external static electricity from affecting the liquid crystal layer, that is, in the first A-picture, the first substrate 21 is in a vertical direction, and the induced electric field is formed in the conductive layer. Between the 216 and the conductive light shielding layer 214, to avoid the occurrence of liquid crystal 200921200 polarization in the liquid crystal layer 230. In the second A diagram, the component symbol 225# symbol 226 is designated as the next A in the sealing member, the component light unit, and the [two: board] component symbol 228 is designated as - the first is early 1 and the second is designated as - molding arch frame. Although the electrical connection portion 224 is _ _, B is shown in the figure, when the transfer portion is transferred, such as the outer portion of the sealing member 225 of the second domain, "4 may be formed around the pixel region / \ here, When the solution layer is substituted, the induced electric field is formed between the 4×-polarized polarizing plate 219 and the conductive light-shielding layer 214 in the upper (four) conductive polarizing plate 219. The liquid 曰I:-: - a cross-sectional view of a planar switching liquid day display device of the embodiment - a plan view showing a planar cut if day display device in accordance with the present invention - including - a substrate - 31G, a plurality of color filter layers 312R, 312G and 312B, a light shielding layer 314, a first conductive layer 316, a second conductive layer 317, a second substrate, including a transparent pixel electrode and a transparent common electrode a pixel array 322, and an electrical connection portion 3 3 2. The first conductive layer 316 is formed on one surface of the first substrate 31. When the first conductive layer 316 is formed in the first When one surface of one of the substrates 31 is all, the first conductive layer 316 may be made of a transparent conductive resin or a transparent conductive gold. A material such as indium tin oxide (IT0) or indium zinc oxide (10) **oxide, IZ0) having a preferred light transmittance. In addition, when the first conductive layer 316 is attached When the surface of one of the substrates 310 is patterned to match the light shielding layer 314, the first conductive layer 316 may be formed of various types of metal materials and conductive resins, including the transparent conductive resin and the transparent Conductive metal material. Here, the transparent conductive resin may be composed of a mixture of indium dn oxide powder and acrolein (IT〇 powder plus acrolein), an epoxide, or the like. An upper conductive polarizing plate 319 may be formed on the first conductive layer 316. On the other hand, the upper conductive polarizing plate 319 may be formed on the first substrate 310 without the first conductive layer gw The light shielding layer 314 is for preventing light leakage, and may include a resin. The light shielding layer 314 formed by the tree can be clearly displayed, even in an outdoor environment, because the light shielding layer 314 does not reverse The incident light of the outside is emitted. In addition, in the execution of the ultra-high brightness, a reddish color problem caused by the internal reflection can be immediately solved, and the design of the liquid crystal display device and a manufacturing process thereof can be simplified. The light shielding layer 314 is formed on the other surface of the first substrate 310 at a predetermined plurality of intervals, generally for distinguishing the red, green and blue color filter layers 312R, 312G and 312. The filter layers 312R, 312G, and 312 are generally formed of a photosensitive organic material and are sequentially arranged between the light shielding layers 314 in a red, green, and blue color filter pattern. The second conductive layer 317 is substantially patterned under the light shielding layer 314 to form a shape corresponding to one of the light shielding layers 314. Meanwhile, a coating layer 318 may be selectively formed under the color 13 200921200 filter layers 312R, 312G and recommended to remove the color filter layers 312R, 312G, and 312B. Step and improve flatness. In this example, the second conductive layer 317 may be formed under the coating layer 318: the coating layer 318 may include a thermosetting material. The first conductive layer 317 may be formed between the second substrate 320 and the gate 314. In this example, the second conductive layer 317 is patterned into a shape corresponding to the light shielding layer 314, or is formed entirely on the substrate 320. The i pixel array 322, including a transparent pixel electrode and a transparent common pattern, is formed on the surface of the second substrate 32G. At the same time, each of the domain systems is formed by a plurality of gate lines and a plurality of data lines intersecting each other and the line = six | Weicheng City device configuration money (four) line and the data is placed there (not shown). The pixel electrode and the transparent common electrode are predetermined to be opened, and an insulating layer (not shown) is interposed between each other to overlap to the __2 domain, and is disposed in the pixel region for applying the electric sub-day layer. 330, thereby adjusting the light transmittance. 3Π 2 gas connection part 332 is electrically connected to the second pass (four) hitting part; like: car: 2 2? The common electrode 'and includes, (cut, two-metal, preferably one of the conductive sealing members of the volume 3 gold (Au). The electrode voltage is applied to the pixel array 322 of the transparent ^ The second pass voltage is applied to the 316^=317 through the electrical connection portion 332 to cut the induced electric field at the second conductive layer 317 and the first pass, thereby preventing external static electricity from affecting the liquid helium. ε 14 200921200 Layer 330, that is, a t-conducting layer 316 and the second conducting/induction electric field are formed in the first layer 330 to generate a crystal polarized light: between 3 and 17 'to avoid switching in the liquid crystal The liquid crystal display device is further advanced as shown in the second figure. The planar portion polarizing plate 326, the backlight unit _step includes a sealing member 325, here, when the first conductive 328, and a molded frame 329 When replaced, the inductive power 2 316 is formed by the upper conductive polarizing plate 319 and the second conductive layer 317 at the same time as the upper conductive polarizing plate 319, due to the liquid crystal display description, for example, a film life The basic components of " have no special, Japanese, and And the conventional liquid crystal display ^ ^, liquid helium, and so on. 冋, so the fine description will be re-displayed - plane _ 式 实 = =, the plane switching liquid crystal display device According to the present invention, according to the present invention, the planar switching liquid crystal display device of the present invention includes a plurality of color filter layers 4, 4 coffee and 412B, and a conductive light shielding layer 414. A conductive layer 416, a first coating layer 417'-first substrate side' includes a transparent pixel electrode and a pixel array 422 of a transparent common electrode, and an electrical connection portion 424. The conductive layer 416 is formed Between the first substrate 41 and a first coating layer 417. When the conductive layer 416 is formed on the entire surface of the lower surface of the first substrate 41, the conductive layer 416 may be transparently conductive. Resin or a transparent pass 15 200921200 conductive metal material, such as indium tin oxide (ITO) or indium zinc oxide (in (jium zinc oxide, IZO) with relatively excellent light transmittance Further, when the conductive layer 416 is formed under the first substrate 410 and mated When the conductive light shielding layer 414 is patterned, the conductive layer 416 may be formed of various metal materials and conductive resins, including the transparent conductive resin and the transparent conductive metal material. § The transparent conductive resin may be oxidized by indium tin. Indium tin oxide consists of a mixture of powder and acrylic acid (ITO powder plus propylene aldehyde group) or epoxide. Further, an upper conductive polarizing plate 419 may be formed on the first substrate. 410. The conductive light shielding layer 414 is used to prevent light leakage and may include chromium. The conductive light shielding layers 414 are formed under the first coating layer 417 to be separated from each other by a predetermined distance. In general, the conductive light shielding layer 414 is used to distinguish the red, green, and blue color filter layers 412R, 412G, and 412A. 5 haiguang enamel sheets 412R, 412G and 412 Β, formed by a photosensitive organic material, alternately arranged in the order of red, green and blue color filter patterns in the individual conductive light-shielding layers 414 between. Meanwhile, the second coating layers 418 may be selectively formed under the color filter layers 412R, 412G, and 412B to remove the color filter layers 412R, 412G, and 412B. First order difference and improved flatness. The pixel array 422 includes a pixel electrode and a transparent common electrode formed on a surface of the first substrate 420. Meanwhile, although not shown, the individual pixel regions are defined by a plurality of 16 200921200 gate lines and a plurality of data lines formed in a direction crossing each other, and are overlapped at intersections of the lines and the data lines. The electrodes are formed and the transparent common electrodes are separated from each other, and the pixel is divided into two predetermined regions, and is shaped to apply a voltage to a liquid crystal #(4)/pixel& The gas is connected to the portion 424 ^ 曰 and § the whole light transmittance. The hole is connected to the sun and is electrically connected to the pass.
素陣列422的該透明普通電極。該電氣遠技I 14及祕 括-轉移打點部份,其包含具有高傳導性之::42二: 地歧_,或包含金(Au)之—傳導性㈣構件屬,較土 當一普通電壓被施加至該像素陣列42 =,該普通電壓係透過該電氣連接部分該 •性遮光層414,以在該傳導性遮光層414及該傳導層 训之間形成—感應電場,從而避免外部靜電影響該液晶 層43〇。亦即’如在該第-塗佈層417中所呈現之箭頭所 不,該感應電場係形成在該傳導層416及該傳導性遮光層 4H之間,從而避免發生在該液晶層之液晶偏光。在第二 圖中,元件符號425、426、428及429分別表示一密封構 件、—下部偏光板、一背光單元,及一模鑄框架。 弟五圖為根據本發明又一示範實施例之一平面切換式 液晶顯示裝置之橫切圖。 、參照第五圖,依據本發明之—示範實施例之該平面切 換式/夜Ba顯示裝置,包括一第一基材510,複數個彩色濾 光片層512R、512G及512B,一遮光層514,一第一傳導 層5l6a,一第二傳導層516b,一第二基材520,包含一透 17 200921200 明像素電極及一透明普通電極之一像素陣列522,及一電 氣連接部分532。 5玄弟傳$層516a係形成在該第一基材510之下。當 5亥傳導層516a係形成在該第一基材51〇之一表面全部時, 該第一傳導層516a可能由一透明傳導性樹脂或一透明傳 導金屬材料’如具有相對地極佳光穿透率之銦錫氧化物 (indium tin oxide,ITO)或鋼辞氧化物(indiUIn zinc oxide, IZO)所形成。更進一步,當該第一傳導層516a係形成在該 第一基材510之下並配合該遮光層514形成圖案時,該第 一傳導層516a可能由各種類型之金屬材料及傳導性樹 脂,包括該透明傳導性樹脂及該透明傳導金屬材料所形 成。該透明傳導性樹脂可能由銦錫氧化物(indium tin 〇xide) 粉末及丙烯醛基的一混合物(IT0粉末加丙烯醛基)或環氧 化物所組成。更進一步,一傳導性偏光板519可能被形成 在該第一基材510。 該等遮光層514係被形成在該第一傳導層516a之下, 以一預定距離分隔彼此。一般來說,該遮光層514用以區 分该等紅色、綠色及藍色彩色濾光片層5 ur、512G万 512B。 該等濾光片層512R、512G及512B,由一感光有機材 料所形成,係交替地依紅色、綠色及藍色彩色濾光片圖案 次序排列在該等個別的遮光層514之間。同時,該等第— 塗佈層517可能選擇性地被形成在該第一傳導層516&,气 等彩色濾光片層512R、512G及512B與該遮光層514之間。 18 200921200 ,該第二傳導層516b實質地在該遮光層514下被圖案化 以^成相應該遮光層514之一形狀 〃、 一同日守,—塗佈層518可能被選擇性地形成在該等彩色 遽光片層5咖、5nG及5咖下,以移除由該等彩色減 片層及5i2B所產生的一階差及改善平坦性。 該第一傳導層516b可能被形成在該塗佈層518之下。 )、該第二傳導層516b可能被形成在該第一塗佈層5丨7及 爐2層514之間。該第二傳導層516b可能被形成在該第 一塗佈層517之上部一表面之全部。 該像素陣列522,包括-透明像素電極及—透明普通 電極’係被形成在該第二基材52〇之一表面。同時,雖# 沒有展示,料_的像素區域係由形成於彼此交叉的方 向之複數個閑線及複數個資料線収義, 置係被形成在該等閘線及該等資料線之交叉點處。更進f 步,该像素電極及該透明普通電極係被彼此隔開,以一絕 i. ^層插入彼此之間以重疊—預定區域,且係被形成於該像 '、區域’用以施加-電極至-液晶層53(),從整光透 射率。 該電氣連接部份532係電氣地連接至該第二傳導層 仙b及該像素陣列522之該透明普通電極1電氣連接部 份532,包括一轉移打點部份,其包含具有高傳導性之一 金屬’較佳地為銀(Ag) ’或包含金(Au)之一傳導性密封構 件。 田〜普通電壓係被施加至該像素陣列522之該透明普 19 200921200 通’該普通係透過該電氣連接部分532至該第 遍¥日516b ’以在該第—傳導層516a及該第二傳導声 # 53^^ —缝€場,從_免外部靜絲響該液曰 1 在該第-傳導一該第二傳導層 免發生在该液晶層之液晶偏光。 更造第五圖所示,該平面切換式液晶顯示裝置, 包括—密封構件525、—下部偏光板汹、— 早元528,及一模鑄框架529。 另外’雖財㈣之該平的換切晶 範貫施例已經被詳述,但並不為其所限制,本發明 =使用液晶的光學各向賤及偏鱗徵之所有液晶^ 由上述可知,一普通電位係透過— 施加至形成在-第-基材的另—側之=連接心刀而被 形成與在該第一基材之—侧形成的1 =光:,以 場,從而抑制由外部靜電所引起 曰1之感應電 示圖像品質。 她光’以改善顯 更進一步,根據本發明,一普通電Μ 接部份而被施加至形成在該[基材表面連 傳導層,⑽絲在該第—基材之1形錢-第 層有關之感應電場,從而抑制由外部 寻等 偏光,以改善顯示圖像品質。 ”斤引起之-液晶 雖然本發明之示範實施例已經針對功效詳加說明,但 20 200921200 並非為其賴麵可 力:及取代皆有其可能性’而無須達 =二^ 利範圍之範圍及精神。 路於甲切專 【圖式簡單說明】 本發明上述與其他目標、特徵及其他優關可藉由接下來 之敘述配合圖式而清楚地被瞭解,其中: 第-圖為一習知平面切換式液晶顯示裝置之橫切圖。 第二A圖為依據本發明之—具體實施㈣—平面切換式液 晶顯示裝置之橫切圖。 第二B圖為—平面切換式液晶顯示裝置包括第二圖a的一 轉移打點部份之平面圖;且 第一圖為依據本發明另一具體實施例的一平面切換式液晶 顯示裝置之橫切圖。 第四圖為根據本發明再—具體實施例的—平面切換式液晶 顯示裝置之橫切圖。 第五圖為根據本發明又一具體實施例的一平面切換式液晶 顯示裝置之橫切圖。 【主要元件符號說明】 10 上部基材 16 透明傳導層 20 下部基材 22 像素陣列 21 200921200 29 模鑄框架 30 SUS框 32 銅帶 40 液晶 210 第一基材 212R 彩色濾光片層 212G 彩色濾光片層 212B 彩色濾光片層 214 傳導性遮光層 216 傳導層 218 塗佈層 219 上部傳導性偏光板 220 第二基材 222 像素陣列 224 電氣連接部份 225 密封構件 226 下部偏光板 228 背光單元 229 模鑄框架 230 液晶層 310 第一基材 312R 彩色濾·光片層 312G 彩色濾光片層 312B 彩色濾光片層 22 200921200 i. 314 遮光層 316 第一傳導層 317 第二傳導層 318 塗佈層 319 上部傳導性偏光板 320 第二基材 322 像素陣列 325 密封構件 326 下部偏光板 328 背光單元 329 模鑄框架 330 液晶層 332 電氣連接部份 410 第一基材 412R 彩色濾光片層 412G 彩色濾光片層 412B 彩色濾光片層 414 傳導性遮光層 416 傳導層 417 第一塗佈層 418 第二塗佈層 419 上部傳導性偏光板 420 第二基材 422 像素陣列 23 200921200 424 電氣連接部分 425 密封構件 426 下部偏光板 428 背光單元 429 模鑄框架 430 液晶層 510 第一基材 512R 彩色濾光片層 512G 彩色濾光片層 512B 彩色濾光片層 514 遮光層 516a 第一傳導層 516b 第二傳導層 517 第一塗佈層 518 塗佈層 519 傳導性偏光板 520 第二基材 522 像素陣列 525 密封構件 526 下部偏光板 528 背光單元 529 模鑄框架 530 液晶層 532 電氣連接部份 24The transparent common electrode of the array 422. The electrical telescope I 14 and the secret-transfer striking part, which comprises a high conductivity: 42 42: the ground disparity _, or the gold (Au)-conductivity (four) component genus, is more common than the earth A voltage is applied to the pixel array 42=, the normal voltage is transmitted through the electrical connection portion of the light shielding layer 414 to form an induced electric field between the conductive light shielding layer 414 and the conductive layer to avoid external static electricity. The liquid crystal layer 43 is affected. That is, as indicated by the arrow presented in the first coating layer 417, the induced electric field is formed between the conductive layer 416 and the conductive light shielding layer 4H, thereby preventing liquid crystal polarization occurring in the liquid crystal layer. . In the second figure, reference numerals 425, 426, 428, and 429 denote a sealing member, a lower polarizing plate, a backlight unit, and a molded frame, respectively. The fifth figure is a cross-sectional view of a planar switching type liquid crystal display device according to still another exemplary embodiment of the present invention. Referring to FIG. 5, the planar switching/night Ba display device according to the exemplary embodiment of the present invention includes a first substrate 510, a plurality of color filter layers 512R, 512G, and 512B, and a light shielding layer 514. A first conductive layer 516a, a second conductive layer 516b, and a second substrate 520 comprise a pixel array 522 of a transparent pixel electrode and a transparent common electrode, and an electrical connection portion 532. 5 Xuandi Passage layer 516a is formed under the first substrate 510. When the 5H conductive layer 516a is formed on one surface of the first substrate 51, the first conductive layer 516a may be made of a transparent conductive resin or a transparent conductive metal material, such as having relatively excellent light. Indium tin oxide (ITO) or indiUIn zinc oxide (IZO) is formed. Further, when the first conductive layer 516a is formed under the first substrate 510 and patterned with the light shielding layer 514, the first conductive layer 516a may be composed of various types of metal materials and conductive resins, including The transparent conductive resin and the transparent conductive metal material are formed. The transparent conductive resin may be composed of a mixture of indium tin 〇xide powder and acrolein (IT0 powder plus acrolein) or epoxide. Further, a conductive polarizing plate 519 may be formed on the first substrate 510. The light shielding layers 514 are formed under the first conductive layer 516a to separate each other by a predetermined distance. Generally, the light shielding layer 514 is used to distinguish the red, green, and blue color filter layers 5 ur and 512 G 512B. The filter layers 512R, 512G, and 512B are formed of a photosensitive organic material and are alternately arranged between the individual light shielding layers 514 in the order of red, green, and blue color filter patterns. At the same time, the first coating layer 517 may be selectively formed between the first conductive layer 516 &, color filter layers 512R, 512G and 512B and the light shielding layer 514. 18 200921200, the second conductive layer 516b is substantially patterned under the light shielding layer 514 to form a shape corresponding to the light shielding layer 514, and the coating layer 518 may be selectively formed thereon. The color smoothing layer 5, 5 nG and 5 coffee are removed to remove the first step difference caused by the color reducing layers and 5i2B and to improve the flatness. The first conductive layer 516b may be formed under the coating layer 518. The second conductive layer 516b may be formed between the first coating layer 5丨7 and the furnace 2 layer 514. The second conductive layer 516b may be formed entirely on a surface of the upper portion of the first coating layer 517. The pixel array 522, including a transparent pixel electrode and a transparent common electrode, is formed on one surface of the second substrate 52. Meanwhile, although # is not shown, the pixel area of the material_ is defined by a plurality of idle lines and a plurality of data lines formed in a direction crossing each other, and the system is formed at the intersection of the gate lines and the data lines. At the office. Further, in step f, the pixel electrode and the transparent common electrode are separated from each other, and a layer is inserted between each other to overlap - a predetermined region, and is formed in the image ', region' for application - Electrode to - liquid crystal layer 53 (), from uniform light transmittance. The electrical connection portion 532 is electrically connected to the second conductive layer sb and the transparent common electrode 1 electrical connection portion 532 of the pixel array 522, and includes a transfer dot portion including one of high conductivity The metal 'preferably silver (Ag)' or a conductive sealing member comprising gold (Au). The field-normal voltage is applied to the transparent array 19 of the pixel array 522. The common system passes through the electrical connection portion 532 to the first pass 516b' to the first conductive layer 516a and the second conductive Sound # 53^^ - Sewing the field, from the _-free external static ringing of the liquid 曰 1 in the first-conducting one of the second conductive layer to avoid liquid crystal polarization in the liquid crystal layer. Further, as shown in Fig. 5, the planar switching type liquid crystal display device includes a sealing member 525, a lower polarizing plate 汹, an early element 528, and a molded frame 529. In addition, although the flat-cutting embodiment of the fiscal (four) has been described in detail, but is not limited thereto, the present invention = all liquid crystals using the optical enthalpy and the partial scale of the liquid crystal. a common potential is transmitted through a pair of knives formed on the other side of the -th substrate to form a 1 = light: field formed on the side of the first substrate, thereby suppressing The induced image of 曰1 caused by external static electricity indicates image quality. According to the present invention, a conventional electric splicing portion is applied to the [conductive layer formed on the surface of the substrate, (10) the filament in the first substrate - the first layer of money - the first layer The induced electric field is related to suppressing polarization by externally to improve the quality of the displayed image. "Cause-induced liquid crystal Although the exemplary embodiment of the present invention has been described in detail for efficacy, 20 200921200 is not a force for its own: and the substitution has its possibility' without the need to reach the range of The above-mentioned and other objects, features and other advantages of the present invention can be clearly understood by the following description in conjunction with the drawings, wherein: Figure 1 is a prior art A cross-sectional view of a planar switching liquid crystal display device. A second embodiment is a cross-sectional view of a planar switching liquid crystal display device according to the present invention. 2 is a plan view of a transfer dot portion of a diagram a; and the first diagram is a cross-sectional view of a plane switching liquid crystal display device according to another embodiment of the present invention. The fourth figure is a further embodiment according to the present invention. A cross-sectional view of a planar switching liquid crystal display device. Fig. 5 is a cross-sectional view of a planar switching liquid crystal display device according to still another embodiment of the present invention. 10 Upper substrate 16 Transparent conductive layer 20 Lower substrate 22 Pixel array 21 200921200 29 Molded frame 30 SUS frame 32 Copper tape 40 Liquid crystal 210 First substrate 212R Color filter layer 212G Color filter layer 212B Color filter Sheet 214 Conductive light-shielding layer 216 Conductive layer 218 Coating layer 219 Upper conductive polarizing plate 220 Second substrate 222 Pixel array 224 Electrical connection portion 225 Sealing member 226 Lower polarizing plate 228 Backlight unit 229 Molded frame 230 Liquid crystal layer 310 first substrate 312R color filter layer 312G color filter layer 312B color filter layer 22 200921200 i. 314 light shielding layer 316 first conductive layer 317 second conductive layer 318 coating layer 319 upper conductive polarization Plate 320 second substrate 322 pixel array 325 sealing member 326 lower polarizing plate 328 backlight unit 329 molding frame 330 liquid crystal layer 332 electrical connection portion 410 first substrate 412R color filter layer 412G color filter layer 412B color Filter layer 414 conductive light shielding layer 416 conductive layer 417 first coating layer 418 second coating layer 4 19 Upper conductive polarizing plate 420 Second substrate 422 Pixel array 23 200921200 424 Electrical connection portion 425 Sealing member 426 Lower polarizing plate 428 Backlight unit 429 Molded frame 430 Liquid crystal layer 510 First substrate 512R Color filter layer 512G Color Filter layer 512B color filter layer 514 light shielding layer 516a first conductive layer 516b second conductive layer 517 first coating layer 518 coating layer 519 conductive polarizing plate 520 second substrate 522 pixel array 525 sealing member 526 Lower polarizer 528 backlight unit 529 molded frame 530 liquid crystal layer 532 electrical connection portion 24