201128254 六、發明說明: 【發明所屬之技術領域】 本發明係關於一種觸控顯示面板,特別是一種將含矽無機材料 層設置於透明導電圖案層與有機材料層之間的觸控顯示面板。 【先前技術】 在現今各類型消費性電子產品中,平板電腦、個人數位助理 (PDA)、行動電話(mobileph〇ne)、衛星導航系統(Gps)與影音播放器 等可攜式電子產品已廣泛地使用觸控面板(t〇uch pand),作為人機資 料的溝通介面,藉此節省電子產品的體積。 、觸控顯示面板的觸控功能主要來自於一觸控感測陣列。此觸控 感測陣列具有複數個水平方向的感測墊以及垂直方向的感測塾,這 些感測墊通常為翻導紐f,藉时職測輸人位置的水平或垂 直坐標抽度。而為了保護這些透明魏材f,f知作法會在透明導 電材質上形成-有機材料的保護層,以預防後續產品在使用中可能 造成的到傷。 但在現有的架構下’存在著有機材料保護層和透明導電材質之 間附著力;Ϊ;佳的_,使得有赌娜護層在後續_中常會有脫 201128254 落剝離的情況發生。例如’在觸控顯示面板的製程中,最後還會在 有機材料保護層的上方形成—偏钿㈣把吩但在某些情況下, 例如偏光片有重工的需求時,則必須將黏附在有機㈣保護層上的 偏光片訂。由於有機材料保護層和由透明導電材_成的感測塾 之間的附著力不佳’巾造賴光片移除的同時,也將下方的有機材 料保護層-個離,導致無法進行重1,造成報廢。這樣的情況會 影響觸控顯示面板的良率,成絲欲改善的問題。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a touch display panel, and more particularly to a touch display panel in which a germanium-containing inorganic material layer is disposed between a transparent conductive pattern layer and an organic material layer. [Prior Art] In today's various types of consumer electronics, portable electronic products such as tablet computers, personal digital assistants (PDAs), mobile phones (mobiles), satellite navigation systems (Gps) and video players have been widely used. The touch panel (t〇uch pand) is used as a communication interface for human-machine data, thereby saving the volume of electronic products. The touch function of the touch display panel mainly comes from a touch sensing array. The touch sensing array has a plurality of horizontal sensing pads and vertical sensing pads. These sensing pads are usually flipped to measure the horizontal or vertical coordinate of the input position. In order to protect these transparent Wei materials, it is known that a protective layer of organic materials is formed on the transparent conductive material to prevent damage to the subsequent products during use. However, under the existing structure, there is adhesion between the protective layer of organic material and the transparent conductive material; Ϊ; good _, so that there is a gambling protective layer in the subsequent _ often there will be off the 201128254 peeling. For example, in the process of the touch display panel, it will be formed at the top of the organic material protective layer. The bias (4) will be adhered to the organic in some cases, for example, if the polarizer has heavy work requirements. (4) Polarized film on the protective layer. Due to the poor adhesion between the organic material protective layer and the sensing enamel formed by the transparent conductive material, the protective layer of the organic material is also removed, which makes it impossible to carry out heavy weight. 1, resulting in scrap. Such a situation will affect the yield of the touch display panel and the problem of improved silk.
【發明内容】 以 柄明於是提出-種觸控顯示面板的結構以及其製造方法, 克服上述有機材料保護層易剝落的問題。 層上 本發明所提出之觸控顯示硫,包含有—顯示面板、—觸押感 測陣列、-切無機材料層、一有機材料層以及一偏光片。觸^感 測陣列設置於顯示面板之—表面上,且包含至少—透明導電圖案 層。含碎無機材料層設置於觸控__之翻導電随層上,而 有機材料顧設置於切無機㈣層上。絲#躲置於有機材料 本發明所提出之製作觸控顯示面板的方法 ,首先提供一顯示面 板,接著在於顯示面板上形成—觸控感測陣列,其中觸控感測陣列 包含至 透明導電圖案層。然後在觸控感測陣列之透明導電圖案 201128254 層上心成切無機材料層,並在姆錢㈣層上形成-有機材 料層。最後,在有機材料層上形成一偏光片。 本發明由於在透明導電_層以及有機材料層之間導入了—含 石夕無機材料層,彻切無機材懸與透明導制案層以及有機材 料層之間附著力較佳的特性,可避免習知有機材料層易脫落的缺 點’而可獲得-結構制且抗高溫高社觸控顯示面板。 【實施方式】 為使熟習本發明所屬技術領域之一般技藝者能更進一步了解本 發明’下文制舉本發明之數個較佳實補,並配合所關式,詳 細說明本發明的構成内容及所欲達成之功效。 凊參考第1圖與第2圖。第1圖繪示了本發明第一較佳實施例 之觸控顯示面板的上視示意圖,第2圖為第i圖之觸控顯示面板沿 剖線Α·Α’之剖面示意圖,且為了清楚顯示觸控感測陣列之各元件, 第1圖僅顯示基板102以及其上的觸控感測陣列,並省略盆他 元件。如第1圖與第2圖所示,本發明的觸控顯示面板1〇〇包含一 基板102、一觸控感測陣列104、一含矽無機材料層112、一有機材 料層114以及一偏光片116。於本實施例中,觸控感測陣列1〇4例 如為一電容式觸控感測陣列,其包含一透明導電圖案層1〇6、複數 個島狀絕緣結構108以及複數條橋接線110。如第!圖所示,本實 201128254 施例的觸控感測陣列104包含複數條平行於一第一方向聊列如第 1圖之水平方向)的第一感測線路122,以及複數條平行於一第二方 向124(例如第2圖所示之垂直方向)的第二感測線路126,其中第一 方向120與第二方向124大致上垂直。每條第一感測線路⑵包含 複數個彼此電性連接之第一感測墊128,每條第二感測線路⑼包 含複數個第二感_ 13〇以及複數條橋接線m。在共平面感測結 構中’第-透明導電圖案層106包含複數個第一感測塾^以及複 籲數個第二感測塾Π0。如第!圖所示,各島狀絕緣結構1〇8會設置 在位於同-條第二感測線路126中兩相鄰的第二感測塾13〇上,而 各橋接線110則對應設置在各島狀絕緣結構1〇8上,以電性相連兩 相鄰的第二感測墊130。如此一來,第一感測線路122和第二感測 線路126得以彼此絕緣,且能夠分別感測基板1〇2上第一方向⑽ 以及第二方向124上兩軸度的觸控位置。 如第1圖所示,本實施例的觸控感測陣列1〇4還包含了複數條 春外部連接導線m,設置在基板1〇2之周邊。各外部連接導線成、 之-端分別連接各第-感測線路122或第二感測線路126,另一端 則延伸至基板1G2之邊緣’以提供外部㈣電路之連接。此外需注 意的是,若將基板102沿逆時針或順時針旋轉9〇度,例如使各第一 感測線路m平行於第二方向124,而各第二感測線路126平行於 第-方向m,其排列方式仍為本發明之均等變化與修倚,皆應屬 本發明之涵蓋範圍。 201128254 接著請同時參考第i圖與第2圖,於本實施例中,第一感測塾 128、第一感測塾13〇都是由同一層透明導電圖案層1〇6所形成,但 不以此為限。透明導電圖案層1〇6之材質主要可包含各種透明導電 材質’例如氧化銦錫伽出磁如⑽啦㈤卜氧化铜辞师⑽^ (mde,IZO)、氧化鎘錫(cadmium如〇xide,CT〇)、氧化銘辞⑻⑽丨顏 zinc oxide, AZO)以及氧化銦鋅錫加出卿此zinc⑽此,ιτζο)等。島 狀絕緣結構1G8包含各種絕緣材質,例如氧化發、氮化碎、氛氧化 石夕等’而橋接線110貝,!包含各種金屬導電材質,例如金屬紹、金屬 銅等,但也可以是與透明導電圖案層106相同的透明導電材質。 如第2圖所示’本發明其中之一特點在於,觸控感測陣列1〇4 與有機材料層114之間,設置有一含碎無機材料層112,其至少會 覆蓋在透明導電圖案層1〇6的表面上。於本發明較佳實施例中,含 矽無機材料層112較佳係透過溶膠凝膠法(s〇i_gel)形成,使其内含例 如氮化矽、氧化矽或氮氧化矽等的含矽無機材料顆粒,但不限於此。 藉由含矽無機材料以及其顆粒結構,可分別增加含矽無機材料層 m與透明導電圖案層娜,以及含碎無機材料層112與有機材料層 114之間的貼附力,可避免習知技術中有機材料層114與透明導電 圖案層1G6間附著力不佳的問題,因此可降低偏光片116於重工時 一併剝除下方之有機材料層114的可能性。另一方面,本發明的含 矽無機材料層112也可有效隔絕水氣侵入,故可保護位於其下方的 透明導電圖案層106以及橋接線110,以延長觸控顯示面板1〇〇在 高溫高溼環境中的使用壽命。本發明的含矽無機材料層112不會影 201128254 響觸控感測陣列104的觸控功能,也不會影響光線的穿透率與色 度,可適用於各種類型的觸控顯示面板。 關於本發明含碎無機材料層112的設置位置,並不以上述實施 例為限,而可具有其它實施方式。請參考第3圖與第4圖,其中第 3圖與第4圖分別為本發明第二實施例與第三實施例之觸控顯示面 板的剖面不意I於第2圖所示之第—實施例中,含碎無機材料層 鲁112會覆蓋在整個基板1〇2上’意即會覆蓋在觸控感測陣列1〇4(包 含透明導電圖案層1〇6、島狀絕緣結構1〇8以及橋接線11〇)之表面, 以及基板1G2之表面上。而在第二實施财,請參考第3圖,含石夕 無機材料層112則僅覆蓋在觸控感測陣歹㈣4上,但不會覆蓋在基 板102之表面。而在第三實施例中,請參考第4圖,含石夕無機材料 層112僅覆蓋在觸控感測陣列104之透明導電圖案層1〇6的表面, 但不會覆蓋在島狀絕緣結構108、橋接線11〇以及基板1〇2之表面。 此外’除了上述二種實施方式外,本發明之含石夕無機材料層U2也 •可以覆蓋在非感測區上,例如覆蓋在外部連接導線132上,如第2 圖所示。 需注意的是,上述實施例提供的觸控感測陣列1〇4結構僅為本 發明的其巾-種實财式。本發酬提供的含料機材料層ιΐ2也 可適用於其他各種結構或類型的觸控感測陣列1〇4,原則上以此含 矽無機材料層112能覆蓋觸控感測陣列1〇4中的透明導電圖案層 106為主,其目的在於讓含矽無機材料層112相對於透明導電圖案 201128254 層106與有機材料層114都可以提供較佳的貼附力。 另一方面,本發明的觸控顯示面板100,可以是-内敌式的觸 控顯示面板’也可以是-「觸控面板加上顯示面板」之外加式觸控 顯不面板’請參考第5 g與第6圖,所繪示為本發明另兩較佳實施 例之觸控顯不面板的示意圖。如第5圖所示,本實施例的觸控顯示 面板100為一内嵌式的觸控顯示面板,意即基板102同時也作為一 顯不面板10❾其中-基板。舉例而言,若顯示面板1(H系為一液晶 顯不面板,其包含兩基板101、1〇2,以及一液晶層1〇3設置於基板 101、102之間。基板102可為液晶顯示面板之彩色濾光玻璃基板, 其中觸控感測陣列104會設置在顯示面板1〇之外表面上,亦即直接 設置於顯示面板10之基板1〇2的表面上,而形成一外掛之晶胞上(⑽ cell)觸控顯示面板。請參考第6圖,於本發明另一實施例中,基板 102上可增加一輔助基板1〇2a,先在輔助基板1〇2a的一面設置有觸 控感測陣列104 ’而另一面則貼附於顯示面板1〇中的基板1〇2上。 在上述的實施方式中,顯示面板10可以是一液晶顯示面板、一有機 發光顯示面板、一電泳顯示面板或一電聚顯示面板,但並不以此為 限。 接著請參考第7圖至第8圖,其繪示了本發明之一較佳實施例 之製作觸控顯示面板之方法示意圖。如第7圖所示,首先提供一基 板102。基板1〇2可為一顯示面板之基板,例如彩色濾光片基板, 亦或是一軟質或硬質之辅助基板。接著於基板102上形成一觸控感 201128254 測陣列H)4 ’其包含-透明導電圖案層⑽、複數個島狀絕緣 108以及複數個橋接線110。形成觸控感測陣列1〇4的步驟例如。 基板1〇2上形成一透明導電層,例如一氡化銦錫層,接著圖案= 化銦錫層以形成透明導電圖案層1〇6,其平面配置可參考第丄、氣 相關說明,在此不加以贅述。接著在位於同一條的第二感測= 中兩相鄰的第二接觸塾130之間形成複數個島狀絕緣結構1〇^6 後,在這些島狀絕緣結構⑽上形成複數條橋接線n〇, 敢SUMMARY OF THE INVENTION The structure of the touch display panel and the method of manufacturing the same are proposed to overcome the problem that the protective layer of the organic material is easily peeled off. The touch display sulfur according to the present invention comprises a display panel, a touch sensing array, a cut inorganic material layer, an organic material layer and a polarizer. The touch sensing array is disposed on the surface of the display panel and includes at least a transparent conductive pattern layer. The layer containing the broken inorganic material is disposed on the layer of the conductive layer of the touch __, and the organic material is disposed on the layer of the cut inorganic (four) layer. The method for manufacturing a touch display panel according to the present invention first provides a display panel, and then forms a touch sensing array on the display panel, wherein the touch sensing array comprises a transparent conductive pattern. Floor. Then, an inorganic material layer is formed on the layer of the transparent conductive pattern 201128254 of the touch sensing array, and an organic material layer is formed on the layer of the money (four) layer. Finally, a polarizer is formed on the organic material layer. In the present invention, since the incorporation of the stone-containing inorganic material layer between the transparent conductive layer and the organic material layer, the adhesion between the inorganic material suspension and the transparent conductive layer and the organic material layer is better, and the avoidance is avoided. It is known that the organic material layer is easy to fall off, and it is available-structured and resistant to high temperature high-touch display panels. The embodiments of the present invention will be described in detail below with reference to the preferred embodiments of the present invention. The effect that you want to achieve.凊 Refer to Figures 1 and 2. 1 is a top view of a touch display panel according to a first preferred embodiment of the present invention, and FIG. 2 is a cross-sectional view of the touch display panel of the first embodiment taken along a line Α·Α', and for clarity The components of the touch sensing array are displayed. FIG. 1 only shows the substrate 102 and the touch sensing array thereon, and the pot elements are omitted. As shown in FIG. 1 and FIG. 2 , the touch display panel 1 of the present invention includes a substrate 102 , a touch sensing array 104 , a germanium-containing inorganic material layer 112 , an organic material layer 114 , and a polarized light . Slice 116. In this embodiment, the touch sensing array 1 4 is, for example, a capacitive touch sensing array, which includes a transparent conductive pattern layer 1〇6, a plurality of island-shaped insulating structures 108, and a plurality of bridge lines 110. As the first! As shown in the figure, the touch sensing array 104 of the embodiment of the present embodiment 201128254 includes a plurality of first sensing lines 122 parallel to a first direction (as shown in the horizontal direction of FIG. 1), and a plurality of parallel lines A second sense line 126 in two directions 124 (eg, the vertical direction shown in FIG. 2), wherein the first direction 120 is substantially perpendicular to the second direction 124. Each of the first sensing lines (2) includes a plurality of first sensing pads 128 electrically connected to each other, and each of the second sensing lines (9) includes a plurality of second sensing electrodes 13 and a plurality of bridge wires m. In the coplanar sensing structure, the 'first transparent conductive pattern layer 106' includes a plurality of first sensing electrodes and a plurality of second sensing electrodes 复0. As the first! As shown in the figure, each of the island-shaped insulating structures 1〇8 is disposed on two adjacent second sensing electrodes 13〇 located in the same-strip second sensing line 126, and each bridge wire 110 is correspondingly disposed on each island. On the insulating structure 1 8 , two adjacent second sensing pads 130 are electrically connected. In this way, the first sensing line 122 and the second sensing line 126 are insulated from each other, and can respectively sense the touch positions of the two axes in the first direction (10) and the second direction 124 on the substrate 1〇2. As shown in FIG. 1, the touch sensing array 1〇4 of the present embodiment further includes a plurality of spring external connecting wires m disposed at the periphery of the substrate 1〇2. Each of the external connection wires is connected to each of the first sense line 122 or the second sense line 126, and the other end extends to the edge of the substrate 1G2 to provide an external (four) circuit connection. In addition, it should be noted that if the substrate 102 is rotated 9 degrees counterclockwise or clockwise, for example, each of the first sensing lines m is parallel to the second direction 124, and each of the second sensing lines 126 is parallel to the first direction. m, the arrangement thereof is still the equivalent change and repair of the invention, and should be within the scope of the invention. 201128254 Next, please refer to both the i-th and the second figure. In this embodiment, the first sensing 塾128 and the first sensing 塾13〇 are formed by the same transparent conductive pattern layer 1〇6, but not This is limited to this. The material of the transparent conductive pattern layer 1〇6 can mainly comprise various transparent conductive materials, such as indium tin oxide, magnetism, such as (10), (5), copper oxide, (10)^ (mde, IZO), cadmium tin oxide (cadmium, such as xide, CT〇), oxidized inscription (8) (10) 丨 z zinc oxide, AZO) and indium zinc sulphide added to this zinc (10) this, ιτζο) and so on. The island-shaped insulating structure 1G8 contains various insulating materials, such as oxidized hair, nitriding crushed, oxidized oxidized stone, etc. and the bridge wire is 110 lbs. It contains various metal conductive materials, such as metal slag, metal copper, etc., but it can also be The transparent conductive pattern layer 106 has the same transparent conductive material. As shown in FIG. 2, one of the features of the present invention is that a touch-containing inorganic material layer 112 is disposed between the touch sensing array 1〇4 and the organic material layer 114, and at least covers the transparent conductive pattern layer 1 On the surface of 〇6. In a preferred embodiment of the present invention, the cerium-containing inorganic material layer 112 is preferably formed by a sol-gel method (s〇i_gel) containing a cerium-containing inorganic substance such as cerium nitride, cerium oxide or cerium oxynitride. Material particles, but are not limited to this. By using the ruthenium-containing inorganic material and the particle structure thereof, the adhesion of the ruthenium-containing inorganic material layer m and the transparent conductive pattern layer Na, and the adhesion between the pulverized inorganic material layer 112 and the organic material layer 114 can be respectively avoided, and the conventional knowledge can be avoided. In the technology, the problem of poor adhesion between the organic material layer 114 and the transparent conductive pattern layer 1G6 can reduce the possibility that the polarizer 116 can be stripped of the underlying organic material layer 114 during rework. On the other hand, the germanium-containing inorganic material layer 112 of the present invention can also effectively insulate the moisture intrusion, so that the transparent conductive pattern layer 106 and the bridge wire 110 located under it can be protected to extend the height of the touch display panel 1 at a high temperature. Service life in wet environments. The germanium-containing inorganic material layer 112 of the present invention does not affect the touch function of the touch sensing array 104, and does not affect the transmittance and color of the light, and is applicable to various types of touch display panels. The arrangement position of the pulverized inorganic material layer 112 of the present invention is not limited to the above embodiment, and may have other embodiments. Please refer to FIG. 3 and FIG. 4 , wherein FIG. 3 and FIG. 4 are respectively a cross-sectional view of the touch display panel according to the second embodiment and the third embodiment of the present invention. In the example, the layer of the inorganic material layer 112 will cover the entire substrate 1〇2, which means that it will cover the touch sensing array 1〇4 (including the transparent conductive pattern layer 1〇6, the island-shaped insulating structure 1〇8). And the surface of the bridge wire 11), and the surface of the substrate 1G2. In the second implementation, please refer to FIG. 3, and the layer containing the inorganic material 112 is only covered on the touch sensing array (4) 4, but does not cover the surface of the substrate 102. In the third embodiment, referring to FIG. 4, the layer of the inorganic material layer 112 covers only the surface of the transparent conductive pattern layer 1〇6 of the touch sensing array 104, but does not cover the island insulating structure. 108. The bridge wire 11〇 and the surface of the substrate 1〇2. Further, in addition to the above two embodiments, the SiGe-containing inorganic material layer U2 of the present invention can also be covered on the non-sensing area, for example, over the external connecting wires 132, as shown in Fig. 2. It should be noted that the structure of the touch sensing array 1〇4 provided by the above embodiment is only the towel type of the present invention. The material layer ιΐ2 provided by the present invention can also be applied to other various structures or types of touch sensing arrays 1 , 4, in principle, the 矽-containing inorganic material layer 112 can cover the touch sensing array 1 〇 4 The transparent conductive pattern layer 106 is mainly used for the purpose of providing the germanium-containing inorganic material layer 112 with a better adhesion force with respect to the transparent conductive pattern 201128254 layer 106 and the organic material layer 114. On the other hand, the touch display panel 100 of the present invention may be an internal enemy touch display panel or a touch panel plus a display panel. 5 g and FIG. 6 are schematic diagrams showing a touch display panel according to another two preferred embodiments of the present invention. As shown in FIG. 5, the touch display panel 100 of the present embodiment is an in-cell touch display panel, that is, the substrate 102 also serves as a display panel. For example, if the display panel 1 (H is a liquid crystal display panel, it includes two substrates 101, 1 〇 2, and a liquid crystal layer 〇 3 is disposed between the substrates 101, 102. The substrate 102 can be a liquid crystal display The color filter glass substrate of the panel, wherein the touch sensing array 104 is disposed on the outer surface of the display panel 1 , that is, directly disposed on the surface of the substrate 1 2 of the display panel 10 to form an external crystal. In the embodiment of the present invention, an auxiliary substrate 1〇2a can be added to the substrate 102, and a touch is provided on one side of the auxiliary substrate 1〇2a. The display sensing panel 10 can be a liquid crystal display panel, an organic light emitting display panel, and an electrophoresis layer. The display panel 10 can be a liquid crystal display panel, an organic light emitting display panel, and an electrophoresis. The display panel or the electro-convex display panel is not limited thereto. Referring to FIG. 7 to FIG. 8 , a schematic diagram of a method for manufacturing a touch display panel according to a preferred embodiment of the present invention is shown. As shown in FIG. 7, a substrate 102 is first provided. The substrate 1〇2 can be a substrate of a display panel, such as a color filter substrate, or a soft or hard auxiliary substrate. Then, a touch sense 201128254 is formed on the substrate 102. A transparent conductive pattern layer (10), a plurality of island-shaped insulating layers 108, and a plurality of bridge wires 110. The step of forming the touch sensing array 1〇4 is, for example. Forming a transparent conductive layer on the substrate 1〇2, for example, an indium tin oxide layer, and then pattern=indium tin layer to form a transparent conductive pattern layer 1〇6, the planar configuration of which can be referred to the third and gas related descriptions. Do not repeat them. Then, after a plurality of island-shaped insulating structures 1〇6 are formed between the two adjacent second contact pads 130 in the second sensing=the same strip, a plurality of bridge wires are formed on the island-shaped insulating structures (10). Oh, dare
連兩相鄰的第二感測塾13〇 ’而完成了觸控感測_ 1()4的製目 另外,亦可在製作觸控感測陣列1〇4時,—併在基板1〇2的形 成外部連接導線132,例如在形成橋接線11〇的同時,也 了外部連接導線132。 接著請參考第8圖’在觸控感測陣列1(M上形成一含發無機材 7層112。於本發明較佳實施例中,此含矽無機材料層ιΐ2係透過 心膠凝膠法的方式形成。例如於觸控感測陣列1〇4上均勻地塗佈一 膠層,其巾縣内含有-有機溶劑,以及複數個抑無機顆粒。含 矽無機顆粒包含各種含矽無機材質,例如是氮化矽顆粒、氧化矽顆 粒或氮氧化矽顆粒等,而這些顆粒會均勻地散布在有機溶劑中。將 膠層塗佈在觸控感測陣列104上的方式可以使用一印刷製程,例如 使用一 APR(Asahi Photosensitive Resin)版將膠層轉印至觸控感測陣 列1〇4上’或者其它印刷或塗佈製程例如一網印製程。形成膠層之 轉印區域可參考前文中所述各種實施方式,例如第2圖中全面形成 在觸控感測陣列104以及基板102之表面,或者第3圖中僅形成在 11 201128254 觸控感測陣列104上,亦成是笛a k第4圖中僅形成在觸控感測陣列104 =Γ圖案層106上’或者,也可以選擇性地形成在非觸控區 * 、接導線132上。接著,進行一烘烤步驟,將膠層中的有機 冷劑揮發’殘留的碎無機顆粒會均勻地散布在觸控感測陣列104上 112 其他實施例中,含石夕無機材 料層m也可以以其他方式形成,例如一微影暨細製程。接著,The two-touch second sensing 塾13〇' is completed and the touch sensing _1()4 is completed. Alternatively, when the touch sensing array 1〇4 is fabricated, and on the substrate 1〇 The external connecting wires 132 are formed, for example, while the bridge wires 11 are formed, and the wires 132 are also externally connected. Next, please refer to FIG. 8 'in the touch sensing array 1 (the formation of a layer of inorganic inorganic material 7 on the M layer 112. In the preferred embodiment of the invention, the layer containing the inorganic material layer ιΐ2 through the gelatin gel method For example, a layer of glue is evenly coated on the touch sensing array 1〇4, and the towel county contains an organic solvent and a plurality of inorganic particles. The cerium-containing inorganic particles comprise various inorganic materials containing cerium. For example, it is a tantalum nitride particle, a cerium oxide particle or a cerium oxynitride particle, etc., and these particles are uniformly dispersed in an organic solvent. The printing method can be applied to the touch sensing array 104 by using a printing process. For example, an APR (Asahi Photosensitive Resin) plate is used to transfer the adhesive layer to the touch sensing array 1 4 or another printing or coating process such as a screen printing process. The transfer area for forming the adhesive layer can be referred to the above. The various embodiments, for example, are integrally formed on the surface of the touch sensing array 104 and the substrate 102 in FIG. 2, or are formed only on the 11 201128254 touch sensing array 104 in FIG. 3, which is also a flute ak 4 is only formed in the touch The sensing array 104=Γ pattern layer 106 is 'or alternatively can be selectively formed on the non-touch area* and the connecting wire 132. Then, a baking step is performed to volatilize the organic refrigerant in the adhesive layer. The broken inorganic particles are evenly dispersed on the touch sensing array 104. In other embodiments, the layer of the inorganic material containing m can also be formed in other manners, such as a lithography and fine process.
在含石夕無機材料層m上形成有機材料層m以及偏光片⑽。最 後’右叹计為-内嵌式觸控感測面板,則將此基板與其他叙件 組裝成觸鋪科板(可參考第5圖);若設計為—外加式觸控顯示 面板,則可直接將此基板102貼附至一顯示面板1〇上(可參考第6 圖),而完成了本發明之觸控顯示面板1〇〇。 、綜上而言’本發明提供了一種觸控顯示面板的結構以及製造方 法其特徵在於導入了-含石夕無機材料層於透明導電圖案層以及有 機材料層之間。由於此含石夕無機材料層係透過溶膠凝膠法形成,其 材質以及特殊的顆粒結構可增加其與透明導電圖案層之間的貼附〃鳙 力’可有效避免習知技術巾,偏光片於重玉時有機材料層容易脫落 的情況。 以上所述縣本發明讀佳實關,凡依本發明帽專利範圍 所做之均錢化與修飾’皆應屬本發明之涵蓋範圍。 【圖式簡單說明】 12 201128254 第1圖為為本發明第一較佳實施例之觸控顯示面板的上視示意圖。 第2圖為本發明第一較佳實施例之觸控顯示面板之結構示意圖。 第3圖為本發明第二較佳實施例之觸控顯示面板之結構示意圖。 第4圖為本發明第三較佳實施例之觸控顯示面板之結構示意圖。 第5圖與第6圖為本發明另兩較佳實施例之觸控顯示面板的結構示 意圖。 第7圖至第8圖為本發明觸控顯示面板之製造方法示意圖。 【主要元件符號說明】 100 觸控顯示面板 112 含矽無機材料層 10 顯示面板 114 有機材料層 101 基板 116 偏光片 102 基板 120 第一方向 102a 輔助基板 122 第一感測線路 103 液晶層 124 第二方向 104 觸控感測陣列 126 第二感測線路 106 透明導電圖案層 128 第一感測塾 108 島狀絕緣結構 130 第二感測墊 110 橋接線 132 外部連接導線 13An organic material layer m and a polarizer (10) are formed on the stone-containing inorganic material layer m. Finally, the right sigh is - the in-cell touch sensing panel, and the substrate and other reciting pieces are assembled into a touch panel (refer to Figure 5); if the design is - an external touch display panel, The substrate 102 can be directly attached to a display panel 1 (refer to FIG. 6), and the touch display panel 1 of the present invention is completed. In summary, the present invention provides a structure and a manufacturing method of a touch display panel characterized in that a layer containing a stellite inorganic material is introduced between a layer of a transparent conductive pattern and a layer of an organic material. Since the stone-containing inorganic material layer is formed by a sol-gel method, the material and the special particle structure can increase the adhesion force between the layer and the transparent conductive pattern layer, which can effectively avoid the conventional technical towel, the polarizer When the heavy jade is used, the organic material layer is easily peeled off. In the above-mentioned county, the present invention is read by Jiashiguan, and the average weighting and modification of the patent scope of the present invention should be within the scope of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a top plan view of a touch display panel according to a first preferred embodiment of the present invention. FIG. 2 is a schematic structural view of a touch display panel according to a first preferred embodiment of the present invention. FIG. 3 is a schematic structural view of a touch display panel according to a second preferred embodiment of the present invention. FIG. 4 is a schematic structural view of a touch display panel according to a third preferred embodiment of the present invention. 5 and 6 are schematic views showing the structure of a touch display panel according to another preferred embodiment of the present invention. 7 to 8 are schematic views showing a manufacturing method of the touch display panel of the present invention. [Main component symbol description] 100 touch display panel 112 germanium-containing inorganic material layer 10 display panel 114 organic material layer 101 substrate 116 polarizer 102 substrate 120 first direction 102a auxiliary substrate 122 first sensing line 103 liquid crystal layer 124 second Direction 104 touch sensing array 126 second sensing line 106 transparent conductive pattern layer 128 first sensing 塾 108 island insulating structure 130 second sensing pad 110 bridge wire 132 external connecting wire 13