M429143 五、新型說明: 【新型所屬之技術領域】 本創作涉及一種觸控顯示裝置,特別涉及一種有機發光 二極體(OLED)觸控顯示裝置。 【先前技術】 當前,人機交互介面技術發展迅速。其中,有機發光 二極體(Organic light-emitting diodes,簡稱 〇led)顯 示益作為一種新型顯示器,以其面板自行發光及高亮度、 高反應速度、低功耗等優點,受到眾人青睞,目前應用廣 泛且未來前景看好。 〃 此外’作為新型輸入設備,觸控螢幕以其更輕薄、更 人性化的優勢,逐漸取代鍵盤、滑鼠等傳統輸入裝置。觸 控螢幕使用戶在流覽螢幕顯示内容的同時進行輸入操作, 使人機交流十分便捷準確。因此,觸控式螢幕被廣泛應用 于個人數位助理,移動電話,全球衛星定位系統等可攜 電子產品。 鑒於0LED與觸控裝置的諸多優點,由二者整合而成的 具觸控功能的0LED顯示器的開發越來越受到重視。圖}所 示為一種傳統觸控顯示器丨。傳統觸控顯示器丨包括上基板 1卜下基板12及位於二者之間的電容驗部件13、有機發 光二極體顯示部件14、封膠層15。上基板u包括用於觸 摸的上表面111和封裝在顯示器裏面的下表面丨12。電容 控部件13配置在上基板u的下表面112上,並包括 導電層⑶、第二導電層133及位於二者之間的絕緣層 4 >/>年公月i日修正替換頁 132。下基板12的内表面19 件14,其外表面122裸露於光二極體顯示部 示部件U包括空穴注入雷二°。卜。有機發光二極體顯 子注入電極層丨43。將電^二4卜有機發射層142及電 裏可有效赋顯示器 絕緣層132,而絕緣層的厚度一般是 於2um,故弟一導電;】 外 距離過近而產生較大二::::電層133之間會因為 面板之間存⑽旨觸‘二::際檢―’除手指和 電極層之間、電極心 ’糾_存在於電極層與 背景〜# 、周圍環境之_其他背景電容。而該 和第對檢測信號的干擾也越大。第—導電層131 容的έ *電層133之間產生較大的輕合電容構成該背景電 谷的麵成部分,闵μμ ,该耦合電容將影響電容觸控位置檢 【新型内容】 更由隔離不同方向的感測元件以提供—種具有 更,控_精度歸裝置。 讀觸控顯示裝置包括: 〜有機發光二極體顯示層,設置於下基板上; 〜上基板; ;以及 空氣層,形成於所述上基板和下基板之間 年2月4叫正替換頁 —觸控結構,設置於所述有機發光二極體顯示岸 γ,,觸控結構包括:第-感測電路層和第二感㈣路 :’該弟-感測電路層和第二感測電路層之間的間隔距 大於2um。 在只知*中,所述空氣層位於第一感測電路層和第二 感測電路層之間,其中所述上基板包括遠離所述^機發^ 二極體顯示層的第〆表面和靠近所述有機發光二極體顯示 層的第二表面,所述第一感測電路層設於所述上基板的第 二表面,所述第二感測電路層,設於所述有機發光二極體 顯示層之上。 在一實施中,還包括:一保護層,覆蓋所述有機發光 '一極體顯示層,所述弟一感測電路層設置於該保護層上。 在一實施中,所述第一感測電路層與所述第二感測電 路層對向設立’且所述第一感測電路層和第二感測電路層 之間的空氣層厚度為5um〜lOOum。 在一實施中’還包括一封膠層’該封膠層膠合所述上 基板和所述下基板,所述有機發光二極體顯示層和所述觸 控結構封裝於所述上基板和所述下基板之間組成的空間 内。 在一實施中’所述空氣層和上基板位於第一感測電路 層和第二感測電路層之間,所述上基板包括遠離有機發光 二極體顯斧廣的第一表面和靠近有機發光二極體顯示層的 第二表面’所述第一感測電路層設於所述上基板第一表面, 所述第二感測電路層,設於所述有機發光二極體顯示層之 上。 t 在一實施中,還包括:一保護層,覆蓋所述有機發光 >户年2月巧日修正替換頁 二極體顯示層,所述第二感測電路層設置於該保護層上。 在一實施中’還包括一封膠層,該封膠層膠合所述上 基板和所述下基板’所述有機發光二極體顯示層及第二感 測電路層封裝於所述上基板和所述下基板之間組成的空間 内。 在一實施中,所述上基板位於第一感測電路層和第二 感測電路層之間,所述上基板包括第一表面和第二表面, 所述第一感測電路層設置於所述上基板的第二表面,而所 述第二感測電路層設置於上基板的第一表面。 在一實施中,所述第一感測電路層為第一圖案導電層, 具有沿第一方向延伸的多個第一觸控電極串列,各該第一 觸控電極串列包括多個電性連接的多個第__觸控電極;所 述第二感測電路層為第二圖案導電層,具有沿第二方向延 伸的多個第二觸控電極Φ列,各該第二觸控電極串列包括 多個電性連接的多個第二觸控電極;其中第一方向和第二 方向不同。 在一實施中,所述的第一圖案導電層和第二圖案 層疋透明導電層。 尾 j一貫施中,所述的有機發光二極體顯示層包括: 二主動組件陣列,設置於所述下基板上;以及 光層:層’設置於該主動組件陣列上,該有機發 電極之間㈣間^像素電極和位於所述對向電極和像素 ,貝她中’所述保制主要是由—絕緣材料所組成。 層之間顯示裝置的第—感測電路層與第二感測電路 a 大於絕緣層本身的厚度,因此可減少二感測 \ θ年3月y日修正替換頁 從而提高 電路層之間產生的耦合带办 觸控檢測的精確度。兒A對觸控檢測的干擾, 【實施方式】 下面結合附圖與具體 推述。 方式對本創作作進一步詳細 第一實施例 圖2為本創作觸控顯示 ★ 依據圖2所示,本實施、、、置第一實施例的結構示意圖。 基板30上的有機發光^的^控顯示裝置2包括設置於下 於所述上基板20和下基板層9G、上基板2〇、形成 一感測電路層601和第二感、0之間的空氣層603以及由第 ⑽,其中第-感測電路層一電路層602形成的觸控結構 間隔距離大於2um。 和第二感測電路層602之間的 上基板20和下基板3〇 成硬質的玻璃基板或是軟質以=透明材料製成,例如製 遠離有機發光二極體顯示層9塑膠基板。該上基板20包括 發光二極體顯示層9〇的第二的第—表面201和靠近有機 路層601是設置於上基板2〇 ^面j〇2,其中,第一感測電 的第一表面201供使用者觸推、第表面202 ’而上基板20 板20對向設置,其包括靠= 吏用。而該下基板30與上基 有機發光二極體顯示層90的 1 二表面301和_有機發光:極體㈣層90的第四表面 302,該下基板30的第:r表面qfn ^0ΛΟ二电—表面301面向上基板20的第二表 面202,而其第四表面302則屬於縮· 矣品μ 狀觸控顯示裝置2本體的外 表面。其中,有機發光二極體顯 往體顯不層卯設置於下基板30 J1429143 ~/·Α·年3月W曰修正替換頁 上,且特別是設置於下基板3〇的第三表面I 電路層602則是設置于有機發光二極 所述第一感測電路層601對向設立。θ 90之上且與 更進-步說明’觸控顯示裝置2另可包括 33^覆蓋該有機發光二極__^^ 7〇ΐΓ面弟電路層602則進—步可設置於該保護層 圖3是第-感測電路層圖案結構示意圖。如圖 弟-感測電路層601為第一圖案導電層 _ 21延伸的多個第—觸控電,且各觸= 極串列6011包括多個電性連接的多個第―觸^電極^ 該第-感測電路層6G1可以是透明導電層,^ 電層材料可選自氧化煙辞、氧化摻鎵鋅、氧㈣=月二 化氟錫、氧化轉錫、氧化煙錫錢化轉等金屬氧化物乳 第-感測電路層的圖案包含但不限定於圖3㈣示的 ^組Γ第一感測電路層可以是多條彼此平行的舰圖 第:4,ί第二感測電路層圖案結構示意圖。如圖4所示, 弟-感測層602為第二圖轉f層, 22延伸的多個第二觸控電極串列6〇21,且 2一感測電路層6〇2可以是透明導電層,其中対明 電層材料可選自氧化煙鋅、氧化摻鎵鋅、氧化摻 :亂:=化摻録錫、氧化煙錫或氧化銘鋅等金屬氧化物。 ^二感測電_的_包含但不較_ 4所 祕。例如L電路射以是多賴此平行的條狀Ϊ 9 疹正替換頁 案所組成。其中,該第一與第二方向21、22可為直角坐標 系之Χ轴及,或為切線/法線座標之Τ轴與Ν轴。不 月再人 > 考圖2,空氣層603位於第一感測電路屛 與第二感測電路層6〇2之間,該空氣層6G3使第—感曰測带 路層謝與第二感測電路層咖電性絕緣,再者,空氣; 603中的工氣本身具有絕緣功能,因此省略了傳統第—感二 電路層6G1與第二感測電路層6()2之間需設置絕緣層的製 :工和從而達到簡化制程和減少生產成本的目的,更進 步’第一感測電路層601與第二感測電路層602之間的 間隔距離大於2um,使二者之間__距離大於傳統設置 ===減少二者之間的輕合電容對觸控檢測 七二 问控檢測的精確度,另外’繁於觸控檢測的 重叉及準確度,更佳地,控制空氣層6〇3的厚度為5⑽ 〜lUOum。 第-ί 物件(如手指或觸控筆)接觸或靠近上基板2〇的 ===,=:;則電路請和第二感測電路層 變化,二二I則電路根據觸摸前後感應信號的 確疋觸模的橫向座標和縱向座標。 σ与再次參照圖2,有機發夹—托辨s 基板30的第三表面先-極體顯不層9〇設置在下 包括t陣列8〇及有機發光層40,該有機發光層40 極403磁細電極401和 於下其4⑽Μ 一中間層402。而主動組件陣列80設置 多個2力弟=表面301上,該主動組件陣列80包括 f (未7^),'各主動組件與設置於其上的像 I ^•極403電性連接。 10 像素電極403和對向㈣_正替換頁 陰極和陽極,若僅 。作為有機發光顯示層的 為陰極,但該順序 向電極401為陽極。 、Ρ像素笔極403為陰極,對 若像素電極4fn n β „ 由透明電極形成,錢^該像素電極棚可以是 氧化姻錫UTO)'氧化月鋅=可以,氧化— 三氧化二鈦(Ti203)、f K匕二銦(1_)、 化物形成;若像素電極侧作H(T1305)或其他金屬氧 可以是由金屬電極形成,該金屬=了則=素電極403 ⑻、鋅㈤、鉻(Cr)、;:極可以由鎳㈤、鈦 或其他金属形成。 ⑽、鋁(A1)、銦(In) 電極4G1 _極,_反電極對向 氧化銦鋅™、氧化銦錫⑽)丄=3 物三氧化二鈦⑴2。3)、五氧化三鈦二 成;若對向電極侧作為陰極,則該 可;是由金屬電極形成,該金屬電極可以由 。鋅(Zn)、鉻(Cr)、鎂㈤、鋁“"、 銦(In)或其他金屬形成。 中間層视形成於像素電極侧和對向電極401之間, 該中間層402可由有機材料形成,該中間層搬可以包含 空穴注入層⑽e In ject Layer,肌)、空穴傳輸層(_M429143 V. New Description: [New Technology Field] The present invention relates to a touch display device, and more particularly to an organic light emitting diode (OLED) touch display device. [Prior Art] Currently, the human-computer interaction interface technology is developing rapidly. Among them, Organic Light-emitting Diodes (OLED) show benefits as a new type of display, which is favored by everyone because of its self-illumination and high brightness, high response speed and low power consumption. Broad and promising future prospects. 〃 In addition, as a new type of input device, the touch screen has gradually replaced traditional input devices such as keyboards and mice with its thinner and more user-friendly advantages. The touch screen allows the user to input while viewing the content displayed on the screen, making the communication between the human and the machine very convenient and accurate. Therefore, touch screens are widely used in portable electronic products such as personal digital assistants, mobile phones, and global satellite positioning systems. In view of the many advantages of 0LEDs and touch devices, the development of touch-enabled OLED displays integrated by the two has received more and more attention. Figure } shows a traditional touch display. The conventional touch display device includes an upper substrate 1 and a lower substrate 12, and a capacitance detecting member 13 between the two, an organic light-emitting diode display member 14, and a sealant layer 15. The upper substrate u includes an upper surface 111 for touch and a lower surface 丨12 packaged inside the display. The capacitance control unit 13 is disposed on the lower surface 112 of the upper substrate u, and includes a conductive layer (3), a second conductive layer 133, and an insulating layer 4 between the two. . The inner surface 19 of the lower substrate 12 is 14 and its outer surface 122 is exposed to the photodiode display portion U including a hole injecting ridge. Bu. The organic light emitting diode is implanted into the electrode layer 43. The display layer of the organic light-emitting layer 142 and the electricity can be effectively applied to the display insulating layer 132, and the thickness of the insulating layer is generally 2 um, so the younger one is electrically conductive; the outer distance is too close to produce a larger two:::: Between the electrical layers 133, there will be a difference between the panels (10), 'two:: check--' except for the finger and the electrode layer, the electrode core 'correction _ exists in the electrode layer and the background ~ #, the surrounding environment _ other background capacitance. The interference with the first pair of detection signals is also greater. The first conductive layer 131 has a large light-combining capacitance between the electrical layer 133 to form a surface portion of the background electric valley, 闵μμ, the coupling capacitance will affect the capacitive touch position detection [new content] Isolating sensing elements in different directions to provide a device with a more controllable accuracy. The touch display device comprises: an organic light emitting diode display layer disposed on the lower substrate; an upper substrate; and an air layer formed between the upper substrate and the lower substrate. a touch structure disposed on the display γ of the organic light emitting diode, wherein the touch structure comprises: a first sensing circuit layer and a second sensing (four) road: 'the brother-sensing circuit layer and the second sensing The spacing between circuit layers is greater than 2 um. In the prior art, the air layer is located between the first sensing circuit layer and the second sensing circuit layer, wherein the upper substrate includes a second surface away from the display layer of the diode and Adjacent to the second surface of the organic light emitting diode display layer, the first sensing circuit layer is disposed on the second surface of the upper substrate, and the second sensing circuit layer is disposed on the organic light emitting diode The polar body is above the display layer. In an implementation, the method further includes: a protective layer covering the organic light-emitting layer, wherein the sensing circuit layer is disposed on the protective layer. In one implementation, the first sensing circuit layer is opposite to the second sensing circuit layer and the air layer thickness between the first sensing circuit layer and the second sensing circuit layer is 5 um. ~lOOum. In an implementation, the method further includes a glue layer that glues the upper substrate and the lower substrate, and the organic light emitting diode display layer and the touch structure are packaged on the upper substrate and the The space formed between the substrates is described. In an implementation, the air layer and the upper substrate are located between the first sensing circuit layer and the second sensing circuit layer, and the upper substrate includes a first surface away from the organic light emitting diode and is close to the organic a second surface of the LED display layer, wherein the first sensing circuit layer is disposed on the first surface of the upper substrate, and the second sensing circuit layer is disposed on the display layer of the organic light emitting diode on. In an implementation, the method further includes: a protective layer covering the organic light emitting light; and a second printed circuit layer disposed on the protective layer. In one implementation, 'there is further included a glue layer that bonds the upper substrate and the lower substrate' to the organic light emitting diode display layer and the second sensing circuit layer to be packaged on the upper substrate and Within the space formed between the lower substrates. In an implementation, the upper substrate is located between the first sensing circuit layer and the second sensing circuit layer, the upper substrate includes a first surface and a second surface, and the first sensing circuit layer is disposed at the The second surface of the substrate is described, and the second sensing circuit layer is disposed on the first surface of the upper substrate. In one implementation, the first sensing circuit layer is a first patterned conductive layer, and has a plurality of first touch electrode serials extending in a first direction, each of the first touch electrode serials comprising a plurality of a plurality of __ touch electrodes connected to each other; the second sensing circuit layer is a second pattern conductive layer, and has a plurality of second touch electrodes Φ columns extending in the second direction, each of the second touches The electrode string includes a plurality of electrically connected plurality of second touch electrodes; wherein the first direction and the second direction are different. In one implementation, the first patterned conductive layer and the second patterned layer are transparent conductive layers. The organic light emitting diode display layer includes: two active component arrays disposed on the lower substrate; and an optical layer: a layer disposed on the active component array, the organic hair electrode The (four) inter-pixel electrode and the counter electrode and the pixel, the protection is mainly composed of - insulating material. The first sensing circuit layer and the second sensing circuit a of the display device between the layers are larger than the thickness of the insulating layer itself, so that the second sensing can be reduced to correct the replacement page on March y, thereby increasing the generation between the circuit layers. Coupling provides the accuracy of touch detection. The interference of the child A on the touch detection, [Embodiment] The following is a detailed description with reference to the accompanying drawings. The present invention is further described in detail with reference to the first embodiment. FIG. 2 is a schematic diagram of the present invention. The control device 2 of the organic light-emitting device on the substrate 30 is disposed between the upper substrate 20 and the lower substrate layer 9G, the upper substrate 2A, and a sensing circuit layer 601 and a second sense, 0. The air layer 603 and the touch structure formed by the (10)th, wherein the first-sensing circuit layer-the circuit layer 602 are separated by a distance greater than 2 um. The upper substrate 20 and the lower substrate 3 between the second sensing circuit layer 602 and the lower substrate 3 are formed into a rigid glass substrate or softly made of a transparent material, for example, a plastic substrate away from the organic light emitting diode display layer 9. The first substrate 20 includes a second surface 201 of the LED display layer 9 and the adjacent organic layer 601 is disposed on the upper substrate 2, wherein the first sensing first The surface 201 is for the user to push, the first surface 202' and the upper substrate 20 plate 20 is disposed oppositely, which includes the use of =. The second surface 301 of the lower substrate 30 and the upper base organic light emitting diode display layer 90 and the fourth surface 302 of the organic light emitting body (four) layer 90, the: r surface of the lower substrate 30: qfn ^0ΛΟ The electro-surface 301 faces the second surface 202 of the upper substrate 20, and the fourth surface 302 thereof belongs to the outer surface of the body of the thumbnail-shaped touch display device 2. Wherein, the organic light-emitting diode is disposed on the lower substrate 30 J1429143 ~/·Α March, W曰 correction replacement page, and particularly the third surface I circuit disposed on the lower substrate 3〇 The layer 602 is disposed opposite to the first sensing circuit layer 601 of the organic light emitting diode. Above θ 90 and with further step-by-step description, the touch display device 2 may further include 33^ covering the organic light-emitting diode __^^ 7〇ΐΓ 弟 电路 circuit layer 602, and the step may be set in the protective layer 3 is a schematic view showing the structure of a first-sensing circuit layer pattern. The sensing circuit layer 601 is a plurality of first touch electrodes extending from the first patterned conductive layer _ 21, and each of the contact polarity series 6011 includes a plurality of electrically connected plurality of first touch electrodes ^ The first sensing circuit layer 6G1 may be a transparent conductive layer, and the material of the electrical layer may be selected from the group consisting of oxidized tobacco, oxidized gallium-doped zinc, oxygen (tetra) = hexafluoride, oxidized tin, oxidized tobacco, and the like. The pattern of the metal oxide milk first-sensing circuit layer includes, but is not limited to, the group shown in FIG. 3(4). The first sensing circuit layer may be a plurality of ship patterns parallel to each other: 4, ί, the second sensing circuit layer Schematic diagram of the pattern structure. As shown in FIG. 4, the sensing layer 602 is a second layer, and the second sensing electrode layer 6〇2 is extended. The layer, wherein the material of the enamel layer is selected from the group consisting of zinc oxide oxidized, oxidized gallium-doped zinc, oxidized doped: chaotic: = tin-doped tin, oxidized soot or oxidized zinc. ^ The second sense of electricity _ contains but not more than _ 4 secret. For example, the L circuit is composed of more than this parallel strip Ϊ 9 rash is replacing the page. The first and second directions 21, 22 may be the Χ axis of the Cartesian coordinate system or the Τ axis and the Ν axis of the tangent/normal coordinate. No. 2, the air layer 603 is located between the first sensing circuit 屛 and the second sensing circuit layer 〇2, and the air layer 6G3 makes the first sense sensing layer and the second sense The circuit layer is electrically insulated, and the air; the gas in the 603 itself has an insulating function, so that the insulation between the conventional first-inductance two circuit layer 6G1 and the second sensing circuit layer 6 () 2 is omitted. The layering method: for the purpose of simplifying the process and reducing the production cost, further progressing that the distance between the first sensing circuit layer 601 and the second sensing circuit layer 602 is greater than 2 um, so that the two are between __ The distance is greater than the traditional setting === reduces the accuracy of the light-combining capacitance between the two to the touch detection of the seven-two control detection, and the 'heavy fork and accuracy of the touch detection, and more preferably, the air layer is controlled The thickness of 6〇3 is 5(10)~lUOum. The -ί object (such as a finger or stylus) touches or approaches the upper substrate 2〇 ===, =:; then the circuit and the second sensing circuit layer change, the second and second I circuit according to the touch signal before and after the touch横向The lateral coordinates and longitudinal coordinates of the contact. σ and referring again to FIG. 2, the third surface of the organic hairpin-supporting substrate 30 is provided with a layer 12 and an organic light-emitting layer 40, and the organic light-emitting layer 40 is magnetically 403. The thin electrode 401 and the lower layer 4 (10) are an intermediate layer 402. The active component array 80 is disposed on a plurality of 2 dynasties = surface 301. The active component array 80 includes f (not 7^), and each active component is electrically connected to the image I • pole 403 disposed thereon. 10 pixel electrode 403 and opposite (four) _ positive replacement page cathode and anode, if only. The organic light-emitting display layer is a cathode, but the sequential electrode 401 is an anode. The pixel electrode 403 is a cathode, and if the pixel electrode 4fn n β „ is formed by a transparent electrode, the pixel electrode shed may be oxidized sulphur tin UTO) oxidized galvanic acid = oxidizable - titanium oxynitride (Ti203 ), f K 匕 indium (1_), compound formation; if the pixel electrode side H (T1305) or other metal oxygen may be formed by a metal electrode, the metal = then 素 electrode 403 (8), zinc (f), chromium ( Cr), :: The pole can be formed of nickel (f), titanium or other metals. (10), aluminum (A1), indium (In) electrode 4G1 _ pole, _ counter electrode opposite indium zinc oxide TM, indium tin oxide (10)) 丄 = 3 Titanium trioxide (1) 2. 3), trititanium pentoxide 20%; if the counter electrode side as a cathode, then it can be formed by a metal electrode, which can be made of zinc (Zn), chromium (Cr ), magnesium (five), aluminum "", indium (In) or other metals. The intermediate layer is formed between the pixel electrode side and the counter electrode 401, and the intermediate layer 402 may be formed of an organic material, and the intermediate layer may include a hole injection layer (10) e Inject Layer, a hole transport layer (_
Transport Layer ^HTL), (Electron TransportTransport Layer ^HTL), (Electron Transport
Layer ’ _與電子注入層(Electr〇n叫奶,eil) 等堆疊結構,另外,搭配不同的材料層,可形成不同的堆 11 年S月>/日修正替換頁 疊結構。 保護層70覆蓋該對向電極4〇1的表面,其中該保護層 70主要是由-絕緣材料所組成,該絕緣材料可以是聚酿亞 胺(p〇iyimide,PI )、純聚甲基丙烯酸甲酉旨 (polymethylmethacrylate , PMMA)、聚石夕氧院 (P〇lySU_e ’ PQS)。該保護層7G的作用在於使第二感 測電路層6G2與對向電極術電性絕緣,同時也可保護對 向電極401料電材料敎氧氣和錢的腐钱。 為了更好地避免該觸控顯示農置2受到氧氣及水氣的 舰’該觸控顯示裝置2還包括封闕50,該封膠層50膠 合上基板20和下基板30 ’使有機發光二極體顯示層9〇和 觸控結構6〇形成於該上基板2G和該下基板3q之間組成的 空間内。 第二實施例 圖5為本創作觸控顯示裝置第二實施例的結構示意圖, 該觸控顯示裝置包括:上基板2Q、下基板3Q、保護層7〇、 有機發光二極體顯示層9〇及觸控結構6〇。其中,在本實施 例中所使肖it件及各元狀Μ的㈣ 施例,主要差異在於觸控結_的設置位置類 例中,空氣層6G3位於第-感測電路層6Q1和第二感測電 路層6=之間,具體而言,觸控結構6Q的第—感測電路層 601和第二感測電路層分別位於上基板2㈣第二表面 2〇2和有機發光二極體顯示層9〇之上,特別是,第二感測 電路層602是設置于覆蓋有機發光二極體顯示層9〇的保護 層刊表面。而在第二實施例中’上基板2〇和空氣層⑽ 位於第-感測電路層6G1和第二感測電路層之間,具 12 M429143 年·?月Μ曰修正替換頁 體而言,第一感測電路層601位於上基板20的第一表面 201,但第二感測電路層602仍位於保護層70的表面。對 於本實施例的其他元件及各元件之間的位置關係均在第一 實施例中有詳細敍述,故在此不再贅述。 第三實施例Layer ’ _ and the electron injection layer (Electr〇n called milk, eil) and other stacked structures, in addition, with different material layers, can form different stacks of 11 years S / gt; / day modified replacement page stack structure. The protective layer 70 covers the surface of the counter electrode 4〇1, wherein the protective layer 70 is mainly composed of an insulating material, which may be polyfluorinated (PI), pure polymethacrylic acid. Polymethylmethacrylate (PMMA), Juxixi Hospital (P〇lySU_e 'PQS). The protective layer 7G functions to electrically insulate the second sensing circuit layer 6G2 from the counter electrode, and also protects the counter electrode 401 from the electrical material, oxygen and money. In order to better avoid the touch display, the touch display device 2 further includes a sealing 50, and the sealing layer 50 is glued to the upper substrate 20 and the lower substrate 30 to make the organic light emitting The polar body display layer 9 and the touch structure 6 are formed in a space formed between the upper substrate 2G and the lower substrate 3q. FIG. 5 is a schematic structural view of a touch display device according to a second embodiment of the present invention. The touch display device includes an upper substrate 2Q, a lower substrate 3Q, a protective layer 7〇, and an organic light emitting diode display layer 9〇. And the touch structure is 6〇. In the embodiment, the (4) embodiment of the sinusoidal member and each of the bismuth devices is mainly in the case where the touch node _ is disposed, and the air layer 6G3 is located in the first sensing circuit layer 6Q1 and the second sensation. Between the circuit layers 6=, specifically, the first sensing circuit layer 601 and the second sensing circuit layer of the touch structure 6Q are respectively located on the second substrate 2〇2 of the upper substrate 2 (four) and the display layer of the organic light emitting diode Above 9 inches, in particular, the second sensing circuit layer 602 is disposed on the surface of the protective layer covering the organic light emitting diode display layer 9A. In the second embodiment, the upper substrate 2 and the air layer (10) are located between the first sensing circuit layer 6G1 and the second sensing circuit layer, and have 12 M429143 · Μ曰 Μ曰 corrected replacement page body, The first sensing circuit layer 601 is located on the first surface 201 of the upper substrate 20, but the second sensing circuit layer 602 is still located on the surface of the protective layer 70. The other components of the present embodiment and the positional relationship between the components are described in detail in the first embodiment, and thus will not be described again. Third embodiment
圖6為本創作觸控顯示裝置第三實施例的結構示意圖, 其中,在本實施例中所使用元件及各元件之間的相對位置 皆類似於第一實施例,主要差異在於觸控結構6〇的設置位 置’即在第一實施例中,空氣層603位於第一感測電路層 601和第二感測電路層602之間,具體而言,觸控結構6〇FIG. 6 is a schematic structural diagram of a touch display device according to a third embodiment of the present invention. The relative positions between the components and the components used in the embodiment are similar to those of the first embodiment, and the main difference is that the touch structure 6 is In the first embodiment, the air layer 603 is located between the first sensing circuit layer 601 and the second sensing circuit layer 602. Specifically, the touch structure 6〇
的第一感測電路層601和第二感測電路層6〇2分別位於』 基板20的第二表面202和保護層70的表面。而在本實摊 例中,上基板20位於該第一感測電路層6〇1和第二感測電 路層602之間,即第二感測電路層6〇2設於上基板2〇的第 一表面2(U,第一感測電路層6〇1設於上基板2〇的第二表 面20=對於本貫施例的其他元件及各元件之間的位置關係 均在第貫細*例中有詳細敍述,故在此不再贅述。 所述’本創作的觸控顯示裝置採用增大第一感測 電路層㈣二感戦路„隔距_設計,喊少第一感 3路路層之間的麵合電容對觸控檢測信號的 干擾攸而棱向觸碰位置的檢測精度。 制本創為本創作的較佳實施例而已,並不用以限 改、等同替換和土則之内,所做的任何修 内。 、 ·句應包含在本創作保護的範圍之 13 M429143 χν·>年彡月d曰疹正替換頁 【圖式簡單說明】 圖1是一種傳統的觸控式有機發光二極體顯示器的結 構不意圖, 圖2是本創作觸控顯示裝置第一實施例的結構示意圖; 圖3是第一感測電路層圖案結構示意圖; 圖4是第二感測電路層圖案結構示意圖; 圖5是本創作觸控顯示裝置第二實施例的結構示意圖; 以及 圖6是本創作觸控顯示裝置第三實施例的結構示意圖。 【主要元件符號說明】 1 : 傳統觸控顯示器 11 : 上基板 111 : 上表面 12 : 下基板 112 : 下表面 13 : 電容觸控部件 121 : 内表面 14 : 有機發光二極體顯示部件 122 : 外表面 15 : 封膠層 131 第一導電層 141 : 空穴注入電極層 132 絕緣層 142 : 有機發射層 133 第二導電層 143 : 電子注入電極層 2 : 觸控顯示裝置 20: 上基板 201 : 第一表面 14 M429143The first sensing circuit layer 601 and the second sensing circuit layer 6〇2 are respectively located on the surface of the second surface 202 of the substrate 20 and the protective layer 70. In the present embodiment, the upper substrate 20 is located between the first sensing circuit layer 〇1 and the second sensing circuit layer 602, that is, the second sensing circuit layer 〇2 is disposed on the upper substrate 2 The first surface 2 (U, the first sensing circuit layer 6〇1 is disposed on the second surface 20 of the upper substrate 2〇=the other components of the present embodiment and the positional relationship between the components are in the finest* The details are described in the example, so it will not be described here. The 'touch display device of the present invention adopts the first sensing circuit layer (4), the second sensing circuit, the _ spacing, the design, and the first sense of the road. The accuracy of the surface capacitance between the road layers on the touch detection signal and the detection accuracy of the edge touch position. The system is a preferred embodiment of the creation, and is not used for limiting, equivalent replacement and soil. Within the scope of any repairs made, the sentence should be included in the scope of this creative protection. 13 M429143 χν·> Year of the month d rash is replacing page [Simple illustration] Figure 1 is a traditional touch The structure of the controlled organic light emitting diode display is not intended, and FIG. 2 is a schematic diagram of the structure of the first embodiment of the present touch display device. FIG. 3 is a schematic view showing a structure of a first sensing circuit layer; FIG. 4 is a schematic structural view of a second sensing circuit layer; FIG. 5 is a schematic structural view of a second embodiment of the present touch display device; A schematic diagram of the structure of the third embodiment of the touch display device is created. [Main component symbol description] 1 : Conventional touch display 11 : Upper substrate 111 : Upper surface 12 : Lower substrate 112 : Lower surface 13 : Capacitive touch part 121 : Inside Surface 14: Organic Light Emitting Diode Display Member 122: Outer Surface 15: Sealant Layer 131 First Conductive Layer 141: Hole Injection Electrode Layer 132 Insulation Layer 142: Organic Emissive Layer 133 Second Conductive Layer 143: Electron Injection Electrode Layer 2 : touch display device 20: upper substrate 201: first surface 14 M429143
月Θ曰修正替換頁 30 : 下基板 202 : 第二表面 40 : 有機發光層 301 : 第三表面 50 : 封膠層 302 : 第四表面 60 : 觸控結構 401 : 對向電極 70 : 保護層 402 : 中間層 80 : 主動組件陣列 403 : 像素電極 90 : 有機發光二極體顯示層 601 : 第一感測電路層 6011 第一觸控電極串列 602 : 第二感測電路層 6012 第一觸控電極 603 : 空氣層 6021 : 第二觸控電極串列 6022 : 第二觸控電極 21 第一方向 22 第二方向 15Θ曰 Θ曰 correction replacement page 30 : lower substrate 202 : second surface 40 : organic light-emitting layer 301 : third surface 50 : sealant layer 302 : fourth surface 60 : touch structure 401 : opposite electrode 70 : protective layer 402 The middle layer 80: the active component array 403: the pixel electrode 90: the organic light emitting diode display layer 601: the first sensing circuit layer 6011, the first touch electrode serial 602: the second sensing circuit layer 6012, the first touch Electrode 603: air layer 6021: second touch electrode serial 6022: second touch electrode 21 first direction 22 second direction 15