Nothing Special   »   [go: up one dir, main page]

TWM430655U - Touch panel unit and display device thereof - Google Patents

Touch panel unit and display device thereof Download PDF

Info

Publication number
TWM430655U
TWM430655U TW101201964U TW101201964U TWM430655U TW M430655 U TWM430655 U TW M430655U TW 101201964 U TW101201964 U TW 101201964U TW 101201964 U TW101201964 U TW 101201964U TW M430655 U TWM430655 U TW M430655U
Authority
TW
Taiwan
Prior art keywords
layer
conductive layer
transparent conductive
touch
transparent
Prior art date
Application number
TW101201964U
Other languages
Chinese (zh)
Inventor
jun-yan Xiao
de-feng Zhan
Yao-Zong Chen
Original Assignee
Teco Nanotech Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Teco Nanotech Co Ltd filed Critical Teco Nanotech Co Ltd
Priority to TW101201964U priority Critical patent/TWM430655U/en
Publication of TWM430655U publication Critical patent/TWM430655U/en

Links

Landscapes

  • Position Input By Displaying (AREA)

Description

M430655 五、新型說明: 【新型所屬之技術領域】 裝置 種面板單元’尤指-種觸控面板單元及其顯示 【先前技術】 伴隨著行動資訊裝置,如行動電話、導航 各種電子設備的高性能化和多樣化的發展,、、 備的前方安裝透光性的觸控 "' ^ 設備逐步增加。㈣心(:Chp,電子 π 杈…、觸彳工螢綦的工作原理和傳輸介f 的:::見有技術中的觸控營幕可大至分為四種類二 中= = 及表面聲波式等二 广:用 =因準確度較高、抗干擾能力強,故 應用面較為廣泛。 油故 :十對觸控螢幕之結構’透明導 而吕是必要的構件,一妒步士、 ,士 ,. J、啁才工螢幕 氧化銦錫(m>)層。^ 明導電層通常採用 <3? Β Β ,. ' 氧化铜錫層作為读ΗΒ ;層具有機械和化學耐用性不夠好等c明導 :銦錫層具有電阻阻值分佈::二另外’氧 式觸控營幕之解析度變低 致電容 為了改善上述的門一不円寻問題。 透明導電層。然而,由二fi應用奈米破管作為 以::控制電接透 就交化傳遞的目的 、按以達成電容訊 與結構上的問題 用,米碳管會另外造成製程 H兄,將導線直接成型在奈米 3/16 ^上^導線並無法有效地成型在奈米碳管上,換 線直接成型在奈米碳管的良率較低。另- ,故使得口奈^管在多個接觸面上形成接觸態樣 子傳遞的判別出現異常,此亦造成電 于。又備的操作出現誤差。 人包 【新型内容】 與透控面板單元’其在傳導線路層 導氣層間δ免置有絕缓屏,# 傳導線路層與透明導電層的:積大’、’邑、、表】控制 升判讀觸動電容訊號的靈敏度積大小,以用於提 電層種觸控面板單元’其可避免透明導 ,線路層的影響’進而提高製程的良率。 控面板面板單71及其顯示裝置,觸 的透明導電層進一步可以是具有同向性 布使得透明導電層具有均勾的阻值分 者知用示米碳管材料作為透明導雨 得透明導電層具有較好的透光特性可使 板單元及使用觸控面板單元二呵蜀控面 確度。 厂,,貝不裝置的分辨率和精 基材本:!=: 一種觸控面板單元,其包括-明導一表面之透明導電層,該透 透明少一阻隔溝槽’該阻隔溝槽係將該 蓋位於周邊區及觸碰區;-絕緣層,其覆 亥周邊區之該透明導電層,而位於該觸碰區之 4/16 M430655 該迗明導電層裸露於贫绍矣 其設置於該絕緣層上技以及一傳導線路層, 明導電層。 电11連接位於該觸碰區之該透 本創作實施例提出—種释 觸控面板單元,盆包括.其^置’至少包括··一 -表面之透明導電層,亨透設置於該基材之 _ 芑日°豕边明導電層上具有至少一阻 P/%溝槽,該阻隔溝槽传將 及觸碰區;It月導電廣區分為周邊區 、·象a其设盍位於該周邊區之該透明 ¥电層,而位於該觸碰區 ΐμ m , 之°玄透明钕電層裸露於該絕 導層,其設置於該絕緣層上且電 _ ^於相碰區之該透明導電層;以及—顯 ^其設置於該基材之另—表面且對應於該透明導電 單元有以下有益的效果:本創作之觸控面板 導1」緣層避免傳導線路層直接成型在透明 W層上所造成的製程上缺點。再者,本創 面板單元利用絕緣層之厚度使僂 1& 積的接觸,且使兩者在垂直面上並益 =度提升觸控面板單元在判讀觸動電容訊號; 進-步瞭解本創作之特徵及技術内容, -麥閱以下有關本創作之詳細說明與附圖, 圖式僅提供參考盘說明用廿此 制者。Ί月用亚非用來對本創作加以限 【實施方式】 5/16 M430655 本創作提出-種觸控面板單元,其可利 =區:高控制傳導線路層與透明導電層的接觸面積、,二 成之透光導4 覆於導電材料所構 透九導4,故利I絕緣層可提高製程良率的目 請參考圖4Β;本創作之觸控面板單元】至少包括 =η、-設置於基材u上之透明導電層】2 =傳導線路層15 ’另外透明導電層12具有阻隔 ;二將透Ε月導電層12區隔成周邊區及觸碰 :,換言之,本創作利用阻隔溝槽13達成透明導 ] 2之周邊區ρΖ與觸碰區丁ζ的電性阻 程的簡化。 j衣M430655 V. New description: [New technology field] Device type panel unit's especially touch panel unit and its display [Prior technology] High performance with mobile information devices such as mobile phones and navigation devices The development of diversification and diversification, and the installation of front-mounted translucent touch "'^ equipment gradually increased. (4) Heart (: Chp, electronic π 杈..., the working principle of the touch 綦 綦 和 and the transmission of f::: see the touch screen in the technology can be divided into four types of two = = and surface acoustic waves Type II: Wide use: Because of high accuracy and strong anti-interference ability, the application surface is more extensive. Oil: The structure of ten pairs of touch screens is transparent and the necessary components are , J, 啁 工 萤 萤 萤 萤 萤 萤 萤 萤 萤 萤 萤 萤 萤 萤 萤 萤 萤 萤 萤 萤 萤 萤 萤 萤 萤 萤 萤 明 明 明 明 明 明 明 明 明 明 明 明 明 明 明 明 明 明 明 明 明 明 明 明 明 明 明Etc: The indium tin layer has a resistance value distribution: 2, the other 'oxygen touch screen's resolution becomes lower, so the capacitance is improved in order to improve the above-mentioned door. Transparent conductive layer. However, by two Fi uses nano-tubes as follows:: control the electrical connection to the purpose of cross-linking, to achieve the capacitive and structural problems, the carbon nanotubes will additionally cause the process H brother, the wire directly formed in the nano 3/16 ^Up ^ wire can not be effectively formed on the carbon nanotubes, the line is directly formed in the nano The yield of the tube is low. Another-, so that the mouth of the tube is formed on the contact surface of a plurality of contact surfaces, and the abnormality is caused by the identification of the contact state. This also causes an error in the operation. 】 With the transflective panel unit's δ between the conductive layer and the gas-conducting layer, there is no slow screen, # conductive layer and transparent conductive layer: accumulate ', '邑,, table】 control the reading of the touch capacitor signal The sensitivity product size is used to lift the layer of the touch panel unit 'which can avoid the transparent conduction, the influence of the circuit layer' and thereby improve the yield of the process. The control panel panel 71 and its display device, the transparent conductive layer of the touch further It may be an isotropic cloth such that the transparent conductive layer has a uniform resistance. The use of the carbon nanotube material as a transparent conductive transparent conductive layer has better light transmission characteristics, and the plate unit and the touch panel can be used. Unit 2 蜀 蜀 control surface accuracy. Factory,, the resolution of the device and the fine substrate:!=: A touch panel unit, which includes a transparent conductive layer on the surface of a light guide Groove The barrier trench is located in the peripheral region and the touch region; the insulating layer covers the transparent conductive layer in the peripheral region, and the 4/16 M430655 in the touch region is exposed to the poor conductive layer. The conductive layer is disposed on the insulating layer and a conductive layer, and the conductive layer is electrically connected. The electric 11 is located in the touch region, and the touch panel unit is provided. The at least one surface-transparent transparent conductive layer is disposed on the substrate, and has at least one P/% groove on the conductive layer of the substrate, and the barrier groove passes through the touch region. ;It month is widely divided into a peripheral area, such as a transparent layer located in the peripheral area, and located in the touch area ΐμ m, the 玄 钕 transparent layer is exposed in the insulating layer, The transparent conductive layer disposed on the insulating layer and electrically connected to the collision region; and - is disposed on the other surface of the substrate and corresponding to the transparent conductive unit has the following beneficial effects: The touch panel leads to the edge layer to prevent the conductive layer from being directly formed on the transparent W layer. The disadvantages of the process. Furthermore, the panel unit utilizes the thickness of the insulating layer to make the contact of the 偻1& and the two sides increase the touch panel unit in the vertical plane and improve the touch panel signal; Features and technical content, - The following is a detailed description of the creation and the drawings. The drawings only provide the reference disk for the purpose of this system. The use of Asian and African is used to limit this creation [Implementation] 5/16 M430655 This creation proposes a touch panel unit with a profitable area: the contact area between the high-control conductive layer and the transparent conductive layer, The transparent light guide 4 is covered with a conductive material to penetrate the nine guides 4, so the benefit of the I insulation layer can improve the process yield. Please refer to FIG. 4Β; the touch panel unit of the present invention includes at least =η,- Transparent conductive layer on the substrate u] 2 = conductive circuit layer 15 'The other transparent conductive layer 12 has a barrier; the second is to separate the moon-shaped conductive layer 12 into a peripheral region and touch: in other words, the creation utilizes a barrier trench 13Achieve the simplification of the electrical resistance of the peripheral region ρΖ and the touch region Ding. j clothing

以下,本創作將詳細說明觸控面板單元1 流程: F 請參考圖1A、圖1B;如圖所示,透明 係成型於基材U之一表面上,具體而言,基材^可 為聚乙細對苯二f酸酿㈤yeihylene Ter_ha㈣, PET )、聚甲基丙稀酸曱酉旨(Polymethylmethacryiate, PMM:)、聚碳酸酯(p〇lycarb〇nate,pc)等樹脂材料 膜或是玻璃、石英、金剛石等基板;而透明導電層12 =為微量奈米導線與導電樹脂構成者,例如將奈米 石反官與’卜欠乙二氧基噻吩(p〇ly 3,4 Ethy丨_㈣ :PEDOT)所組成之奈米碳管層,更進一步地,奈米 碳管層可為多個相互纏繞或各向同性的奈米碳管,利 6/16 M430655 用凡德瓦爾力相互吸引、纏繞,以, 之網絡狀結構,其中所述+米石“九成具有微孔結構 丄雙壁奈米碳管、多壁奈米碳管或其混和,:Ϊ:: 来碳管的直徑約為〇.5奈米至5〇奈米,雙壁夺::: 約為U奈米至奈米二;=碳管的直摱 ,, 』作"Τ利用金屬催化的士 式或將奈米碳管制作為塗料以塗佈方式將奈米石户总 製作於基材]1上,其中奈米碳 :,反s g 至500奈米,以作為透明導雷心構成尽度可以為I〇 1Λ %層12,可使透明導恭® 面板Λ較好的阻值分布和透光特性1而提供了^ 面板早7L】及使用觸控面板單元】 壯班 工 率和觸控精確度。 ”’、不衣1的分辨 二广考圖2Α、圖2Β ;透明導電層】2上成型至小 且:二槽13 ’具體而言’本創作可利用乾、二 峨-射方= ^ 一’叫 电水-飞田射方式在透明導電 溝槽】3,例如矩开,d 封閉狀的阻隔 样】3 .—形、圓形等,藉此,阻隔溝 /可將透明導電層】2區分 丁2,故在雪抖μ # 叹啁石亚區 緣(即不導ϋ)心 及觸碰區Η係為相互絕 可施力 H,故位於觸碰區丁乙之透明導電層12即 屋使透明導電層〗2上形成等電位面。 明導電層;广再圖=示’為了將位於觸碰㈣之透 助限隔溝槽⑶=,透明導電層12上更成型有輔 方式沐雨έ 如圖所示,本創作可同樣利用乾蝕刻 ^田^方式製作輔助阻隔溝槽⑶,並將位於觸碰 7/16 導雨區導電層12區分成多個(例如5個)觸碰 應故每-觸碰導電區塊121均可被單獨感 等电層12,而位於觸碰區τζ之透明導 ^則裸露於絕緣層14。㈣而言可以網 ρ:2型於位於周邊區Ρζ之透明導電層12 為所述之絕緣層14,其厚度約為^⑺聰,如圖所示 ’絕緣層14可由周邊區PZ之透明 阻隔溝槽13中, 甲至 明 伖盍於口 P刀之位於觸碰區TZ之透 1 確保周邊區PZ與觸碰區^之透明導Hereinafter, this creation will explain the flow of the touch panel unit 1 in detail: F Please refer to FIG. 1A and FIG. 1B; as shown in the figure, the transparent system is formed on one surface of the substrate U, specifically, the substrate can be aggregated. a fine resin material such as benzoic acid (5) yeihylene Ter_ha (4), PET), polymethylmethacryiate (PMM:), polycarbonate (p〇lycarb〇nate, pc), or glass, a substrate such as quartz or diamond; and a transparent conductive layer 12 = a micro-nano wire and a conductive resin, for example, a nano-stone anti-official and a p-ethoxydithiophene (p〇ly 3,4 Ethy丨_(4) :PEDOT) The carbon nanotube layer, furthermore, the carbon nanotube layer can be a plurality of intertwined or isotropic carbon nanotubes, and the 6/16 M430655 is attracted to each other by Van der Waals force. Winding, to, network-like structure, wherein the + methane "nine-phase has a microporous structure, double-walled carbon nanotubes, multi-walled carbon nanotubes or a mixture thereof,: Ϊ:: the diameter of the carbon tube is about 〇.5nm to 5〇N, double walled::: about U nanometer to nanometer two; = straight pipe of carbon tube, 』作&qu Ot; Τ using a metal-catalyzed or nano-carbon control as a coating to coat nano-stone on a substrate]1, wherein nanocarbon:, anti-sg to 500 nm, as The thickness of the transparent guide core can be I〇1Λ% layer 12, which can provide a good resistance distribution and light transmission characteristics of the transparent guide panel. 1 panel is 7L early] and the touch panel unit is used. Strong work rate and touch accuracy. "', the resolution of the non-clothing 1 2, 2, Figure 2Β; transparent conductive layer] 2 molded to small and: two slots 13 'specifically' this creation can be used Dry, two 峨-射方= ^ One 'called electric water - Feitian shooting mode in transparent conductive grooves】 3, such as a moment open, d closed-shaped barrier sample] 3 - shape, round, etc., thereby Barrier groove / can be divided into transparent conductive layer 2, so 2, so in the snow shake μ # 啁 啁 亚 亚 亚 亚 ( ( ( ( ( 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚 亚The transparent conductive layer 12 of the touch zone Dingyi forms an equipotential surface on the transparent conductive layer 〖2. Ming conductive layer; wide re-map = show 'in order to be located in the touch (4) through the barrier groove (3) =, the transparent conductive layer 12 is more formed with auxiliary mode Mu Yu as shown, the creation can also use the same The auxiliary barrier trench (3) is formed by etching, and the conductive layer 12 located in the touch 7/16 rain-leaf region is divided into a plurality of (for example, five) touches. Each of the touch-sensitive conductive blocks 121 can be The isoelectric layer 12 is separately sensed, and the transparent conductive layer located in the touch region τ is exposed to the insulating layer 14. (4) In the case of the network ρ: 2 type, the transparent conductive layer 12 located in the peripheral region is the insulating layer 14 having a thickness of about (7) Sat. As shown, the insulating layer 14 can be transparently blocked by the peripheral region PZ. In the groove 13, the penetration of the nail to the abutting P knife in the touch zone TZ ensures the transparent guide of the peripheral zone PZ and the touch zone ^

2 的阻絕特性。藉此,錄觸碰區丁Z ^月導U !2即可裸露於絕緣層14 η之透明導電層12與傳導線路層15之連接。2 blocking characteristics. Thereby, the contact between the transparent conductive layer 12 of the insulating layer 14 and the conductive layer 15 can be exposed by the touch area.

緣#ΤΛ4Α'圖4β所示’傳導線路層15係設置於絕 電性連接位於觸碰區了ζ之透明導電層U 將錢射,料線路層15可彻印刷方式 絕緣層14上,且延伸連接於透 曰〗2之母一觸碰導電區塊121, 路層】5的末端可形成電極15 卜傳¥線 性連接的w , 達到與外部單元電 採Ϊ= 一實施例中,傳導線路層。可以 層14上。、一、化學鑛等沈積方法直接形成在絕緣 透,本創作在傳導線路層Μ與 "層12間设置有絕緣層⑷絕緣層14可提供 8/16 寸疋4度,俾使傳導線路層15斑 維持上下間之表面連接,…/ 2可 導 連接㈣免傳導線路層15與透明 12在垂直方向上之電性連通,換言之,本創作 用纟巴緣層14之控制傳導線路層Μ與透明 12的接觸面積大 兒曰 以用於控制判讀觸動電:::妾觸面上形成導通, 計之使用;而在紫程考旦° •敏度及相關電路設 層15與透明導^ 里’本創作之傳導線路 暮妗9 亚非元全的大面積接觸(即傳 層15大部分位於絕緣…),故可提高製】 至少=卜/:,考圖5 ’其顯示本創作之顯示裝置,直 —二=之觸控面板單元】及設置於基材"之另 表回且對應於透明導電層^之 夕 ,本創作提出一種顯示 ;;早兀“換吕之 10 、 置,其將頻不單元2與透明 W層】2、絕緣層】 = 的相對兩表面,在一層】^又置於基材η 液晶顯示器、場發射顯爾中,顯示單元2可為. 顯示器、直空:^r、電製顯示器、電致發光 創作之㈣、^先"1或陰極射線管等。另外,本 怎J作之透明導電層12 $ — ,例如利用二气几、更叹1有硬塗層(hardcoai)3 —虱化矽或黑素樹脂、氨基f酸系;# 醇酸系樹脂、丙烯酸”卩丞"夂系樹月曰、 脂沈積於透明導電# jV上曰H系樹脂等硬化型樹 佳地,硬塗層以作為所述之硬塗層3,較 耗、抗化學特性^萆:各氏硬度7H,且具有对磨 仇uv寺等的效用。 方面,為了减小由顯示單元2對觸控面板單 9/16 M430655 元1所產生的電磁干擾,以避免觸控面板單元!發出 的#號產生錯誤,更可在顯示單元2與觸控面板單元i 之間設置屏蔽層4,其可由非結晶型或結晶型氧化姻錫 “(Imiium tin oxide,IT0)薄膜、銻錫氧化物( 薄膜、錄金薄膜、銀薄膜鋼鋅氧化物(㈣随。 ,IZO)、氧化鉻(Chr〇me〇xide)、氧化鋅(no)、氧 化鈦(TiQ)或奈米碳管層等透明導電材料形成,屏蔽 層4可作為電性之接地點,亦達到電磁屏蔽的作用, 2而使得觸控面板單元丨能在無電磁干擾的環境中作缘#ΤΛ4Α'The conductive layer 15 shown in Fig. 4β is disposed on the transparent conductive layer U of the electrically insulating connection located in the touch area, and the material line layer 15 can be printed on the insulating layer 14 and extended. Connected to the mother-to-touch conductive block 121 of the transparent layer 2, the end of the road layer 5 can form the electrode 15 and the linear connection w can be achieved, and the electrical connection with the external unit is reached. . Can be on layer 14. First, chemical deposits and other deposition methods are directly formed in the insulation. This creation is provided with an insulating layer between the conductive layer and the layer 12 (4) The insulating layer 14 can provide 8/16 inch 疋 4 degrees, and the conductive layer 15 spots maintain the surface connection between the upper and lower sides, ... / 2 can be connected (4) the conductive layer 15 and the transparent 12 in the vertical direction of electrical connection, in other words, the creation of the control layer of the barrier layer 14 The contact area of the transparent 12 is used to control the interpretation of the touch electric power::: the conductive surface is formed to be conductive, and the meter is used; and in the purple process, the sensitivity and the related circuit layer 15 and the transparent guide 'The transmission line of this creation 暮妗9 Asia-Africa's large-area contact (that is, the transmission layer 15 is mostly located in insulation...), so it can be improved] At least = Bu /:, Figure 5 'Shows the display of this creation The device, the direct-two = touch panel unit] and the other substrate set on the substrate & corresponds to the transparent conductive layer ^, this creation proposes a display;; early 兀 "Change Lu 10, set, It will be the relative of the unit 2 and the transparent W layer 2, the insulation layer = The two surfaces, in one layer, are placed on the substrate η liquid crystal display, field emission display, display unit 2 can be. Display, straight space: ^r, electric display, electroluminescence creation (four), ^ first &quot 1 or a cathode ray tube, etc. In addition, how to make a transparent conductive layer 12 $ - , for example, using a gas two, a sigh 1 hard coating (hardcoai) 3 - bismuth or melanin resin, amino f Acidic;# Alkyd resin, acrylic 卩丞" 夂 树 曰 曰, fat deposited on transparent conductive # jV upper 曰 H-based resin and other hardened trees, hard coating as hard coating Layer 3, more economical and chemically resistant. ^萆: Each hardness is 7H, and it has the effect on the Qiuqiu Temple. In order to reduce the electromagnetic interference generated by the display unit 2 to the touch panel single 9/16 M430655, the touch panel unit is avoided! The issued ## generates an error, and a shielding layer 4 may be disposed between the display unit 2 and the touch panel unit i, which may be oxidized by an amorphous or crystalline oxidized tin oxide film (ITO). (film, gold film, silver film steel zinc oxide ((4) with IZO), chromium oxide (Chr〇me〇xide), zinc oxide (no), titanium oxide (TiQ) or carbon nanotube layer, etc. The transparent conductive material is formed, and the shielding layer 4 can serve as an electrical grounding point and also achieve the function of electromagnetic shielding, so that the touch panel unit can be used in an environment without electromagnetic interference.

大而^方Γ ’為了避免顯示單元2因觸控之外力過 c,頒示單元2與觸控面板單元i之間更可言义 ,化保暖層5 ’其可由氮化矽、氧化矽 烯、聚酯膜或丙騎樹脂等材料形成。 U 土述:顯示裝置可進一步包括觸控控制器顯示 疋工I為及處理器(圖未示),其中三者相互性 接,而觸控控制器達接觸控面板單元連 示單元控制II則連接顯示單元。 31 5 11 本實施例在應用時的示例如 態下,觸碰區^之透明導電層12(==觸f大 區塊12”上施加—預 (即母-觸娅導電 形成等電位面。告使用* 土’而在透明導電層12上 示畫面後,以手指或觸 ;的顯 板單元1_碰_塊121==接近觸控面 明導電層12之間形A 進仃知作時,物件與透 之間,合電容,對高頻電流來說,電 10/16 M430655 合為直接導體,於是物件從接觸點帶丄 ’此電流分別從觸护面搞留— 邛刀的黾紐 ί 點距離的計算,以求出接觸點的: 觸彳工控刺器將精確的接觸位… 處理器,處理器即可接受上述的接觸位置資料^給 ί:::在ΐ理器將執行後的資料傳給顯示單元控: ;行=示單…—該接觸位置:; 綜上所述’本創作至少具有以下功效: L、利用乾敍刻方法製作阻隔溝样 故具有簡化製程的效果。 刀阻&溝槽 導線路層1非完全地直接成型在透 展 提高製㈣良率。 彳料為層的影響,進而 緣居3,、故本T1!?在傳導線路層與透明導電層間設置有絕 絕緣層控料導線路層與透明導電居 的接觸面積大小 夺电曰 敏度。 心觸動電容訊號的靈 間僅4有單衣本創作之傳導線路層與透明導電層 的輕:;=面’故當使用者進行觸控時,所產生 靈敏i。〜準’故可提升判讀觸動電容訊號的 飼限srr本創作之較佳可行實施例,非因此 圖W 利範圍,故舉凡運用本創作說明書及 θ不合所為之等效技術變化’均包含於本創作之範 11/16 财30655 圍内。 【圖式簡單說明】 曾圖1A係顯示本創作之觸控面板單元的基材與透明 冷電層的上視圖。 圖1B係、顯示本創作之觸控面板單元的基材與透明 導電層的側視圖。 圖2A係顯示本創作在透明導電層成型阻隔溝槽之 上視圖。 圖2B係顯示本創作在透明導電層成型阻隔溝 側視圖。 圖3A係顯示本創作在透明導電層成型絕緣屛 上視圖。 e ,圖3B係顯示本創作在透明導電層成型絕緣層之側 視圖。 , 圖4A係顯示本創作之觸控面扳單元的上視圖。 圖4B係顯示本創作之觸控面板單元的側視圖。 圖5係顯示本創作之顯示裝置的示意圖。 【主要元件符號說明】 1 觸控面板單元 11 基材 12 透明導電層 121 13 阻隔溝槽 13】 觸碰導電區塊 輔助阻隔溝槽 12/16 M430655 14 絕緣層 15 傳導線路層 2 顯示單元 ο 硬塗層 4 屏蔽層 5 鈍化保護層 PZ 周邊區 TZ 觸<5並區 151 電極In order to prevent the display unit 2 from passing through c due to the touch, the display unit 2 and the touch panel unit i are more sensible, and the thermal insulation layer 5' can be made of tantalum nitride or decene oxide. , polyester film or acrylic resin and other materials. U: The display device may further include a touch controller for displaying the completion I and the processor (not shown), wherein the three are connected to each other, and the touch controller reaches the contact panel unit and the unit control unit II Connect the display unit. 31 5 11 In the example of the application, the transparent conductive layer 12 of the touch area (==touch f large block 12) is applied-pre- (ie, the mother-touch is electrically conductive to form an equipotential surface). After using the screen to display the image on the transparent conductive layer 12, the panel unit 1_touch_block 121==close to the touch surface and the conductive layer 12 is formed by the finger or touch. Between the object and the through, the capacitance, for the high-frequency current, the electric 10/16 M430655 is combined into a direct conductor, so the object is brought from the contact point 此 'this current is separately from the contact surface - the file of the file ί Point distance calculation to find the contact point: Touch the industrial control spurs will accurately touch the position... Processor, the processor can accept the above contact position data ^ to ί::: after the processor will execute The data is transmitted to the display unit control: ; line = list... - the contact position:; In summary, the present invention has at least the following effects: L. The use of the dry sculpt method to produce the barrier groove has the effect of simplifying the process. The knife resistance & trench conductor layer 1 is not completely directly formed in the penetration enhancement system (four) yield. The influence, and then the edge of 3, the T1!? between the conductive line layer and the transparent conductive layer is provided with a layer of insulating layer control material and the transparent conductive area of the contact area size power sensitivity. Heart touch capacitor signal Only 4 of the spirit room has the light of the conductive layer and the transparent conductive layer of the single-piece creation: ●=face', so when the user touches, the sensitive i is generated. ~Quasi' can improve the feeding limit of the interpretation of the touch capacitance signal The preferred and feasible embodiments of srr's creations are not in the scope of the drawings, so the equivalent technical changes that use this creation specification and θ disagreement are included in the scope of this creation, 11/16, 30,655. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1A shows a top view of a substrate and a transparent cold electric layer of the touch panel unit of the present invention. Fig. 1B is a side view showing a substrate and a transparent conductive layer of the touch panel unit of the present invention. Fig. 2A shows a view of the creation of the barrier layer on the transparent conductive layer. Fig. 2B shows the side view of the barrier groove formed in the transparent conductive layer. Fig. 3A shows the creation of the insulating layer in the transparent conductive layer. Figure 3B shows a top view of the touch panel unit of the present invention. Figure 4B shows the touch panel unit of the present invention. Figure 5 is a schematic view showing the display device of the present invention. [Main component symbol description] 1 Touch panel unit 11 Substrate 12 Transparent conductive layer 121 13 Barrier trench 13] Touching conductive block auxiliary barrier trench 12/16 M430655 14 Insulation 15 Conductive circuit layer 2 Display unit ο Hard coating 4 Shield 5 Passivation protective layer PZ Peripheral area TZ Touch <5 parallel 151 electrode

13/1613/16

Claims (1)

六、申請專利範圍: 1 種觸控面板單元,其包括: —基材; 置於該基材之—表面之透明導電層, 曰上具有至少一阻隔溝槽’該阻严 电 一導電層區分為周邊區及觸碰區广"將該透明 彖層其覆盍位於該周邊區之該透明導 :於該觸碰區之該透明導電層裸露於該絕緣;;: —傳導線路層,其設置於朗緣層上 該觸碰區之該透明導電層。 禮姜捿位於 由靖區之該透明導電層上延伸= =中,且覆蓋於部分之位於該觸碰區之該透; 1'申if利範圍第1項所述之觸控面板單元,並中节 阻/W溝槽係成型為一封閉狀者。 八^ 透祀圍第3項所述之觸控面板單元,其中該 隔、、募抑=上更具有至少一輔助阻隔溝槽,該輔助阻 個觸心塊於該觸碰區之該透明導電層區分為多 阻ρ申;專利乾圍第4項所述之觸控面板單元,豆中竽 助阻隔溝槽料乾_成狀溝;t 溝槽。X 4槽與該辅助阻隔溝槽係為雷射成型之 14/16 7 、ΐ申請糊範圍第1項所述之觸控面板單元,其中今 坆明導電層係為一奈米碳管層。 ^ 、一種顯示裝置,至少包括: 觸控面板單元,其包括; 一基材; 材,—表面之透明導電層,該透明導 :二二有至少—阻隔溝槽’該阻隔溝槽係將該 处月導電層區分為周邊區及觸碰區; —絕緣層,其覆蓋位於該周邊區之該透明導電声, 而該觸碰區之該透明導電層裸露於該絕緯:層 -傳導線路層’其設置於該絕緣層上且電性 於該觸碰區之該透明導電層;以及 h —顯示單元,其設置於該基材 該透明導電層。 土材之另一表面且對應於 、:!:專利範圍第7項所述之顯示裝置,其中該透明 導電層上更具有一硬塗層。 遊明 如申凊專利範圍第7項 層係由該周邊區㈡透其中該絕緣 中,貝牵鞏# V电層延伸至該阻隔溝槽 且误皿方;部分之位於該觸碰區之# e aB、胃 0、 如申战_〜m j遠透明導電層。 a 月導!:利乾圍弟7項所述之顯示裝置,其中該透 Θ導電層上更具有至少一辅 ,、甲。玄边 溝槽係將位方r ^溝槽,該輔助阻隔 、{方' 5亥觸碰區之該透明暮 觸碰導電區塊。 €區为為多個 1、 如申請專利範圍第i 〇 < 4不裝置,其中該 15/16 阻=槽與該輔助阻隔溝槽係為乾钱刻成 接且该阻隔溝槽係成型為一封閉狀者;或者該阻隔^ 槽與該輔助阻隔溝槽係為 雷射成型之溝槽,且該阻隔 溝槽係成型為一封閉狀者。 、如申請專利範圍第7項所述之顯示裝置,其中該透 明導電層係為一奈米碳管層。 16/16Sixth, the scope of application for patents: 1 touch panel unit, comprising: - a substrate; a transparent conductive layer disposed on the surface of the substrate, the crucible having at least one barrier groove - the resistance is electrically separated by a conductive layer For the peripheral area and the touch area, the transparent layer is covered by the transparent guide in the peripheral area: the transparent conductive layer is exposed to the insulation in the touch area;;: - a conductive layer, The transparent conductive layer disposed on the edge layer of the edge layer.礼姜捿 is located on the transparent conductive layer of the Jing District, = = in the middle, and covers part of the touch area in the touch area; 1' Shenifi range of the touch panel unit described in item 1, and The middle resistance/W groove system is formed into a closed shape. The touch panel unit of claim 3, wherein the spacer, the sufficiency=the upper side further has at least one auxiliary blocking groove, the auxiliary blocking haptic block being transparently conductive in the touch area The layer is divided into multi-resistance ρ Shen; the touch panel unit described in the fourth paragraph of the patent dry circumference, the bean 竽 阻 阻 沟槽 沟槽 沟槽 沟槽 沟槽 ; ; ; ; ; ;; The X 4 slot and the auxiliary barrier groove are the laser-formed 14/16 7 , and the touch panel unit according to the first aspect of the invention, wherein the conductive layer of the present invention is a carbon nanotube layer. And a display device comprising: at least: a touch panel unit, comprising: a substrate; a material, a transparent conductive layer on the surface, the transparent guide: at least two-blocking trenches, the barrier trench The monthly conductive layer is divided into a peripheral area and a touch area; an insulating layer covering the transparent conductive sound located in the peripheral area, and the transparent conductive layer of the touch area is exposed in the weft: layer-conducting circuit layer 'The transparent conductive layer disposed on the insulating layer and electrically connected to the touch region; and h - a display unit disposed on the transparent conductive layer of the substrate. The display device of the seventh aspect of the invention, wherein the transparent conductive layer further has a hard coat layer. The seventh layer of the patent scope of You Mingru is from the surrounding area (2) through which the insulation is penetrated, and the V-electrode layer extends to the barrier groove and is misplaced; part of the contact area is located ## e aB, stomach 0, such as Shen war _ ~ mj far transparent conductive layer. a month guide! The display device of the seventh aspect of the invention, wherein the conductive layer further comprises at least one auxiliary, A. The slanted edge groove will be located at the square r ^ groove, and the auxiliary barrier, the transparent 暮 of the {5' sea touch area touches the conductive block. The € zone is a plurality of 1, such as the patent application range i i 〇 < 4 no device, wherein the 15/16 resistance groove and the auxiliary barrier groove are spliced and the barrier groove is formed into a closed shape; or the barrier groove and the auxiliary barrier groove are laser-formed grooves, and the barrier groove is formed into a closed shape. The display device of claim 7, wherein the transparent conductive layer is a carbon nanotube layer. 16/16
TW101201964U 2012-02-03 2012-02-03 Touch panel unit and display device thereof TWM430655U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
TW101201964U TWM430655U (en) 2012-02-03 2012-02-03 Touch panel unit and display device thereof

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
TW101201964U TWM430655U (en) 2012-02-03 2012-02-03 Touch panel unit and display device thereof

Publications (1)

Publication Number Publication Date
TWM430655U true TWM430655U (en) 2012-06-01

Family

ID=46722489

Family Applications (1)

Application Number Title Priority Date Filing Date
TW101201964U TWM430655U (en) 2012-02-03 2012-02-03 Touch panel unit and display device thereof

Country Status (1)

Country Link
TW (1) TWM430655U (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103902070A (en) * 2012-12-24 2014-07-02 东元奈米应材股份有限公司 Touch control component and manufacturing method thereof
TWI624054B (en) * 2012-09-03 2018-05-11 半導體能源研究所股份有限公司 Display device and electronic device

Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI624054B (en) * 2012-09-03 2018-05-11 半導體能源研究所股份有限公司 Display device and electronic device
US10120410B2 (en) 2012-09-03 2018-11-06 Semiconductor Energy Laboratory Co., Ltd. Display device and electronic device
TWI671897B (en) * 2012-09-03 2019-09-11 日商半導體能源研究所股份有限公司 Display device and electronic device
US10437283B2 (en) 2012-09-03 2019-10-08 Semiconductor Energy Laboratory Co., Ltd. Display device and electronic device
US10474186B2 (en) 2012-09-03 2019-11-12 Semiconductor Energy Labortory Co., Ltd. Electronic device including active matrix display device
TWI722764B (en) * 2012-09-03 2021-03-21 日商半導體能源研究所股份有限公司 Display device and electronic device
US11112821B2 (en) 2012-09-03 2021-09-07 Semiconductor Energy Laboratory Co., Ltd. Electronic device including active matrix display device and manufacturing method thereof
US11803209B2 (en) 2012-09-03 2023-10-31 Semiconductor Energy Laboratory Co., Ltd. Electronic device including display panel
US12130659B2 (en) 2012-09-03 2024-10-29 Semiconductor Energy Laboratory Co., Ltd. Display device and electronic device
CN103902070A (en) * 2012-12-24 2014-07-02 东元奈米应材股份有限公司 Touch control component and manufacturing method thereof

Similar Documents

Publication Publication Date Title
CN101676832B (en) Desktop computer
TWI373727B (en) Portable computer
JP4629785B2 (en) Touch panel and display device
CN101620454A (en) Potable computer
TW201120717A (en) Touch display device and touch sensing device
CN203433234U (en) Liquid crystal display of integrated touch screen
TW200929645A (en) Touch panel and driving method thereof
CN203422726U (en) Liquid crystal displayer of ON-CELL structure touch screen
CN202502482U (en) A touch panel unit and a display device
TWM430655U (en) Touch panel unit and display device thereof
TWI528075B (en) Display panel
CN103353819B (en) There is the multipoint self-capacitance touch screen of high precision writing pencil input function
US10228803B2 (en) Electrostatic sensing method
TW201128257A (en) Touch panel structure
CN203338327U (en) Improved optical guidance system (OGS) touch screen
CN205405467U (en) Flexible touch display screen
US10386983B2 (en) Electrostatic sensing device
US10248267B2 (en) Electrostatic sensing device
US10261636B2 (en) Touch and hover sensing device
TWI451317B (en) Touch panel
TWI377407B (en) Desktop computer
CN205121508U (en) Three -dimensional touch devices
US10261637B2 (en) Electrostatic sensing device
US10386982B2 (en) Electrostatic sensing device
CN104635988A (en) Touch substrate and manufacturing of touch substrate, touch display panel and display device

Legal Events

Date Code Title Description
MM4K Annulment or lapse of a utility model due to non-payment of fees