M428419 五、新型說明: 【新型所屬之技術領域】 本創作係指一種觸控輸入裝置’尤指一種具有較佳抗腐蝕特性的觸 控輸入裝置。 【先前技術】 隨著數位科技的進步,各種資訊處理設備以驚人的速度蓬勃發展, 在此數位資訊的浪潮下,由於具有高度的便利性,觸控面板早已廣泛的 被用作為數位電子裝置的輸入設備,從PDA、行動電話至筆記型電腦, 甚至工業用電腦,隨處都可看見觸控面板的應用,其中又以三明治 (sandwiched)式觸控面板最廣受使用。 請參閱第-圖(A),其係習用技術中採用三明治架構為主要結構的 觸控面板之正面俯視示意圖,其還另以保護膜片密封軟板與三明治主要 結構所構成的接合處。第一圖(A)中習用觸控面板結構1〇〇包括玻璃導 電基板110、銀漿佈線115、聚酯(pE,巧導電膜12〇、軟板、保 護膜片140、作動感應區D與電路區c等,觸控面板結構1〇〇的主要結 構係採用習知的二明治(sandwich)架構i即玻璃導電基板11〇與pET導 電膜12〇兩層以彼此的導電層互相面對的方式而設置,玻璃導電基板 lio與pet導電膜i2〇之間存在微小間隙,在其中夾設有間隙物細紅r, 未示於圖中)’以使得在非操作狀態下;保持玻璃導電基板11〇的導電 面與PET導電膜12〇的導電面之間不致於電性接觸。 觸控面板結構100略分為作動感應區D以及電路區C兩個區域, 作動感應區D中形成有作動感應場,用於感應外來的觸碰作動,電路 區c中設置有銀漿佈線115等電路,俾利在作動感應區D中產生,例 如:電阻式的以線性電阻梯度為基礎的作動感應場,或者,電容式的以 -3- M428419 線性電容梯度為基礎的作動感應場,以及與外部進行交換訊號,銀聚佈 線115通常是以高溫燒結的方式形成在玻璃導電基板ιι〇上。 FPCl3〇是設置在玻料電基板11Q上並位於玻料電基板與 PET導電膜12G之間’其表面上通常以_的方式形成許多電導線 1M ’電導線1M電連接至銀漿佈線m,PpCl3〇通常是由具有可撓性 的材料所製成的軟性電路板f路,用來触由外雜機断輸入的, 用於形成感應觸碰作動的作動感應場所需要的外部控制訊號,並將作動 感應區D所感應到之感應訊號傳送至外部控制電路,其具有訊號交換 以及訊號匯流之功能。 觸控面板結構⑽’其主要組成架構由下到上依序為,位於最下層 的玻璃導電基板110 ’其用於對觸控面板結構〗⑻以及其各種元件提供 支撐’位於玻璃導電基板110與PET導電膜⑶之間的砰⑽,位於 最表層的PET導電膜⑶,PET導電膜创接受使用者的觸碰作 動’在操作狀態下’當使用者按麼PET導電膜12〇,則玻璃導電基板 110的導電面與PET導電膜12〇的導電面之間彼此相互電性接觸,產生 相應於觸碰轴_應域,祕驗面減構即可錢任意使用 者的觸碰作動》 而在習用的觸控面板結構⑽上’為了防止水汽侵入並達成抗腐钱 的效果’會密封(sealed)喊翁妓板⑽以及pET導電膜12Q兩層所 形成的三日㈣主要結構的側緣處,以及肌咖與由玻璃導電基板ιι〇 以及PET $電膜12〇兩層所形成的三明治主要結構所構成# 了型接合 處’以防止水汽侵入觸控面板結構1〇〇,進而賴其中的元件導致面 板損壞》 針對T型接合的②、封,對於τ型接合的正面密封,如第—圖(A)的 揭不’其方式是直接將-τ型保護膜片14G貼在τ型接合的正面上, -4- M428419 以避免FPCISO之T型接合處的缝隙形成腐蝕路經,對於τ型接合的背 面密封,如第一圖(Β)的揭示^則是使用液態封膠15〇,填補丁型接合處 的縫隙,避免水汽或溼氣的侵入。 但這種現有的抗腐钱設計,常因為對於τ型保護臈片的貼合手法 不良,反而會因此導致Τ型保護抑產生—些能讓腐紐氣體通過的 通道,造成抗腐徽果失效,再者,保護膜壯的膠祕不心也會使 腐姓性氣體有侵入之機會。 職是之故,申請人鑑於習知技術中,在線性分壓電極方面所產生之 種種缺失’經過悉心試驗與研究,並一本細不捨之精神;終構思出本 案「觸控輸人裝置」以克服上述缺點,以τ為本案之簡要說明。 【新型内容】 本創作經由延伸在正面Τ _合處軌設在最上層喊性導電層 成為保護膜片’來取代傳統的外貼附式保護膜片,並在背面的τ型接 合處加以封膠,如此可以有效避免保護則貼合不良的問題,同時也賓 去-道黏聽護則的製程,這種經改良後的抗额設計,可以有效降 低觸控面板在腐健環境_賴的機率,_確實的抗腐佩果。 因此根攄本創作的第-構想,提出—種觸控輪入裝置,其具有一導 導電基板相及—黏膠層,其中該導電基板層具有一 第-基板與H電層’該撓轉電基板層具有—撓性餘與 導電層1導電基板層紐触導電絲 、 nr配置τ透過該黏著層而彼轉合^ 根據本細第二構想,提㈣觸控輪入仏包括—導電基板 -5- M428419 層;4騎;以及-撓性導電基板層,其具有一延伸部並與該導電基 板層透過該轉層而彼此接合,且雜伸概於賴科電基板層之四 周圍,使職撓性導電基板層之面積A於該導電基板層之面積。 根據本創作的第三構想’提出—種觸控輸人裝置,包括—央層結 構’其包括-軟性薄膜以及—基板;以及—軟性電路,其與該夾層^構 之間構成-τ雜合,域齡_之面積纽織減之面積並可 覆蓋該丁型接合。 【實施方式】 本案將可由以下的實施舰_得到充分瞭解,使得翻本技藝之 人士可以據以①狀’財案之實施麟可由下職施案綱被限制其 實施型態L本創作的細不奸提出之實施_關,而應以本 創作提出之申請專利範圍為準。 凊參閱第二圖(A),其係為本創作第-實施例之觸控輸人裝置其在 正面視角之示意圖。第二圖(A)所揭示之觸控輸人裝置·,包括導電基 板2】〇、撓性導電基板22〇以及軟性電路23〇,且觸控輸入裝置之 正面略分為觸感舰D以及電 c兩舰域,其巾導電基板· 與撓性導電基板22G以其導電層互相面對的配置方式形成稱為三明治 或者夾層的主要結構,而軟性電路MO則設置在其間,軟性電路MO上 具有電連接至銀漿佈線加的電導線如,作動感應區D所需要的外部 控制訊號’或者是其所感朗、要耕傳祕訊號,皆可經由銀聚 佈線犯、電導線故的路徑❿與外部控制電路之間進行訊號交換。 導電基板210還具有第一基板(未示於圖令)與第一導電層(未示於圖 中)’第-基板之材質較佳為PMMA、光學聚碳麵、安全破璃或強化 玻璃等,撓性導電基板22〇還具有撓性基板(未示於圖中)與第二導電層 M428419 (未示於圖中),撓性基板較佳為聚乙烯(PE)系導電薄膜基板、PC系導電 薄膜基板、光學級聚對苯二甲三乙醋(PE1)氧化銦踢㈣)薄膜基板由 PEN或者TAC等材質所製作之薄膜基板;台灣專利申請號幌126644 中詳細說明了具有第—基板與第-導電層之導電基板與具有挽性 基板與第二導電層之撓性導電基板22〇彼此之間的構型 在此將台灣補_魏Ο98·44内容完全併从供參考如同在此提 出° 軟性電路230與三明治/夾層主要結構之間形成一個τ型接合,為 了較佳地密封這個Τ型接合與三明治/夾層主要結構,以防止水汽侵入 雛輪入裝置,·以具有凸出部·的撓性導鶴作為撓性導電基板 22〇 ’尤其凸出部24〇的位置是設置在對應於τ型接合之處,如此這個 凸出部240可代替習用的外貼附式保護膜片,密封丁型接合與三明治/ 夾層主要結構,同時也省去__道獅保護膜片_外製程,這種經改良 後的抗腐顧計,可以有珊低觸機人裝置在雜性魏巾遭到顧 的機率’達到確實的抗腐蝕效果。 靖參閱第二圖(Β) ’其係本創作第—實關之撓性導電基板示意 圖;第二_)中的撓性導電基板22〇其在邊緣處,尤其是對應於觸控 輸入裝置的τ型接合區域的部份,具有一個凸出部24〇,較佳地在實質 上還可稱誕伸部、突狀處等。在製侧控輸人裝置時,只需要在觸控 輸入裝置製程之上、下基板之接合步锁中,再將撓性導電基板2烈以點 膠’如.〇CA(〇ptically dear adhesive);黏著到導電基板21〇上的同時, 也對凸出Qp 24〇上勝’將撓性導電墓板22〇的凸出部2如^同步緊密地 黏著到軟性電路23〇與τ型接合區域,就可以完成在正面此一面南上的 製作。 明參閱第二圖(0 ’其係為本創作苐一實施例之觸控輸入裝置其在 -7- M428419 背面視角之示意圖;第二圖(C)揭示觸控輸入裝置2⑻之背面,其在撓 性導電基板22〇的凸出部240的背面’使用了封膠25〇等,封膠250較 佳為液態膠、固態膠、絕緣膠、彈性膠、光學膠或者具黏著性的油墨等, 填補T型接合處的殘餘縫隙,以避免水汽或溼氣的侵入。M428419 V. New description: [New technical field] This creation refers to a touch input device, especially a touch input device with better corrosion resistance. [Prior Art] With the advancement of digital technology, various information processing devices are booming at an alarming rate. Under the wave of digital information, touch panels have been widely used as digital electronic devices because of their high convenience. Input devices, from PDAs, mobile phones to laptops, and even industrial PCs, can be seen everywhere, with sandwich-type touch panels being the most widely used. Please refer to Fig. (A), which is a front plan view of a touch panel having a sandwich structure as a main structure in the prior art, and a joint formed by a protective film sealing soft board and a main structure of the sandwich. The conventional touch panel structure 1A of the first figure (A) includes a glass conductive substrate 110, a silver paste wiring 115, a polyester (pE, a smart conductive film 12A, a soft board, a protective film 140, an actuation sensing area D, and In the circuit area c and the like, the main structure of the touch panel structure 1 is a two-layer sandwich structure i, that is, a glass conductive substrate 11 and a pET conductive film 12, and the conductive layers of each other face each other. By way of example, there is a slight gap between the glass conductive substrate lio and the pet conductive film i2〇, in which a fine red r of the spacer is not present, which is not shown in the figure), so that in the non-operating state, the glass conductive substrate is held. There is no electrical contact between the 11 〇 conductive surface and the conductive surface of the PET conductive film 12 。. The touch panel structure 100 is divided into two regions: the actuation sensing area D and the circuit area C. The actuation sensing area D is formed with an actuation sensing field for sensing an external touch operation, and the silver paste wiring 115 is disposed in the circuit area c. The circuit is generated in the active sensing region D, for example, a resistive actuating field based on a linear resistive gradient, or a capacitive actuating field based on a linear capacitance gradient of -3- M428419, and The signal is exchanged with the outside, and the silver poly wiring 115 is usually formed on the glass conductive substrate by sintering at a high temperature. FPCl3 is disposed on the glass substrate 11Q and between the glass substrate and the PET conductive film 12G. 'The surface thereof is usually formed in a manner of a plurality of electrical wires 1M. The electrical wires 1M are electrically connected to the silver paste wiring m, PpCl3〇 is usually a flexible circuit board made of flexible material, which is used to touch external input signals, and is used to form an external control signal required for the induction touch operation. The sensing signal sensed by the driving sensing area D is transmitted to an external control circuit, which has the functions of signal exchange and signal convergence. The touch panel structure (10)'s main constituent structure is sequentially from bottom to top, and the bottommost glass conductive substrate 110' is used to provide support for the touch panel structure (8) and its various components' located on the glass conductive substrate 110 and The crucible (10) between the PET conductive film (3) is located at the outermost layer of the PET conductive film (3), and the PET conductive film is subjected to the user's touch operation 'in the operating state'. When the user presses the PET conductive film 12, the glass is electrically conductive. The conductive surface of the substrate 110 and the conductive surface of the PET conductive film 12〇 are electrically connected to each other, corresponding to the touch axis _ field, and the secret surface can be reduced by any user's touch action. On the conventional touch panel structure (10), in order to prevent the intrusion of water vapor and achieve the effect of resisting money, the three sides of the main structure of the three-day (four) formed by the two layers of the sealed slab (10) and the pET conductive film 12Q will be sealed. And the muscle coffee and the main structure of the sandwich formed by the two layers of the glass conductive substrate ιι〇 and the PET film 12 # 了 了 了 了 了 了 了 了 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以yuan The part causes the panel to be damaged. 2. For the T-joined 2, the front seal for the τ-type joint, as shown in Fig. (A), the way is to directly attach the -τ type protective diaphragm 14G to the τ-type joint. On the front side, -4- M428419 to avoid the formation of corrosion paths in the gap of the T-joint of FPCISO. For the back seal of the τ-type joint, as disclosed in the first figure (Β), the liquid sealant is used. Fill the gap in the joint of the D-type to avoid the intrusion of moisture or moisture. However, this kind of existing anti-corruption design is often because of the poor fit of the τ-type protective cymbal, but it will lead to the Τ-type protection, which will lead to the passage of the stagnation gas, resulting in the failure of the anti-corrosion Moreover, the secret of the protective film and the strong secret will also make the poisonous gas have a chance to invade. For the sake of the job, the applicant has taken into account the various defects in the linear voltage-dividing electrode in the prior art. After careful testing and research, and a spirit of relentlessness, the applicant finally conceived the case of the touch input device. To overcome the above shortcomings, τ is a brief description of the case. [New content] This creation replaces the traditional externally attached protective film by extending the front Τ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Glue, so it can effectively avoid the problem of poor fit, and at the same time, the process of the guest-to-adhesive hearing, this improved resistance design can effectively reduce the touch panel in a vibrating environment. Probability, _ sure anti-corrosion Pei. Therefore, according to the first concept of the present invention, a touch wheeling device has a conductive substrate phase and an adhesive layer, wherein the conductive substrate layer has a first substrate and an H electrical layer. The electric substrate layer has a flexible conductive layer 1 and a conductive substrate layer, and a nr arrangement τ passes through the adhesive layer to be transferred. According to the second concept of the present invention, (4) the touch wheel is included in the conductive substrate. -5- M428419 layer; 4 ride; and - a flexible conductive substrate layer having an extension portion and being bonded to the conductive substrate layer through the transfer layer, and the heterogeneous extension is around the four layers of the Lai Ke electric substrate layer, The area A of the flexible conductive substrate layer is the area of the conductive substrate layer. According to the third concept of the present invention, a touch input device includes a central layer structure including a soft film and a substrate, and a flexible circuit, which forms a -τ hybrid with the sandwich structure. The area of the domain age _ the area of the woven fabric can be covered and can cover the butyl joint. [Embodiment] This case will be fully understood by the following implementation ship, so that the person who can turn the technique can be restricted by the implementation of the type 1 case. The implementation of _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Referring to the second diagram (A), it is a schematic diagram of the front view of the touch input device of the present invention. The touch input device disclosed in FIG. 2A includes a conductive substrate 2, a flexible conductive substrate 22〇, and a flexible circuit 23〇, and the front surface of the touch input device is slightly divided into a touch ship D and In the two electric domains, the conductive substrate of the towel and the flexible conductive substrate 22G form a main structure called a sandwich or a sandwich with the conductive layer facing each other, and the flexible circuit MO is disposed therebetween, on the flexible circuit MO. The electrical control wire that is electrically connected to the silver paste wiring, such as the external control signal required to actuate the sensing area D, or the sensation of the sensation and the sensation of the secret signal, can be made through the arrangement of the silver wiring and the electrical conductor. Signal exchange with external control circuits. The conductive substrate 210 further has a first substrate (not shown) and a first conductive layer (not shown). The material of the first substrate is preferably PMMA, optical polycarbon surface, safety glass or tempered glass. The flexible conductive substrate 22 has a flexible substrate (not shown) and a second conductive layer M428419 (not shown). The flexible substrate is preferably a polyethylene (PE) conductive film substrate or a PC. A conductive film substrate, an optical grade poly(trimethylene terephthalate (PE1) indium oxide kick (4)) film substrate made of a material such as PEN or TAC; Taiwan Patent Application No. 126644 specifies the first The configuration of the substrate and the conductive substrate of the first conductive layer and the flexible conductive substrate 22 having the conductive substrate and the second conductive layer are complete with the contents of the Taiwanese supplement and the reference is as follows. The proposed flexible circuit 230 forms a τ-type joint with the sandwich/sandwich main structure, in order to better seal the Τ-type joint and the sandwich/sandwich main structure to prevent moisture from entering the device into the device, and to have a bulge Department of flexible guide crane as flexible The position of the electrical substrate 22'', particularly the projection 24'', is disposed at a position corresponding to the τ-type joint, such that the projection 240 can replace the conventional externally attached protective film, sealing the butyl joint and the sandwich/sandwich The main structure, at the same time, also saves __ lion protection film _ external process, this improved anti-corruption plan, you can have the chance of the low-touch machine installed in the hybrid Wei towel Corrosion resistance. Jing refers to the second figure (Β), which is the schematic diagram of the flexible conductive substrate of the present invention; the flexible conductive substrate 22 in the second_) is at the edge, especially corresponding to the touch input device. The portion of the τ-type joint region has a projection 24 〇, preferably in a substantially embossed portion, a projection, or the like. In the side control of the input device, it is only necessary to make the flexible conductive substrate 2 in the joint step lock above the touch input device process and the lower substrate, such as 〇 ically 〇 CA (〇 ically de de 〇 〇) Adhesively adhered to the conductive substrate 21〇, and also embossed the protruding portion Q2 of the flexible conductive tomb 22〇 to the flexible circuit 23〇 and the τ-type joint region. It is possible to complete the production on the south side of this side. Referring to the second figure (0' is a schematic view of the touch input device of the present embodiment in the back view of the -7-M428419; the second figure (C) reveals the back of the touch input device 2 (8), which is The back surface of the protruding portion 240 of the flexible conductive substrate 22 is made of a sealant 25 or the like, and the sealant 250 is preferably a liquid glue, a solid glue, an insulating glue, an elastic glue, an optical glue or an adhesive ink. Fill the residual gap at the T-junction to avoid intrusion of moisture or moisture.
請同時參閱第三圖(A)與(B),第三圖(A)係為本創作第一實施例之觸 控輸入裝置在正面視角之立體示意圖,第三圖⑼係為本創作第一實施 例之觸桠輸入裝置在背面視角之立體示意圖;第三圖(A)與⑼中揭示的 觸控輸入裴置3〇〇 ’包括了軟性導電薄膜MO與其延伸部34〇,以及在 延伸部340的背面所使用的封膠35〇,經由第三圖(A)與之示意,即可 對本創作有整體之理解。 以刖述原理為基礎’可進一步對本發明之軟性導電薄膜之延伸部之 結構設計進行不同變化。請同時參閱第四圖⑷與⑻,第四圖(a)係為本 創作第二實施例之觸控輸人裝置在正面視角之立體示意圖第四圖⑻ 係為本創作第二實_之驗輸人裝置射面視角之立體示意圖;第四 圖之中的軟性導電薄膜42〇之延伸部梢係設置在軟性導電薄膜彻的 四周圍’使得軟性導電薄膜42〇的面鋪大於整#觸控輸人裝置4⑻, 從而使得軟性導電薄膜之延伸部·的邊緣421,能超出觸控輸入 裝置400的邊緣4〇1,以將整個觸控輸入裝置—覆蓋住,而封膠· 則是塗佈在觸控輸人裝置·的邊緣421之四周圍與軟性導電薄膜· 有接合處’以填補觸控輸入裝置_軟性導電薄膜42〇之間 接5處的殘餘縫隙,以避免水汽或座氣的侵入。 軟入是,本__雜人裝置_蓋··電阻式雛 入裝置、光學式觸㈣入裝署P 裝置、紅外線觸控輸 Λ觸控輸入裝置或夕點觸控輸入裝置等等。 實施例Please refer to the third figures (A) and (B) at the same time. The third figure (A) is a three-dimensional diagram of the front view of the touch input device according to the first embodiment of the present invention, and the third figure (9) is the first creation of the present invention. The stereoscopic schematic view of the touch input device of the embodiment in the back view; the touch input device 3'' disclosed in the third figures (A) and (9) includes the flexible conductive film MO and its extension 34〇, and the extension portion The sealant 35〇 used on the back side of 340 can be understood by the third figure (A). Based on the principle of the description, the structural design of the extension of the flexible conductive film of the present invention can be further varied. Please refer to the fourth figure (4) and (8) at the same time. The fourth figure (a) is the third view (8) of the front view of the touch input device of the second embodiment of the present invention. A perspective view of the angle of view of the input surface of the input device; the extension of the flexible conductive film 42 in the fourth figure is disposed around the periphery of the flexible conductive film, so that the surface of the flexible conductive film 42 is larger than the entire touch The input device 4 (8) is such that the edge 421 of the extension portion of the flexible conductive film can exceed the edge 4〇1 of the touch input device 400 to cover the entire touch input device, and the sealant is coated. In the vicinity of the edge 421 of the touch input device, and the flexible conductive film, there is a joint to fill the gap between the touch input device _ soft conductive film 42 5 5 to avoid the intrusion of water vapor or seat gas. . Soft-in, this __ miscellaneous device _ cover · resistance type into the device, optical touch (four) into the installation P device, infrared touch input touch input device or eve touch input device and so on. Example
S •8- M428419 (1) 種馳輸人裝置,其具有—導電基板層—撓性導電基板層 以及-黏膠層,其中該導電基板層具有一第一基板與一第一導電層該 撓味導電基板層具有-撓性基板與—第二導電層,該導電基板層及該撓 生導電基板層係以該第—與第二導電層係彼此相對之配置下透過該黏 著層而彼此接^ ’其中該撓性導電基板層具有_凸部該凸部位在該挽 性導電基板層之邊緣處’使該撓性導電基板層之面積大於該導電基板層 之面積。S 8 - M 428 419 (1) a device for inductively having a conductive substrate layer - a flexible conductive substrate layer and an adhesive layer, wherein the conductive substrate layer has a first substrate and a first conductive layer The conductive substrate layer has a flexible substrate and a second conductive layer, and the conductive substrate layer and the conductive conductive substrate layer are connected to each other through the adhesive layer with the first and second conductive layers facing each other ^ 'where the flexible conductive substrate layer has a convex portion at the edge of the conductive conductive substrate layer' such that the area of the flexible conductive substrate layer is larger than the area of the conductive substrate layer.
(2) 如申明專利範圍第!項所述之觸控輸入裝置*還包括_軟性電 路’其設置於該導電基板層與該撓性導電基板層之間,並與其構成一宁 型接合。 (3) 如申請專利範圍第2項所述之觸控輸入裝置,其中該撓性導電 基板層以該凸部經由-娜賴料電基板層相互黏著儀該挽性導 電基板層以及該導電基板層之間成為密封狀態。 (4) 如申請專利範圍第2項所述之觸控輸入裝置噹中該該凸部可 覆蓋該T型接合》(2) If the patent scope is declared! The touch input device* of the present invention further includes a flexible circuit disposed between the conductive substrate layer and the flexible conductive substrate layer and configured to be in a rigid bond. (3) The touch input device of claim 2, wherein the flexible conductive substrate layer is adhered to the conductive substrate layer and the conductive substrate via the protrusion portion The layers become sealed. (4) In the touch input device of claim 2, the convex portion may cover the T-junction
(5) 如申請專利細第1項所述之觸控輸人裝置其中該挽性導電 基板層為由-PE系…PC系、-PET、_咖或者—說材 製成之導電膜。 (6) 如申請專利範圍第1項所述之觸控輸人裝置,其中該黏著層 -液態膠一固態膠、-絕緣膠一彈性膠、—光學膠或者:柯 的油墨等。 、 ⑺如申請專利範圍第ί項所述之觸控輸入裝置,复中該 層之材質為-ΡΜΜΑ、-光學聚碳_、_安全玻壤或—強化 ⑻如申請專利範圍第丨項所述之觸控輸人裝^—電阻式觸 板、-電容式觸控面板、-超音細控面板、_紅外線觸控面板、—光 -9- M428419 學式觸控面板或一多點觸控面板β (9)-簡控輸入裝置’包括一導電基板層;一黏膠層;以及一撓 性導電基板層,其具有-延伸部並與該導電基板層透過該黏勝層而彼此 接且該延伸部設於該換性導電基板層之四周圍使得該撓性導電基 板層之面積大於該導電基板層之面積。 一⑽-麵控輸入裝置,包括一夹層結構,其包括一軟性薄膜以及 一基板;以及-軟性電路’其與該夹層結構之間構成一 Τ型接合,且 該軟I·生;|膜之面積大於該基板層之面積並可覆蓋該Τ型接合。 以上所述者,僅為本創作之較佳實施例,當不能以之限定本創作,Φ 本創作的保護範圍當視後附之申請專利範圍及其均等領域而定,即大凡 依本創作申請專利範圍所作之均等變化與修飾,皆應屬於本創作專利涵 蓋之範圍内。 【圖式簡單說明】 第-圖(Α)係為習馳術中採用夾層架構為主要結構的觸控輸入裝 置之正面俯視不意圖; 第-圖(Β)係為習用技術中採用夾層架構為主要結構的觸控輸入裝 置之背面俯視示意圖; 第二圖(Α)係為本創作第一實施例之觸控輸入裝置其在正面視角之 示意圖; 第二_係為本創作第—實施例之撓性導電基板示意圖; 第二圖(C)係為本_第—實施例之觸控輸人裝置其在背面視角之 示意圖; 第三圖(Α)係為本創作第—實施例之觸控輸入裝置在正面視角之立 體示意圖;(5) The touch input device according to the first aspect of the invention, wherein the conductive conductive substrate layer is a conductive film made of -PE system, PC system, -PET, _coffee or - material. (6) The touch input device according to claim 1, wherein the adhesive layer is a liquid glue, a solid glue, an insulating rubber, an elastic rubber, an optical glue or a Ke ink. (7) The touch input device according to claim 5, wherein the material of the layer is -ΡΜΜΑ, - optical polycarbon_, _safe glass or - reinforcement (8) as described in the scope of claim Touch input device ^ - resistive touch panel, - capacitive touch panel, - ultrasonic fine control panel, _ infrared touch panel, - light -9 - M428419 learning touch panel or a multi-touch The panel β (9)-simple control input device includes a conductive substrate layer; an adhesive layer; and a flexible conductive substrate layer having an extension portion and being connected to the conductive substrate layer through the adhesive layer The extending portion is disposed around the four layers of the flexible conductive substrate such that the area of the flexible conductive substrate layer is larger than the area of the conductive substrate layer. A (10)-face-controlled input device comprising a sandwich structure comprising a flexible film and a substrate; and a flexible circuit constituting a 接合-type joint with the sandwich structure, and the soft I·生; The area of the film is larger than the area of the substrate layer and can cover the 接合-type joint. The above is only the preferred embodiment of the present creation. When the creation cannot be limited by this, the scope of protection of this creation depends on the scope of the patent application and its equal scope, that is, the application for the creation of the application. Equivalent changes and modifications to the scope of patents shall fall within the scope of this Creative Patent. [Simple diagram of the diagram] The first figure (Α) is the front view of the touch input device with the sandwich structure as the main structure in the Xi Chi technique. The first figure (Β) is the sandwich technology used in the conventional technology. A schematic view of the rear view of the touch input device of the structure; the second figure (Α) is a schematic view of the touch input device of the first embodiment of the present invention in front view; the second _ is the creation of the first embodiment The schematic diagram of the conductive substrate; the second diagram (C) is a schematic view of the touch input device of the present embodiment in the back view; the third figure (Α) is the touch input of the first embodiment of the present invention. a schematic view of the device in front view;
S -10- M428419 第三圖(B)係為本創作第—實替丨之觸控輪人裝置在背面視角之立 體示意圖; 置在正面視角之立 第四圖(A)係為本創作第二實_之觸控輸入農 體示意圖;以及 體示係為本創㈣二實施例之觸控輸人裝置在背面視角之立 【主要元件符號說明】 110:玻璃導電基板 12〇 :聚酯導電膜 H0 :保護膜片 150 :液態封膠 C :電路區 21〇 :導電基板 22〇 :撓性導電基板 240 :凸出部 250 :封膠 32〇 :軟性導電薄膜 350 :封膠 100 :習用觸控面板結構 115 :銀漿佈線 130 :軟板 131 :電導線 D:作動感應區 200 :觸控輸入裝置 215 :銀漿佈線 230 :軟性電路 231 :電導線 300 :觸控輸入裝置 340 :延伸部 -ii-S -10- M428419 The third picture (B) is a three-dimensional diagram of the back-view view of the touch-wheel man device of the first creation of the creation; the fourth picture (A) placed in the front view is the first creation The second embodiment of the touch input agricultural body; and the body system is the creation of the four (four) two embodiment of the touch input device in the back view of the [main symbol description] 110: glass conductive substrate 12〇: polyester conductive Film H0: Protective film 150: Liquid sealant C: Circuit area 21〇: Conductive substrate 22〇: Flexible conductive substrate 240: Projection 250: Sealant 32〇: Flexible conductive film 350: Sealant 100: Conventional touch Control panel structure 115: silver paste wiring 130: soft board 131: electric lead D: actuating sensing area 200: touch input device 215: silver paste wiring 230: flexible circuit 231: electric lead 300: touch input device 340: extension -ii-