201214257 六、發明說明: 【發明所屬之技術領域】 本發明係關於一種觸控板之結構設計,特別是關於一種電 容式觸控板之觸控圖型結構。 【先前技術】 觸控面板(Touch Panel)已大量運用於家電、通訊、電 子資訊等產品應用上。如目前廣泛商用之個人數位助理 (PDA)、各種豕電设備、遊戲輸入介面等。藉由觸控板與顯示 器之整合,可供制者財指_絲錢顯示晝面上^功能 選項點選輸入所欲執行之動作如個人數位助理(pDA)、各種家 電設備、遊戲輸人介面’並且制關大眾系統查詢工罝 以提供便民效果之作業系統。 〃 習知之觸控面板係在-基板表面佈設感應區域,其感應區 域係,以感應人體之手指錢鮮之錢來朗觸控的目 的。邊感應區域所使用之材料大都採用透明導薄 ,錫,使得使用者在操作時,藉由觸壓該透明 膜對該顯不器上相對應畫面,達到觸控之功能。 採用之觸控原理概可分為電阻式、電容感應式、 ΐ中卜ί=i,磁感應式、音波感應式等不同的技術原理。 二電谷感應式觸控板之卫作原理係排列之透明電極 :、體之間的靜電結合所產生之絲變 ?=其=立置之庙座標。由於電容感應式觸控面板· 確率、反應時間、觸控打點壽命、操作溫度、和 ίϊίί具有較佳優勢,故目前已被大量採用。 之仿ίίΐ貞測出使用者以手指或感應筆觸碰於觸控面板上 如發出各種不同之電容式感應觸碰感測技術例 如在美國專利第697_號發明專利案丁^ 201214257 控感應系統,其可應用於偵測在一觸控感應面 格狀觸控感應纽包括兩個電容感應層,制以—^ 二 :1形成電容效應。每—電容感應層包以= 之導電兀件。兩個電容感應層實質上彼此垂直。每=== 序列之菱形片,藉由狹窄之導電線連接在—起 電谷感應層上之導電元件係電連接至應導線。一控 導線提供訊號至兩組導電元件,以在該表面被觸 = 應元生之感應訊號,及判斷在每一層之置。由感 严4?522號發明專利案中,揭露了-種電容式 觸控板,其包括-陣列之觸控感應開關 ;所驅動。該陣列之開關單元之, 第一組開關單元連接,例如列,以連接 訊號偵測器。而第二對電容盘第1 η 4一複數個 传雜㈣垃从—、拉,丨i 虎偵 母一對電容之接點 g 接地或接到其他_電容裝纽鶴-選擇開關 祕ίϊίΐ第4733222號發明專利案中’揭露了一種電容變 f ί、:驅動訊號產生器及-陣列之感二二^ ir上ΐ電線連接而成,形成陣列之列或攔。而每-驅動電 ίΐ' ί 接至多個電極。該驅動訊號產生器會產生交替訊自、 ,,動電線。該感應線係電容連接 ‘ ==:,時’可透過電極取得訊號。該電2:二 驅3,及感應電線的數目相同。依據感應電線產生=的 值,被處理器提供操作者觸控的相關資訊。 控面露了-,識觸 201214257 第6414671號及第5374787號亦揭露了相似之結構。 美國專利第7030860號發明專利案中,揭露了—種 電容觸控感應祕,適合鎌電子|置之輸人。該考 |之顯讀置之頂面,以感應手摘位置及在顯示器的接觸^ 美國專利第5459463號發明專利案中,揭露了 —種可 之f?勿定位之裝置及具有該農置之透明鍵盤。職 =將€子4麟杜細及彳貞_之掃描裝置及 置^票的,置之裝置。糊線連接至感應區,且 千灯排列,而偵測襴與偵測線垂直,間 用649_號發明專利針,揭露了-種多人使 殊可個配置有天線的表面。—發射器傳送特 ΪΓίί*母—個天線。接收器係電容連接至不同使用 當r使用者同;: 中’揭露了一上 偵測在-平面顯示榮幕之液晶顯示模組,以 【發明内容】 本發明所欲解決之技術問題 碰觸ίίίΠΐ技術中,雖然皆揭露了可用來感測使用者觸 :在 功“整個觸“板的 201214257 再者:在實賊傳統的電容式觸控板結構時,其轉在 念:表:形成不同的電容感應層,再以例如基板貫孔、☆ 接,故在製程方面較為繁雜。 电早几予以連 士 ί;^本發明之主要目的即是提供—種讀易製程即可完 成之電合式觸控板驗®型製作方法,該觸控圖型之 軸向導電群組及第二軸向導電群組巾之各個導電單 係以-般透明導電層之製程形成在基板的同—平面上。如Z 可在使用者難賴控板之表㈣,藉由被碰觸之第 電群組及複數個第二軸向導電群組之相鄰導電單元形成 效應。 本毛明之另-目的是提供—種電容式觸控板之薄形觸控 圖型結構,該觸控圖型結構包括有複數個第一軸向導電群組及 複數個第^軸向#電群組’每一個冑電群组由複數個以導線連 接之導電單TL所組成,而在不曝向之導線之削彳 予以陪雜。 本發明解決問題之技術手段 本發明為解決習知技術之問題所採用之技術手段,係在一基板 之基板表面上沿第一軸向形成複數個第一軸向導電單元;&該 基板之基板表面上沿第二軸向形成複數個第二軸向導電單 元;以複數個第一軸向導線電連接該各個相鄰之第一軸向導電 單元,以形成複數個第一軸向導電群組;其中各個第二軸向導 電單元係一一地配置在由相鄰之第一軸向導電群組之間與相 巧之第-軸向導電單元之間之區域各定義出的第二轴向導電 早元配置區,形成複數個絕緣體,--地覆設於該各個第一軸 向導線之表面,其中每一絕緣體不包覆鄰近之第一軸向導電單 元;以及以複數個第二軸向導線電連接該各個相鄰之第二軸向 導電單元,以形成複數個第二軸向導電群組,且各個該第一軸 201214257 向導線及各個第二軸向導線係以透明之導電材料所紫成。 本發明另提供之-_容式驗板之觸控圖型結構,、係在一其 板之基板表面上職結構,該觸控關結構係^ 固相第一軸向導電單元及至少兩個相鄰之第二軸向導 組成,其中該相鄰之第—軸向導電單^之間以一第一= ΐ ii予吨接,其特徵在於該第—軸㈣線之表面覆設有- 該絕緣體之表面而連接於 本發明對照先前技術之功效 ,由本發酬制之技術手段,使得觸控關結構中 ^固第^向導電群組及複數個第二轴向導電群組之各個導 ί=布设在基板之同—平面,而可達到結構簡化、減少ί 度之效果’而藉由該第—軸向導電群組及複數個第二軸ri 導電群組之相鄰導電單元被使用者碰觸時相 異,即刊錢容韻 鲇者手心碰觸之位置。而在製作該觸控圖型結構之第- 需以簡易佈線製程在基板的單—表面施 : 型結構,故在產業利用時,具有製程簡Ϊ 2 率南、製作成本低之優勢。 艮 圖式it月具體實施例,將藉由以下之實施例及附呈 【實施方式】 型㈣其係顯示本發明電容式觸控板之觸控圖 觸二冓第—絲*例平面示賴’第2圖係顯示本發明電容式 美麵構之局部立體®。本發明胁該基板1之 土反表面11上設置-觸控圖型結構12。該觸控圖型結構η201214257 VI. Description of the Invention: [Technical Field] The present invention relates to a structural design of a touch panel, and more particularly to a touch pattern structure of a capacitive touch panel. [Prior Art] Touch Panels have been widely used in home appliances, communications, electronic information and other product applications. Such as the current widely used personal digital assistant (PDA), a variety of power equipment, game input interface. Through the integration of the touchpad and the display, the maker's financial index can be used to display the desired functions such as personal digital assistant (pDA), various home appliances, and game input interfaces. 'And the public system to check the work order to provide a convenient operating system.习 The conventional touch panel is equipped with a sensing area on the surface of the substrate, and its sensing area is used to sense the touch of the human body. The materials used in the edge sensing area are mostly made of transparent thin film and tin, so that the user can touch the corresponding film on the display device by pressing the transparent film during operation. The touch principle adopted can be divided into different technical principles such as resistance type, capacitance induction type, ΐzhongbu ί=i, magnetic induction type, and sound wave induction type. The function of the two electric valley inductive touch panels is the transparent electrode arranged: the filament change caused by the electrostatic combination between the bodies? = its = the temple coordinates of the vertical. Capacitive inductive touch panels, due to their accuracy, response time, touch life, operating temperature, and ίϊίί, have been widely used.仿 ΐ贞 使用者 使用者 使用者 使用者 使用者 使用者 使用者 使用者 使用者 使用者 使用者 使用者 使用者 使用者 使用者 使用者 使用者 使用者 使用者 使用者 如 如 如 如 如 如 如 如 如 如 如 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 The utility model can be applied to detecting a touch sensing surface of a touch sensitive touch panel comprising two capacitive sensing layers, and the method of forming a capacitance effect is formed by a ^2:1. Each of the capacitive sensing layers is packaged with a conductive element of =. The two capacitive sensing layers are substantially perpendicular to each other. Each of the === sequence of diamond-shaped pieces, the conductive elements connected to the sensing layer by the narrow conductive lines are electrically connected to the wires. A control wire provides a signal to the two sets of conductive elements to be touched on the surface = the sensor's sensing signal, and judged at each layer. In the invention of the invention No. 4,522, a capacitive touch panel is disclosed, which comprises an array of touch sensing switches; In the switch unit of the array, the first group of switch units are connected, for example, to connect to the signal detector. The second pair of capacitor plates, the first η 4, a plurality of transmissions (four), from the -, pull, 丨i, the tiger, the mother, the pair of capacitors, the contact g, or the other _ capacitors, the new crane, the selection switch, the secret ϊ ϊ ΐ In the invention patent No. 4733222, a capacitance change f ί, a drive signal generator and an array of two or two ir upper wires are connected to form an array or a block. And each drive ίΐ' ί is connected to multiple electrodes. The drive signal generator generates alternating signals from, and the moving wires. The sensing line capacitance is connected to ‘==:, when, the signal can be obtained through the electrode. The electric 2: 2 drive 3, and the number of induction wires are the same. According to the value generated by the sensing wire, the processor provides relevant information of the operator's touch. The control surface is exposed - and the similar structure is also disclosed in 201214257 No. 6414671 and No. 5374787. In the invention patent of U.S. Patent No. 7,030,860, a capacitive touch sensing secret is disclosed, which is suitable for inputting electronic products. The top surface of the test|inspection is inductively picking up the position and in the contact of the display ^ US Patent No. 5,549,463, and discloses a device that can be positioned and has the same Transparent keyboard. Job = the device that will be used to scan the device and set the ticket. The paste line is connected to the sensing area, and the thousands of lights are arranged, and the detecting 襕 is perpendicular to the detecting line. The 649_ patented needle is used to expose a multi-person surface with an antenna. - The transmitter transmits a special ΪΓίί* mother-antenna. The receiver is connected to the different capacitors when the r user is the same; the medium is exposed to the liquid crystal display module that detects the on-screen display, and the technical problem to be solved by the present invention is touched. ίίίΠΐ technology, although it is revealed that it can be used to sense the user's touch: 201214257 in the "touch" board. In addition, in the traditional capacitive touchpad structure of the thief, it turns to read: Table: Form different The capacitance sensing layer is connected to the through hole and the ☆, for example, so that the process is complicated. The main purpose of the present invention is to provide an electro-mechanical touch panel inspection method capable of reading an easy-to-process process, the axial conductive group of the touch pattern and the first Each of the conductive single layers of the two-axial conductive group of towels is formed on the same plane of the substrate by a process of a general transparent conductive layer. For example, Z may form an effect by the adjacent conductive unit of the first electrical group and the plurality of second axial conductive groups that are touched by the user in the table (4) of the control panel. The other purpose of the present invention is to provide a thin touch pattern structure of a capacitive touch panel, the touch pattern structure comprising a plurality of first axial conductive groups and a plurality of first axial directions Group 'Each group consists of a plurality of electrically conductive single TLs connected by wires, and is entangled in the unexposed wire. Technical Solution for Solving the Problems According to the present invention, in order to solve the problems of the prior art, a plurality of first axial conductive units are formed along a first axial direction on a substrate surface of a substrate; & Forming a plurality of second axial conductive units along the second axial direction on the surface of the substrate; electrically connecting the adjacent first axial conductive units with the plurality of first axial conductive lines to form a plurality of first axial conductive groups a group; wherein each of the second axial conductive units is disposed one by one in a second axis defined by a region between the adjacent first axial conductive groups and the coincident first-axial conductive unit And a plurality of insulators are disposed on the surface of the conductive early element, and are disposed on the surface of each of the first axial wires, wherein each insulator does not cover the adjacent first axial conductive unit; and the plurality of second The axial wires are electrically connected to the adjacent second axial conductive units to form a plurality of second axial conductive groups, and each of the first shafts 201214257 is transparently conductive to the wires and the respective second axial wires. Materials office to make. The invention further provides a touch pattern structure of the capacitive inspection board, which is on the surface of the substrate of the board, the touch structure is a solid phase first axial conductive unit and at least two Adjacent second axis guides, wherein the adjacent first-axial conductive singles are connected by a first = ii ii, characterized in that the surface of the first-axis (four) line is covered with - The surface of the insulator is connected to the effect of the prior art according to the prior art, and the technical means of the present invention is used to make the conductive guide group and the plurality of second axial conductive groups in the touch-off structure. ί=Layout on the same plane of the substrate, which can achieve the effect of simplifying the structure and reducing the degree ′ while the adjacent conductive elements of the first-axis conductive group and the plurality of second-axis ri conductive groups are used. When they touch, they are different, that is, the position where the hand of the money is touched by the hand. In the production of the touch pattern structure - the simple-wiring process is required to be applied to the single-surface structure of the substrate. Therefore, in the industrial use, the process has a simple process and a low production cost. The embodiment of the present embodiment and the accompanying [embodiment] type (4) show the touch touch screen of the capacitive touch panel of the present invention. 'Fig. 2 shows a partial stereoscopic® of the capacitive beauty of the present invention. The touch-pattern structure 12 is disposed on the reverse surface 11 of the substrate 1 of the present invention. The touch pattern structure η
S 8 201214257 分別包括,一第一軸向導電群組13、一第二軸向導電群組 14,且該第一軸向導電群組13係垂直於該第二軸向導電群組 14。第一軸向導電群組13與第二軸向導電群組14間,除了圖 式所示之垂直對應關係之外,亦可以其它非垂直之對應 設在基板1之基板表面i j上。 布 每一個第一軸向導電群組13由複數個第一軸向導電單元 31所組成,各個第一軸向導電單元131係以第一軸向X =隔設置在該基板1之基絲面u,且在相鄰之第—輪 ,群組13之間與相鄰之兩個第—軸向導電單元131 域各定義出一第二軸向導電單元配置區丨5。 °° 该各個相鄰之第一軸向導電單元131㈤,係以複數個第一 由向導線132相連接’以將同一個第一轴向導電群組u ,第-軸向導電單it 131 ^以電連接該同—個第一袖向 綠,組13中之各個第-軸向導電單元131經數個第一轴向 32串聯連接後’經由一信號傳輸線i如將訊號 路板(未示)之控制電路。 、尾 ^個第-軸向導線132之導線表面133各覆 該絕緣覆層17係選自於具有電絶緣特性之材料1 絶緣材料(例如二氧切等材料)。該每一個第二 電群組14係由複數個第二轴向導電單元141所^丁 S3基ί表f11 ’且各個第二軸向導電單元⑷係^ 也配置在該第二軸向導電單元配置區15。 向導第二軸向導電單元141之間係以-第二軸 ^ 2相連f ’且§玄第二轴向導線142係橫越過該 早兀141予以連接。該同—個第二軸向導電群 個第二,導電單元141、經數個第二軸向導線142串聯 後,亦經由㈣傳輸線他將訊號傳送於控制電路。 201214257 參閱第3圖所示,1s_ 第4圖係顯示第2 。係頌不第2圖中3-3斷面之剖視圖, 元丨3卜第一軸向斷面之剖視圖。該第一軸向導電單 向導線142係為透明f j向導電單元⑷、第二轴 第二軸向導線142 枓所I成。該第一軸向導線132與 導電群組14中之幻3曰1二置之絕緣覆们7可使各個第二轴向 導線142在跨越對向導電單元⑷間之第二軸向 之目的。 〜之第一軸向導線132時,可達到彼此絶緣 該基板1係可為—诂描並 一軸向導電群組13盘二’而該觸控圖型結構12之第 導線132、14U系為透明導電群組14及第一、第二轴向 前述之實蘭巾:各㈣」氧化轉™導電層> 單元141之形狀係為六邊° ^^兀131與第二軸向導電 其它之幾何輪_狀Uti^^然亦可設計成 佈之最佳化有效觸控表面/ 土板1之基板表面U上形成密 式觸所不’其係顯不使用者之手指觸碰本發明電& 式觸控板之其中-位置區域時之示 =月電谷 ^手指觸碰本發明電容式觸控板使用者 f °如圖所示,當使用者以手指觸碰本發明電不意 中-觸碰區域A時,該觸魏域A 板之其 uf 131 一軸向導電早兀141之間會 ,叫^丨4之第 16a、16b將訊號傳送至控制電路,“傳輸線 而當_者飾手指㈣—触 $置。S 8 201214257 includes a first axial conductive group 13 and a second axial conductive group 14, respectively, and the first axial conductive group 13 is perpendicular to the second axial conductive group 14. Between the first axial conductive group 13 and the second axial conductive group 14, in addition to the vertical correspondence shown in the figure, other non-vertical correspondences may be provided on the substrate surface ij of the substrate 1. Each of the first axial conductive groups 13 is composed of a plurality of first axial conductive units 31, and each of the first axial conductive units 131 is disposed on the base surface of the substrate 1 in a first axial direction. u, and a second axial conductive unit arrangement region 定义5 is defined between the adjacent first wheel, group 13 and the adjacent two first-axis conductive units 131. °° The adjacent first axial conductive units 131(5) are connected by a plurality of first wires 132 to form the same first axial conductive group u, the first-axis conductive single it 131 ^ To electrically connect the same first sleeve to the green, each of the first-axis conductive units 131 in the group 13 is connected in series via a plurality of first axial directions 32, and then through a signal transmission line i such as a signal board (not shown) ) The control circuit. The wire surface 133 of the first axial-axial conductor 132 is covered. The insulating coating 17 is selected from a material 1 insulating material having electrical insulating properties (for example, a material such as dioxotomy). Each of the second electrical groups 14 is composed of a plurality of second axial conductive units 141, and each of the second axial conductive units (4) is also disposed in the second axial conductive unit. Configuration area 15. The second axial conductive unit 141 is connected to the second axis ^ 2 by connecting f ' and the second axial wire 142 is connected across the early turn 141. The second and second axial conductive groups are second, and the conductive unit 141 is connected to the control circuit via the (four) transmission line after being connected in series via the plurality of second axial wires 142. 201214257 See Figure 3, 1s_ Figure 4 shows the 2nd. The system is not a cross-sectional view of the section 3-3 in the second figure, and a cross-sectional view of the first axial section of the element 3b. The first axial conductive single-directional wire 142 is formed by a transparent f j to the conductive unit (4) and the second axis second axial wire 142. The first axial wires 132 and the insulating layers 7 of the conductive group 14 can cause the respective second axial wires 142 to span the second axial direction between the opposing conductive units (4). The first axial wires 132 can be insulated from each other. The substrate 1 can be a pair of axial conductive groups 13 and the second wires 132 and 14U of the touch pattern structure 12 are The transparent conductive group 14 and the first and second axially-shaped solid blue towels: each (four) "oxidation-transferring TM conductive layer"; the shape of the unit 141 is six sides and the second axial conductive other The geometric wheel _ shape Uti ^ ^ can also be designed to optimize the effective touch surface of the cloth / the surface of the substrate 1 on the U surface of the formation of a dense touch is not 'the user does not touch the finger of the invention & type of touch panel in the position of the display = month electricity valley ^ finger touch the capacitive touch panel user f ° of the present invention as shown, when the user touches the invention with a finger - When touching area A, the uf 131 of the contact area A board will be between the axial conduction early 141, and the 16a, 16b of the ^4 will transmit the signal to the control circuit, "transmission line and _ Fingers (4) - Touch $.
=應含蓋的第-軸向導電群組13之第—‘區域B 。苐一軸向導電群組14之第二軸向導電單元131 擔效應會產生變化,經由信號傳輸線_=成 达至控制t路後,即可由該控制電路計算判斷出該經過位U 201214257 之觸係位在該基板!之基板 參閱第7圖及第8圖所示,复作f始」处置 觸控板之觸控圖型結構時之平面二 ===式 板之基反表面上形成有數個第—軸向導電單‘第^ 向導線、信號傳輸線、與第二轴向導 :各J設一絕緣覆層之平面示意圖;第9圖係顯示在第以J H各個第二軸向導魏组之各個相鄰第二軸向導ϊί 接而完成本發_控板之觸控圖 在形成觸控圖型結構12時,可以採用習知侧 =印之技術。峨顺術製侧控圖型結構為例,!首先在一 之基板1之基板表面11形成—層導電馳(本實施例 為=匕,ITG透明導電層),_㈣網版印刷技術(Sc議 P^ntmg)進行防蝕遮罩印刷(Etching贻汰printin^之製 完成隨遮罩印刷製程後’即對該基板表面u進行姓 亥^再進行剝膜(Stripping),如此即可在基板表 =透明導電特性之第-軸向導電群組13之各個第—轴向 1= the first - 'area B' of the first axially conductive group 13 that should be covered. The second axial conductive unit 131 of the axial conductive group 14 changes the effect, and after the signal transmission line _= reaches the control t path, the control circuit can calculate and judge the touch of the passing bit U 201214257 Tied to the base plate! Referring to FIG. 7 and FIG. 8 , when the touch pattern structure of the touch panel is disposed, the plane 2=== is formed on the reverse surface of the substrate. Single 'the second conductor, the signal transmission line, and the second axis guide: each plane is provided with a plane schematic diagram of the insulation coating; the ninth diagram is shown in the adjacent row of the second axis of the JH The two-axis guide ϊ 完成 完成 完成 _ _ _ _ _ _ 之 之 之 之 之 之 之 触控 触控 触控 触控 触控 触控 触控 触控 触控 触控 触控 触控 触控 触控 触控For example, the side control pattern structure of the Shushun system is first formed. First, a layer of conductive fabric is formed on the substrate surface 11 of the substrate 1 (in this embodiment, = 匕, ITG transparent conductive layer), _ (4) screen printing technology (Sc P^ntmg) is used for anti-corrosion mask printing (Etching smashes the printin^ system after the mask printing process is completed), that is, the substrate surface u is subjected to stripping, and thus can be on the substrate table = Each of the first-axial directions of the first-axial conductive group 13 of transparent conductive characteristics
It 131、第一轴向導線132與第二轴向導電群組14之各 個第二軸向導電單元141(如第7圖所示)。此時,同一個 軸向導電群組13中之各個第一軸向導電單元131即形 接’並由數條信號傳輸線16a引出。 然後’在各個第一軸向導線132之導線表面ί33各 絕緣覆層Π(如第8圖所示)。接著,以前述相同之印刷技術 形成遮罩,以定義第二軸導線142的位置,再塗佈透明導電層 以^/成第一轴向導線142,如此即將各個相鄰第二轴向導電單 元141之間以第二軸向導線142予以連接,而各個第二轴向導 線142係橫越過對應絕緣覆層17之表面(如第q圖所示)。完 201214257 ,ΛΡ可使得同—個第二轴向導電群組14中之各個第二 袖向,,ΐ i141形成電連接,並由數條信號傳輸線1此引出。 .曾綠主4木们'河、述之韻刻技術在基板表面形成各個導電單元及 ¥、、泉時’亦可以經由不同的蝕刻遮罩定義之蝕刻區域來蝕刻出 不门的圖i㈤樣達到相同之觸控圖型結構。例如,在第-次的兹刻製程時,只在基板表面11上形成第-軸向導電群組 13=各個第-轴向導電單元131及第一軸向導線132,而不形 成第一軸向導電群組丨4之各個第二軸向導電單元141。然後, 在各個Ϊ一軸向導線132之導線表面133各覆設一絕緣覆層 17。接著i以相同之蝕刻技術在基板表面11上形成各個第二 =導電單元141及各個第二軸向導線142,*各個第二轴向 導線142係橫越過對應絕緣覆層17之表面。 。。一在别述之實施例中’其第一軸向導電單元及第二軸向導電 單兀係以陣列之型態形成在基板上而構成電容式觸控板之觸 控圖型結構。基於此-創作精神,亦可在實際之制中以簡化 的數個導電單元喊—電容式難板之觸㈣型結構。例如在 ,10圖中,其細示本發明電容式觸控板之觸控圖型結構之 第二實施例平面圖。在此一實施例中,其係在一基板2之基板 表面21上形成有兩個相鄰之第一軸向導電單元31、犯,&中 戎導電單兀32連接有一信號傳輸線34,相鄰之第一 單兀31、32之間以一第一軸向導線33予以連接,並 軸向導線33之表面覆設有一絕緣覆層4。 μ 在該兩個相鄰之第一軸向導電單元31、32之 置,設有兩個相鄰之第二軸向導電單元51、52 ,而一二, 向導線53係橫越過該絕緣覆層4之表面而連接於 = 二軸向導電單元5卜52之間,其中該導電單元52 號傳輸線54。 職有-1s 由以上之實施例可知,本發明所提供之電容 控圖型結構確具產業上之利用價值,故本發明業已符3 12 201214257 之要件。惟以上之敘述僅為本發明之較佳實施例說明,凡精於 此項技藝者當可依據上述之說明而作其它種種之改良,惟這些 改變仍屬於本發明之發明精神及以下所界定之專利範圍中。一 【圖式簡單說明】 第1圖係顯示本發明電容式觸控板之觸控圖型結構之第一實 施例平面圖; 、 ^2圖係顯示本發明電容式觸控板之觸控圖型結構之局部立 ,3圖係顯示第2圖中3_3斷面之剖視圖; 第4圖係顯示第2圖中4-4斷面之剖視圖; 2罢圖錢用者之手彳旨_本發明f容式觸控板之其中 了位置區域時之示意圖; 朗者之手賴碰本發明電容式觸控板之另一 证罝區域時之示意圖; 。元圖在—基板之基板表面上形成有數個第—軸向導 平^意t軸向導線、信號傳輸線、與第二軸向導電單元之 個第-軸向導線之導線 各個程之後,於各轉二軸向導電群組之 成本發明觸^ _電單疋之間以第二軸向導線予連接而完 策ΐϋ控板之觸控_結構之平面示咅圖; 施例平面圖。發月电谷式觸控板之觸控圖型結構之第二實 13 201214257 【主要元件符號說明】 1 基板 11 基板表面 12 觸控圖型結構 13 第一軸向導電群組 131 第一轴向導電單元 132 第一軸向導線 133 導線表面 14 第二軸向導電群組 141 第二軸向導電單元 142 第二軸向導線 15 第二軸向導電單元配置區 16a、16b 信號傳輸線 17 絕緣覆層 2 基板 21 基板表面 31 > 32 第一軸向導電單元 33 第一抽向導線 34 信號傳輸線 4 絕緣覆層 51 ' 52 第二軸向導電單元 53 第二軸向導線 54 信號傳輸線 A 觸石並區域 B 觸碰區域 X 第一轴向 Y 第二轴向 14It 131, the first axial wire 132 and each of the second axial conductive units 141 of the second axial conductive group 14 (as shown in Fig. 7). At this time, each of the first axial conductive units 131 in the same axial conductive group 13 is shaped and led out by a plurality of signal transmission lines 16a. Then, at each of the wire surfaces ί33 of the respective first axial wires 132, an insulating coating Π (as shown in Fig. 8). Then, a mask is formed by the same printing technique as described above to define the position of the second axis wire 142, and then the transparent conductive layer is coated to form the first axial wire 142, so that each adjacent second axial conductive unit is 141 is connected between the second axial wires 142, and each of the second axial wires 142 traverses the surface of the corresponding insulating coating 17 (as shown in FIG. q). After 201214257, the second arm sleeves of the same second axial conductive group 14 are electrically connected, and are led out by a plurality of signal transmission lines 1. The old green masters, the four rivers, the river, the rhyme technique, the formation of the various conductive elements on the surface of the substrate, and the springs and the springs can also be etched out through different etched regions defined by the etching mask. Achieve the same touch pattern structure. For example, in the first-order etching process, the first-axial conductive group 13=the respective first-axial conductive units 131 and the first axial conductive lines 132 are formed only on the substrate surface 11 without forming the first axis. Each of the second axial conductive units 141 of the conductive group 丨4. Then, an insulating coating 17 is disposed on each of the conductor surfaces 133 of each of the first axial wires 132. Next, i forms the respective second = conductive unit 141 and each of the second axial wires 142 on the substrate surface 11 by the same etching technique, and each of the second axial wires 142 traverses the surface of the corresponding insulating coating 17. . . In an embodiment, the first axial conductive unit and the second axial conductive unit are formed on the substrate in an array form to form a touch pattern structure of the capacitive touch panel. Based on this - creative spirit, it is also possible to use a simplified number of conductive units in a practical system - a capacitive type of touch (four) type structure. For example, in Fig. 10, a plan view showing a second embodiment of the touch pattern structure of the capacitive touch panel of the present invention is shown. In this embodiment, the two adjacent first axial conductive units 31 are formed on the substrate surface 21 of the substrate 2, and the middle conductive conductive unit 32 is connected to a signal transmission line 34. The first first turns 31, 32 are connected by a first axial wire 33, and the surface of the axial wire 33 is covered with an insulating coating 4. Between the two adjacent first axial conductive units 31, 32, two adjacent second axial conductive units 51, 52 are provided, and one or two wires traverse the insulating cover The surface of layer 4 is connected between = two axially conductive units 5, 52, wherein the conductive unit 52 is a transmission line 54. It is known from the above embodiments that the capacitance control pattern structure provided by the present invention has industrial value, and the present invention has been in accordance with the requirements of 3 12 201214257. The above description is only for the preferred embodiment of the present invention, and those skilled in the art can make other various improvements according to the above description, but these changes still belong to the inventive spirit of the present invention and the following definitions. In the scope of patents. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a plan view showing a first embodiment of a touch pattern structure of a capacitive touch panel of the present invention; and FIG. 2 is a view showing a touch pattern of the capacitive touch panel of the present invention. Part of the structure, 3 shows a cross-sectional view of the 3_3 section in Fig. 2; Fig. 4 shows a cross-sectional view of the 4-4 section in Fig. 2; 2 strikes the hand of the user _ the present invention f A schematic diagram of a capacitive touch panel in which a positional region is present; a schematic diagram of a handle of a capacitive touchpad of the present invention; The plurality of first-axis guides, the t-axis, the signal transmission line, and the first-axis conductor of the second axial conductive unit are formed on the surface of the substrate of the substrate, respectively. The cost of the two-axis conductive group is 平面 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The second real 13 of the touch pattern structure of the moon-type touch panel 201214257 [Main component symbol description] 1 substrate 11 substrate surface 12 touch pattern structure 13 first axial conductive group 131 first axial direction Conductive unit 132 first axial wire 133 wire surface 14 second axial conductive group 141 second axial conductive unit 142 second axial wire 15 second axial conductive unit arrangement area 16a, 16b signal transmission line 17 insulation coating 2 substrate 21 substrate surface 31 > 32 first axial conductive unit 33 first drawn wire 34 signal transmission line 4 insulating coating 51 ' 52 second axial conductive unit 53 second axial wire 54 signal transmission line A touch stone Area B touch area X first axis Y second axis 14