200909912 九、發明說明: 【發明所屬之技術領域】 本發明係關於一種全平面觸控面板,尤指一種整合電 阻式與電容式之全平面觸控面板。 【先前技術】 舉凡行動電話、個人數位助理(PDA:personal digital assistant)等電子通訊產品,係為人類在信息溝通與傳遞 貝訊上相當普及的工具,上述電子產品皆可搭配具有觸控 功能之螢幕而使其操作上更加便利。 =既有可搭載一觸控螢幕之電子通訊產品,如行動電 話,亦兼具有複數以塑膠材質製成之按鍵構造,因其按鍵 為犬之之構,使忒電子產品佈設有觸控螢幕與按鍵之表 面無法呈現一完整平坦之表面。 【發明内容】 由上述說明可知,一般具觸控面板之電子通訊產品的 螢幕端表面,因其兼具之按鍵構造而無法與觸控螢幕呈現 —完整平坦之表面。 有鑑於此,本發明之目的係提供一種全平面電阻電容 整合式觸控面板,可使電子產品於螢幕顯示端呈現— 面構造。 平 電阻電 欲達上述目的所使用 各整合式觸控面板包含: 之技術手段係令該全平面 —基板; 200909912 一下導電層’係設於該基板上,其上表面形成一下螢 幕區與一下按鍵區; 一上導電層,係設於下導電層上方,其下表面形成一 上螢幕區與一上按鍵區; 光學膠及複數間隙子,間隙子係佈設於該上螢幕區與 下螢幕區之間,該光學膠係佈設於該上按鍵區與下按鍵區 之間,間隙子與光學膠間係設置一間隔物加以區隔。 可進一步令一中導電層設置於下導電層之下表面與基 板之間,以降低上導電層與下導電層之間的電磁干擾。 本發明係主要於上導電層與下導電層之間以間隔物分 成兩區而分別填充有間隙子及光學膠,使上下導電層所構 成之觸控面板可分為一電阻式觸控面板構造及一電容式觸 控面板構造’彳分別應用該電阻式及電容式觸控構造作為 -觸控螢幕及一觸控按鍵,$而達成一全平面電阻電容整 合式觸控面板。 【實施方式】 請參考第一圖所示,係本發明第一實施例應用於一電 子裝置的平面示意圖’肖電子裝置的外殼(1 a) 一表面 包含有-觸控榮幕@(1〇)及一觸控按鍵區, 〆觸控按鍵區具有-觸控按鍵部(11〇),該 觸控按鍵部(1 1 0 )得'包含複數圖案(1 1 〇 a ),各 圖案上110 a)係用以代表特定功能之按鍵。 ⑺參考第:圖及第三圖所示,係本發明第—實施例之 6 200909912 立體分解圖及組合示意圖,係包含有. 一上導電層(2) ,ι下矣而七人 卜表面包含—上螢幕區(2〇) 及一上按鍵區(21),該上罄篡 上爱幕&( 2〇)對應前述觸 控發幕區(1 0 ),其相斜兩彳日,丨、息uy 、相對兩側邊形成有兩X導線(2 0 0)及兩引導線(2〇〇3、,夂2丨播a200909912 IX. INSTRUCTIONS: [Technical Field] The present invention relates to a full-plane touch panel, and more particularly to an integrated resistive and capacitive full-surface touch panel. [Prior Art] Electronic communication products such as mobile phones and personal digital assistants (PDAs) are popular tools for human communication and communication. These electronic products can be combined with touch functions. The screen makes it more convenient to operate. = There are electronic communication products that can be equipped with a touch screen, such as mobile phones, and also have a plurality of button structures made of plastic materials. Because the buttons are made of dogs, the electronic products are provided with touch screens. The surface of the button does not present a completely flat surface. SUMMARY OF THE INVENTION As can be seen from the above description, the screen end surface of an electronic communication product having a touch panel generally cannot exhibit a completely flat surface with the touch screen due to its combined button structure. In view of the above, an object of the present invention is to provide a full-surface resistive-capacitance integrated touch panel, which enables an electronic product to exhibit a surface structure on the display end of the screen. The flat-type resistors are used to achieve the above-mentioned purposes. The integrated touch panel includes: the technical means is to make the full-plane-substrate; 200909912 a conductive layer is disposed on the substrate, and the upper surface forms a screen area and a button The upper conductive layer is disposed above the lower conductive layer, and the lower surface forms an upper screen area and an upper button area; the optical glue and the plurality of gaps are arranged in the upper screen area and the lower screen area; The optical glue is disposed between the upper button area and the lower button area, and a spacer is disposed between the gap and the optical glue to be separated. Further, a conductive layer may be disposed between the lower surface of the lower conductive layer and the substrate to reduce electromagnetic interference between the upper conductive layer and the lower conductive layer. The invention is mainly characterized in that the upper conductive layer and the lower conductive layer are divided into two regions by spacers and are respectively filled with a gap and an optical glue, so that the touch panel formed by the upper and lower conductive layers can be divided into a resistive touch panel structure. And a capacitive touch panel structure's application of the resistive and capacitive touch structures as a touch screen and a touch button, respectively, to achieve a full planar resistor-capacitor integrated touch panel. [Embodiment] Please refer to the first figure, which is a schematic diagram of a first embodiment of the present invention applied to an electronic device. The outer casing (1 a) of the electronic device includes a surface-touch glory@(1〇 And a touch button area, the touch button area has a touch button portion (11〇), and the touch button portion (1 1 0 ) has a plurality of patterns (1 1 〇a ), 110 on each pattern a) A button used to represent a specific function. (7) Referring to the drawings: Fig. 3 and Fig. 3, a perspective exploded view and a combined schematic view of a sixth embodiment of the present invention are included. An upper conductive layer (2) is provided and the surface of the seven people is included. - the upper screen area (2〇) and the upper button area (21), the upper screen of the love screen & (2〇) corresponds to the aforementioned touch screen area (1 0), which is inclined for two days, 丨, uy, two X-rays (2 0 0) and two guide lines (2〇〇3, 夂2丨)
Ua),各引導線(200a) — 端分別連接各X導線(2 〇 η、而山 u U )而另4延伸至上導電層 。)之4該上按鍵區(2 1 )係對應前述觸控按鍵 區(1 1 ),其上形成有複數電極(2丄Q )及複數引導 線(21〇a),各雷;tefoin、,m 电極(2 1 〇 )位置分別對應前述觸 控按鍵部(1 10)之圖案(1100,該上按鍵區(2 1 )之各引導線(2 1 〇 a ) -端分別連接各電極(2丄 〇),其另端共同延伸至上導電層(2)之另端; 一下導電層(3),係設於上導電層(2)下方,其 上表面包含一下螢幕區(3〇)及一下按鍵區(3ι), 該下螢幕區(30)對應上螢幕區(2〇),於相對另兩 側邊形成有兩Y導線(3 〇 〇 )及兩引導線(3 〇 〇 a ), 各引導線(3 0 〇 a ) —端分別連接各γ導線(3 〇 〇 ), 各引導線(3〇〇a)另端延伸至對應上螢幕區 引導線(2 0 〇 a )之同一側邊,使與上螢幕區(2 〇 ) 之引導線(2〇〇a)共同連接至一第一軟性電路板(5 a);該下按鍵區(31)對應前述上按鍵區(21), 其上形成一電極(310)及一引導線(310a),該 電極(3 1 〇 )位置對應前述觸控按鍵部(i 1 〇 ),該 電極(3 1 〇 )於前述上按鍵區(2 1 )之投影範圍可涵 7 200909912 蓋該上按鍵區(2 (3 1 )之引導線 1 )之電極(3 1 1 )引導線(2 1 1 )之引導線(2 b ); 一基板(4 ) 供下導電層(3 ) 光學膠黏附於其上 請參考第四圖 導電層(2 )與下 (5 0 )與光學膠 隔,其中,複數間f 0 )與下螢幕區( 設於上按鍵區(2 施例中,下導電層 上。 由上述說明可 (3 )之間的間隙 下螢幕區(3 0 ) 上導電層(2 )與· 使上按鍵區(2 1 控面板構造,藉说 板。 i)之各電極(21〇),該下按鍵區 (3 1 〇 a )係一端連接該下按鍵區(3 〇 ),另端則延伸至對應上按鍵區(2 〇 3 )之同一側邊,使與上按鍵區(2 1 〇 a )共同連接一第二軟性電路板(5 ,設於前述下導電層(3 )下方,係提 δ又置於其上,其設置方式可為塗佈或以 〇 所示,為第一實施例之剖視圖,前述上 導電層(3 )之間係填充有複數間隙子 (5 1 )並以一雙面膠(5 2 )加以區 宗子(5 1 )乃均勻佈設於上螢幕區(2 3 0 )之間;光學膠(5丄)則均勻佈 1)與下按鍵區(31)之間;於本實 (3 )係以塗佈方式設置於該基板(4 ) 知’填充於上導電層(2)與下導電層 子(50) ’使得上螢幕區(2〇)與 構成 電阻式觸控面板構造;而填充於 T導電層(3)之間的光學膠(51), )與下按鍵區(31)構成一電容式觸 :達成一全平面電阻電容整合式觸控面 8 200909912 請參考第五圖所示,係本發明第二實施例應用於電子 裝置的平面示意圖,該電子裝置的外Mlb)—表面包 含有-觸控榮幕區(60)及_觸控按鍵區(6 ",該 觸控按鍵@(61)具有-觸控按鍵部(61〇),該觸 控按鍵部(610)係包含複數圖案(6i〇a),各圖 案(6 1 〇 a )係用以代表特定功能之按鍵,與第—實施 例不同之處在於第二實施例之觸控按鍵部(6丄〇 )的圖 案較多而密集。 請參考第六圖及第七圖所示,係第二實施例之立體分 解圖及組合平面示意圖,係包含有: 一上導電層(7),其下表面包含一上螢幕區(7〇、 及一上按鍵區(7 1),該上螢幕區(7〇)對應前述觸 控螢幕區(6 0 ),其相對兩側邊形成有兩χ導線(7 〇 0)及兩引導線(700a),各引導線(7〇〇a)— 端分別連接各X導線(7 0 0 )而另端延伸至該上導電層 (7)之一端,該上按鍵區(7 1 )係對應前述觸控按鍵 區(6 1) ’其上形成有複數個平行排列的行電極(7工 0)及複數引導線(710a),該上按鍵區(71)之 引導線(7 1 0 a ) —端分別連接各行電極(7 1 〇 ), 其另端一同延伸至該上導電層(7)之一端。 一中導電層(8),係設於上導電層(7)下方,其 下表面包含一中螢幕區(80)及一中按鍵區(8 1), 該中螢幕區(80)對應前述上螢幕區(70),於相對 另兩側邊形成有兩Y導線(8 0 0 )及兩引導線(8 〇 〇 9 200909912 a ),各引導線(8 0 〇 a )—端分別連接各γ導線(8 00)而另端延伸至中導電層(8)對應上導電層(7) 引導線(7 〇〇 a)之同端,使與上螢幕區(7〇)之引 導線(7 0 〇 a )共同連接至一第三軟性電路板(5 c ) 電性接觸;該中按鍵區(8 1 )係對應前述上按鍵區(7 1 ),其上形成一電極(8 1 〇)及一引導線(8丄〇 a), 該電極(8 1 0)位置對應前述觸控按鍵部(6 ^ 〇), 其相對於前述觸控按鍵部(6 i 〇 )之投影範圍可涵蓋該 觸控按鍵部(6 1 〇 )的所有圖案(6、〇 a );該中按 鍵區(81)之引導線(81〇a) 一端連接該電極(8 1〇),其另端延伸至中導電層(8)對應上導電層(7) 引導線(7 1 0 a )之同端; 一下導電層(g),係設於中導電層(8)下方,其 上表面包含一下螢幕區(9〇)及一下按鍵區(91), 該下螢幕區(90)對應上勞幕區(7〇)及中榮幕區(8 0),該下按鍵區(9丄)對應前述上按鍵區(71)及 中按鍵區(8 1 ),其上形成複數列電極(9 1 0 )及複 數引導線(q 1 η。、 1 9 1 〇 a ) ’各列電極(910)與前述上按 鍵區(7 Ί、$ ^ 订極(710)係相對交疊,其交疊之 位置係分別制_腌二、+、物 f應月'J述觸控按鍵部(δ 1 〇 )各個圖案(6 “ 位[’該下按鍵區(9 1 )之引導線(9丄〇 :係一端分別連接該下按鍵區(9 1 ) t列電極(9 i a )之^ 7則延伸至對應中導電層(8 )引導線(8 1 0 同端,使與中按鍵區(81)之引導線(8l〇a) 200909912 以及上按鍵區(71)之引導線(71〇a)共同連接一 第四軟性電路板(5d); 一基板(4),設於前述下導電層(9)下方,係提 供下導電層(9 )設置於其上,其設置方式可為塗佈或以 光學膠黏附於其上。 戈以 請參考如第八圖所示’為第二實施例之剖視圖,前述 上導電層(7)與中導電層(8)之間係填充有複數間隙 子(50)與光學膠(51)並以一雙面膠(52)加以 區隔,其中,複數間隙子(5 1 )均勻佈設於上螢幕區(7 〇 )與中螢幕區(8 0 )之間;光學膠(5 1 )則均勻佈 設於上按鍵區(71)與中按鍵區(81)之間;中導電 層(8)與下導電層(9)之間以及下導電層(9)與基 板(4 )之間係均勻填充光學膠(5 1 )。 與第一實施例不同處在於,該第二實施例進一步增設 一中導電層(8),可減少上導電層(7)與下導電層(9) 之電磁干擾。 •综上所述’本發明於兩導電層間分隔填充間隙子與光 學膠’使此兩導電層構成之觸控面板分為一觸控螢幕區與 一觸控按鍵區’其中觸控螢幕區為電阻式觸控構造;觸控 按鍵區為電容式觸控構造,當應用於一般如手機或個人數 位助理(PDA)等可具觸控面板之電子產品,其相較於 一般具塑膠按鍵而呈現不平整表面之手機電子產品’更可 呈現完全平坦之表面。 11 200909912 【圖式簡單說明】 第一圖:係本發明第一實施例應用於一電子裝置之平 面示意圖。 第二圖:係本發明第一實施例之立體分解圖。 第三圖:係本發明第一實施例之平面組合示意圖。 四圖:係本發明第一 第五圖:係本發明第二 面示意圖 第六圖:係本發明第二 第七圖:係本發明第二 第八圖:係本發明第二 【主要元件符號說明】 (1 a )外殼 (1 1 )觸控按鍵區 (1 1 0 a )圖案 (2 0 )上螢幕區 (2 0 0 a )引導線 (2 1 0 )電極 (3 )下導電層 (3 0 0 ) Y導線 (3 1 )下按鍵區 (3 1 0 a )引導線 (5 a )軟性電路板 實施例之剖視圖 實施例應用於一電子裝置之平 實施例之立體分解圖。 實施例之平面組合示意圖。 實施例之剖視圖 (1 0 )觸控螢幕區 (1 1 0 )觸控按鍵部 (2)上導電層 (2 0 0 ) X導線 (2 1 )上按鍵區 (2 1 0 a )引導線 (3 0 )下螢幕區 (30〇a)引導線 (3 1 0 )電極 (4 )基板 (5 b )軟性電路板 12 200909912 (5 c )軟性電路板 (5 (5 0 )間隙子 (5 (5 2 )雙面膠 (1 (60)觸控螢幕區 (6 (6 1 0 )觸控按鍵部(6 (7 )上導電層 (7 (7 0 0 ) X 導線 (7 (7 1 )上按鍵區 (7 (7 1 0 a )引導線 (8 (8 0 )中螢幕區 (8 (8 0 0 a )引導線 (8 (8 1 0 )電極 (8 (9 )下導電層 (9 (9 1 )下按鍵區 (9 (9 1 0 a )引導線 d )軟性電路板 1 )光學膠 b )外殼 1 )觸控按鍵區 1 0 a )圖案 0 )上螢幕區 0 0 a )引導線 1 0 )行電極 )中導電層區 0 0 ) Y導線 1 )中按鍵區 1 0 a )引導線 0 )下螢幕區 1 0 )列電極 13Ua), each guide wire (200a) is connected to each of the X wires (2 〇 η, and the mountain u U ) and the other 4 to the upper conductive layer. The upper button area (2 1 ) corresponds to the touch button area (1 1 ), and a plurality of electrodes (2丄Q) and a plurality of guide lines (21〇a) are formed thereon, and each of the lightning elements; tefoin, The positions of the m electrodes (2 1 〇) respectively correspond to the patterns of the touch button portions (1 10) (1100, and the guide wires (2 1 〇 a ) end of the upper button region (2 1 ) are respectively connected to the electrodes ( 2丄〇), the other end of which extends to the other end of the upper conductive layer (2); the lower conductive layer (3) is disposed under the upper conductive layer (2), and the upper surface thereof includes a screen area (3〇) and In the button area (3ι), the lower screen area (30) corresponds to the upper screen area (2〇), and two Y-wires (3 〇〇) and two guiding lines (3 〇〇a) are formed on the opposite sides. Each of the guide wires (30 〇a ) is connected to each of the γ wires (3 〇〇), and the other ends of the guide wires (3 〇〇 a) are extended to the same side of the guide line (20 〇a ) corresponding to the upper screen region. And connecting the guiding line (2〇〇a) of the upper screen area (2〇) to a first flexible circuit board (5a); the lower key area (31) corresponds to the upper key area (21), On it Forming an electrode (310) and a guiding line (310a), the electrode (3 1 〇) corresponding to the touch button portion (i 1 〇), the electrode (3 1 〇) in the upper button area (2 1 ) The projection range can be 7 200909912 cover the electrode (3 1 1 ) of the upper button area (2 (3 1 ) guide line 1) guide line (2 1 1) guide line (2 b ); a substrate (4) for The lower conductive layer (3) is optically adhered thereto. Please refer to the fourth layer of the conductive layer (2) and the lower (5 0) and the optical adhesive, wherein the complex screen f 0 ) and the lower screen area (located in the upper button area) (2) In the example, the lower conductive layer. From the above description, the gap between the screen area (3 0) and the upper conductive layer (2) and the upper button area (2 1 control panel structure, by borrowing Each of the electrodes (21〇) of the i) is connected to the lower button area (3 〇) at one end and to the same button area (2 〇 3) at the other end. a second flexible circuit board (5, disposed under the lower conductive layer (3), is disposed on the side of the lower button area (2 1 〇a), and is disposed on the lower flexible layer (3). Paint As shown in the cross-sectional view of the first embodiment, the upper conductive layer (3) is filled with a plurality of spacers (5 1 ) and is sandwiched by a double-sided tape (5 2 ) (5 1 ). ) is evenly distributed between the upper screen area (2 3 0 ); optical glue (5丄) is evenly distributed between 1) and the lower button area (31); in this real (3) is applied by coating The substrate (4) is known to be filled with the upper conductive layer (2) and the lower conductive layer (50)' such that the upper screen region (2〇) and the resistive touch panel structure are formed; and the T conductive layer (3) is filled. The optical glue (51), and the lower button area (31) form a capacitive touch: achieve a full-surface resistance and capacitance integrated touch surface 8 200909912 Please refer to the fifth figure, which is the second embodiment of the present invention For example, the external Mb) surface of the electronic device includes a touch-screen area (60) and a touch button area (6 ", the touch button@(61) has - a touch button portion (61〇), the touch button portion (610) includes a plurality of patterns (6i〇a), and each pattern (6 1 〇a ) is used to represent a specific function. , The first - embodiment except that the second embodiment of the touch button part (6 Shang square) and a more dense pattern. Please refer to the sixth and seventh figures, which are perspective exploded view and combined plan view of the second embodiment, including: an upper conductive layer (7), the lower surface of which includes an upper screen area (7〇, And an upper button area (7 1), the upper screen area (7〇) corresponds to the touch screen area (60), and two opposite sides (7 〇0) and two guiding lines (700a) are formed on opposite sides thereof. ), each of the guide wires (7〇〇a) is connected to each of the X wires (700) and the other end is extended to one end of the upper conductive layer (7), and the upper button region (7 1 ) corresponds to the aforementioned touch The control button area (6 1) 'is formed thereon with a plurality of parallel arranged row electrodes (7 0) and a plurality of guide lines (710a), and the guide line (7 1 0 a ) of the upper button area (71) is terminated Connect each row electrode (7 1 〇), and extend the other end to one end of the upper conductive layer (7). A middle conductive layer (8) is disposed under the upper conductive layer (7), and the lower surface thereof comprises a a middle screen area (80) and a middle button area (8 1), wherein the middle screen area (80) corresponds to the upper screen area (70), and two Y wires (800) are formed on opposite sides Guide line (8 〇〇9 200909912 a ), each guide line (80 〇a)-end is connected to each γ wire (800) and the other end is extended to the middle conductive layer (8) corresponding to the upper conductive layer (7) The same end of the line (7 〇〇a), so that the guiding line (7 0 〇a ) of the upper screen area (7 〇) is connected to a third flexible circuit board (5 c ) for electrical contact; the middle button area (8 1 ) corresponds to the upper button area (7 1 ), and an electrode (8 1 〇) and a guiding line (8丄〇a) are formed thereon, and the position of the electrode (8 1 0) corresponds to the touch button part. (6 ^ 〇), the projection range of the touch button portion (6 i 〇) may cover all the patterns (6, 〇a) of the touch button portion (6 1 〇); the middle button area (81 The guiding line (81〇a) is connected to the electrode (8 1〇) at one end, and the other end extends to the same end of the guiding layer (7 1 0 a ) of the upper conductive layer (7) of the upper conductive layer (8); The conductive layer (g) is disposed under the middle conductive layer (8), and the upper surface thereof comprises a lower screen area (9〇) and a lower button area (91), and the lower screen area (90) corresponds to the upper screen area (7) 〇) and Zhongrong Screen Area ( 8 0), the lower button area (9丄) corresponds to the upper button area (71) and the middle button area (8 1 ), and a plurality of column electrodes (9 1 0 ) and a plurality of guiding lines (q 1 η) are formed thereon. 1 9 1 〇a ) 'The column electrodes (910) overlap with the above-mentioned upper button area (7 Ί, $ ^ ordering poles (710), and the overlapping positions are separately made _ salted two, +, f The monthly touch button section (δ 1 〇) each pattern (6 "bits [' the lower button area (9 1) guide line (9 丄〇: one end of the system is connected to the lower button area (9 1) The column electrode of the t column electrode (9 ia ) extends to the corresponding conductive layer (8 ) guide line (8 1 0 same end, so that the guide line (8l〇a) 200909912 of the middle button area (81) and the upper button area (71) the guiding line (71〇a) is commonly connected to a fourth flexible circuit board (5d); a substrate (4) is disposed under the lower conductive layer (9) to provide a lower conductive layer (9) disposed on Alternatively, it can be applied by coating or by optical bonding to it. Please refer to the cross-sectional view of the second embodiment as shown in the eighth embodiment. The upper conductive layer (7) and the middle conductive layer (8) are filled with a plurality of spacers (50) and optical glue (51). And separated by a double-sided tape (52), wherein a plurality of gaps (5 1 ) are evenly arranged between the upper screen area (7 〇) and the middle screen area (80); the optical glue (5 1 ) is Uniformly disposed between the upper button region (71) and the middle button region (81); between the middle conductive layer (8) and the lower conductive layer (9) and between the lower conductive layer (9) and the substrate (4) Fill the optical glue (5 1 ). The difference from the first embodiment is that the second embodiment further adds a middle conductive layer (8) to reduce electromagnetic interference between the upper conductive layer (7) and the lower conductive layer (9). In summary, the present invention divides the gap between the two conductive layers into a gap and the optical glue, so that the touch panel formed by the two conductive layers is divided into a touch screen area and a touch button area, wherein the touch screen area is Resistive touch structure; the touch button area is a capacitive touch structure, and is applied to an electronic product such as a mobile phone or a personal digital assistant (PDA) that can have a touch panel, which is compared with a general plastic button. The mobile phone electronics that are not flat will be able to present a completely flat surface. 11 200909912 [Simplified description of the drawings] Fig. 1 is a plan view showing a first embodiment of the present invention applied to an electronic device. Second Figure: is an exploded perspective view of a first embodiment of the present invention. Third Figure: A schematic diagram of a planar combination of a first embodiment of the present invention. Figure 4 is a first fifth drawing of the present invention: a second side view of the present invention. Figure 6 is a second and seventh drawing of the present invention: a second and eighth drawing of the present invention: a second component of the present invention. Description] (1 a ) outer casing (1 1 ) touch button area (1 1 0 a ) pattern (2 0 ) on the screen area (2 0 0 a ) guide line (2 1 0 ) electrode (3) under the conductive layer ( 3 0 0 ) Y-wire (3 1 ) lower button area (3 1 0 a ) guide line (5 a ) flexible circuit board embodiment cross-sectional view embodiment applied to an exploded view of a flat embodiment of an electronic device. A schematic diagram of the planar combination of the embodiments. Cross-sectional view of the embodiment (10) touch screen area (1 1 0) touch button portion (2) upper conductive layer (200) X-wire (2 1) upper button area (2 1 0 a ) guide line ( 3 0) Lower screen area (30〇a) Guide line (3 1 0) Electrode (4) Substrate (5 b) Flexible circuit board 12 200909912 (5 c ) Flexible circuit board (5 (5 0 ) gap (5 ( 5 2) Double-sided tape (1 (60) touch screen area (6 (6 1 0) touch button part (6 (7) upper conductive layer (7 (7 0 0 ) X wire (7 (7 1)) Button area (7 (7 1 0 a ) guide line (8 (8 0 ) in the screen area (8 (8 0 0 a ) guide line (8 (8 1 0 ) electrode (8 (9) under the conductive layer (9 ( 9 1) Lower button area (9 (9 1 0 a) guide line d) Flexible circuit board 1) Optical glue b) Case 1) Touch button area 1 0 a ) Pattern 0) Upper screen area 0 0 a ) Guide line 1 0) row electrode) in the conductive layer region 0 0) Y wire 1) button region 1 0 a) guide line 0) lower screen region 1 0) column electrode 13