200919292 九、發明說明: 【發明所屬之技術領域】 … 本發明係有關具備有能純測 接觸 ::阻㈣入區域之觸控面板、具備 :輸入功能之顯示裝置及電子機器。萄控面板之附有 【先前技術】 行的車用導航裳置、個人電腦、售票機、銀 稱=機器中,近年來係於液晶裝置等的表面 輸入裝置’而能夠-邊參照顯示於液 1的圖像顯示區域之圖像’ -邊進行資訊的輪入。 為=種:觸控面板之中’電阻臈型觸控面板的構造係 2在對向配置㈣1基板及第2基板中, 電極係各自形成於第」其祐芬筮9宜』 电不及弟2 * 土板及第2基板的彼此對向之面, 基板被按下時檢測出第!.電極與第2電 ^立^而檢測出輪人座標。此外,就觸控面板而言,尚 ^電電谷型觸控面板,係於一片基板形成電極,在手指 4或接近時,與電_合的靜電電容會變化,藉由檢 =化來檢測出輸入座標。在此,靜電_ .係與電阻膜型觸技面献I pq At 觸筏面板不同,迠夠以非接觸方式進行輪 入’因此具有耐久性優羽優點,但在另―方面,由於。 =以手指進行輪人,因此有無法進行筆控輪人(peninp_ 等缺點。 因此’亦已提案有-種觸控面板,係將分別製造的電 阻膜型觸控面板盥靜雪雪&开# 回板” If電電谷型觸控面板重疊成為密接狀 320526 5 200919292 態’而製作出能夠檢測出複數種類的按下狀態之觸控面板。 專利文獻1 :日本特開平7-334308號公報 【發明内容】 (發明所欲解決之課題) 本發明的發明人係在此提案一種平面性地配置各個輸 區域之觸控面板’能夠以手.指捲動(scr〇ll)晝面,亦能 夠進行筆控輸入等,實現各式各樣的輸入方式。 然而,在構成上述觸控面板時,在如專利文獻丨記载 之構成的方式將分開製造的電阻膜型觸控面板與靜電電容 f觸控面板平面性地重疊配置之構成中,係有分開製造各 的觸控面板所需的成本增加,且厚度也變厚之問題點。 此外’有電性連接區域與包圍各㈣域的邊框區域所佔的 =積變大,而只能確保狹窄輸人區域等問題。, 電阻膜型觸控面板盥靜雷雷突荆艇^ 你竹 罢— 败/、奸电電谷型觸控面板平面性地重疊配 置,接者再將顯示裝置重疊配—± -站 置宁,例如,由於無法传顧 不裝置的顯示内容在用於捲動金 ^ ’、’、、 的_古㈤ 晝面的區域與進行筆控輸入 到之問題點。:輪入的適當顯示難以做 鐾於以上的即題點,本發明认 低價地提供能夠有複數種輪人方式且種能 觸控面板的構成。 飞且,、有寬廣輸入區域 有輪二 (解決課題的手段) 有觸控面板之電子機器。 320526 200919292 . ^笑杯為I解決上述問題,本發明的觸控面板係具備:第] …,第電極,形成在前述第1基板的帛1面,·以及第2 :.Γ呈:成在前述第2基板的第1面;該觸控面板的:: ':·彳電極:」Γ膜型輸入區域’將前述第1基板的前述第 型輪入區域’藉由在前述第咖前述第 中的至少一方’形成於俯視時為與前述電阻 輸入£域不同之區域的第3電極所構成。 饍命it明係於一個觸控面板構成有電阻膜型輸入區域與 手入區域’因此,在靜電電容型輸入區域係以 等,日==旦欠面、’並在電阻膜型輪入區域進行筆控輸入 用方承月匕° M式各樣的輸入方法進行資訊輸入,因此使 輸人區域:電置配置有電阻 輸入區域及靜電電因此可實現在電阻膜型 輸入之心 各者進行最合適的資訊 利用形成有構成電阻膜型輸入區域的 弟電極及第2電極m板及第2基板之相至少一 :’構成用以構成靜電電容型輸入區域的第3電極,因此 地配置之構成不同’能夠謀求低成本。此外,能夠. 將電性連接區域與包圍各個區域的邊框區域予W通化, 因此能夠確保較廣的輸入區域。、 在本發明中’較佳為,前述第3電極係形成在前述第 320526 7 200919292 ?、基板的第1面及前述第2基板的第1面之令的一方。當 式來構成時,能夠利用第1電極或第2電極的开: -成步驟來形成構成靜電電容型輪人區域所需導膜 例如’㈣極、第3電極的一部分、或者針以 I.型輸人區域的屏蔽層,因此能夠㈣生紐。靜電電谷 •第2 較佳為,前述第1基板的第1面及前述 弟」基板的弟1面之φ, 的第1面連接有配線槿株成有别述第3電極側的基板 膜型幹入該配線構件係進行從前述電阻 出。:以靜電電容型輪入區域往外部之信號輸 田λ如此方式來構成時,口 件僅連接於形成有第3電極的;板的第二^^^ 第之構… 土扳的弟1面之中,於盘》 3電極之側為相反側其 Τ於/、形成有則述第 配線構件係進行從板的弟1面連接有配線構件,該 型輸入區域往:;:二膜型輸入區域及前述靜電電容 與前述第2基板;第;:輪出;在前述第1基板的^ 板間導通材係用以逸〜之間配置有基板間導通材,該基 之芦號幹出a進仃從前述靜電電容型輸入區域往外部 輸出。當以如此方式來 , 持 的配線構件僅連接於 了茺肝視性基板·# 板的第1面即可。、心成冑第3電極之側為相反側的基 在本發明中,較祛兔义 1基板的第1面。.”、、,刚述配線構件係連接於前述第 基板為具有可摔祕此外,由於要求配置於輸入操作側的第2 〜,,故在厚度較薄等的面並不適於進行配 320526 8 i 200919292 線,件的連接,但在本發明巾,由於是將配線構件連接於 上述限制的第1基板,因此能夠構成可靠度高的連接 、部分。 · =有本發明控面板絲夠使跡时輸入功能 之頌不It置,此時,對前述第i基板將圖像產生裝置重疊 -配置於與前述第2基板侧為相反之侧。 〆在本發明中’較佳為,前述電阻膜型輪入區域及前述 靜電電^型輸入區域的至少一方係作為透光性輸入區域而 v成,刖述圖像,產生裝置係於與前述透光性輸入區域重疊 之區域具備圖像顯示區域。 在本發明中,亦可採用如下之構成:前述電阻膜型輸 入區域及前述靜電電容型輸入區域的雙方係作為if光姓輸 入區域而形成;前述圖像產生裝置係於與前:述電阻膜型輸 入區域及岫述靜電電容型輸入區域的雙方重疊之區域具備 則述圖像顯示區域。此外,在本發明中,前述圖像產生裝 置係3有對基板與保持在該一對基板之間的光電物質, 且$述弟1基板係兼作前述一對基板之中的任一方之基 板。藉由以如此之方式來構成,能夠削減圖像產生裝置或 $控面板的基板,因此能夠使附有輸入功能之顯示裝置的 厚度變薄。並且,例如能夠將使用於晝面的捲動之區域與 進行筆控輪入之區域分開,因此能夠使圖像產生裝置的顯 示内谷切換為與各自的輸入區域的功能相對應之適當顯 示’而亦能.夠提升操作性。 應用有本發明的附有輸入功能之顯示裝置係能夠使用 320526 9 200919292 個人電腦、售票機、銀行的終 於行動電話、車用導航器 端機等電子機器。 ··【實施方式】 參照圖式, 明所參照的圖中 不各層與各構件 [實施形態1]200919292 IX. Description of the Invention: [Technical Field to Which the Invention Is Applicable] The present invention relates to a touch panel having a pure sensing contact: resistance (four) in-region, a display device having an input function, and an electronic device. The control panel is equipped with a "previous technology", such as a car navigation device, a personal computer, a ticket vending machine, and a silver scale=machine. In recent years, it has been used in a surface input device such as a liquid crystal device. The image of the image display area of 1 ' - performs the rounding of information. In the touch panel, the structure of the 'resistance type touch panel' in the touch panel is in the opposite direction (4) 1 substrate and the second substrate, and the electrode systems are formed in the first "Yu Fen 筮 9 Yi" * The surface of the earth plate and the second substrate facing each other is detected when the substrate is pressed! The electrode and the second electric motor are used to detect the wheel coordinates. In addition, in the case of a touch panel, the electric grid type touch panel is formed on one substrate to form an electrode. When the finger 4 is close to or close to each other, the electrostatic capacitance of the electric_electrode changes, and is detected by detection. Enter the coordinates. Here, the static electricity is different from the resistive film type of the I pq At touch panel, and is carried out in a non-contact manner. Therefore, it has the advantage of excellent durability, but on the other hand, because of. = With the fingers on the wheel, there is no way to control the pen wheel (peninp_ and other shortcomings. Therefore, 'there are also proposals for a touch panel, which will be separately manufactured by the resistive film type touch panel 盥静雪雪&#回板" If the electric-powered valley-type touch panel is overlapped, it is in the form of a closed contact 320526 5 200919292 state, and a touch panel capable of detecting a plurality of types of pressed states is produced. Patent Document 1: Japanese Patent Laid-Open No. Hei 7-334308 Disclosure of the Invention (Problems to be Solved by the Invention) The inventors of the present invention have proposed that a touch panel which is disposed in a planar manner in each of the transmission regions can be scrolled by hand or finger. A variety of input methods are realized by performing a pen input, etc. However, in the case of constituting the touch panel, a resistive film type touch panel and an electrostatic capacitor f which are separately manufactured in a manner as described in the patent document f In the configuration in which the touch panels are arranged in a planar manner, there is a problem in that the cost required for separately manufacturing each touch panel is increased, and the thickness is also thickened. Further, the 'electrical connection region and the surrounding (four) domains are included. The area occupied by the frame area becomes large, and only the problem of narrow input area can be ensured. The resistive film type touch panel is quiet and the thunderbolt is smashing the boat ^ You bamboo stop - defeat /, electric electric valley touch The panels are arranged in a planar manner, and the display device is overlapped with the display device, for example, because the display content that cannot be passed over is not used in the scrolling of the gold ^ ', ', , _ ancient (five) 昼The area of the face and the point at which the pen control is input. The proper display of the wheel is difficult to do with the above-mentioned problem, and the present invention provides a plurality of wheel-type and touch panels capable of having a plurality of wheel people. It has a wide input area with a wheel 2 (a means to solve the problem). An electronic device with a touch panel. 320526 200919292 . ^ The smile cup is the solution to the above problem, and the touch panel of the present invention has: ...the first electrode is formed on the first surface of the first substrate, and the second surface is formed on the first surface of the second substrate; and the touch panel is: ':·彳 electrode: The diaphragm type input region 'the aforementioned first type of wheel-in area of the first substrate' is preceded by At least one of the above-described first ones is formed of a third electrode in a region different from the resistance input region in a plan view. The meal is based on a touch panel and has a resistive film type input region and a hand. Into the area 'Therefore, in the capacitive input type area, etc., the day == denier, 'and in the resistive film type wheel-in area, the pen input input method is used for inputting information, Therefore, the input region is electrically disposed with the resistance input region and the electrostatic electricity, so that the most suitable information can be used for each of the resistive film type input. The younger electrode and the second electrode m constituting the resistive film type input region are formed. At least one of the phase of the plate and the second substrate: 'the third electrode constituting the capacitance type input region is formed, and therefore the arrangement is different", and the cost can be reduced. Further, the electrical connection region and the frame region surrounding each of the regions can be made to pass through, so that a wider input region can be secured. In the present invention, it is preferable that the third electrode is formed on one of the first surface of the substrate 320526 7 200919292, the first surface of the substrate, and the first surface of the second substrate. When the configuration is such that the first electrode or the second electrode is opened, a conductive film such as a 'fourth pole, a part of the third electrode, or a needle I can be formed to form a capacitance type wheel human region. The shielding layer of the type input area can therefore (4) be born. In the second embodiment, it is preferable that the first surface of the first substrate and the first surface of the first substrate of the first substrate are connected to each other with a wiring layer formed on the third electrode side. The dry type of the wiring member is discharged from the resistor. : In the case of the electrostatic capacitance type wheel-in area to the outside signal transmission field λ, the mouth piece is connected only to the third electrode formed; the second part of the board is formed... In the middle of the disk, the side of the electrode is opposite to the side of the disk, and the wiring member is connected to the wiring member from the side of the board. The input region is:: two-film type input a region and the electrostatic capacitance and the second substrate; a: wheeled; a conductive material between the electrodes of the first substrate is disposed between the plates, and the inter-substrate conductive material is disposed between the substrates The input is output to the outside from the electrostatic capacitance type input region. In this manner, the wiring member to be held is connected only to the first surface of the 茺 liver-visible substrate·# plate. In the present invention, the side of the third electrode is the first side of the substrate. In addition, the wiring member is connected to the first substrate to have a sneak peek. In addition, since it is required to be placed on the input operation side, the surface is not suitable for the surface. i 200919292 The connection of the wire and the piece, but in the towel of the present invention, since the wiring member is connected to the first substrate which is limited as described above, it is possible to constitute a connection and a portion having high reliability. In the case where the input function is not set, the image generating device is superposed on the i-th substrate and disposed on the side opposite to the second substrate side. In the present invention, the resistive film is preferably used. At least one of the type of the wheel-in area and the electrostatic input-type input region is formed as a light-transmitting input region, and the image is generated, and the generating device is provided with an image display region in a region overlapping the light-transmitting input region. In the present invention, the resistive film type input region and the capacitive input region may be formed as an if-light surname input region; and the image generating device is The image forming region is provided in a region in which both the resistive film type input region and the capacitive capacitive input region overlap each other. In the present invention, the image generating device 3 has a pair of substrates and is held therein. The photoelectric material between the pair of substrates, and the substrate of the first substrate is also used as one of the pair of substrates. By configuring in this manner, the substrate of the image generating device or the control panel can be reduced. Therefore, the thickness of the display device with the input function can be made thinner, and, for example, the area for scrolling used for the face can be separated from the area where the pen wheel is placed, so that the display of the image generating device can be made. The valley is switched to an appropriate display corresponding to the function of the respective input area. The operation can also be improved. The display device with the input function of the present invention can be used with 320526 9 200919292 PC, ticket vending machine, bank The electronic device such as the mobile phone and the car navigator, etc. ······························· [Embodiment 1]
說明本發明的實施形態。其中,在以下說 ,係將以能夠在圖面上清楚見得之程度標 ,因此各層與各構件的比例尺各不相同。 (全體構成) 第1圖及第2圖各為示意性顯示應用本發明之附有輸 入功能之顯示裝置的構成之說明圖。其中,在第2圖中, 針對觸控面板的各電極及液晶裝置的像素電極與對向電極 荨係以簡化其數目的方式表示。 在第1圖及第2圖甲,本形態的附有輸入功能之顯示 裝,100係主要具有作為圖像產生裝置的液晶裝置5以及 重豐配置於該液晶裝置5中射出顯示光之側的面之觸控面 板U輸入裝置)。 液晶裝置5係具備有穿透型、反射型、或者半穿透反 射型的主動式矩陣型(active matrix)的液晶面板^。在 本形態中,液晶面板5a係為穿透型,因此在與顯示光的射 出側的相反側配置有背光裝置(未圖示)。此外,在液晶裝 置5中,對液晶面板5a,於顯示光的射出側重疊配置有第 1偏光板81,於其相反側重疊配置有第2偏光板82。 液晶面板5a係具備有配置在顯示光的射出側之透光 性το件基板50以及相對於該元件基板5〇對向配置的透光 320526 10 200919292 性對向基板60。對向基板6〇與元 茲 ^封材71而貼合,於對向基板6 〇與元件基板5 0之間,在 密封材71戶斤圍起的區域内保持著液晶層55(光電物^ f兀件基板50 +,於與對向基板6Q相對向之面係形 成有複數個像素電極58 ’而於對向基板屬中,在鱼元件 基板50相對向之面係形成有共同電極68。另外,亦有將 共同電極68形成於元件基才反5〇側之情形。此外,亦有將 對向基板60配置於顯示光的射出側之情形。 在兀件基板50中,於從對向基板6Q的邊緣伸出之伸 出區域59係以COG(Chip On Glass ;覆晶玻璃)方式安裝 有驅動用IC75,並且,於伸出區域59係連接有挽性 flexible)基板73。另外,亦有於元件基板5〇,將驅動電 路與元件基板50上的開關(switching)元件同時形成之情 (觸控面板1的詳細構成) 在本形態的觸控面板i中,其輸入區域1003係具備以 下將說明的電阻膜型輸入區域101與靜電電容型輸入區域 几2 ’ δ亥電阻膜型輸入區域1〇1與靜電電容型輸入區域102 係配置在俯視時為錯開之位置。 味在本开八悲'中,觸控面板1係具備有由玻璃板或塑膠板 等所構成的透光性第丨基板丨〇以及由玻璃板或塑膠板等所 構成的透光性第2基板2 〇,在本形態中係皆使用玻璃基板 作為第1基板1〇及第2基板2〇。在此,第1基板與第 320526 11 200919292 2基板20係藉由框狀的密封材31而貼合,以使第丨面j工、 2。1兩者隔著預定間隙相對向。第2基板2〇係配置在輸入 操作側,第1基板1〇係配置在液晶裝置5之側。因此,第 2基板20係將第2面22面向輸入操作側,第1基板1〇係 將第2面12面向液晶裝置5之側。在如此構成的觸控面板 1中,當在電阻膜型輸入區域101進行輸入時,必須使第2 基板20彎曲。因此’第2基板20係厚度比第!基板薄, 而具備可撓性。 在第1基板10的第i φ u中’於從第2基板2〇的邊 ,伸出之伸出區域13係連接有撓性基板33。該撓性基板 係用以將信號從電阻膜型輸入區域1〇1及靜電電容型輸 入區域102輸出至外部之共同的配線構件。 八密封材31具備有沿著» 2基板2 0的外周緣之外㈤ :以及於外框部分31中在相對向的兩邊中間附近^ Τ以連接之間隔框部分31b。密封材31所圍起之石 ^的^致全體係成為輸人區域购。此外,輸入區域10〇 之部分31b ’ —方側(距離連接撓性基板3 (遠垃娃^之側)係成為電阻膜型輸入區域1 ◦卜而另一方^ 广生基板33之側)係成為靜電電容型輸入區域1〇2 板ίο二控面板1中,電阻膜型輸入區域101係於第U 面11形成由亀 )膜所構成的透光性第1 面21 弟1電極15,於第2基板20的第 係為空氣層膜所構成的透光性第2電極25,其内相 320526 12 200919292 / 、於第1基板10的第i面n,從第i電極15朝向伸出 ^區域13形成配線圖案(Pattern)(未圖示),藉由該配線圖 --案’便能夠實現從第丨電極15往撓性基板33之信號輸出σ。 :此外,於密封材31係調配有由表面形成有金屬層的塑:珠 二(bead)等所構成的基板間導通材3〇,基板間導通材3〇係 介置於第1基板1〇的第i面u與第2基板面別的第! 面21之間,而將形成在第2基板20的第1面21之第2 電極25以及形成在第1基板1◦的第1面11之配線圖案(未 圖示)予以導電連接。藉由該基板間導通材%及配線圖 案,便能夠實現從第2電極25往撓性基板33之信號輪出。 在如此構成的電阻膜型輸入區域1〇1 2M皮按下時十電極15與第2電極25係在按;= 觸,因此,錯由檢測出該接觸位置,便檢測出輸入座標。 ’因此,在電阻膜型輪入區域1〇1,係能夠藉由以手指與筆等 按下第2基板20的預定區域來進行:#訊之輸入。 …在觸控面板1中’於靜電電容型輸人區域iQ2係依序 於2 1基板10的第1面u形成由π〇膜所構成的透光性 屏蔽(shield)層16、由氧化石夕膜等所構成的透光性絕緣膜 ^及由ΓΤΟ膜所構成的透光性第3電極18、19。在此: 屏敝層16係擔負防止外部雜訊的影響之功能。 第3電極18、19係例如由朝互相交叉之方向延長之複 數列的電極圖案所構成,於第2圖係未將第3電極Μ、Μ 力:以區別而示意性顯示。在此,第3電極18、19係採用稱 為接塾(Pad)之具備廣面積的部分之構成、左右反向的三角 320526 13 200919292 形狀的圖案又一互配置之構成等。不論採用哪種構成時,配 線圖案(未圖示)皆是從第3電極18、19朝向伸出區域13 ,延長,藉由該配線圖案,便能夠實現從苐3電極18、19 、往撓性基板33之信號輸出。 ·· 在如此構成的靜電電容型輸入區域102巾,在依序將 電塵施加至複數個電極18、19而賦予有電荷時,當屬於導 電體的手指接觸或接近至任意位置,電極18、19與手指之 間形成電各’透過電極i8、j 9而檢測出的靜電電容降低, 因此’此夠檢測出手指接觸或接近至哪個位置。因此,在 靜電電容型輸人區域1G2係能夠以維持非接觸狀態之方式 藉由手指進行資訊之輸入。但在靜電電容型輸入區域ι〇2 係無法利用由絕緣材料所構成的筆等來進行輸入。 對如此構成的觸控面板i,於輸入操作側重曼配置薄 板(sheet>91’於該薄板91的内面(與觸控面板1相對向之 面)係形声有框狀的遮光層92。在此,由於遮光層92係形 成在與靜電電容型輸入區域1〇2重叠之區域’但並未形成 在與電阻膜型輸入區域1〇1重疊之區域,因此靜電電容型 輸入區域102成為遮光區域,而電阻膜型輸入區域成 為透光區域。此外,液晶裝置5的圖像顯示區域5b係重疊 ^電阻膜型輸入區域10卜因此’在本形態的附有輸入功 此之顯不裝置100中,能夠隔著電阻膜型輸入區域101而 從輸入操作側觀看液晶裝置5所顯示的圖像。相對於此, ,靜電電谷型輸入區域1〇2中,於薄板91的外表面(輸入 輛作侧之面)係印刷有表示游標鍵(cursor key) 95的圖形 320526 14 200919292 等。另外,於薄板91的外表面係依需要而形成有硬膜(hard 層等。此外,只要將薄板91作成具有偏光板81的功 2之薄板91,便將薄板91與第i偏光板81共用,藉此便 此夠省略第1偏光板81,而能夠使觸控面板1的厚度變 薄。再者,具有偏光板81的功能者並非僅限於薄板91, 亦可使相對於液晶面板5 a配置於顯示光的射出側之構件 的任一者具有偏光板81的功能。 (本形態的主要效果) +如上述之說明,本形態係於一個觸控面板1構成有電 阻膜型輸入區域101與靜電電容型輪入區域1〇2,因此, 在靜電電容型輸入區域102係藉由以手指指示游標鍵來捲 動液晶裳置5所顯示的晝面,而在電阻膜型輸入區域101 '、、筆拴輸入來远擇液晶裝置5所顯示的選擇按鍵等,依 ,本形態的觸控面板、,能夠以各式各樣的輸入方法進行 資訊輸入,因此使用方便。 此外,在俯視時為錯開之位置配置電阻膜型輸入區域 及靜電電容型輸人區域跡因此能狗―邊觀看液晶裝 所顯不的晝φ ’ 一邊在靜電電容型輸入區域1〇2捲動 ;:面、在電阻膜型輪人區域101進行筆控輸人等,而能夠 電阻膜型輸人區域1G1及靜電電容型輸人區域1〇2 勺各者進行最合適的資訊輸入之構成。 。並且’利用形成有構成電阻膜型輪入區域ι〇ι的第工 電極15之第1基板1 〇的第1面11,槿忐田 容型輸入區域m的第3電極18、19構=:構成靜電電 电炫ΐδ 19,因此與將分開製造 320526 15 200919292 的電阻膜型觸控面说I ^ 之槿以π 電1容型觸控面板平面性地配置 =成不同’而能夠減少基板片數。此外, :13^3 :低成本:。削減製造步驟數。故,能夠謀求觸控面板1的 - 月匕夠在%阻膜型輪入區域101與靜電電容型_ 入區域1G2將間隔框部分 η 田扼a a… 1刀b寺予以共同化,因此,與使 、在封件將電阻膜型輸入區域1〇1及靜電電容型 圍起來的情形進行比較,能夠確保較廣的 或。同樣地,由於藉由基板間導通材30來達到第i =1〇與第2基板20的導通,因此能夠藉由共同的撓性 二從電阻膜型輸入區域⑻及靜電電容型輪入區 μ im 不需要對電阻膜型輪入區 連接區域,^谷型輪人區域1G2的各者設置撓性基板的 °。5,大此此點亦有利於確保較廣的輪入區域。 此外,撓性基板33係連接於第1基板10的第1面u, 該第1基板10的板厚係t卜楚9 i4c 9n厂 ^ t 敗与係比弟2基板20厚。因此,依據本 撓性基板連接於第2基板2〇的情形相較,撓性 基板33的連接部分的可靠度較高。 [實施形態2] 在只施形悲1中,用以構成靜電電容型輸入區域102 的第3電極18、19係拟士 + & , 係开成在第1基板1 〇,而在本形態中 ,如參照第3圖以下所說明般,第3電極18、19係形成在 第2基板20的第1面。 320526 16 200919292 第3圖係不·意性顯示本發明實施形態2的附有輸入功 能之顯示裝置100的剖面構成之說明圖。其中,由於本形 ·.態的基本構成係與實施形態丨相同’因此’共通的部分係 ‘ D主相同的符號來予以圖示,並且省略該些的說明。 二 如第3圖所不’本形態的附有輸入功能之顯示裝置100 亦與貫施形態1相同地具有液晶裝置5以及在重疊配置於 °玄液B曰裝置5中射出顯示光之側的面之觸控面板1。此外, ,在觸控面板1中,其輸入區域1〇〇a係具備以下將說明的電 阻膜型輸入區域101及靜電電容型輸入區域.1〇2,該電阻 膜型輸入區域ΗΠ及靜電電容型輸人區域1()2係配置在俯 視時為錯開之位置。 —— 带在本形悲中亦與實施形態丨相同地,在觸控面板丨中, 在电阻膜型輸入區域101係於第1基板10的第1面11形 成=ίΤ〇膜所構成的透光性第1電極15,於第2基板2〇 的第1面21形成由no膜所構成的透光性第2電極25, L =内側係為空氣層。於第)基板10的第]面η,從第1 电極15朝向伸出區域13形成配線圖案(未圖示),藉由該 =線圖案,便能夠實現從第丨電極Η往撓性基板犯之俨 ^出。此外’調配於密封材31的基板間導通材3〇係^ 置於第1基板10的第i面u與第2基板2〇的第i面21 ^間^而使形成在第2基板20的第i面21之第2電極25 予、2成在第1基板10的第1面11之配線圖案(未圖示) 二V電連接,藉由該基板間導通材3〇及配線圖案,便能 。貫現從第2電極25往撓性基板33之信號輸出。 320526 17 200919292 在本形態中,在靜電電容型輸入區域102係於第2基 才反2 0的弟1面21形点:4* :杀、k u & λ & — . ~An embodiment of the present invention will be described. In the following, the degree will be clearly indicated on the drawing, so the scale of each layer and each member is different. (Embodiment) Each of Figs. 1 and 2 is an explanatory view schematically showing a configuration of a display device with an input function to which the present invention is applied. In the second embodiment, the electrodes of the touch panel and the pixel electrodes and the counter electrode of the liquid crystal device are shown in a simplified manner. In the first and second figures, in the display device with an input function of the present embodiment, the 100 series mainly includes a liquid crystal device 5 as an image generating device, and a plurality of liquid crystal devices 5 disposed on the side of the liquid crystal device 5 that emits display light. Touch panel U input device). The liquid crystal device 5 is provided with an active matrix liquid crystal panel having a transmissive type, a reflective type, or a transflective type. In the present embodiment, since the liquid crystal panel 5a is of a transmissive type, a backlight device (not shown) is disposed on the side opposite to the emission side of the display light. Further, in the liquid crystal panel 5, the first polarizing plate 81 is placed on the emission side of the display light on the liquid crystal panel 5a, and the second polarizing plate 82 is placed on the opposite side. The liquid crystal panel 5a includes a light-transmitting substrate 505 disposed on the emission side of the display light and a light-transmitting 320526 10 200919292 opposite substrate 60 disposed opposite to the element substrate 5A. The counter substrate 6 is bonded to the sealing material 71, and between the counter substrate 6 〇 and the element substrate 50, the liquid crystal layer 55 is held in a region surrounded by the sealing material 71 (photoelectric material ^ The f-piece substrate 50+ has a plurality of pixel electrodes 58' formed on a surface facing the counter substrate 6Q, and in the opposite substrate, a common electrode 68 is formed on the surface of the fish element substrate 50. Further, the common electrode 68 may be formed on the opposite side of the element base. Further, the opposite substrate 60 may be disposed on the emission side of the display light. In the case substrate 50, in the opposite direction The protruding region 59 where the edge of the substrate 6Q protrudes is a driving IC 75 mounted on a COG (Chip On Glass), and a substrate 73 is connected to the protruding region 59. Further, in the element substrate 5A, the driving circuit and the switching element on the element substrate 50 are simultaneously formed (the detailed configuration of the touch panel 1). In the touch panel i of the present embodiment, the input area thereof The 1003 series includes a resistive film type input region 101 to be described below, and a capacitance type input region 2' δ 电阻 resistive film type input region 1〇1 and a capacitance type input region 102 are arranged at positions shifted in a plan view. In the present invention, the touch panel 1 is provided with a translucent second substrate 构成 composed of a glass plate or a plastic plate, and a light transmissive second composed of a glass plate or a plastic plate. In the present embodiment, a glass substrate is used as the first substrate 1 and the second substrate 2A. Here, the first substrate and the substrate 320 of the 320526 11 200919292 2 are bonded together by the frame-shaped sealing material 31 so that the first surface and the second surface are opposed to each other with a predetermined gap therebetween. The second substrate 2 is disposed on the input operation side, and the first substrate 1 is disposed on the side of the liquid crystal device 5. Therefore, the second substrate 20 faces the input operation side with respect to the second surface 22, and the first substrate 1 faces the side of the liquid crystal device 5 with the second surface 12 facing. In the touch panel 1 configured as above, when inputting in the resistive film type input region 101, the second substrate 20 must be bent. Therefore, the second substrate 20 is thicker than the first! The substrate is thin and flexible. The flexible substrate 33 is connected to the projecting region 13 extending from the side of the second substrate 2A in the i-th φ u of the first substrate 10. The flexible substrate is a wiring member for outputting a signal from the resistive film type input region 1A1 and the capacitance type input region 102 to the outside. The eight sealing members 31 are provided with a partition frame portion 31b which is outside the outer periphery of the substrate 2 0 (5): and in the outer frame portion 31 near the middle of the opposite sides. The entire system of the stone enclosed by the sealing material 31 is purchased from the input area. Further, the portion 31b'-side of the input region 10A (the side from the side where the flexible substrate 3 is connected (the side of the remote sensor) is the resistive film type input region 1 and the other side is the side of the wide substrate 33) In the second control panel 1, the resistive film type input region 101 is formed on the U-plane 11 to form a light-transmissive first surface 21, which is composed of a film. The first substrate of the second substrate 20 is a translucent second electrode 25 composed of an air layer film, and the inner phase 320526 12 200919292 / is on the i-th surface n of the first substrate 10, and is extended from the i-th electrode 15 toward the ^ The region 13 is formed with a wiring pattern (not shown), and the signal output σ from the second electrode 15 to the flexible substrate 33 can be realized by the wiring pattern-the case. Further, in the sealing material 31, an inter-substrate conductive material 3 made of a plastic bead or the like having a metal layer formed on the surface thereof is disposed, and the inter-substrate conductive material 3 is interposed between the first substrate 1 The i-th surface u and the second substrate surface are different! Between the faces 21, the second electrode 25 formed on the first surface 21 of the second substrate 20 and the wiring pattern (not shown) formed on the first surface 11 of the first substrate 1 are electrically connected. The signal from the second electrode 25 to the flexible substrate 33 can be rotated by the inter-substrate conductive material % and the wiring pattern. When the resistive film type input region 1 〇 1 2M thus constructed is pressed, the ten electrodes 15 and the second electrode 25 are pressed; =, therefore, the input position is detected by detecting the contact position. Therefore, in the resistive film type wheel-in area 1〇1, it is possible to perform the input of the signal by pressing a predetermined area of the second substrate 20 with a finger, a pen, or the like. In the touch panel 1, 'a transparent light-shielding layer 16 composed of a π-ray film is formed on the first surface u of the substrate 10 in the capacitive-type input region iQ2, and is formed of oxidized stone. A translucent insulating film composed of an enamel film or the like, and translucent third electrodes 18 and 19 composed of a ruthenium film. Here: The screen layer 16 is responsible for preventing the influence of external noise. The third electrodes 18 and 19 are formed, for example, by electrode patterns in a plurality of rows extending in a direction intersecting each other. In the second drawing, the third electrode Μ and the Μ force are not schematically shown. Here, the third electrodes 18 and 19 are formed by a configuration having a wide area called a pad, and a configuration in which the triangles of the left and right directions are reversed, and the patterns of the shapes are further arranged. Regardless of the configuration, the wiring pattern (not shown) is extended from the third electrodes 18 and 19 toward the overhanging region 13, and the wiring pattern enables the deflection from the 苐3 electrodes 18, 19 and The signal output of the substrate 33. In the electrostatic capacitance type input region 102 configured as described above, when electric dust is applied to the plurality of electrodes 18 and 19 in order to impart electric charge, when the finger belonging to the electric conductor contacts or approaches an arbitrary position, the electrode 18, 19 The electrostatic capacitance detected by the electrodes 'i8 and j9' is reduced between the fingers and the fingers, so that it is enough to detect which position the finger touches or approaches. Therefore, in the capacitive input region 1G2, information can be input by the finger while maintaining the non-contact state. However, in the capacitance type input region ι2, it is not possible to input using a pen or the like made of an insulating material. In the touch panel i configured as described above, a sheet-shaped light-shielding layer 92 is formed on the input operation side heavy-manufacturing sheet (sheet>91' on the inner surface of the thin plate 91 (opposite the touch panel 1). Since the light shielding layer 92 is formed in a region overlapping the capacitance type input region 1〇2, but is not formed in a region overlapping the resistive film type input region 1〇1, the capacitive input region 102 becomes a light blocking region. The resistive film type input region is a light transmitting region. Further, the image display region 5b of the liquid crystal device 5 is overlapped with the resistive film type input region 10, so that it is in the display device 100 with the input function of the present embodiment. The image displayed by the liquid crystal device 5 can be viewed from the input operation side via the resistive film type input region 101. On the other hand, in the electrostatic electric valley type input region 1〇2, on the outer surface of the thin plate 91 (input for the vehicle) The side surface is printed with a pattern 320526 14 200919292 or the like indicating a cursor key 95. Further, a hard film (hard layer or the like is formed on the outer surface of the thin plate 91 as needed. Further, as long as the thin plate 91 is used The thin plate 91 having the work 2 having the polarizing plate 81 shares the thin plate 91 and the i-th polarizing plate 81, whereby the first polarizing plate 81 can be omitted, and the thickness of the touch panel 1 can be made thinner. The function of the polarizing plate 81 is not limited to the thin plate 91, and any of the members disposed on the emission side of the display light with respect to the liquid crystal panel 5a may have the function of the polarizing plate 81. (Main effect of this embodiment) + As described above, the present embodiment is such that the touch panel 1 is configured with the resistive film type input region 101 and the capacitive type wheel entry region 1〇2. Therefore, the capacitive input region 102 indicates the cursor by the finger. The key is used to scroll the liquid crystal display 5 to display the kneading surface, and the resistive film type input area 101 ', the pen input is used to select the selection button displayed by the liquid crystal device 5, etc., according to the touch panel of the present embodiment, The information input can be performed by various input methods, so that it is easy to use. In addition, the resistive film type input area and the capacitive type input area are arranged in a staggered position in a plan view, so that the dog can be viewed while watching the liquid crystal display. Obvious φ ' is scrolled in the capacitive input region 1〇2; the surface is in the resistive film type wheel region 101, and the resistive film type input region 1G1 and the capacitive input region 1 can be used. In the case of the first substrate 11 in which the first substrate 1 of the first working electrode 15 constituting the resistive film type wheel-in region 15 is formed, The third electrode 18, 19 of the capacitive input region m is configured to constitute an electrostatic electric yoke δ 19, so that the resistive film type touch surface which will be separately manufactured 320526 15 200919292 is said to be π electric 1 capacitive touch The control panel is arranged flatly = differently to reduce the number of substrates. In addition, :13^3: low cost:. Reduce the number of manufacturing steps. Therefore, it is possible to make the touch panel 1 in the % resist film type wheel entry area 101 and the capacitance type input area 1G2 to share the spacer frame portion η 扼 扼 a... 1 kn a temple, therefore, By comparing the case where the seal has the resistive film type input region 1〇1 and the electrostatic capacitance type, it is possible to ensure a wide range. Similarly, since the conduction between the i-th=1 and the second substrate 20 is achieved by the inter-substrate conductive material 30, the resistive film-type input region (8) and the capacitive-type wheel-in region μ can be shared by the common flexible two. Im It is not necessary to provide the resistive film type wheel-in area connection area, and the valley type wheel area 1G2 is provided with a flexible substrate. 5, this point is also conducive to ensuring a wider wheeling area. Further, the flexible substrate 33 is connected to the first surface u of the first substrate 10, and the thickness of the first substrate 10 is thicker than that of the substrate 2 of the second substrate 20. Therefore, the reliability of the connection portion of the flexible substrate 33 is higher in comparison with the case where the flexible substrate is connected to the second substrate 2A. [Embodiment 2] In the case of only the shape 1 , the third electrodes 18 and 19 constituting the capacitance type input region 102 are formed on the first substrate 1 and in this form. The third electrodes 18 and 19 are formed on the first surface of the second substrate 20 as described below with reference to FIG. 3 . 320526 16 200919292 Fig. 3 is an explanatory view showing a cross-sectional configuration of a display device 100 with an input function according to a second embodiment of the present invention. The basic configuration of the present embodiment is the same as that of the embodiment. Therefore, the portions that are common to each other are denoted by the same reference numerals, and the description thereof will be omitted. In the same manner as in the first embodiment, the display device 100 having the input function is provided in the same manner as in the first embodiment, and the display device 100 is disposed on the side where the display light is emitted from the ambiguous B-device 5 in an overlapping manner. Touch panel 1. Further, in the touch panel 1, the input region 1A includes a resistive film type input region 101 and a capacitive input region 1.1, which are described below, and the resistive film type input region 静电 and the electrostatic capacitance The type input area 1 () 2 is placed at a position shifted in a plan view. - In the same manner as in the embodiment, in the touch panel, the resistive film type input region 101 is formed on the first surface 11 of the first substrate 10 to form a transparent film. In the optical first electrode 15, a translucent second electrode 25 made of a no film is formed on the first surface 21 of the second substrate 2, and L = inner side is an air layer. On the first surface η of the substrate 10, a wiring pattern (not shown) is formed from the first electrode 15 toward the overhang region 13. By the = line pattern, the second electrode can be transferred from the second electrode to the flexible substrate. I am guilty of it. Further, the inter-substrate conductive material 3 disposed on the sealing material 31 is placed between the i-th surface u of the first substrate 10 and the i-th surface 21 of the second substrate 2〇 to form the second substrate 20. The second electrode 25 of the i-th surface 21 is electrically connected to the wiring pattern (not shown) of the first surface 11 of the first substrate 10, and the wiring is formed by the inter-substrate conductive material 3 and the wiring pattern. can. The signal output from the second electrode 25 to the flexible substrate 33 is continuously observed. 320526 17 200919292 In the present embodiment, the capacitive input region 102 is tied to the second base, and the second face is 21-point 21: 4*: kill, k u & λ &
广q w U肤r/T稱凤的還尤性屏蔽層1 6, 因此能夠防止外部雜訊的影響。 對如此構成的觸控面板1,於輸入操作側重疊配置薄 板91,於該薄板91的内面(與觸控面板1相對向之面)係 形成有框狀的遮光層92。在此,遮光層.92係形成在與靜 電電容型輸入區域102重疊之區域,但並未形成在與電阻 膜型輸人區域1G1重疊之區域,因此靜電電容型輸入區域 102成為遮光區域,而電阻膜型輸人區域10Γ成為透光區 域因此,在本形態的附有輸入功能之顯示裝置1 〇〇中, 月匕夠著电阻膜型輸入區域1 〇 1而從輸入操作侧觀看液晶 裝置5所顯示的圖像,而在靜電電容型輸入區域工中, :薄板91的外表面(輪入操作側之面)係印刷有表示游標 鍵95的圖形等。其餘的構成係與實施形態1大致相同,因 此省略說明。 如此構成的附有輸入功能之顯示裝置1〇〇亦與實施形 320526 18 200919292 配置電阻膜型輸入區 因此能夠達到使用方 態1相同地,在俯視時為錯開之位置 域101及靜電電容型輸入區域1〇2, 便等與實施形態1相同的效果。Wide q w U skin r / T said the phoenix is also a special shielding layer 1, 6, so it can prevent the influence of external noise. In the touch panel 1 configured as described above, the thin plate 91 is placed on the input operation side, and a frame-shaped light shielding layer 92 is formed on the inner surface of the thin plate 91 (the surface facing the touch panel 1). Here, the light shielding layer .92 is formed in a region overlapping the capacitance type input region 102, but is not formed in a region overlapping the resistive film type input region 1G1. Therefore, the capacitance type input region 102 serves as a light blocking region. The resistive film type input region 10 turns into a light-transmitting region. Therefore, in the display device 1 附 with the input function of the present embodiment, the liquid crystal device 5 is viewed from the input operation side while the resist film type input region 1 〇1 is reached. In the electrostatic capacitance type input area, the image on the outer surface (the surface on the wheel-operating side) of the thin plate 91 is printed with a figure indicating the cursor key 95 and the like. The rest of the configuration is substantially the same as that of the first embodiment, and thus the description thereof will be omitted. The display device 1 with the input function configured as described above is also provided with the resistive film type input region in the embodiment 320526 18 200919292, so that the position field 101 and the capacitive input which are staggered in plan view can be obtained in the same manner as in the use of the state 1 In the region 1〇2, the same effects as in the first embodiment are obtained.
此外利用形成有構成電阻膜型輸入區域10丨的第2 電極25之—第2基板20,構成用^構成靜電電容型輸入區 域102的第3電極18、19,因此與將分開製造的電阻膜型 觸控面板與靜電電容型觸控面板平面性地配置之構成不 同,犧減少基板片數。此外,能夠利用第2電極25 的形成步驟’形成第3電極18、19等,而能夠削減製造步 驟數。故’能夠達到謀求觸控面板丨的低成本化等與實施 形態1相同的效果。 、、 [實施形態3] 在實施形態卜2中,靜電電容型輸入區域102係成為 遮光區域’而電阻膜型輸入區域102.係成為透光區域,僅 有在電阻膜型輸人區域1Q1才能從輸人操作侧觀看液晶裝 L置5所顯示的圖像,而本形態係如參照第4圖以下所說明 般丄靜電電容型輸入區域1G2及電阻膜型輸入區域m雙 方皆成為透光區域’在靜電電容型輸入區域1〇2及電阻膜 型輸入區域101雙方皆能夠從輸入操作側觀看液晶装置5 所顯示的圖像。 第j圖係示意性顯示本發明實施形態3的附有輪入功 ,之顯示裝置1QQ的剖面構成之說明圖。#中,由於本形 態:基本構成係與實施形態卜2相同,因此,共通的部‘ 係標註相同的符號來予以圖示’並且省略該些的說明。刀 320526 19 200919292 , 如第4圖所示,本形態的附有輸入功能之顯示裝置ι〇〇 亦與貫施形態1、2相同地具有液晶裝置5以及重叠配置於 該液曰曰裝置5中射出顯示光之侧的面之觸控面板」。此外, 在觸控*板1中,其輪入區域1〇〇a#具備以下將說明的電 二·阻膜型輪入區域101及靜電電容型輸入區域1〇2,該電阻 膜型輸入區域101及靜電電容型輸入區域1〇2係配置在俯 視時為錯開之位置。 在本形悲中亦與貫施形態丨、2相同地,在觸控面板1 中在電阻膜型輪入區域101係於第i基板10的第1面 -11形成由ITO膜所構成的透光性第丨電極15,於第2基板 20的第1面21形成由ιΤ0膜所構成的透光性第2電極25, 其内側係為空氣層。此外,調配於密封材31的基板間導通 =30係介置於第1基板10的第1面11與第2基板20的 第1面21之間’而使形成在第2基板20的第1面21之第 2電極25以及形成在第丨基板1〇的第丨面u之配線圖案 (未圖不)予以導電連接,藉由該基板間導通材3〇及配線圖 案,便能夠實現從第2電極25往撓性基板33之信號輸出。 △在本形態中,在靜.電電容型輸入區域1〇2係與實施形_ 二2相同地,於第2基板2〇的第1面形成有遷光性第3 電極18、19。但調配於密封材31的基板間導通材3〇係介 置在第1基板10的第1面u與第2基板20的第1面 之間,而使形成在第2基板2〇的第1面21之第3電極18、 19以及形成在第丨基板1〇的第丨面u之配線圖案(未圖 不)予以導電連接,藉由該基板間導通材3〇及配線圖案, 320526 20 200919292 一此外,在= 18、19往撓性基板33之信號輪出。 在靜電電容型輸入區域102係於第的第^ ;11形成有由ίτ〇膜所構成的透光性屏蔽層16。 :--m在/b’於靜電電容型輸入區域102,在第1基板10與 “浐耸:12°之間充填”基丙婦酸酯(methacryiate)系樹 .,專具有絕緣性的高折射率材料14。該高折射率材料14 =如從密封材31的中斷處注人、填充的液狀物或者以液 狀物之狀態填充後固化者,在填充液狀物後,將密封材3ί 的中斷處予以密封。 對如此構成_控面板卜於輪人操作側重疊配置薄 板91 ’於該薄板91的内面(與觸控面板1相對向之面)形 成有框狀的遮光層92。但在本形態中,遮光層92大體上 僅形成在與密封材31 ί疊之區域,僅發揮作為邊框之功 能。 . 因此’遮光層92並未形成於與靜電電容型輸入區域 102及電阻膜型輸入區域1〇1重疊之區域,因此靜電電容 型輪入區域1G2及電阻膜型輸人區域m雙方係成為透光 區域。此外,液晶裝置5係整個舆靜電電容型輸入區域1〇2 及電阻膜型輸人區域1()1重疊之區域形成為圖像顯示區域 5b。因此,在本形態的附有輸入功能之顯示裝置工⑽中, 在電阻膜型輸入區域101係能夠從輸入操作侧觀看液晶裝 置5所顯示的圖像,並且在靜電電容型輸入區域1〇2亦能 夠從輸入操作側觀看液晶裝置5所顯示的圖像。此外,由 於遮光層92係作為靜電電容型輸入區域1〇2及電阻膜型輸 320526 200919292 入區域101的邊框而發揮功能,因此,能夠防止從輸入操 一作側看到觸控面板1的密封材31及配置在周圍的配線圖案 *·(未圖示)等。並且,藉由遮光層92將圖像顯示區域的顯示 内谷區分成靜電電容型輪入區域102及電阻膜型輸入區域 二 101。藉此,靜電電容型輸入區域1〇2及電阻膜型輸入區域 101係在視覺上被分開,因此操作者容易辨認將靜電電容 型輸入區域102及電阻膜型輸入區域1〇1作為具有各自的 功能之區域,而有助於操作性的提升。由於其餘的構成係 與實施形態1大致相同,因此省略說明。 在如此構成的附有輸入功能之顯示裝置丨中亦與實 施形態1、2相同地,電阻膜型輸入區域1〇1與靜電電容型 輸入區域102係配置在俯視時為錯開之位置,因此達到使 用方便等與實施形態1、2相同之效果。 此外,與實施形態2相同地,利用形成有構成電阻膜 型輸入區域101的第2電極25之第2基板20,構成用來 構成靜電電容型輸入區域1〇2的第3電極18、19,因此, 與將分開製造的電阻膜型觸控面板與靜電電容型觸控面板 平面性地配置之構成不同,而達到能夠謀求低成本等與實 施形態1、2相同之效果。 再者,在靜電電容型輸入區域1 〇 2及電阻膜型輪入區 域101雙方中’能夠從輸入操作侧觀看液晶裝置5所顯示 的圖像,因此,在靜電電容型輸入區域1〇2及電阻膜型輸 入區域101的任一者皆能夠一邊從輸入操作側觀看液晶^ 置5所顯示的圖像一邊進行資訊之輪入。在此情形中,於 320526 22 200919292 靜電電容型輸入區域l〇2係在第丨基板1〇與第2基板 —之間填充有絕緣性的高折射率材料14,不存在反射性的界 ·,面,因此能夠顯示明亮的圖像。 ' [貫施形態4 ] 二、實施形態1至3係第1基板10比第2基板2〇大之構 成三而本形態係如參照第5圖以下所說明般,第丨基板ι〇 .比第2基板20小。此外,在實施形態i至3中,電阻膜型 輪入區域101及靜電電容型輸入區域1〇2係分別由密封材 31所圍起,而本形態係如參照第5圖以下所說明般,電阻 膜型輪入區域.101係由密封材31所圍起,但靜電電容型輸 入區域102並未由密封材31所圍起。 △第5圖係示意性顯示本發明實施形態4的附有輸入功 此之頌不裝置丨00的剖面構成之說明圖。其中,由於本形 態的基本構成係與實施形態卜2相同,因此,共通的部分 係標註相同的符號來予以圖示,並且省略該些的說明。 〔 如第5圖所示’本形態的附有輸入功能之顯示裝置100 亦與實施形態1、2相同地具有液晶裝置5以及重疊配置於 广液日日農置5中射出顯示光之側的面之觸控面板工。此外, 在觸控面板1中,其輪人區域]_係具備以下將說明的電 阻膜型輸入區域101及靜電電容型輸入區域102,該電阻 膜型輸入區域101及靜電電容型輪入區域102係配置在俯 視時為錯開之位置。 在本形怨中,第1基板10係比第2基板20小,且第 土板1 〇的第1面11的端部連接有撓性基板33。因此, 320526 23 200919292 撓性基板33係在第1基板10的第1面1卜連接於與第; ' 基板20相對向之.位.置。 " 此外,您封材31係以僅將電阻膜型輸入區域101圍起 的方式形成,靜電電容型輸入區域102並未由密封材31 .在本形態中亦與實施形態1同樣地,調配於密封材31 的基板間導通材30係介置在第1基板10的第1面U與第 2基板20的第i面21之間,而使形成在第2基板如的第 面之第2電極25與形成在第1基板10的第1面11之配 線圖案(未圖不)導電連接,藉由該基板間導通材 ^案,便_實現從第2電極25往撓性基板33之信號^ ^在本形態t,於靜電電容型輸入區域1〇2,透光性 =S' 1 9係形成在第2基板2〇的第1面。.但調配在密 ^基板間導通材3G係介置在第1基板1G的第i :二::二基板2〇的第1面21之間,而使形成在第2 的第=面21之第3電極18、19與形成在第1以 之配線圖案(未圖示)導電連接,藉由該基 曰^通材30及配線圖案,便能夠實現從 1 土 u往撓性基板33之信號輸出。m q對如此構成的觸控面^,於輪入操作側重疊配置薄 於該溥板91的内面(與觸控面板〗 ,狀的遮光層92。在此,遮光層92係/:成之在:二 電電容型輪入區域〗02重4之區域,但並未形成在與電【 320526 24 200919292 膜型輸入區域101重疊之區域,因此靜電電容型輸入區域 102成為遮光區域,而電阻膜型輸入區域1〇1成為透光區 域。因此,在本形態的附有輸入功能之顯示裝置1〇〇中, 能夠隔著電阻膜型輸入區域1〇1而從輸入操作側觀看液晶 裝置5所顯示的圖像’而在靜電電容型輸入區域1〇2中, 於薄板91的外表面(輸入操作側之面)係印刷有表示游標 鍵95的圖形等。其餘的構成係與實施形態1、2、4大致相 同’因此省略說明。 如此構成的附有輪入功能之顯示裝置1〇〇亦與實施形 態卜2相同地,在俯視時為錯開之位置配置電阻膜型輸入 區域101及靜電電容型輸入區域102,因此能夠達到使用 方便專與實施形態1、2相同的效果。 此外,利用形成有構成電阻膜型输入區域1〇1的第2 電極25之第2基板20,構成用以構成靜電電容型輸入區 域102的第3電極18、19,因此,與將分開製造的電阻膜 型觸控面板與靜電電容型觸控面板平面性地配置之構成不 同,而達到能夠謀求低成本等與實施形態」、2相同之效果。 [實施形態5 ] • -實施形態1至4係使甩連接於第丨基板1〇的撓性美相 33實現從電阻膜型輸人區域1G1及靜電電容型輸入^ 102在外部之信號輸出,而本形態係如參照第6圖以下冷 說明般’使用連接於第i基板1〇的撓性基板33實現從電 阻膜型輸入區域1()1的第!電極15往外部之信號輸出,而 針對從電阻膜型輸入區域1G1的第2電極25及靜電電容型 320526 25 200919292 輸入區域102的第3電極18、19往外部之信號輪出則使用 連接於第2基板20的撓性基板34。 第6圖係示意性顯示本發明實施形態5的附有輸入功 能之顯示裝置100的剖面構成之說明圖。其中,由於本形 悲的基本構成係與實施形態丨、2、4相同,因弗,共通的 部分係標註相同的符號來予以圖示,並且省略該些的說明。 如第6圖所示,本形態的附有輸入功能之顯示裝置^ 〇〇 亦與實施形態卜2相同地具有液晶裝置5以及重疊配置於 該液晶裝置5中射出顯示光之侧的面之觸控面板丨。此外, 在觸控面板1中,其輸入區域丨〇〇a係具備以下將說明的電 阻膜型輸入區域1〇1及靜電電容型輸入區域1〇2,該電阻 膜型輸入區域101及靜電電容型輸入區域1〇2係配置在俯 視時為錯開之位置。 在本形悲中,密封材31係以僅將電阻膜型輸入區域 101圍起的方式形成,靜電電容型輸人區域1()2並未由密 封材31所圍起。此外,密封材31並未調配有基導 u 〇 t外’第1基板10係比第2基板20小,且第1基板 1^的弟j面11的端部連接有撓性基板33。並且,在本形 ί中,弟2基板1Q的第1面21的端部亦連接有撓性基板 在如此構成的觸控面板1 t 欠丄中,本形態亦與實施形態 相同地’在電阻膜型輸入區 二·Μ π々丄4 101係於第1基板10的第 面11形成由I TO膜所構忐4 , 構成的透光性第1電極15,於第 320526 26 200919292 •基板20的第1面21形成由IT0膜所構成的透光性第2電 極=5 ’其内側係為空氣層。於第」基板^ 〇的第1面u, 攸第1電極15朝向撓性基板33的連揍區域形成配線圖案 I (未圖示),藉由該配線圖案,便能夠實現從第1電極15 ::往撓性基板33之信號輸出。 此外,第2電極25係形成在第2基板的第]面2卜 且於第2基板20的第1面21係從第2電極25朝向撓性基 板34的連接區域形成有配線圖案(未圖示),藉由該配線圖 案及撓性基板34,便能夠實現從第2電極25往外部之信 儿輪出另外’亦可藉由調配於密封材之基板間導通材 〇而使形成在第2基板2〇的第1面21之第2電極25與 形成在第1基板1G的第1们1之配線圖案(未圖示)導電 連接,而進行從第2電極25往撓性基板33之信號輸出。 在靜電電容型輸入區域1〇2.,於第2基板2〇的第i面 21形成有透光性第3電極18、19。於第2基板別的第1 係從第3電極18、19朝向撓性基板34的連接區域形 At配,圖案(未圖示),藉由該配線圖案及撓性基板34, 便能夠實現從第3電極18、19往外部之信號钤 i备 構成係與實施形態[、2大致相 儿别 "、的 〜1 z大致相同,因此省略說明。 如此構成的附有輸入功能之顯示裝置1〇〇亦 態1、2相同地,在俯視時為錯開之位置配置電阻膜型入 :域广及靜電電容型輸入區域1〇2,因此能夠達到:用 方便4與貫施形態1、2相同的效果。 此外矛J用形成有構成電阻膜型輪入區域1 〇ϊ的第2 320526 27 200919292 電極25之第2基板2Q,構成用以構成靜電電容型輸入區 域102的第3電極18、19,因此,與將分開製造的電阻膜 型觸控面板與靜電電容型觸控面板平面性地配置之構成不 同’而達到能夠謀求低成本等與實施形態^相同之效果。 [實施形態6] ▲第圖係示意性顯示本發明實施形態卜的附有輸入功 能之顯不裝置的剖面構成之說明圖。在實施形態工至5中 係對觸控面板1,於輸入操作側重疊配置有薄^91,但在 將該薄板91取於觸控面板1B?亦可採用如第㈣所示之 構成,係先將薄板91貼合於包圍觸控面板1之框體9〇的 輸入操作面側,再以接著劑96將薄板91與觸控面板丨予 以黏著。當以如此方式來構成時,便無關於觸控面板1的 ,面开v狀’藉由框體的形狀使角落部分形成為r形狀 等此夠貝現任意形狀的附有輸入功能之顯示裝置。 此/卜,雖然省略圖示,但亦可對第7圖中所示的薄板 91黏著固,第i偏光板δ1而將第|偏光板81配置於觸控 面板1的操作輸人側。此時便省略配置在觸控面板1與液 晶裝置5之間的第1偏光板81。 ν : ” [實施形態7] 第9圖係示意性顯示本發明實施形態7的附有輸入功 能之顯示裝置的剖面構成之說明圖。實施形態1至6係為 將觸控面板1的第1基板1G與液晶面板5的元件基板50 各自個別配置之構成’但亦可採用第9圖所示之構成,係 將觸控面板1的第1基板1G與液晶面板5的元件基板50 320526 28 200919292 一起共用。當以如此方式來構成時,便能夠使具有輸入功 •能之顯示裝置1 00整體的厚度變薄。當為此種構成時,雖 -·然省略圖不,但配置在第丨基板丨0與液晶面板5的元件基 板50之間的第1偏光板係配置在基材4〇的表面或背面。 、·、 此外’只要將薄板91作成具有偏光板81的功能之薄 板+91 ’便將薄板91與第1偏光板81共用,藉此便能夠省 略第1偏光板81,而能夠使附有輸入功能之顯示裝置1〇〇 ,的厚度更進一步變薄。其餘的構成係與實施形態3大致相 同,因此省略說明。 [其他構成] 、/上述實知形態!至7係為在靜電電容型輸入區域 進仃晝面的捲動指示、在電阻膜型輸入區域1〇1進行筆控 輸=之構成,但亦可採用在電阻膜型輸入區域進行游 標等的移動指定、在靜電電容型輸人區域102進行確定的 〇' 方式此外’亦可採用通常時候設定電阻膜型輸入 、I域101為知止狀態,在藉由靜電電容型輸入區域檢 知到手指頭接近之時,以其作為觸發信號(tr f 上迹貫施形態 _ 'Μ乐便用作為圖像產生裝置的液占 /但亦可使用有機電激發光(electroluminescence ▲置或電漿顯示裝置作為圖像產生裝置。 [搭载至電子卿的搭_] p w ^十對應用有上述實施形態的附有輸入功能之顯 "Q的電子機器進行說明。於第8圖(a)顯示具備有 320526 29 200919292 附有輸入功能之顯示裝置100的攜帶式個人電腦的構成。 個人電腦測〇係具備作為顯示單元的附有輸入功能之顯 示裝置100及主體部2010。在主體部2010係設置有電源 -開關2001及鍵盤2002。於第8圖⑻顯示具備有附有輸入 •功能之顯示裝置100的行動電話的構成。行動電話綱 係具備複數個操作按鍵3001及捲動按鍵3〇〇2以及作為顯 示單元的附有輸入功能之顯示H刚。藉由操作捲動按' 鍵3002,使附有輸入功能之顯示裝5 1〇〇所顯示的晝面捲 動。於第8圖(c)顯示具備有附有輸入功能之顯示裝置⑽ 的個人數位助理 CPDA : Personai Digltal Assistant)的構 成個人數位助理4 0 0 0係具備複數個操作按鍵4 〇 〇 1及電 源開關4002以及作為顯示單元的附有輸入功能之顯示裝 置1 〇〇。當操作電源開關4〇〇2時,使通訊錄或行事曆等各 種資訊顯示於附有輸入功能之顯示裝置1〇〇。 另外,就能夠應用附有輸入功能之顯示裝置1〇〇的電 子機器而言,除了第8圖所示者之外,尚能夠舉出:數位 相機、液晶電視、觀景窗型/螢幕直視型的攝錄影機、車甩 導航裝置、呼叫H、電子筆記本、計算機、文書處理器、 工作站、影像電話、P〇s終端機、銀行終端機等電子機器。 並且’就該些電子機器的顯示部而言,能夠應用前述附 輸入功能之顯示裝置i⑽。 【圖式簡單說明】 一…囷係示思性_示應用本發明之附肴輸入功能之 示裝置的構成之說明圖。 、 320526 30 200919292 第2圖係示意性顯示本發明實施形態1的附有輸入功 能之顯示裝置的剖面構成之說明圖。 苐3圖係示意性顯示本發明實施形態2的附有輸入功 能之顯示裝置的剖面構成之說明圖。 第4圖係示意性顯示本發明實施形態3的附有輸入功 能之顯示裝置的剖面構成之說明圖。 第5圖係示意性顯示本發明實施形態4的附有輸入功 能之顯示裝置的剖面構成之說明圖。 第6圖係示意性顯示本發明實施形態5的附有輸入功 月b之顯示裝置的剖面構成之說明圖。 第7圖係示意性顯示本發明實施形態6的附有輸入功 月b之顯示裝置的剖面構成之說明圖。 一第8圖(a)至(c)係使用有本發明的附有輪入功能之顯 示裝置的電子機器的說明圖。 处第9圖係示意性顯示本發明實施形態7的附有輸入功 、此之顯示裝置的剖面構成之說明圖。 【主要元件符號說明】 5a5b10121416 觸控面板 液晶面板 液晶裝置 液晶裝置的圖像顯示區域 第1基板 第1基板的第2面 高折射率材料 屏蔽層 11 第1基板的第1面 13 ' 59伸出區域 15 第1電極 17 絕緣膜 320526 31 200919292 18、 19第3電極 20 第_ 2基板_ 21 弟2基板的第1面 22 第2基板的第2面 25 第2電極 30 基板間導通材 31、 71密封材 31a 密封材的外框部分 31b 迸封材的間隔框部分 33、 34、73撓性基板 40 基材 50 元件基板 55 液晶層(光電物質層) 58 像素電極 60 對向基板 68 共同電極 75 驅動用1C 81 第1偏光板 82 第2偏光板 90 框體 91 薄板 92 遮光層 95 游標鍵 100 顯示裝置 100a 輸入區域 101 電阻膜型輸入區域 102 靜電電容型輸入區域 2000 個人電腦 2001 電源開關 2002 鍵盤 2010 個人電腦的主體部 3000 .行動電話 3001 操作按鍵 3002 捲動按鍵 4000 個人數位助理 4001 操作按鍵 4002 電源開關 320526Further, the second substrate 20 on which the second electrode 25 constituting the resistive film type input region 10A is formed is configured to constitute the third electrodes 18 and 19 constituting the capacitance type input region 102. Therefore, the resistive film to be separately manufactured is used. The touch panel and the capacitive touch panel are configured in a planar manner, and the number of substrates is reduced. Further, the third electrodes 18 and 19 can be formed by the step of forming the second electrode 25, and the number of manufacturing steps can be reduced. Therefore, the same effects as in the first embodiment can be achieved by reducing the cost of the touch panel. [Embodiment 3] In the second embodiment, the capacitive input region 102 is a light-shielding region', and the resistive film-type input region 102 is a light-transmitting region, and only the resistive film-type input region 1Q1 can be used. The image displayed by the liquid crystal device L is viewed from the input operation side, and the present embodiment is such that the electrostatic capacitance type input region 1G2 and the resistive film type input region m become light-transmitting regions as described below with reference to FIG. Both of the capacitance type input region 1〇2 and the resistive film type input region 101 can view the image displayed by the liquid crystal device 5 from the input operation side. Fig. j is a schematic view showing a cross-sectional structure of a display device 1QQ with a wheel-in work according to a third embodiment of the present invention. In the present invention, the basic configuration is the same as the embodiment 2, and therefore, the same components are denoted by the same reference numerals, and the description thereof will be omitted. Knife 320526 19 200919292 , as shown in FIG. 4 , the display device ι with the input function of the present embodiment also has the liquid crystal device 5 and is disposed in the liquid helium device 5 in the same manner as in the first and second embodiments. A touch panel that emits a surface on the side of the light. Further, in the touch panel 1 , the wheel-in area 1 〇〇 a# includes an electric second resist film type wheel entry region 101 and a capacitance type input region 1 〇 2 which will be described below, and the resistive film type input region 101 The electrostatic capacitance type input region 1〇2 is disposed at a position shifted in a plan view. In the same manner as in the case of the second embodiment, in the touch panel 1, the resistive film-type wheel entry region 101 is formed on the first surface 11 of the i-th substrate 10, and is formed of an ITO film. The optical second electrode 15 forms a translucent second electrode 25 made of an ITO film on the first surface 21 of the second substrate 20, and an inner side thereof is an air layer. In addition, the conduction between the substrates of the sealing material 31 is set to be 30 between the first surface 11 of the first substrate 10 and the first surface 21 of the second substrate 20, and the first substrate 20 is formed. The second electrode 25 of the surface 21 and the wiring pattern (not shown) formed on the second surface u of the second substrate 1 are electrically connected, and the inter-substrate conductive material 3 and the wiring pattern can be realized. The signal output from the 2 electrode 25 to the flexible substrate 33. In the present embodiment, in the static electric capacitance type input region 1〇2, the third light-receiving third electrodes 18 and 19 are formed on the first surface of the second substrate 2〇 in the same manner as the embodiment. However, the inter-substrate conductive material 3 disposed in the sealing material 31 is interposed between the first surface u of the first substrate 10 and the first surface of the second substrate 20, and is formed on the first substrate 2 The third electrodes 18 and 19 of the surface 21 and the wiring pattern (not shown) formed on the second surface u of the second substrate 1 are electrically connected by the inter-substrate conductive material 3 and the wiring pattern, 320526 20 200919292 In addition, the signal to the flexible substrate 33 is rotated at = 18, 19. In the electrostatic capacitance type input region 102, a light transmissive shielding layer 16 made of a λτ film is formed on the first surface. :--m is in /b' in the capacitive input region 102, and is filled with a "methacryiate" tree between the first substrate 10 and "浐: 12°." Refractive index material 14. The high refractive index material 14 is filled with a liquid from a break of the sealing material 31, filled with a liquid, or filled with a liquid. After filling the liquid, the interruption of the sealing material 3ί is given. seal. In this configuration, the control panel is disposed on the inner surface of the thin plate 91 (the surface facing the touch panel 1) to form a frame-shaped light shielding layer 92. However, in the present embodiment, the light shielding layer 92 is formed substantially only in the region overlapping the sealing material 31, and functions only as a bezel. Therefore, the 'light-shielding layer 92 is not formed in the region overlapping the capacitance type input region 102 and the resistive film type input region 〇1, so both the capacitive-type wheel-in region 1G2 and the resistive film-type input region m become transparent. Light area. Further, the liquid crystal device 5 is formed as an image display region 5b in a region where the entire 舆 capacitance type input region 1〇2 and the resistive film type input region 1()1 overlap. Therefore, in the display device (10) with the input function of the present embodiment, the image displayed by the liquid crystal device 5 can be viewed from the input operation side in the resistive film type input region 101, and in the capacitive input region 1〇2 It is also possible to view the image displayed by the liquid crystal device 5 from the input operation side. Further, since the light shielding layer 92 functions as a frame of the capacitive input region 1〇2 and the resistive film type input 320526 200919292 into the region 101, it is possible to prevent the sealing member of the touch panel 1 from being seen from the input operation side. 31 and wiring patterns arranged around (* not shown). Further, the display inner valley of the image display area is divided into the capacitance type wheel entry area 102 and the resistive film type input area 201 by the light shielding layer 92. Thereby, the capacitance type input region 1〇2 and the resistive film type input region 101 are visually separated, so that the operator can easily recognize that the capacitance type input region 102 and the resistive film type input region 1〇1 have their own A functional area that contributes to operational improvement. Since the rest of the configuration is substantially the same as that of the first embodiment, the description thereof is omitted. In the display device with an input function configured as described above, in the same manner as in the first and second embodiments, the resistive film input region 1〇1 and the capacitive input region 102 are arranged in a position shifted from the plan view, thereby achieving The same effects as those of the first and second embodiments are convenient to use. Further, in the same manner as in the second embodiment, the third electrodes 18 and 19 constituting the capacitance type input region 1A2 are formed by the second substrate 20 on which the second electrode 25 constituting the resistive film type input region 101 is formed. Therefore, unlike the configuration in which the resistive film type touch panel manufactured separately from the capacitive touch panel is disposed in a planar manner, the same effects as those of the first and second embodiments can be achieved at a low cost. Further, in both of the capacitance type input region 1 〇 2 and the resistive film type wheel entry region 101, the image displayed by the liquid crystal device 5 can be viewed from the input operation side. Therefore, the capacitance type input region 1 〇 2 and Any of the resistive film type input regions 101 can perform the rounding of information while viewing the image displayed by the liquid crystal device 5 from the input operation side. In this case, at 320526 22 200919292, the capacitive input region 〇2 is filled with the insulating high refractive index material 14 between the second substrate 1 〇 and the second substrate, and there is no boundary of reflection. Face, so you can display bright images. ' [Common Form 4] Second, Embodiments 1 to 3 are the third configuration in which the first substrate 10 is larger than the second substrate 2, and the present embodiment is as described with reference to FIG. The second substrate 20 is small. Further, in the first to third embodiments, the resistive film type wheel entry region 101 and the capacitance type input region 1〇2 are respectively surrounded by the sealing member 31, and this embodiment is as described below with reference to FIG. The resistive film type wheel entry region .101 is surrounded by the sealing member 31, but the capacitive input region 102 is not surrounded by the sealing member 31. </ RTI> Fig. 5 is an explanatory view showing a cross-sectional configuration of a device 00 with an input function according to a fourth embodiment of the present invention. Here, since the basic configuration of the present embodiment is the same as that of the embodiment 2, the same reference numerals will be given to the same components, and the description thereof will be omitted. [As shown in Fig. 5, the display device 100 with the input function of the present embodiment has the liquid crystal device 5 as in the first and second embodiments, and is disposed so as to be superposed on the side where the display light is emitted from the wide liquid Japanese-Japanese farm 5 Touch panel workers. Further, in the touch panel 1, the wheel area is provided with a resistive film type input region 101 and a capacitance type input region 102 which will be described below. The resistive film type input region 101 and the capacitive type wheel entry region 102 are provided. The configuration is a position that is staggered in a plan view. In the present invention, the first substrate 10 is smaller than the second substrate 20, and the flexible substrate 33 is connected to the end of the first surface 11 of the earth plate 1A. Therefore, 320526 23 200919292 The flexible substrate 33 is connected to the first surface 1 of the first substrate 10 so as to be opposed to the first substrate 20 . " In addition, the sealing material 31 is formed so as to enclose only the resistive film type input region 101, and the capacitive input region 102 is not provided with the sealing member 31. In the present embodiment, the same is also applied in the same manner as in the first embodiment. The inter-substrate conductive material 30 of the sealing material 31 is interposed between the first surface U of the first substrate 10 and the i-th surface 21 of the second substrate 20, and is formed on the second surface of the second substrate. The electrode 25 is electrically connected to a wiring pattern (not shown) formed on the first surface 11 of the first substrate 10, and the signal from the second electrode 25 to the flexible substrate 33 is realized by the inter-substrate conductive material. ^ ^ In this embodiment t, in the capacitance type input region 1〇2, the light transmittance=S'1 is formed on the first surface of the second substrate 2〇. However, the inter-substrate conductive material 3G is interposed between the first surface 21 of the i-th:two-substrate 2A of the first substrate 1G, and is formed on the second surface 21 of the first substrate 1G. The third electrodes 18 and 19 are electrically connected to the first wiring pattern (not shown), and the signal from the ground to the flexible substrate 33 can be realized by the substrate 30 and the wiring pattern. Output. The touch surface of the touch surface is configured to be thinner than the inner surface of the seesaw 91 (the light-shielding layer 92 in the shape of the touch panel). Here, the light-shielding layer 92 is: : The area of the two-capacitance type wheel-in area is 0, but it is not formed in the area overlapping with the film type input area 101 of 320526 24 200919292. Therefore, the capacitance type input area 102 becomes a light-shielding area, and the resistive film type The input area 1〇1 is a light-transmitting area. Therefore, in the display device 1A with an input function of the present aspect, the liquid crystal device 5 can be displayed from the input operation side via the resistive film type input region 1〇1. In the capacitive input region 1〇2, a pattern indicating the cursor key 95 is printed on the outer surface (the surface on the input operation side) of the thin plate 91. The remaining components are related to the first and second embodiments. In the same manner as in the second embodiment, the display device 1 having the wheel-in function is configured to have the resistive film type input region 101 and the capacitance type in a position shifted in plan view. Input area 102 Therefore, it is possible to achieve the same effect as that of the first and second embodiments. The second substrate 20 on which the second electrode 25 constituting the resistive film type input region 1A1 is formed is configured to constitute a capacitance type input. The third electrodes 18 and 19 of the region 102 are different from the configuration in which the resistive film type touch panel manufactured separately from the capacitive touch panel is disposed in a planar manner, and the embodiment can be realized at a low cost and the like. [Embodiment 5] [Embodiment 5] - In the first to fourth embodiments, the flexible aesthetic phase 33 in which the crucible is connected to the second substrate 1 is realized from the resistive film type input region 1G1 and the electrostatic capacitance type input 102. The external signal is outputted, and the present embodiment is realized from the first electrode 15 of the resistive film type input region 1 () 1 to the outside by using the flexible substrate 33 connected to the i-th substrate 1A as described in the sixth embodiment. The signal is output, and the signal to the outside of the second electrode 18, 19 of the input region 102 from the second electrode 25 of the resistive film type input region 1G1 and the capacitance type 320526 25 200919292 is used to be connected to the second substrate 20. Flexible base 34. Fig. 6 is an explanatory view showing a cross-sectional configuration of an input device 100 with an input function according to a fifth embodiment of the present invention. The basic configuration of the present invention is the same as the embodiments 丨, 2, and 4, The common parts are denoted by the same reference numerals, and the description thereof will be omitted. As shown in Fig. 6, the display device with the input function of this embodiment is also the same as the embodiment 2 The touch panel has a liquid crystal device 5 and a surface of the liquid crystal device 5 that is disposed on the side of the liquid crystal device 5 that emits the display light. Further, in the touch panel 1, the input region 丨〇〇a has a resistor as will be described below. The film type input region 1〇1 and the capacitance type input region 1〇2 are arranged such that the resistive film type input region 101 and the capacitance type input region 1〇2 are arranged to be shifted in a plan view. In the present invention, the sealing member 31 is formed so as to enclose only the resistive film type input region 101, and the capacitive input region 1 () 2 is not surrounded by the sealing member 31. Further, the sealing material 31 is not provided with a base conductor. The first substrate 10 is smaller than the second substrate 20, and the flexible substrate 33 is connected to the end of the first substrate 11 of the first substrate. Further, in the present embodiment, the end portion of the first surface 21 of the substrate 2Q is also connected to the flexible substrate in the touch panel 1 t configured as described above, and this embodiment is also the same as the embodiment. The film-type input region 2·Μ π々丄4 101 is formed on the first surface 11 of the first substrate 10 to form a translucent first electrode 15 composed of an I TO film structure 4, at 320526 26 200919292 • Substrate 20 The first surface 21 is formed of a light transmissive second electrode composed of an IT0 film = 5 ', and the inner side thereof is an air layer. On the first surface u of the first substrate 攸, the first electrode 15 forms a wiring pattern I (not shown) in the continuous region of the flexible substrate 33, and the wiring pattern allows the first electrode 15 to be realized. :: Signal output to the flexible substrate 33. Further, the second electrode 25 is formed on the first surface 2 of the second substrate, and the wiring pattern is formed on the connection region of the first surface 21 of the second substrate 20 from the second electrode 25 toward the flexible substrate 34 (not shown). According to the wiring pattern and the flexible substrate 34, the second electrode 25 can be turned to the outside of the second electrode 25, and the conductive material can be formed between the substrates by the sealing material. The second electrode 25 of the first surface 21 of the substrate 2 is electrically connected to the wiring pattern (not shown) of the first one formed on the first substrate 1G, and is moved from the second electrode 25 to the flexible substrate 33. Signal output. Translucent third electrodes 18 and 19 are formed on the i-th surface 21 of the second substrate 2A in the capacitance type input region 1〇2. The first system of the second substrate is formed by the connection of the third electrodes 18 and 19 toward the flexible substrate 34, and a pattern (not shown) can be realized by the wiring pattern and the flexible substrate 34. The configuration of the signal to the outside of the third electrodes 18 and 19 is substantially the same as that of the embodiment [and 2, and is substantially the same as that of the second embodiment, and the description is omitted. In the same manner as in the display device 1 having the input function, the resistive film-type input region and the capacitive input region 1〇2 are disposed at positions shifted in plan view, so that: The same effect is achieved with the convenience of 4 and the form 1 and 2. Further, the spear J is formed of the second substrate 2Q on which the electrode 320 of the second 320526 27 200919292 constituting the resistive film type wheel entry region 1 is formed, thereby constituting the third electrodes 18 and 19 constituting the capacitance type input region 102. Unlike the configuration in which the resistive film type touch panel manufactured separately from the capacitive touch panel is disposed in a planar manner, the same effect as that of the embodiment can be achieved at a low cost. [Embodiment 6] FIG. 1 is an explanatory view schematically showing a cross-sectional configuration of a display device with an input function according to an embodiment of the present invention. In the embodiment, the touch panel 1 is provided with a thin film 91 disposed on the input operation side. However, the thin plate 91 can be formed on the touch panel 1B. The configuration shown in the fourth embodiment can also be adopted. First, the thin plate 91 is bonded to the input operation surface side of the frame 9A surrounding the touch panel 1, and the thin plate 91 and the touch panel are adhered by the adhesive 96. When it is configured in such a manner, the display device with an input function is formed in an arbitrary shape in which the corner portion is formed into an r shape by the shape of the frame, regardless of the shape of the frame 1. . Although the illustration is omitted, the thin plate 91 shown in Fig. 7 may be adhered to the first polarizing plate δ1, and the first polarizing plate 81 may be disposed on the operation input side of the touch panel 1. At this time, the first polarizing plate 81 disposed between the touch panel 1 and the liquid crystal device 5 is omitted. [Embodiment 7] FIG. 9 is a view schematically showing a cross-sectional configuration of a display device with an input function according to Embodiment 7 of the present invention. Embodiments 1 to 6 are the first touch panel 1 The substrate 1G and the element substrate 50 of the liquid crystal panel 5 are arranged separately. However, the configuration shown in FIG. 9 may be adopted, and the first substrate 1G of the touch panel 1 and the element substrate 50 of the liquid crystal panel 5 are used. 320 320526 28 200919292 When it is configured in this way, the thickness of the entire display device 100 having input power can be made thin. In the case of such a configuration, although the illustration is omitted, it is arranged in the third The first polarizing plate between the substrate 丨0 and the element substrate 50 of the liquid crystal panel 5 is disposed on the front surface or the back surface of the substrate 4A. Further, the thin plate 91 is formed as a thin plate having a function of the polarizing plate 81+91. By sharing the thin plate 91 with the first polarizing plate 81, the first polarizing plate 81 can be omitted, and the thickness of the display device 1B with the input function can be further reduced. The third embodiment is substantially the same, and therefore is omitted. [Other configuration] / / The above-mentioned known form! To 7 is a scrolling instruction for entering the surface of the capacitive input region, and a pen control input is performed in the resistive film type input region 1〇1, but In the resistive film type input region, the movement designation of the cursor or the like may be performed, and the capacitance type input region 102 may be determined. In addition, the resistance film type input may be set in the normal time, and the I domain 101 may be in the known state. When it is detected by the capacitance type input area that the finger is approaching, it is used as a trigger signal (tr f is used as the image generation device. Organic electroluminescence (electroluminescence ▲ or plasma display device as an image generation device. [Equipped to electronic clerk _] pw ^ Ten pairs of applications with the input function of the above-mentioned embodiment of the electronic device In the eighth diagram (a), a portable personal computer having a display device 100 with an input function of 320526 29 200919292 is displayed. The personal computer system has an input as a display unit. The function display device 100 and the main body unit 2010. The main body unit 2010 is provided with a power source switch 2001 and a keyboard 2002. In Fig. 8 (8), a mobile phone having a display device 100 with an input function is provided. The system has a plurality of operation buttons 3001 and scroll buttons 3〇〇2 and a display H with an input function as a display unit. By operating the scroll button '3', the display device with the input function is installed.昼The displayed face scrolling. Figure 8 (c) shows the personal digital assistant CPDA with the display device (10) with input function (personal Digittal Assistant). The operation buttons 4 〇〇 1 and the power switch 4002 and the display device 1 附 with the input function as the display unit. When the power switch 4〇〇2 is operated, various information such as an address book or a calendar is displayed on the display device 1 to which the input function is attached. In addition, in addition to the one shown in FIG. 8, an electronic device capable of applying the display device 1B with an input function can be exemplified by a digital camera, a liquid crystal television, a viewing window type, or a direct view type. Video cameras, rudder navigation devices, call H, electronic notebooks, computers, word processors, workstations, video phones, P〇s terminals, bank terminals and other electronic devices. Further, the display unit i (10) having the input function described above can be applied to the display unit of the electronic device. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an explanatory view showing the configuration of an apparatus for displaying an attachment input function of the present invention. 320526 30 200919292 Fig. 2 is an explanatory view showing a cross-sectional configuration of a display device with an input function according to the first embodiment of the present invention. Fig. 3 is an explanatory view showing a cross-sectional configuration of a display device with an input function according to a second embodiment of the present invention. Fig. 4 is an explanatory view showing a cross-sectional configuration of a display device with an input function according to a third embodiment of the present invention. Fig. 5 is an explanatory view showing a cross-sectional configuration of a display device with an input function according to a fourth embodiment of the present invention. Fig. 6 is an explanatory view showing a cross-sectional configuration of a display device with an input power cycle b according to a fifth embodiment of the present invention. Fig. 7 is an explanatory view showing a cross-sectional configuration of a display device with an input power month b according to a sixth embodiment of the present invention. Fig. 8 (a) to (c) are explanatory views of an electronic apparatus using the display device with the wheel-in function of the present invention. Fig. 9 is a view schematically showing the cross-sectional configuration of the display device with the input work and the display device according to the seventh embodiment of the present invention. [Description of main component symbols] 5a5b10121416 Touch panel liquid crystal panel Liquid crystal device Liquid crystal device image display area First substrate First substrate first substrate high refractive index material shielding layer 11 First substrate first surface 13' 59 extended Region 15 first electrode 17 insulating film 320526 31 200919292 18, 19 third electrode 20 _ 2 substrate _ 21 second substrate first surface 22 second substrate second surface 25 second electrode 30 inter-substrate conductive material 31, 71 sealing material 31a outer frame portion 31b of sealing material 间隔 sealing frame portion 33, 34, 73 of sealing material flexible substrate 40 substrate 50 element substrate 55 liquid crystal layer (photoelectric material layer) 58 pixel electrode 60 counter substrate 68 common electrode 75 Drive 1C 81 1st polarizer 82 2nd polarizer 90 Frame 91 Thin plate 92 Light-shielding layer 95 Cursor key 100 Display device 100a Input area 101 Resistive film type input area 102 Capacitive input area 2000 Personal computer 2001 Power switch 2002 Keyboard 2010 Main body of the personal computer 3000. Mobile phone 3001 Operation button 3002 Scroll button 4000 Personal digital assistant 4001 Operation button 4002 Power on 320 526