TWM416814U - Touch panel and touch control electronic device with photoelectric conversion capability - Google Patents

Description

M416814 . ί 100年08月19日按正替换頁 五、新型說明： 【新型所屬之技術領域】 [0001] 本創作係為一種觸控面板，尤指一種具有整合功能之 觸控面板及觸控電子裝置。 【先前技術】 [0002] 由於隨著觸控技術不斷的精進及發展，觸控式的輸入M416814 . 100August 19th, 2010, according to the replacement page 5, the new description: [New technology field] [0001] This creation is a touch panel, especially a touch panel with integrated function and touch Electronic device. [Prior Art] [0002] Touch-based input as touch technology continues to advance and develop

裝置因為能夠提供更為優越的操控性及多樣性的介面操 作變化，眾多電子製造商亦將觸控面板整合至電子產品 上進行應用，藉以改善及加強原有電子產品的資訊輸入 方式及其效果。 [0003] 但是對於一般的攜帶型電子裝置來說，由於維持其功Because the device can provide more controllability and a variety of interface operation changes, many electronic manufacturers also integrate touch panels into electronic products for application, thereby improving and enhancing the information input methods and effects of the original electronic products. . [0003] However, for a general portable electronic device, since it maintains its work

能運作的主要電力來源，依然是靠著内置的可充蓄電池 所供應，當在攜帶型電子裝置上再結合了觸控模組來提 供資料輸入之功能時，觸控模組在進行工作運作時亦同 時需要額外耗費大量的電力，造成攜帶型電子裝置的可 待機時間或可操作時間因此縮短了許多，使得電池需要 外部充電的次數增加，間接也造成這些產品在使用上的 不方便性。 [0004] 為解決上述的問題，目前現有的技術主要利用在電子 裝置内部設置一太陽能模組，藉由太陽能模組進行光電 的轉換，並將轉換產生出來的電能充蓄於内置的可充蓄 電池上，藉以額外補充可充蓄電池的電量，以延長裝置 的可操作時間。前述的太陽能模組，一般是被設計組裝 於電子裝置的殼體上，藉以在接收外界的光線照射後可 同時進行光電的轉換，惟此種設置方式必須將部分殼體 表單編號Α0101 第3頁/共27頁 [0005] [0006] [0007] [0008] [0009] 100年08月19日核正替换'頁 設計成透明材質，或是將太陽能模組設置於殼體外表面 處，而有造成產品厚度設計不易降低之缺點；目前的技 術是將太陽能模組組合於顯示面板與觸控模組之間，使 得外界光線可以經由穿透觸控模組後由太陽能模組進行 接收及進行光電之轉換，惟由於太陽能模組係被疊合設 置於顯示模組前方，使得顯示畫面將會因遭受太陽能模 組之干涉而造成顯示畫面有不清楚之缺點。 【新型内容】 為了能有效克服上述先前技術所揭示之產品厚度設計 不易降低，以及影響顯示畫面之晝面清晰度的缺點。 為此，本創作揭露一種具有光電轉換功能的觸控面板 ，該觸控面板上區分有一觸控區及一非觸控區，該觸控 面板至少包括： 一透明蓋板；以及 一光電轉換層，是對應於該非觸控區而設置於該透明 蓋板的表面。 由於光電轉換層是被整合製造於觸控面板的結構中， 據此可達到降低電子裝置厚度，又因光電轉換層是被對 應於該非觸控區而設置於該透明蓋板表面，故在執行操 作時，可以避免顯示畫面有被干涉及畫面不清楚的缺點 本創作另揭露一種具有光電轉換功能的觸控面板，該 觸控面板上區分有一觸控區及一非觸控區，該觸控面板 至少包括：The main source of power that can be operated is still supplied by the built-in rechargeable battery. When the touch module is combined with the touch input module to provide data input function on the portable electronic device, the touch module is in operation. At the same time, an extra large amount of power is required, which causes the standby time or the operable time of the portable electronic device to be shortened a lot, so that the number of external charging of the battery is increased, which indirectly causes inconvenience in use of these products. [0004] In order to solve the above problems, the existing technology mainly uses a solar module inside the electronic device, photoelectric conversion by the solar module, and the electric energy generated by the conversion is charged in the built-in rechargeable battery. In addition, the additional charge of the rechargeable battery is used to extend the operational time of the device. The solar module is generally designed and assembled on the housing of the electronic device, so that the photoelectric conversion can be simultaneously performed after receiving the external light, but the partial housing form number must be Α0101. / Total 27 pages [0005] [0006] [0007] [0008] [0009] On August 19, 100, the nuclear replacement is designed to be a transparent material, or the solar module is placed on the outer surface of the casing, and The shortcomings of the product thickness design are not easy to reduce; the current technology is to combine the solar module between the display panel and the touch module, so that the external light can be received by the solar module and then photoelectrically transmitted through the touch module. The conversion, because the solar module is superimposed on the front of the display module, so that the display screen will be unclear due to the interference of the solar module. [New content] In order to effectively overcome the disadvantages of the product thickness design disclosed in the above prior art, it is not easy to reduce, and affect the sharpness of the display screen. To this end, the present disclosure discloses a touch panel having a photoelectric conversion function. The touch panel has a touch area and a non-touch area. The touch panel includes at least: a transparent cover; and a photoelectric conversion layer. And is disposed on a surface of the transparent cover corresponding to the non-touch area. Since the photoelectric conversion layer is integrated into the structure of the touch panel, the thickness of the electronic device can be reduced, and the photoelectric conversion layer is disposed on the transparent cover surface corresponding to the non-touch area, so In the operation, the display screen can be prevented from being unclear. The present invention further discloses a touch panel having a photoelectric conversion function. The touch panel has a touch area and a non-touch area. The panel includes at least:

表單编號A0101 第4頁/共27頁 [0010] M416814 100年08月19日修正替换頁 [0011] 一透明蓋板； [0012] 一觸控電極層，是相對應於該觸控區而層疊設置於該 透明蓋板上；以及 [0013] 一光電轉換層，是對應於該非觸控區而設置於該透明 蓋板上。 [0014] 本創作又再揭露一種觸控電子裝置，其至少包括有： [0015] 一可充蓄電池；Form No. A0101 Page 4 of 27 [0010] M416814 Correction Replacement Page [0011] on August 19, 100 [0011] A transparent cover; [0012] A touch electrode layer corresponds to the touch area Laminated on the transparent cover; and [0013] a photoelectric conversion layer is disposed on the transparent cover corresponding to the non-touch area. [0014] The present disclosure further discloses a touch electronic device, which at least includes: [0015] a rechargeable battery;

[0016] 一觸控面板，具有一透明蓋板，且該觸控面板上區分 有一觸控區及一非觸控區，該觸控面板具有一光電轉換 模組，是相對應於該非觸控區而設置於該透明蓋板的表 面，該光電轉換模組接受光線的照射並轉換成電能而輸 出電流；以及 [0017] —充電模組，接收上述電流並將該電流轉換成一充電 電流，以對該可充蓄電池進行充電。[0016] A touch panel has a transparent cover, and the touch panel has a touch area and a non-touch area. The touch panel has a photoelectric conversion module corresponding to the non-touch And the photoelectric conversion module receives light and is converted into electric energy to output a current; and [0017] a charging module that receives the current and converts the current into a charging current to The rechargeable battery is charged.

【實施方式】 [0018] 請分別參閱第1A圖及第1B圖，係為本創作觸控面板之 第一實施例之立體分解圖，以及沿aa’線段的剖面圖。 如圖所示，在本實施例中，係以投射電容式觸控面板為 例進行說明，但本創作所揭露的技術内容並不以此為限 ，相同的技術亦可實施於例如表面電容式、電阻式、紅 外線式、表面聲波式及電磁式等形式的觸控面板。本創 作提供一種具有光電轉換功能之觸控面板，其主要的特 徵是將光電轉換模組整合於觸控螢幕結構中，使觸控面 板本體在有外界光源的照射下即可將光源產生的光能轉 表單编號A0101 第5頁/共27頁 [0019] [0020] [0021] 100年08月19日修正替換頁 換成電能，並將所產生的電能提供電池充電或電子裝置 電源供給的需求。第一實施例的觸控面板100表面依據是 否提供觸控輸入的功能而可區分為一觸控區100A及一非 觸控區100B，非觸控區100B則是圍繞於觸控區100A周圍 而設置，且第一實施例的觸控面板100至少包括有一透明 基板110、一觸控電極層120、一導線層130、一遮蔽層 140、一貼合膠層150、一光電轉換層160及一透明蓋板 170。 其中透明基板110是採用透明玻璃、透明塑膠或其他 透明絕緣材質所構成，透明基板110在相對應觸控區100A 的上表面設置有觸控電極層120，觸控電極層120則由透 明導電材料所製成，透明導電材料例如可為氧化銦錫 (ITO)，而觸控電極層120可經由塗佈、網版印刷、金屬 鍍膜、曝光、顯影或蝕刻等技術形成於透明基板110上表 面，分別形成複數條沿第一方向及第二方向平行排列的 驅動線路及感應線路，且第一方向與第二方向相互垂直 ，構成一呈矩陣狀排列的感應電極，但本創作之觸控電 極層1 20的設計型態不以此為限。 導線層130具有複數條導線，係以導電銀膠或氧化銦 錫經由塗佈、網版印刷、金屬鍍膜、曝光、顯影或蝕刻 等技術形成於透明基板110相對應於非觸控區100B的上表 面，其一端分別於與該觸控電極層120的複數條驅動線路 及感應線路一端連接，另一端則集中延伸至透明基板110 的一側邊。 遮蔽層140是覆蓋於導線層130上方，且相對應於非[Embodiment] [0018] Please refer to FIG. 1A and FIG. 1B, respectively, which are perspective exploded views of a first embodiment of the present touch panel, and a cross-sectional view along a line of aa'. As shown in the figure, in the present embodiment, a projected capacitive touch panel is taken as an example for description. However, the technical content disclosed in the present disclosure is not limited thereto, and the same technique can be implemented, for example, on a surface capacitive type. Touch panels in the form of resistive, infrared, surface acoustic wave and electromagnetic. The present invention provides a touch panel with photoelectric conversion function, and the main feature is that the photoelectric conversion module is integrated into the touch screen structure, so that the light generated by the light source can be generated by the touch panel body under the illumination of an external light source. Turntable Form No. A0101 Page 5 of 27 [0019] [0020] [0021] On August 19, 100, the replacement page was replaced with electric energy, and the generated electric energy was supplied to the battery for charging or electronic device power supply. demand. The surface of the touch panel 100 of the first embodiment can be divided into a touch area 100A and a non-touch area 100B according to whether a touch input function is provided, and the non-touch area 100B surrounds the touch area 100A. The touch panel 100 of the first embodiment includes a transparent substrate 110, a touch electrode layer 120, a wire layer 130, a shielding layer 140, a bonding layer 150, a photoelectric conversion layer 160, and a Transparent cover plate 170. The transparent substrate 110 is made of transparent glass, transparent plastic or other transparent insulating material. The transparent substrate 110 is provided with a touch electrode layer 120 on the upper surface of the corresponding touch area 100A, and the touch electrode layer 120 is made of a transparent conductive material. The transparent conductive material can be, for example, indium tin oxide (ITO), and the touch electrode layer 120 can be formed on the upper surface of the transparent substrate 110 by techniques such as coating, screen printing, metal plating, exposure, development or etching. Forming a plurality of driving lines and sensing lines arranged in parallel in the first direction and the second direction, respectively, and the first direction and the second direction are perpendicular to each other to form a sensing electrode arranged in a matrix, but the touch electrode layer of the present invention The design of the 1 20 is not limited to this. The wire layer 130 has a plurality of wires formed by using a conductive silver paste or indium tin oxide on the transparent substrate 110 corresponding to the non-touch region 100B by a technique such as coating, screen printing, metal plating, exposure, development or etching. One end of the surface is connected to one end of the plurality of driving lines and the sensing line of the touch electrode layer 120, and the other end is concentrated to one side of the transparent substrate 110. The shielding layer 140 is over the wire layer 130 and corresponds to the non-

表單编號A0101 第6頁/共27頁 M416814 > · 100年08月19日修正番換頁Form No. A0101 Page 6 of 27 M416814 > · Correction of the page on August 19, 100

觸控區10 0B而設置，為一有色的絕緣油墨所製成，並可 以印刷或塗佈之方式形成於導線層130表面，用以遮蔽導 線層130及非觸控區100B，其中絕緣油墨可以依據觸控面 板100外觀的需要選擇黑色或任一種色彩顏色的絕緣油墨 ，使得由觸控面板100外部觀視非觸控區100B時，非觸控 區100B呈現黑色或其他顏色的外觀，再者，遮蔽層140相 對應於導線層130上的複數導線所延伸至透明基板110的 一側邊處設有一槽孔142，使得一軟性電路板180可經由 一導電膠144固定於槽孔142内，並與導線層130呈一電 性連接。 [0022] 貼合膠層150是以透明且液態性的光學膠或水膠以塗 佈方式構成於透明基板110的觸控電極層120及遮蔽層 140的表面，以便將透明蓋板170貼合於透明基板110上 方。 [0023] 透明蓋板170貼合於貼合膠層150上方，其具有一内The touch area 10B is disposed, and is formed by a colored insulating ink, and can be formed on the surface of the wire layer 130 by printing or coating to shield the wire layer 130 and the non-touch area 100B, wherein the insulating ink can be The black or any color of the insulating ink is selected according to the appearance of the touch panel 100, so that when the non-touch area 100B is viewed from the outside of the touch panel 100, the non-touch area 100B exhibits a black or other color appearance, and The shielding layer 140 is provided with a slot 142 corresponding to the side of the plurality of wires on the wire layer 130 extending to the transparent substrate 110, so that a flexible circuit board 180 can be fixed in the slot 142 via a conductive adhesive 144. And electrically connected to the wire layer 130. [0022] The adhesive layer 150 is formed on the surface of the touch electrode layer 120 and the shielding layer 140 of the transparent substrate 110 by a transparent and liquid optical glue or water gel to cover the transparent cover 170. Above the transparent substrate 110. [0023] The transparent cover 170 is attached to the adhesive layer 150, and has an inner cover

表面172及一外表面174，位於透明蓋板170與貼合膠層 150之間的内表面172上事先可構成光電轉換層160，且 光電轉換層160需相對應於非觸控區100 B而設置，光電 轉換層160並具有一電源線路（圖未示）分別與光電線路層 上所具有的一正、負電極（圖未示）相連接，進而構成一 可藉由光電轉換產生電能的光電轉換模組，使得觸控面 板100在執行操作時，當有外界光線照射於光電轉換層 160時，光電轉換層160可以在吸收特定波段的光線後轉 換成電能並形成一電流輸出，所產生的電流則可藉由電 源線路的導引而輸出於觸控面板100外部，其中光電轉換 表單編號A0101 第7頁/共27頁 100年08月19日修正替換頁 層160可選自非晶矽（a-Si )、砷化鎵（GaAs)、銅銦鎵硒 (CIGS)、碲化鎘（CdTe)或染料敏化電池（DSSC)等任一 種薄膜式太陽能電池所構成，使得在透明蓋板170表面上 可以經由事先實施一薄膜太陽能電池的製程，事先將光 電轉換層160直接構成於透明蓋板170的表面，再將透明 蓋板170貼合及組裝於透明基板110上。 [0024]The surface 172 and an outer surface 174 are disposed on the inner surface 172 between the transparent cover 170 and the adhesive layer 150 to form the photoelectric conversion layer 160, and the photoelectric conversion layer 160 corresponds to the non-touch area 100B. The photoelectric conversion layer 160 is provided with a power supply line (not shown) connected to a positive and negative electrode (not shown) on the photoelectric circuit layer, thereby forming a photoelectric energy that can be generated by photoelectric conversion. The conversion module enables the photoelectric conversion layer 160 to convert into electric energy and form a current output after absorbing light of a specific wavelength band when the external light is irradiated onto the photoelectric conversion layer 160 during the operation of the touch panel 100. The current can be outputted outside the touch panel 100 by the guidance of the power supply line, wherein the photoelectric conversion form number A0101 is made up of the amorphous layer (the amorphous layer 160 160 can be selected from the amorphous 矽 ( Any of thin film solar cells such as a-Si), gallium arsenide (GaAs), copper indium gallium selenide (CIGS), cadmium telluride (CdTe) or dye sensitized battery (DSSC), such that the transparent cover 170 On the surface The process of a thin film solar cell is carried out in advance, and the photoelectric conversion layer 160 is directly formed on the surface of the transparent cover 170, and the transparent cover 170 is bonded and assembled on the transparent substrate 110. [0024]

再請參閱第1B圖所示，該透明蓋板170的内表面172 可依據太陽能電池的製程設置光電轉換層160，其中透明 蓋板170内表面172依序至少可以堆疊一第一電極層162 、一光吸收層164及一第二電極層166，其中第一電極層 162可選用單層或多層結構的透明導電氧化物 (Transparent Conductive Oxide, TCO)，例如氧化 銦錫（IT0)、氧化銦（In203)、二氧化錫（Sn02)或氧化 鋅（ZnO)等；光吸收層164亦可選用單層或多層結構，例 如非晶矽半導體及其合金、結晶矽半導體、硫化鎘（CdS) 、銅銦鎵二硒（CIGS)、銅銦二硒（CIS)、碲化鎘（CdTe) 、有機半導體或敏化染料等；第二電極層166為一金屬層 ，金屬層可選用銀（Ag)、鋁（A1)、鉻（Cr)等金屬，同時 第二電極層166亦可為一透明導電氧化物，可選用氧化銦 錫（IT0)、二氧化錫（Sn02)或氧化鋅（ZnO)等。如此使 得由玻璃基板170的外表面174射入的光線176，可以經 由光吸收層164並經光電轉換後，在第一電極162及電二 電極166之間產生電能。為了加強光電轉換效率，另可在 透明蓋板170相對應於非觸控區100B的外表面174處設置 一抗反射層178,藉以降低入射光線176遭受透明蓋板 170外表面174反射的效果，其中抗反射層係選自氧化矽 表單编號A0101 第8頁/共27頁 M416814 • * 100年08月19日 、氮化矽或二氧化鈦等材料，並藉由塗佈的方式設置於 透明蓋板170的外表面174或在透明蓋板170的外表面174 進行一表面粗化（texture)結構的加工，以達到抗反射 的效果。Referring to FIG. 1B, the inner surface 172 of the transparent cover 170 can be provided with the photoelectric conversion layer 160 according to the process of the solar cell. The inner surface 172 of the transparent cover 170 can be stacked with at least a first electrode layer 162. A light absorbing layer 164 and a second electrode layer 166, wherein the first electrode layer 162 can be selected from a single layer or a multilayer structure of Transparent Conductive Oxide (TCO), such as indium tin oxide (IT0), indium oxide ( In203), tin dioxide (Sn02) or zinc oxide (ZnO); the light absorbing layer 164 may also be a single layer or a multilayer structure, such as an amorphous germanium semiconductor and its alloy, a crystalline germanium semiconductor, cadmium sulfide (CdS), copper Indium gallium diselenide (CIGS), copper indium diselenide (CIS), cadmium telluride (CdTe), organic semiconductor or sensitizing dye, etc.; the second electrode layer 166 is a metal layer, and the metal layer may be silver (Ag). A metal such as aluminum (A1) or chromium (Cr), and the second electrode layer 166 may be a transparent conductive oxide, and indium tin oxide (IT0), tin dioxide (Sn02) or zinc oxide (ZnO) may be used. Thus, the light ray 176 incident from the outer surface 174 of the glass substrate 170 can be electrically converted between the first electrode 162 and the electric electrode 166 via the light absorbing layer 164 and photoelectrically converted. In order to enhance the photoelectric conversion efficiency, an anti-reflection layer 178 may be disposed on the outer surface 174 of the transparent cover plate 170 corresponding to the non-touch area 100B, thereby reducing the effect that the incident light ray 176 is reflected by the outer surface 174 of the transparent cover plate 170. The anti-reflection layer is selected from the group consisting of ruthenium oxide form No. A0101, page 8 / total 27 pages M416814 • * August 19, 100, material such as tantalum nitride or titanium dioxide, and is coated on the transparent cover by coating The outer surface 174 of the 170 or the outer surface 174 of the transparent cover 170 is subjected to a surface texture processing to achieve an anti-reflective effect.

[0025] 需進一步說明的是在本實施例中，該光電轉換層16〇 亦可事先通過薄膜太陽能電池的製程在一薄膜基板（圖未 示）上構成後’再以貼合膠著的方式層疊於透明蓋板17〇 内表面172上組合而成，而後再依據既有的觸控面板製程 製作觸控面板100，亦同樣可達到相同的效果。 [0026] 請分別參閱第2A圖及第2B圖，係為本創作觸控面板之 第二實施例之立體分解圖，以及沿aa’線段的剖面圖。 如圖所示’第二實施例的觸控面板200的結構與第—實施 例不同者，在於第二實施例的觸控面板2〇〇主要是省部透 明基板的設置’而第二實施例的觸控面板2〇〇上同樣區分 有一觸控區200A及一非觸控區200B，第二實施例的觸押 面板200包括有一透明蓋板210、一光電轉換層230、—[0025] It should be further noted that in the embodiment, the photoelectric conversion layer 16 can be laminated on a film substrate (not shown) by a process of a thin film solar cell, and then laminated in a manner of being glued together. The same effect can be achieved by combining the transparent cover 17 〇 inner surface 172 and then making the touch panel 100 according to the existing touch panel process. [0026] Please refer to FIGS. 2A and 2B, respectively, which are perspective exploded views of a second embodiment of the present touch panel, and a cross-sectional view along the line aa'. As shown in the figure, the structure of the touch panel 200 of the second embodiment is different from that of the first embodiment, in that the touch panel 2 of the second embodiment is mainly a setting of a provincial transparent substrate, and the second embodiment The touch panel 200 also has a touch area 200A and a non-touch area 200B. The touch panel 200 of the second embodiment includes a transparent cover 210 and a photoelectric conversion layer 230.

觸控電極層220 ' —遮蔽層240、一導線層250及一絕緣 層 260 〇 {0027] 透明蓋板210具有一内表面及212 —外表面214，其中 外表面214是用以提供觸控操作的表面。 光電轉換層230是設置於透明羞板210的内表面2丨2上 ’且是相對應設置在於觸控面板200的非觸控區2〇〇β範圍 内’使得第二實施例的觸控面板200執行操作時，當有外 界光線照射於光電轉換層230時，光電轉換層230可以在 表單及收特定波段的光線後轉換成電能並形成一電流輪出， ^ A〇1〇l 第9頁/共27頁 [0029] χυυ^ Aw 银於第_實施例的光電轉換層訓的製程及結構皆與第 實施例相同，故於此不再贅敘。 觸控電極層220設置透明蓋板2的内表面212上，且相 :應-置於觸控面板2〇〇的觸控區2〇〇A範圍内，由於第二 實施例的觸控電極層22。的材質及結構與第_實施例相同 始亦不再头述准第二實施例的觸控電極層的驅 =圖未示)及感應線路(圖未示)末端需部分地延伸 至非觸控區200B範圍内。 [0030] 100年08月19日俊正寅1 區2〇=:j40疋相對應地覆蓋於觸控面板2°°的非觸控 if)月緣L :層疊°'置於光電轉換層230及觸控電極層 由有路以騎路末端上方，賴層w係 :―有色的絕緣油墨所製成，並以印刷或塗佈之方式形 成 =蓋板2_表面，絕_射以依據觸控面板 m外觀的需要選擇黑色或其他任—種顏色的 使由觸控面議外部觀視非觸控區咖日觸巴 呈現黑色或其他顏色的外觀，藉以 工在非 觸控區2Q嶋_所設置任―線路絲構㈣果；2 ’遮蔽細幼對應於觸控電極層22 位置處構成錢數第-導軌242，特 242皆對應於每-個線路末端位置處，並在[導H W内灌卜有色的導電㈣4，藉此使得觸 220及導線層250之間達成一電性連接。其中導電频4 與遮蔽層具有相同或相近似色彩的導電材質所以 使得有色導電勝244與遮蔽層240之間具有相同或近似的 顏色’藉以達到掩飾第—導通孔242的外觀，第—導通孔 表單編號A0101 第1〇頁/共27頁 [0031] 100年08月19日按正替换頁 242可藉由在進行印刷或塗佈遮蔽層240的製程時，在預 留第一導通孔242的相對應位置處以遮蔽或不印刷的方式 迴避印刷或塗佈遮蔽層240所形成，或可另以蝕刻的方式 去除遮蔽層240以構成第一導通孔242 » 導線層250可選擇以一導電銀膠、氧化銦錫（ΙΤ0)或 金屬電路等材質所製成’並選擇藉由網版經由塗佈、網 版印刷、金屬鍍膜、曝光、顯影或蝕刻等技術形成於遮 蔽層240表面，導線層250具有多條導電線路，其一端分 別與相對應的第一導通孔242内的導電膠244相連接’另 一端則集中延伸至透明蓋板21 0的一侧邊。 [0032] 絕緣層260是將透明的絕緣材料選擇以塗佈或網版印 刷等方式層疊於導線層250上，以防止導線層250暴露於 空氣中而氧化’在絕緣層260上於相對應於導電線路另一 端延伸至透明蓋板的一側邊處則構成一第二導通孔262 ’ 並在第二導通孔262内灌注設有一導電膠264，該導電膠 264係選擇以異方性導電膜或異方性導電膠所製成’以便 於藉由熱壓加工方式將一軟性電路板266壓合固定其上’ 使得觸控電極層220的電路可以分別經由導線層250及軟 性電路板266而導通於外界。 [0033] 另請再參閱第2B圖所示，在本創作中的透明蓋板210 的内表面212同樣可以依據太陽能電池的製程而設置光電 轉換層230，透明蓋板210内表面212依序至少堆疊一第 一電極層232、一光吸收層234及一第二電極層236 ’其 中第一電極層232可選用單層或多層的透明導電氧化物 (Transparent Conductive Oxide, TCO) ’ 例如氧化 表單編號A0101 第11頁/共27頁 M416814 100年08月19日修正替換苜 銦錫（ιτο)、氧化銦（In203)、二氧化錫（Sn02)或氧化 鋅（ZnO)等；光吸收層234亦可選用單層或多層結構，例 如非晶矽半導體及其合金、結晶矽半導體、硫化鎘（CdS) 、銅銦鎵二硒（CIGS)、銅銦二硒（CIS)、碲化鎘（CdTe) 、有機半導體或敏化染料等；第二電極層236為一金屬層 ’金屬層可選用銀（Ag)、|g(Al)'鉻（Cr)等金屬，同時 第二電極層236亦可為一透明導電氧化物，可選用氧化銦 錫（IT0)、二氧化錫（sn〇2)或氧化鋅（ZnO)等。 [0034] 另在透明蓋板210相對應於非觸控區200B的外表面 214處設置一抗反射層216，藉以降低入射光線218遭受 透明蓋板210外表面214反射的效果，其中抗反射層216 係選自氧化矽、氮化矽或二氧化鈦等材料，並藉由塗佈 的方式設置於透明蓋板210的外表面214或在透明蓋板 210的外表面214進行一表面粗化（texture)結構的加工 ’以達到抗反射的效果。The touch surface layer 220 ′′, the shielding layer 240 , a wire layer 250 , and an insulating layer 260 〇 {0027] The transparent cover 210 has an inner surface and 212 — an outer surface 214 , wherein the outer surface 214 is used for providing touch operation s surface. The photoelectric conversion layer 230 is disposed on the inner surface 2丨2 of the transparent board 210 and is correspondingly disposed in the non-touch area 2〇〇β of the touch panel 200. The touch panel of the second embodiment is provided. When the operation of the 200 is performed, when external light is irradiated on the photoelectric conversion layer 230, the photoelectric conversion layer 230 can be converted into electric energy and form a current rotation after the form and the light of a specific wavelength band are formed, ^ A〇1〇l第9页/ 27 pages [0029] The process and structure of the photoelectric conversion layer training of the first embodiment are the same as those of the first embodiment, and therefore will not be described herein. The touch electrode layer 220 is disposed on the inner surface 212 of the transparent cover 2, and the phase is disposed in the range of the touch area 2A of the touch panel 2A, because the touch electrode layer of the second embodiment twenty two. The material and structure of the second embodiment are not the same as those of the first embodiment, and the end of the sensing circuit (not shown) and the sensing circuit (not shown) need to be partially extended to the non-touch. Within the range of Zone 200B. [0030] On August 19, 100, Junzheng 寅1 area 2〇=:j40疋 correspondingly covers the touch panel 2°° non-touch if) lunar edge L: stacking °' is placed on the photoelectric conversion layer 230 and The touch electrode layer is formed by a path above the end of the riding path, and the layer is made of "colored insulating ink, and is formed by printing or coating = the surface of the cover 2_, which is based on the touch. The appearance of the panel m needs to select black or any other color to make the appearance of the non-touch area of the non-touch area to display black or other colors by the touch surface, so that the work is set in the non-touch area 2Q嶋_ Any-line wire structure (four) fruit; 2 'shadowing fine corresponding to the position of the touch electrode layer 22 constitutes the number of the first guide rail 242, the special 242 corresponds to each end of the line position, and in the [guide HW irrigation The colored conductive (four) 4 is used to thereby achieve an electrical connection between the contact 220 and the wire layer 250. The conductive material having the same or similar color as the shielding layer 4 has the same or similar color between the colored conductive layer 244 and the shielding layer 240, so as to cover the appearance of the first via hole 242, the first via hole Form No. A0101 Page 1 of 27 [0031] According to the replacement page 242 of August 19, 100, the first via hole 242 can be reserved by the process of printing or coating the shielding layer 240. The corresponding position is formed by masking or unprinting to avoid printing or coating the shielding layer 240, or the shielding layer 240 may be removed by etching to form the first via hole 242. The wire layer 250 may be selected as a conductive silver paste. A material such as indium tin oxide (ITO) or a metal circuit is formed and formed on the surface of the shielding layer 240 by a screen, such as coating, screen printing, metal plating, exposure, development or etching, and the wiring layer 250 There are a plurality of conductive lines, one end of which is respectively connected to the conductive paste 244 in the corresponding first via hole 242, and the other end is concentratedly extended to one side of the transparent cover plate 210. [0032] The insulating layer 260 is formed by laminating a transparent insulating material on the wire layer 250 by coating or screen printing or the like to prevent the wire layer 250 from being exposed to the air and oxidizing 'corresponding to the insulating layer 260. The other end of the conductive line extends to one side of the transparent cover to form a second conductive via 262 ′ and is filled with a conductive adhesive 264 in the second conductive via 262 . The conductive adhesive 264 is selected as an anisotropic conductive film. Or an anisotropic conductive paste is formed 'to facilitate pressing and pressing a flexible circuit board 266 on it by thermocompression processing' so that the circuit of the touch electrode layer 220 can pass through the wire layer 250 and the flexible circuit board 266, respectively. Conducted to the outside world. [0033] Referring to FIG. 2B again, the inner surface 212 of the transparent cover 210 in the present invention can also be provided with the photoelectric conversion layer 230 according to the process of the solar cell, and the inner surface 212 of the transparent cover 210 is at least sequentially A first electrode layer 232, a light absorbing layer 234, and a second electrode layer 236' are stacked. The first electrode layer 232 may be a single layer or a plurality of transparent conductive oxides (TCO). A0101 Page 11 of 27 M416814 Modified on August 19, 100 to replace indium tin (ITO), indium oxide (In203), tin dioxide (Sn02) or zinc oxide (ZnO); light absorbing layer 234 Single or multi-layer structures, such as amorphous germanium semiconductors and their alloys, crystalline germanium semiconductors, cadmium sulfide (CdS), copper indium gallium diselenide (CIGS), copper indium diselenium (CIS), cadmium telluride (CdTe), An organic semiconductor or a sensitizing dye or the like; the second electrode layer 236 is a metal layer; the metal layer may be selected from a metal such as silver (Ag), |g(Al)'chromium (Cr), and the second electrode layer 236 may also be a Transparent conductive oxide, optional indium tin oxide (IT0), dioxide Tin (sn〇2) or zinc oxide (ZnO). [0034] Another anti-reflective layer 216 is disposed on the outer surface 214 of the transparent cover 210 corresponding to the non-touch area 200B, thereby reducing the effect of the incident light 218 being reflected by the outer surface 214 of the transparent cover 210, wherein the anti-reflection layer 216 is selected from the group consisting of ruthenium oxide, tantalum nitride or titanium dioxide, and is coated on the outer surface 214 of the transparent cover 210 or on the outer surface 214 of the transparent cover 210 to perform a surface texture. The processing of the structure 'to achieve anti-reflective effect.

[0035] 請參閱第3圖所示，係為一具有本創作觸控面板的觸 控電子裝置方塊圖。如圖所示，電子裝置3〇〇可選擇為一 攜帶型手機、智慧型手機、攜帶型導航裝置、數位照相 機' 隨身聽、平板電腦或筆記型電腦等電子設備，電子 裝置300至少包括有一觸控面板31〇、微處理單元320、 一穩壓及放大電路330、一充電模組340及一可充蓄電池 350 ’其中觸控面板31〇更包括有一觸控模組312、一類 比/數位控制模組314、一控制單元31 6及一光電轉換模組 318。[0035] Referring to FIG. 3, it is a block diagram of a touch control electronic device having the present touch panel. As shown in the figure, the electronic device 3 can be selected as a portable mobile phone, a smart phone, a portable navigation device, a digital camera, a walkman, a tablet computer or a notebook computer, and the electronic device 300 includes at least one touch. The control panel 31, the micro processing unit 320, a voltage stabilization and amplification circuit 330, a charging module 340, and a rechargeable battery 350', wherein the touch panel 31 further includes a touch module 312, an analog/digital control The module 314, a control unit 316 and a photoelectric conversion module 318.

[0036] 其中觸控模組31 2是與類比/數位控制模組314相連接 表單编號A0101 第12頁/共27頁 M416814 丄 100年08月19日修正替換頁 且為上述本創作_控面板所Μ，主要是用以提供觸 工感測的功此，當觸控模組312於横測到—觸碰動作後產 生一相對應的觸控訊號，並將觸控訊號傳遞至類比/數位 控制模組314進行處理。 類比/數位控制拉組3 i 4是連接於觸控模組3 ^ 2及控制 早疋316之間，將接收自觸控模組312的類比式的觸控訊 號轉換成數位式的觸控訊號後再傳遞至控制單元31 6進行 座標方位的解析。 [0038] ㈣單元316是連接祕處理單元㈣，是用以將所 接收的觸控訊號予以解析得到一相對應在觸控面板31〇上 的座標點資訊後’將解析得到的座標點資訊傳遞至微處 理單元320進行後續的資訊處理。 [0039] 光電轉換模組318是與穩壓及放大電路33〇相連接， ， 光電轉換模組318是由光電轉換層所構成，其功能是用以 將光能轉換成電能輸出，在電子裝置300的操作過程中， 當接受到光線的照射時將產生相對應的電流的輸出，所 輸出的電流將先輸出至穩壓及放大電路330。 [0040] 穩壓及放大電路330分別與光電轉換模組318及充電 模組340相連接，穩壓及放大電路330是將接收自光電轉 換模組318的電流予以整流及放大後，以便於得到較為穩 定而較大的電流，再將經處理過後的電流輸出至充電模 組340 〇 [0041] 充電模組340分別與穩壓及放大電路330及可充蓄電 >也350相連接，充電模組340是接收穩壓及放大電路Μ。 表單編號A0101 第13頁/共27頁 [0042] [0043] 100年08月19日修正替換首 經處理後所輸入的電流，並將其轉換成一充電電流，並 對充電電流進行管理，以利於對可充蓄電池350進行充電 ，充電模組340並具有對可充蓄電池350進行電量剩餘量 的檢測功能，並根據其檢測結果以判別是否需要進行充 電。 可充蓄電池350則是做為供給電子裝置300運作所需 的電能，可選自為鎳氫電池或鋰電池。 微處理單元320分別是與穩壓及放大電路330、充電 模組340、可充蓄電池350及觸控面板310之控制單元316 相連接，微處理單元320除了接收座標點資訊，以便於進 行後續資料的處理外，更可對穩壓及放大電路330、充電 模組340及可充蓄電池350進行必要的功能控制。如此即 可藉由光電轉換模組318所轉換出來的電量充蓄於可充蓄 電池.350，達到延長電子裝置300操作的時間。 請參閱第4圖所示，為一具有本創作觸控面板的觸控 電子裝置執行一光電轉換功能的操作流程圖。如圖所示 ，裝設有本創作觸控面板的觸控電子裝置在進行操作的 過程中，如果内建於觸控面板的光電轉換模組接收到光 線的照射時，如步驟S410，將被觸發進行一光電轉換作 用，並進入下一步驟S420 ;在步驟S420中，觸控電子裝 置的充電模組將對可充蓄電池的電量剩餘量進行檢測及 判斷是否低於一預設比率，在本創作中預設比率可預設 為20%〜60%之範圍内，當判斷結果為是，則微處理器單 元驅動充電模組對可充蓄電池進行充電，如步驟S430， 反之則不進行充電並回到步驟S410之前，重新進行步驟[0036] wherein the touch module 31 2 is connected to the analog/digital control module 314. Form number A0101 page 12/total 27 pages M416814 丄100 years of August 19th revised replacement page and for the above-mentioned creation_control The function of the panel is mainly to provide a touch-sensing function. When the touch module 312 generates a corresponding touch signal after the cross-measurement-touch action, the touch signal is transmitted to the analog/ The digital control module 314 performs processing. The analog/digital control pull group 3 i 4 is connected between the touch module 3^2 and the control early 316, and converts the analog touch signal received from the touch module 312 into a digital touch signal. It is then passed to the control unit 31 6 for analysis of the coordinate orientation. [0038] (4) The unit 316 is a connection processing unit (4) for parsing the received touch signal to obtain a coordinate point information corresponding to the coordinate information on the touch panel 31〇. Subsequent to the micro processing unit 320 for subsequent information processing. [0039] The photoelectric conversion module 318 is connected to the voltage stabilization and amplification circuit 33, and the photoelectric conversion module 318 is composed of a photoelectric conversion layer, and the function thereof is to convert light energy into electrical energy output in the electronic device. During the operation of 300, an output of a corresponding current is generated when the light is received, and the output current is first output to the voltage stabilization and amplification circuit 330. [0040] The voltage stabilization and amplification circuit 330 is respectively connected to the photoelectric conversion module 318 and the charging module 340. The voltage stabilization and amplification circuit 330 rectifies and amplifies the current received from the photoelectric conversion module 318, so as to obtain a relatively stable and large current, and then output the processed current to the charging module 340. [0041] The charging module 340 is respectively connected to the voltage stabilization and amplification circuit 330 and the rechargeable battery> Group 340 is a receive regulation and amplification circuit. Form No. A0101 Page 13 of 27 [0042] [0043] On August 19, 100, the current input after the replacement of the first processing was corrected, converted into a charging current, and the charging current was managed to facilitate The rechargeable battery 350 is charged, and the charging module 340 has a function of detecting the remaining amount of the rechargeable battery 350, and determines whether charging is required according to the detection result. The rechargeable battery 350 is used as the electric energy required for the operation of the electronic device 300, and may be selected from a nickel-hydrogen battery or a lithium battery. The micro processing unit 320 is connected to the voltage stabilization and amplification circuit 330, the charging module 340, the rechargeable battery 350, and the control unit 316 of the touch panel 310. The micro processing unit 320 receives the coordinate point information to facilitate subsequent data. In addition, the necessary function control of the voltage stabilization and amplification circuit 330, the charging module 340, and the rechargeable battery 350 can be performed. Thus, the amount of power converted by the photoelectric conversion module 318 can be charged to the rechargeable battery .350 to extend the operation time of the electronic device 300. Please refer to FIG. 4, which is a flow chart of the operation of performing a photoelectric conversion function for a touch electronic device having the present touch panel. As shown in the figure, during the operation of the touch electronic device equipped with the touch panel, if the photoelectric conversion module built in the touch panel receives the light, as in step S410, Triggering a photoelectric conversion action, and proceeding to the next step S420; in step S420, the charging module of the touch electronic device detects the remaining amount of the rechargeable battery and determines whether it is lower than a preset ratio, The preset ratio in the creation may be preset to be in the range of 20% to 60%. When the judgment result is yes, the microprocessor unit drives the charging module to charge the rechargeable battery, as in step S430, and vice versa. Go back to step S410 and repeat the steps.

[0044] 表單编號A0101 第14頁/共27頁 M416814 100年08月19日修正替換頁 S410 ;於步驟S430後接著進入步驟S440，微處理單元偵 測可充蓄電池電量是否已充滿，當判斷結果為否時，則 回到步驟S430繼續進行充電，反之，則回到步驟S410之 前，重新進行步驟S410。 [0045] 藉由上述可知，本創作由於是將光電轉換層直接整合[0044] Form No. A0101 Page 14 of 27 M416814 Modified on August 19, 100, replaces page S410; after step S430, it proceeds to step S440, and the micro processing unit detects whether the rechargeable battery is fully charged, when judging If the result is no, the process returns to step S430 to continue the charging. Otherwise, the process returns to step S410 and the process proceeds to step S410. [0045] From the above, the present creation is due to the direct integration of the photoelectric conversion layer.

於觸控面板的結構中，並利用觸控面板原有的非觸控區 設置光電轉換層，而不至於影響觸控面板原有的觸控操 作功能，且由於光電轉換層可以事先藉由太陽能電池製 程將其形成於透明蓋板表面，進而改正了在習知技術中 將光電轉換模組與觸控模組採分離設置的方式，藉此可 降低觸控電子裝置的厚度，以及避免觸控面板透光度不 佳的缺點。 [0046] 綜上所陳，僅為本創作之較佳實施例而已，並非用以 限定本創作；凡其他未脫離本創作所揭示之精神下而完 成的等效修飾或置換，均應包含於後述申請專利範圍内In the structure of the touch panel, the photoelectric conversion layer is disposed in the original non-touch area of the touch panel, and the original touch operation function of the touch panel is not affected, and the photoelectric conversion layer can be previously used by the solar energy. The battery process is formed on the surface of the transparent cover, thereby correcting the manner in which the photoelectric conversion module and the touch module are separated and disposed in the prior art, thereby reducing the thickness of the touch electronic device and avoiding touch. The disadvantage of poor transparency of the panel. [0046] In summary, the present invention is only intended to be a preferred embodiment of the present invention, and is not intended to limit the present invention; any equivalent modifications or permutations that have been made without departing from the spirit of the present invention should be included in Within the scope of the patent application described later

【圖式簡單說明】 [0047] 第1A圖為本創作觸控面板之第一實施例之立體分解圖。 [0048] 第1B圖為第1A圖沿aa’線段方向的刮面圖。 [0049] 第2A圖為本創作觸控面板之第二實施例之立體分解圖。 [0050] 第2B圖為第2A圖沿aa’線段方向的剖面圖。 [0051] 第3圖為一具有本創作觸控電子裝置的方塊示意圖。 [0052] 第4圖為一具有本創作觸控面板的觸控電子裝置執行一光 表單編號A0101 第15頁/共27頁 M416814 100年08月19日修正替换苜 電轉換功能的操作流程圖。 【主要元件符號說明】 [0053] 100 觸控面板 100A 觸控區 [0054] 100B 非觸控區 110 透明基板 [0055] 120 觸控電極層 130 導線層 [0056] 140 遮蔽層 142 槽孔 [0057] 144 導電膠 150 貼合勝層 [0058] 160 光電轉換層 162 第一電極層 [0059] 164 光吸收層 166 第二電極層 [0060] 170 透明蓋板 172 内表面 [0061] 174 外表面 176 光線 [0062] 178 抗反射層 180 軟性電路板 [0063] 200 觸控面板 200A 觸控區 [0064] 200B 非觸控區 210 透明蓋板 [0065] 212 内表面 214 外表面 [0066] 216 抗反射層 218 光線 [0067] 220 觸控電極層 230 光電轉換層 [0068] 232 第一電極層 234 光吸收層 [0069] 236 第二電極層 240 遮蔽層 [0070] 242 第一導通孔 表單编號A0101 第16頁/共27頁BRIEF DESCRIPTION OF THE DRAWINGS [0047] FIG. 1A is an exploded perspective view of a first embodiment of the creation touch panel. 1B is a plan view of the first A-figure along the direction of the aa' line segment. [0048] FIG. 2A is an exploded perspective view of a second embodiment of the creation touch panel. 2B is a cross-sectional view of the second AA in the direction of the line aa'. [0051] FIG. 3 is a block diagram of a touch control electronic device. [0052] FIG. 4 is a flow chart of a touch electronic device with the present touch panel executing a light form number A0101 page 15 of 27 M416814 Aug. 19, 100, revised operation of the conversion function. [Main component symbol description] [0053] 100 touch panel 100A touch area [0054] 100B non-touch area 110 transparent substrate [0055] 120 touch electrode layer 130 wire layer [0056] 140 shielding layer 142 slot [0057] 144 conductive paste 150 affixed layer [0058] 160 photoelectric conversion layer 162 first electrode layer [0059] 164 light absorbing layer 166 second electrode layer [0060] 170 transparent cover 172 inner surface [0061] 174 outer surface 176 Light [0062] 178 Anti-reflection layer 180 Flexible circuit board [0063] 200 Touch panel 200A Touch area [0064] 200B Non-touch area 210 Transparent cover [0065] 212 Inner surface 214 Outer surface [0066] 216 Anti-reflection Layer 218 light [0067] 220 touch electrode layer 230 photoelectric conversion layer [0068] 232 first electrode layer 234 light absorbing layer [0069] 236 second electrode layer 240 shielding layer [0070] 242 first via hole form number A0101 Page 16 of 27

M416814 . ·M416814 . ·

[0071] 244 導電膠 [0072] 260 絕緣層 [0073] 264 導電膠 [0074] 300 電子裝置 [0075] 312 觸控模組 [0076] 316 控制單元 [0077] 320 微處理單元 [0078] 340 充電模組 100年08月19日梭正替换頁 250 導線層 262 第二導通孔 266 軟性電路板 310 觸控面板 314 類比/數位控制模組 318 光電轉換模組 330 穩壓及放大電路 350 可充蓄電池 [0079] S410〜S440光電轉換功能的操作流程 表單編號A0101 第17頁/共27頁244 conductive adhesive [0072] 260 insulating layer [0073] 264 conductive adhesive [0074] 300 electronic device [0075] 312 touch module [0076] 316 control unit [0077] 320 micro processing unit [0078] 340 charging Module 100 years August 19th Shuttle replacement page 250 Wire layer 262 Second via 266 Flexible circuit board 310 Touch panel 314 Analog/digital control module 318 Photoelectric conversion module 330 Voltage regulator and amplifier circuit 350 Rechargeable battery [0079] S410~S440 photoelectric conversion function operation flow form number A0101 Page 17 of 27

Claims (1)

M416814 100年08月19日梭正替换苜 六、申請專利範圍： 1 . 一種具有光電轉換功能的觸控面板，該觸控面板上區分有 一觸控區及一非觸控區，該觸控面板至少包括： 一透明蓋板；以及 一光電轉換層，對應於該非觸控區而設置於該透明蓋板的 表面。 2 .如申請專利範圍第1項所述之具有光電轉換功能的觸控面 板，其中該觸控面板更至少包括： 一透明基板；M416814 On August 19th, 100th, the shuttle is being replaced by the sixth patent application scope: 1. A touch panel with photoelectric conversion function, the touch panel has a touch area and a non-touch area, the touch panel The method further includes: a transparent cover; and a photoelectric conversion layer disposed on the surface of the transparent cover corresponding to the non-touch area. 2. The touch panel having a photoelectric conversion function according to claim 1, wherein the touch panel further comprises: a transparent substrate; 一觸控電極層，相對應於該觸控區而層疊設置於該透明基 板的内表面； 一導線層，具有複數條導線，相對應於該非觸控區而構成 於該透明基板的内表面； 一遮蔽層，覆蓋於該導線層上方；以及 一貼合膠層，構成於該觸控電極層及遮蔽層的表面。 3 .如申請專利範圍第2項所述之具有光電轉換功能的觸控面 板，其中該遮蔽層相對應於該等導線所延伸至該透明基板 的一側邊處設置有一槽孔，使得一軟性電路板經由一導電 膠固定於該槽孔内，並與該導電層呈一電性連接。 4 .如申請專利範圍第2項所述之具有光電轉換功能的觸控面 板，其中該透明蓋板相對應於非觸控區的外表面處設有一 抗反射層。 5 .如申請專利範圍第2項所述之具有光電轉換功能的觸控面 板，其中該透明蓋板是貼合於該貼合膠層上方。 6 .如申請專利範圍第1項所述之具有光電轉換功能的觸控面 板，其中該光電轉換層是由一薄膜式太陽能電池所構成。 1003305079-0 100207969 表單编號A0101 第18頁/共27頁 M416814 . · 100年08月19日修正替換頁 如申請專利範圍第1項所述之具有光電轉換功能的觸控面 板，其中該光電轉換層是在該透明蓋板上依序堆疊至少有 一第一電極層、一光吸收層及一第二電極層所構成。 一種具有光電轉換功能的觸控面板，該觸控面板上區分有 一觸控區及一非觸控區，該觸控面板至少包括： 一透明蓋板； 一觸控電極層，是相對應於該觸控區而層疊設置於該透明 蓋板上；以及a touch electrode layer is disposed on the inner surface of the transparent substrate corresponding to the touch area; a wire layer having a plurality of wires corresponding to the non-touch area and formed on the inner surface of the transparent substrate; a shielding layer covering the wire layer; and a bonding layer formed on the surface of the touch electrode layer and the shielding layer. 3. The touch panel with photoelectric conversion function according to claim 2, wherein the shielding layer is provided with a slot corresponding to a side of the wire extending to the transparent substrate, so that a soft layer is provided. The circuit board is fixed in the slot through a conductive adhesive and is electrically connected to the conductive layer. 4. The touch panel having a photoelectric conversion function according to claim 2, wherein the transparent cover is provided with an anti-reflection layer corresponding to an outer surface of the non-touch area. 5. The touch panel having a photoelectric conversion function according to claim 2, wherein the transparent cover is attached to the adhesive layer. 6. The touch panel having a photoelectric conversion function according to claim 1, wherein the photoelectric conversion layer is composed of a thin film type solar cell. 1003305079-0 100207969 Form No. A0101 Page 18 of 27 M416814. · Correction replacement page of August 19, 100. The touch panel with photoelectric conversion function as described in claim 1 of the patent scope, wherein the photoelectric conversion The layer is formed by sequentially stacking at least one first electrode layer, one light absorbing layer and one second electrode layer on the transparent cover. A touch panel having a photoelectric conversion function, wherein the touch panel has a touch area and a non-touch area, the touch panel includes at least: a transparent cover; and a touch electrode layer corresponding to the a touch area is stacked on the transparent cover; and 一光電轉換層，是對應於該非觸控區而設置於該透明蓋板 I- 〇 9 .如申請專利範圍第8項所述之具有光電轉換功能的觸控面 板，其中該光電轉換層是由一薄膜式太陽能電池所構成。 10 .如申請專利範圍第8項所述之具有光電轉換功能的觸控面 板，.其中該光電轉換層是在該透明蓋板上依序堆疊至少有 一第一電極層、一光吸收層及一第二電極層所構成。 11 .如申請專利範圍第8項所述之具有光電轉換功能的觸控面A photoelectric conversion layer is disposed on the transparent cover plate I- 〇9 corresponding to the non-touch area. The touch panel having the photoelectric conversion function according to claim 8 is wherein the photoelectric conversion layer is A thin film solar cell is constructed. 10. The touch panel having a photoelectric conversion function according to claim 8, wherein the photoelectric conversion layer is formed by sequentially stacking at least one first electrode layer, one light absorbing layer and one on the transparent cover plate. The second electrode layer is formed. 11. A touch surface having photoelectric conversion function as described in claim 8 板，其中該透明蓋板相對應於非觸控區的外表面處設有一 抗反射層。 12 .如申請專利範圍第8項所述之具有光電轉換功能的觸控面 板，其中該觸控面板更包括有： 一遮蔽層，是相對應地覆蓋於該非觸控區範圍，且層疊設 置於該光電轉換層及該觸控電極層周緣上方； 一導線層，具有複數條導線，構成於該遮蔽層表面；以及 一絕緣層，覆蓋於該導線層上方。 13 .如申請專利範圍第12項所述之具有光電轉換功能的觸控面 板，其中該遮蔽層相對應於該觸控電極層周緣的線路末端 100207969 表單編號A0101 第19頁/共27頁 1003305079-0 M416814 100年08月19日修正替換苜 位置處設有複數第一導通孔，該等第一導通孔内灌注有一 導電膠，使得該觸控電極層及該導線層之間透過該導電膠 而達成一電性連接。 14 .如申請專利範圍第12項所述之具有光電轉換功能的觸控面 板，其中該絕緣層相對應於該導電線路另一端延伸至該透 明蓋板的一側邊處設有一第二導通孔，該第二導通孔内灌 注有一導電膠，並設置有一軟性電路板固定於該導電膠上 ，使得該觸控電極層的電路分別經由該導線層及該軟性電 路板而導通於外界。The board, wherein the transparent cover is provided with an anti-reflection layer corresponding to the outer surface of the non-touch area. The touch panel of claim 8 , wherein the touch panel further comprises: a shielding layer correspondingly covering the non-touch area, and stacked on the The photoelectric conversion layer and the periphery of the touch electrode layer; a wire layer having a plurality of wires formed on the surface of the shielding layer; and an insulating layer covering the wire layer. 13. The touch panel having a photoelectric conversion function according to claim 12, wherein the shielding layer corresponds to a line end of the periphery of the touch electrode layer 100207969. Form No. A0101 Page 19 / Total 27 Page 1003305079- 0 M416814 A fixed number of first via holes are provided at the position of the replacement cymbal on August 19, 100. The first via holes are filled with a conductive paste, so that the touch electrode layer and the wire layer pass through the conductive paste. Achieve an electrical connection. The touch panel having a photoelectric conversion function according to claim 12, wherein the insulating layer is provided with a second through hole corresponding to a side of the conductive line extending to one side of the transparent cover. The second via hole is filled with a conductive paste, and a flexible circuit board is disposed on the conductive paste, so that the circuit of the touch electrode layer is respectively conducted to the outside through the wire layer and the flexible circuit board. 15 . —種觸控電子裝置，至少包括有： 一可充蓄電池； 一觸控面板，具有一透明蓋板，且該觸控面板上區分有一 觸控區及一非觸控區，該觸控面板具有一光電轉換模組， 是相對應於該非觸控區而設置於該透明蓋板的表面，該光 電轉換模組接收光線的照射並轉換成電能而輸出電流；以 及The touch-sensitive electronic device includes at least one rechargeable battery, a touch panel having a transparent cover, and the touch panel has a touch area and a non-touch area. The panel has a photoelectric conversion module disposed on the surface of the transparent cover corresponding to the non-touch area, and the photoelectric conversion module receives the illumination of the light and converts it into electrical energy to output a current; 一充電模組，接收上述電流並將該電流轉換成一充電電流 以對該可充蓄電池進行充電。 16 .如申請專利範圍第15項所述之觸控電子裝置，其中該觸控 面板更包括有： 一觸控模組，用以當偵測到一觸碰動作後產生一相對應的 類比式觸控訊號輸出； 一類比/數位控制模組，連接於該觸控模組，將所接收的 類比式觸控訊號轉換成數位式觸控訊號後輸出；以及 一控制單元，連接於該類比/數位控制模組，將所接收的 數位式觸控訊號予以解析得到一相對應在該觸控面板上的 100207969 表單编號A0101 第20頁/共27頁 1003305079-0 M416814 100年08月19日接正替换頁 座標點資訊。 17 .如申請專利範圍第15項所述之觸控電子裝置，其中該充電 模組對該可充蓄電池進行一電量剩餘量的檢測，並根據該 檢測結果進行充電。 18.如申請專利範圍第15項所述之觸控電子裝置，其中更包括 一穩壓及放大電路，連接至該光電轉換模組及該充電模組 間，以接收該光電轉換模組所輸入的該電流後，給予整流 及放大處理後輸入至該充電模組。A charging module receives the current and converts the current into a charging current to charge the rechargeable battery. The touch panel of claim 15 , wherein the touch panel further comprises: a touch module for generating a corresponding analogy when a touch action is detected Touch signal output; a type of analog/digital control module connected to the touch module, converting the received analog touch signal into a digital touch signal and outputting; and a control unit connected to the analog/ The digital control module analyzes the received digital touch signal to obtain a corresponding one on the touch panel 100207969 Form No. A0101 Page 20 / Total 27 Page 1003305079-0 M416814 100 August 19 The page punctuation information is being replaced. The touch electronic device of claim 15, wherein the charging module performs a detection of a remaining amount of the rechargeable battery and performs charging according to the detection result. 18. The touch electronic device of claim 15, further comprising a voltage stabilization and amplification circuit connected between the photoelectric conversion module and the charging module to receive the input of the photoelectric conversion module After the current is applied, it is rectified and amplified, and then input to the charging module. 19 .如申請專利範圍第18項所述之觸控電子裝置，其中更包括 一微處理單元，分別與該穩壓及放大電路、該充電模組及 該可充蓄電池連接，以執行必要的功能控制。 1003305079-0 100207969 表單編號A0101 第21頁/共27頁The touch control device of claim 18, further comprising a micro processing unit respectively connected to the voltage stabilization and amplification circuit, the charging module and the rechargeable battery to perform necessary functions control. 1003305079-0 100207969 Form No. A0101 Page 21 of 27