M344520 八、新型說明: ‘ 【新型所屬之技術領域】 本創作係有關於一種二人 ^ ^ σ一觸控面板,尤指一種M344520 VIII. New description: ‘ 【New technology field】 This creation department is about a two-person ^ ^ σ touch panel, especially one
可將兩種不同形式之四線雷R 深電阻式(類比式)與電容式 (數位式)之觸控面板設古十於π 电合飞 攸叹冲於冋一觸控面板上,使該 四線電阻式與該電容式之優點可整合在同—觸控面板 上之二合一觸控面板。Two different types of four-wire lightning R deep resistance (analog) and capacitive (digital) touch panels can be set on the 触控 触控 冲 冲 冲 , , , , , , , The four-wire resistive type and the capacitive type can be integrated into a two-in-one touch panel on the same touch panel.
【先前技彳标】 觸控面板依動作方式不同可分為數位式(Digitai Type)及類比式(AnalogType)二大類。該數位式之 發展歷史雖較悠久,但卻沒有該類㈣之高解析能 力以及可#由手及筆等各種介質輸人皆可之特性, 像f一些觸控式之計算器及影印機上都可以看到此類 產tm,此外,該數位式亦不像該類比式需要運用偵測 2壓之方式,其在線性及良率之要求上都沒有那麼 高,簡而言之,該數位式僅係以觸控之方式,取代一 般傳統功能之按鍵。 該類比式之觸控面板,係可依其感應原理分為電 阻式(Resistive )、電容式(Capacitive )、音波式(Surface[Previous technical standards] Touch panels can be divided into two types: digital (Digitai Type) and analog (AnalogType). Although the development history of the digital type is relatively long, it does not have the high resolution capability of this type (4) and the characteristics of various media such as hand and pen, such as some touch-type calculators and photocopiers. You can see this kind of tm. In addition, the digital type does not need to use the detection 2 pressure method, which is not so high in linearity and yield requirements. In short, the digit It is only a touch-sensitive way to replace the buttons of the traditional functions. The analog touch panel can be divided into resistive (Resistive), capacitive (Capacitive), and acoustic (Surface) according to its sensing principle.
Ac〇UStic Wave )、光學式(Optics )及電磁式 (Electromagnetic)等五大類,其中,該電阻式係可 再依設計原理不同區分為四線、五線、七線及八線等 不同架構,且其在疊構材料方面,為了期望能夠更進 M344520 步提升透光率及降低厚度,係衍生出玻璃/玻璃、薄 玻璃、薄膜/薄膜/塑膠及薄膜/薄膜等結構;該電容 :亦可再依料原理不同區分為四線及五線等不同架 2且其在疊構材料方面,料生出純玻璃及薄膜/玻 …構,该音波式及光學式則均為純玻璃結構;該 電磁式則無須考慮結構問題。 及數位式之觸控面板,係可依其感應原理分為電 =及電容式等兩大類,其中,該電阻式及該電容式 出線數量及疊構係取決於控制Ic。 依觸控原理來說,屬於數位式之電容式觸控面 |其係由兩組存在不同平面又相互垂直之透明導線 、丫與驅動線所構成’由於χ、γ佈線設計可為同一 *或為不同兩面,其相交處係形成一電容節點當 電、經該驅動線通過其中之一之 :與:測電容值變化之電子迴路相通。當其二 :二制器係先後提供電流於不同層之驅動線,因而 =與導線間形成—特定電場,t手指或觸動媒 二:時,控制器可迅速測知在節點與導線間之電容 值改變,進而確認觸動之位置。然而,其雖 :多:觸控及光學特性佳等優點,卻僅能以;指作觸 二並不僅無繪圖功能,並且價格偏高。 ^於類比式之四線電阻式觸控面板,如第4圖及 = 要係包括一片氧化銦錫導電玻璃 (0Giass)21,及一片氧化銦錫導電薄膜(ΙΤ0 6 M344520Ac〇UStic Wave), optical (Optics) and electromagnetic (Electromagnetic), etc., the resistance type can be divided into four lines, five lines, seven lines and eight lines according to different design principles. In terms of the laminated material, in order to achieve the M344520 step to increase the light transmittance and reduce the thickness, the structure is derived from glass/glass, thin glass, film/film/plastic and film/film; the capacitor: According to the principle of different materials, it is divided into four rows and five wires, and the like, and in the aspect of the laminated material, the pure glass and the film/glass structure are produced, and the sound wave type and the optical type are all pure glass structures; There is no need to consider structural issues. And the digital touch panel can be divided into two major categories: electric=and capacitive type according to the sensing principle. The resistance type and the number of the outlets and the stacking structure depend on the control Ic. According to the principle of touch, the digital capacitive touch surface is composed of two sets of transparent wires, 丫 and drive lines with different planes and perpendicular to each other. 'Because the χ and γ wiring designs can be the same* or For the two different sides, the intersection forms a capacitor node that passes through one of the drive lines when it passes through: the electronic circuit that measures the change in capacitance value. When the second: second system provides current to the drive line of different layers, and thus = specific electric field is formed between the wire and the wire, t finger or the touch medium 2: the controller can quickly detect the capacitance between the node and the wire. The value changes to confirm the position of the touch. However, although it has many advantages: good touch and optical characteristics, it can only be used; it means not only the drawing function, but also the price is high. ^ Analogy four-wire resistive touch panel, as shown in Figure 4 and = include a piece of indium tin oxide conductive glass (0Giass) 21, and a piece of indium tin oxide conductive film (ΙΤ0 6 M344520
Film) 2 2所組成。一般而言,該氧化銦錫導電玻璃 2 1與該氧化銦錫導電薄膜2 2於導電後均使用正5 伏特(V)之電壓,並在這兩層導電體之中間以一間 — 隔球2 3 (Spacer)將該氧化銦錫導電玻璃2丄與該 氧化銦錫導電薄膜22區隔分開,以避免無觸摸時^ 成短路而產生錯誤動作。其中,該氧化銦錫導電玻璃 2 1及該氧化銦錫導電薄膜2 2係各依χ、γ軸佈線, 並在一 χ層電阻膜3 1上,以Χ軸方向佈有一對由電 阻膜連接之電極,分別為該1層電阻膜3 外侧兩 端之Χ右電極3 1 1肖X左電極3 1 2,以及在一 γ 層電阻膜3 2上,以γ軸方向佈有一對由電阻膜連接 之電極,分別為該γ層電阻膜3 2最外側兩端之¥右 電極3 2 1與γ左電極3 2 2。當其於操作時,係在 兩層電阻膜上電極之一側交互施加一定電壓,由於其 Λ式觸控面板内建之控制器會交替{貞測X軸及Υ轴 • 之電壓值,而χ軸及γ軸皆佈滿了電阻網路,此電阻 •網路上層之導電薄膜,可藉由手指或筆之壓力,便可 使上下層接觸造成短路而產生壓降,此時電路操作之 方式係由Χ軸導電而Υ軸負責傳送X軸之導電層所量 測之電壓,、,以及由γ軸導電而χ軸負責傳送γ軸之 導電層所里測之電壓值。藉此迅速交替將所測得之類 比信號之座標位置經由該控制器轉換成數位信號後, 再將此數位仏號之座標值傳送至使用者(Η〇⑴端, 士此便可彳于知觸壓點進而對主機進行存取之動作。然 M344520 而其僅旎支援單點觸控,並且耐久佳差。 由上述可知,習知傳統四線電阻式觸控面板,雖 ^格便宜及書寫感較佳,但卻含有耐久性不佳之缺 點,目前雖廣泛應用於各項產品上,然*,一旦並上 層之氧化銦錫導電薄膜被破壞,則造成無法使用^箸 況;而習知電容式觸控面板,雖耐久性佳,可支援多 點觸控,然而’其不僅價格較高,並且亦盔法蚩 寫’由於手指大小遠比觸控筆大,故在小財^ 書寫辨識,所以在尺寸上係有其限制。故,-般ΐ用 者係無法符合使用者於實際使用時之所需。 【新型内容】 本創作之主要目的係在於,可將兩種不同形式之 四線電阻式與電容式之觸控面板設計於同—觸控面板 上’使該四線電阻式與該電容式之優點可整合在同一 觸控面板上’而可兼具電容式之耐用性佳及多點觸控 功能’以及四線電阻式可使用筆書寫、繪圖及觸控功 能等優點。 本創作之-人要目#係在於,與傳統之四線電阻式 相比’僅需增加兩道印刷製程,無須另外添購其他特 殊設備,係具有高設備相容性。 為達以上之目$,本創作係一種二合一觸控面 板,係至少包含-電容式主體及—讀電阻式主體所 構成,該電容式主體係包含有—第—基板,該第一基 M344520 板之下表面係塗有一透明導電薄膜與一導電層,且該 導電層係具有一第一面及一第二面,其第一面係與該 第一基板作連結,該第二面則係與一軟性印刷電路板 (Flexible Printed Circuits,FPC )作連結,且該第一基 板係可進一步於其上表面再塗有一透明導電薄膜與一 導電層’而此導電層係可再與一軟性印刷電路板作連 結,以及该四線電阻式主體係包含有該第一基板及一 第二基板,該第一基板之上表面係塗有一第一透明導 電薄膜與一第一導電層,且該第一導電層係具有一第 一面及一第二面,其第一面係與該第一基板作連結, 該第二面係與一第一絕緣層及一軟性印刷電路板作連 結。该第二基板之下表面係塗有一第二透明導電薄膜 與一第二導電層,且該第二導電層係具有一第一面及 一第二面,其第一面係與該第二基板作連結,該第二 面則係與一第二絕緣層作連結,其中,該第一基板與 > 該第二基板係由一黏接層貼合,且位於該第一、二基 、板上之第一、二透明導電薄膜之間並具有一用以隔開 該第一、二透明導電薄膜之間隔點。藉此,可將能由 幾何方式調整組合比例及其位置之二合一觸控面板, 依所設計之圖案(pattern)經過網印蝕刻、印刷、固 化、貼合、切割、黏結及線測等製程完成。 9 M344520 【實施方式】 請參閱『第1圖』所示,係本創作之第— έ士槐-立门 巾貫知例 、、、口構不思圖。如圖所示:本創作係一種二合一觸控面 板,係至少包含一電容式(數位式)主體i丄及:四 線電阻式(類比式)2所構成,可兼具有電容 式之耐用性佳及多點觸控功能,以及四線電阻式可使 用筆書寫、繪圖(Drawing)及觸控功能等兩者之優點。 該電容式主體1 1係包含有一第一基板丄丄工, 該第一基板111之下表面係塗有一透明導電薄膜 (ITO Film) i i 2與一導電層工i 3,且該導電層 1 1 3係具有一第一面及一第二面,其第一面係與該Film) 2 2 composition. In general, the indium tin oxide conductive glass 21 and the indium tin oxide conductive film 2 both use a positive voltage of 5 volts (V) after conduction, and a space between the two layers of conductors - a ball 2 3 (Spacer) The indium tin oxide conductive glass 2 is separated from the indium tin oxide conductive film 22 to avoid a short circuit and a malfunction when there is no touch. The indium tin oxide conductive glass 21 and the indium tin oxide conductive film 2 2 are each arranged in a γ-axis, and are connected on a layer of the resistive film 3 1 in a z-axis direction by a pair of resistive films. The electrodes are respectively the right side electrode 3 1 1 XI X left electrode 3 1 2 of the outer side of the one-layer resistive film 3, and a pair of resistive films are arranged on the γ-layer resistive film 32 in the γ-axis direction. The connected electrodes are the right electrode 3 2 1 and the γ left electrode 3 2 2 at the outermost ends of the γ layer resistive film 3 2 , respectively. When it is in operation, a certain voltage is alternately applied to one side of the upper electrode of the two-layer resistive film, because the controller built in the touch panel of the touch panel alternates between the voltage values of the X-axis and the x-axis. Both the x-axis and the γ-axis are filled with a resistor network. The conductive film on the upper layer of the network can be used to cause a short circuit to cause a voltage drop by the pressure of a finger or a pen. The method is characterized in that the x-axis is conductive and the x-axis is responsible for transmitting the voltage measured by the conductive layer of the X-axis, and the voltage value measured by the γ-axis is conductive and the x-axis is responsible for transmitting the conductive layer of the γ-axis. By rapidly alternating the coordinate position of the measured analog signal into a digital signal through the controller, and then transmitting the coordinate value of the digital apostrophe to the user (Η〇(1) terminal, the knowledge can be known Touching the point and then accessing the host. However, the M344520 only supports single-touch, and has poor durability. As can be seen from the above, the conventional four-wire resistive touch panel is cheap and written. It has a good feeling, but it has the disadvantage of poor durability. Although it is widely used in various products, *, once the upper layer of indium tin oxide conductive film is destroyed, it can not be used; and the conventional capacitor The touch panel, although durable, can support multi-touch, but 'it's not only expensive, but also the way to write.' Because the size of the finger is much larger than the stylus, it is written in Xiaocai^. Therefore, there are restrictions on the size. Therefore, the general user cannot meet the needs of the user in actual use. [New content] The main purpose of this creation is that two different forms of four lines can be used. Resistive and electric The touch panel is designed on the same touch panel to make the four-wire resistive and the capacitive advantages integrated on the same touch panel, and the capacitive durability and multi-touch can be combined. The function 'and four-wire resistive type can use the pen writing, drawing and touch functions. The purpose of this creation is that it is based on the traditional four-wire resistive type. It only needs to add two printing processes, no need In addition, the purchase of other special equipment has high equipment compatibility. In order to achieve the above purpose, the creation is a two-in-one touch panel, which comprises at least a capacitor body and a read resistance body. The capacitive main system comprises a first substrate, the lower surface of the first base M344520 is coated with a transparent conductive film and a conductive layer, and the conductive layer has a first surface and a second surface, the first The surface is coupled to the first substrate, and the second surface is coupled to a flexible printed circuit (FPC), and the first substrate is further coated with a transparent conductive film on the upper surface thereof. With a conductive The conductive layer can be further connected to a flexible printed circuit board, and the four-wire resistive main system includes the first substrate and a second substrate, and the upper surface of the first substrate is coated with a first layer a transparent conductive film and a first conductive layer, and the first conductive layer has a first surface and a second surface, wherein the first surface is coupled to the first substrate, and the second surface is coupled to the first surface The insulating layer is coupled to a flexible printed circuit board. The lower surface of the second substrate is coated with a second transparent conductive film and a second conductive layer, and the second conductive layer has a first surface and a second surface. The first surface is coupled to the second substrate, and the second surface is coupled to a second insulating layer, wherein the first substrate and the second substrate are bonded by an adhesive layer And between the first and second transparent conductive films on the first and second substrates, and having a spacing point for separating the first and second transparent conductive films. Thereby, the two-in-one touch panel capable of geometrically adjusting the combination ratio and its position can be screen-etched, printed, cured, bonded, cut, bonded, line tested, etc. according to the designed pattern. The process is completed. 9 M344520 [Embodiment] Please refer to the "Fig. 1", which is the first example of this creation - the gentleman's 槐-立门 towel knowing example, and the mouth structure is not thought. As shown in the figure: This is a two-in-one touch panel, which consists of at least one capacitive (digital) body i丄 and four-wire resistive (analog) 2, which can be combined with capacitive Durable and multi-touch, and four-wire resistive use of pen writing, drawing, and touch. The first main substrate 111 is coated with a transparent conductive film (ITO film) ii 2 and a conductive layer i 3 , and the conductive layer 1 1 is formed. The 3 series has a first side and a second side, the first side of which is
第基板1 1 1作連結,該第二面係與一軟性印刷電 路板(Flexible Printed Circuits,FPC) 1 1 4 作連辞· 以及 該四線電阻式主體1 2係包含有該第一基板工工 1及一第二基板1 2 1,該第一基板1 1 1之上表面 係塗有一第一透明導電薄膜1 2 2a與一第一導電層 1 2 3a,且該第一導電層1 2 3a係具有一第一面及 一第二面’其第一面係與該第一基板1 1 1作連結, 該第二面係與一第一絕緣層1 2 4 a及一軟性印刷電 路板1 2 5作連結。該第二基板1 2 1之下表面係塗 有一第二透明導電薄膜1 2 2b與一第二導電層1 2 3b,且該第二導電層1 2 3b係具有一第一面及一第 二面’其第一面係與該第二基板1 2 1作連結,該第 M344520 二面係與一第二絕緣層i 2 4b作連結,其中,气 -基板1 1 1與該第二基板! 2 i係由—黏接層^ 6貼合,且位於該第一、二基板'1 1 χ、丄2工上 第-:,透明導電薄膜122a、122b之間並具: 一用以隔開該第一、二透明導電薄膜丄2 2a、1 2 2 b之間隔點1 2 7 ’其中,該第一、二基板丄工工、 1 2 1之材料係可為導電聚乙烯對苯二甲酸酯 (Polyethylene Terephth_e,pET )、導電玻璃及導 ^ 壓克力。以上所述’係構成_結合數位式及類比式優 點之^新二合—觸控面板1,且此二合-觸控面板i 之電容式主體1 1與該四線電阻式主體1 2係呈水平 並列。 δ本創作於運用時,係將四線電阻式與電容式之 優點整合在同—觸控面板上。首先先對-面板依不同 比例進行切割,將面板之部分面積設計成電容式,而 另外之部分面積則設計成四線電阻式,並將設計好比 例之二合一觸控面板1 ’依所設計之圖案(Pattern) 經過一網印蝕刻製程,對該第一、二基板丄丄i、工 2 1上之透明導電薄膜1 1 2及第一、二透明導電薄 膜1 2 2 a、1 2 2 b蝕刻出所需圖形,並再以一網印 製程將所需圖形對該第—、二基板i i ii 2工進 行導電層印刷、間隔點印刷、絕緣層印刷及黏接層印 刷之後進行結構之固化貼合,並於切割成所設計之 尺寸後,將該軟性印刷電路板i丄4、丄2 5以熱壓 M344520 方式分別黏結至該導電層1 1 3及第一導電層i 2 3 a上,之後再進行線測製程,以確認該完成後之二合 ' —觸控面板1其線性係否正常。藉此,可將兩種不同 形式之四線電阻式與電容式之觸控面板設計於同一觸 控面板上,將部分為電容式之面積設計為全透明螢 幕,或可選擇搭配印刷銘版成為固定功能鍵之應用, 以及將部分為四線電阻式之面積設計為手寫板、全透 明螢幕或可選擇搭配印刷銘版成為固定功能鍵之應 用。因此,本創作之製程與傳統之四線電阻式相比, 僅需增加兩道印刷製程,無須另外添購其他特殊設 備,係具有高設備相容性,可在解決電容式觸控面板 無法用筆觸控及書寫感差之缺點同時,亦可解決四線 電阻式觸控面板耐用性不佳之缺點。 請參閱『第2圖及第3圖』所示,係分別為本創 作之第二實施例結構示意圖及本創作之第三實施例結 鲁 構示意圖。如圖所示:本創作之第二實施例相較於第 一實施例,其電容式主體11之第一基板除了 於下表面塗有一第一透明導電薄膜丄丄2a與一第一 導電層1 1 3a外,更進一步於其上表面塗有一第二 透明導電薄膜1 1 2b與一第二導電層1 1 3b,其 中,該第一導電層1 13a與第一實施例相同,其第 二面係與一第一軟性印刷電路板i i 4a連結,而該 第二導電層1 1 3 b之第二面則與一第二軟性印刷電 路板1 1 4b作連結,且該第二實施例之二合一觸控 12 M344520 面板1,其電谷式主體1丄與該四線電阻式主體丄2 係與第一貫施相同呈水平並列。 - 而本創作之第二實施例相較於第一實施例,係將 其電谷式主體1 1縮減於該四線電阻式主體1 2之下 方,彼此呈垂直並列。藉此,由上述各實施例可知, 本創作之電谷式主體1 1與四線電阻式主體丄2之組 合比例及其位置’係具有可以幾何方式調整之優點。 綜上所述,本創作係一種二合一觸控面板,可有 效改善習用之種種缺點,可將兩種不同形式之四線電 阻式與電容式之觸控面板設計於同一觸控面板上,藉 此將四線電阻式與電容式之優點整合在同一觸控面板 上,並且,與傳統之四線電阻式相比,僅需增加兩道 印刷^呈,無須另外添購其他特殊設備,係具有高設 備相谷1±,可在解決電容式觸控面板無法用筆觸控及 書寫感差之缺點同時,亦可解決四線電阻式觸控面板 ♦ 耐=性不佳之缺點,進而使本創作之產生能更進步、 -更實用 '更符合使用者之所須’確已符合創作專利申 請之要件,爰依法提出專利申請。 ▲准以上所述者,僅為本創作之較佳實施例而已, t不能以此限定本創作實施之範圍;故,凡依本創作 申請專利範ϋ及創作說明書内容所作之簡單的等效變 化與修飾,皆應仍屬本創作專利涵蓋之範圍内。 13 M344520 【圖式簡單說明】 ‘ 第1圖,係本創作之第一實施例結構示意圖。 第2圖,係本創作之第二實施例結構示意圖。 第3圖’係本創作之第三實施例結構示意圖。 第4圖,係習用之電阻式觸控面板作動示意圖。 第5圖’係f用之四線電阻式觸控面板電極結構示意The first substrate 1 1 1 is connected, the second surface is connected to a flexible printed circuit (FPC) 1 1 4 , and the four-wire resistive body 12 includes the first substrate The first substrate 11 1 is coated with a first transparent conductive film 1 2 2a and a first conductive layer 1 2 3a, and the first conductive layer 1 2 3a has a first surface and a second surface, the first surface of which is coupled to the first substrate 1 1 1 , the second surface is coupled to a first insulating layer 12 4 a and a flexible printed circuit board 1 2 5 as a link. The lower surface of the second substrate 1 2 1 is coated with a second transparent conductive film 1 2 2b and a second conductive layer 1 2 3b, and the second conductive layer 1 2 3b has a first surface and a second surface. The first surface of the surface is connected to the second substrate 112, and the second surface of the M344520 is connected to a second insulating layer i2bb, wherein the gas-substrate 1 1 1 and the second substrate are connected! 2 i is bonded by the adhesive layer ^6, and is located between the first and second substrates '1 1 χ, 丄 2 -:, between the transparent conductive films 122a, 122b: The first and second transparent conductive films 丄2 2a, 1 2 2 b are spaced apart by a distance of 1 2 7 ', wherein the first and second substrates are made of work, and the material of the 1 2 1 may be conductive polyethylene terephthalic Acidate (Polyethylene Terephth_e, pET), conductive glass and acryl. The above-mentioned 'construction _ combining the digital and analog advantages of the new two-in-one touch panel 1 , and the capacitive body 1 1 of the two-touch panel i and the four-wire resistive body 1 2 Horizontally juxtaposed. In the application of δ, the advantages of four-wire resistive and capacitive are integrated on the same touch panel. Firstly, the panel is cut according to different proportions, and part of the area of the panel is designed as a capacitor type, and the other part is designed as a four-wire resistor type, and the ratio of the two-in-one touch panel 1 ' Pattern of the design through a screen printing process, the first and second substrates 丄丄i, the transparent conductive film 1 1 2 on the work 2 1 and the first and second transparent conductive films 1 2 2 a, 1 2 2 b etch the desired pattern, and then perform the structure of the first and second substrates ii ii 2 by conductive printing, spacer printing, insulating layer printing and adhesive layer printing by a screen printing process. The cured printed circuit board is bonded to the designed size, and the flexible printed circuit boards i丄4 and 丄25 are respectively bonded to the conductive layer 113 and the first conductive layer i 2 3 by means of hot pressing M344520. On a, then the line testing process to confirm the completion of the two-in-one touch panel 1 linearity is normal. In this way, two different forms of four-wire resistive and capacitive touch panels can be designed on the same touch panel, and a part of the capacitive area is designed as a full-transparent screen, or alternatively, the printed version can be selected. The application of the fixed function keys, and the design of the area of the four-wire resistive type as a tablet, a full-transparent screen, or an optional printed version can be used as a fixed function key. Therefore, the process of this creation is only required to add two printing processes compared with the traditional four-wire resistive type, without the need to purchase other special equipment, and has high equipment compatibility, which can be used in solving the capacitive touch panel. The shortcomings of pen touch and poor writing can also solve the shortcomings of poor durability of the four-wire resistive touch panel. Please refer to FIG. 2 and FIG. 3 for a schematic view of the structure of the second embodiment of the present invention and a schematic diagram of the third embodiment of the present invention. As shown in the figure, in the second embodiment of the present invention, the first substrate of the capacitive body 11 is coated with a first transparent conductive film 2a and a first conductive layer 1 on the lower surface. Further, a surface of the third conductive film 1 1 2b and a second conductive layer 1 1 3b are further coated on the upper surface thereof, wherein the first conductive layer 1 13a is the same as the first embodiment, and the second surface thereof The second flexible printed circuit board ii 4a is coupled to the second flexible printed circuit board 1-4a, and the second flexible printed circuit board 141b is coupled to the second flexible printed circuit board 141b. Integral touch 12 M344520 panel 1, the electric valley body 1丄 and the four-wire resistive body 丄2 are horizontally juxtaposed with the first cross. - The second embodiment of the present invention, in contrast to the first embodiment, reduces its electric valley body 1 1 below the four-wire resistive body 12 and is vertically juxtaposed to each other. As a result, it can be seen from the above embodiments that the combination ratio of the electric valley main body 1 1 and the four-wire resistive main body 丄 2 and the position thereof thereof have the advantage of being geometrically adjustable. In summary, the present invention is a two-in-one touch panel, which can effectively improve various shortcomings of the conventional use, and can design two different types of four-wire resistive and capacitive touch panels on the same touch panel. Thereby, the advantages of the four-wire resistive type and the capacitive type are integrated on the same touch panel, and compared with the conventional four-wire resistive type, only two printings are required, and no additional special equipment is required. With high device phase-to-valley 1±, it can solve the shortcomings of the capacitive touch panel without pen touch and poor writing, and can also solve the shortcomings of the four-wire resistive touch panel. The production can be more progressive, more practical, more in line with the user's need to 'have met the requirements of the patent application, and file a patent application according to law. ▲The above is only the preferred embodiment of this creation. t can not limit the scope of this creation; therefore, the simple equivalent change made by the patent application and the content of the creation manual. And the modifications should still be within the scope of this creation patent. 13 M344520 [Simple description of the diagram] ‘The first diagram is a schematic diagram of the structure of the first embodiment of the creation. Fig. 2 is a schematic structural view of a second embodiment of the present invention. Fig. 3 is a schematic structural view of a third embodiment of the present invention. Figure 4 is a schematic diagram of the operation of a conventional resistive touch panel. Figure 5 shows the structure of the four-wire resistive touch panel electrode used in f
、【主要元件符號說明】 (本創作部分) 二合一觸控面板1 電各式(數位式)主體1 1 四線電阻式(類比式)主體i 2 第一基板1 1 1 透明導電薄膜112 第一透明導電薄膜112a 第二透明導電薄膜112b 導電層1 1 3 第一導電層11 3a 第一導電層1 1 3b 軟性印刷電路板114 第一軟性印刷電路板1 1 4 a 14 M344520 第二軟性印刷電路板114b 第二基板121 ^ 第一透明導電薄膜1 2 2a 第二透明導電薄膜1 2 2b 第一導電層1 2 3a 第二導電層1 2 3b 第一絕緣層1 2 4 a 第二絕緣層1 2 4b 軟性印刷電路板1 2 5 黏接層1 2 6 間隔點1 2 7 (習知部分) 氧化銦錫導電玻璃21 φ 氧化銦錫導電薄膜2 2 間隔球2 3 X層電阻膜3 1 X右電極3 1 1 X左電極3 1 2 Y層電阻膜3 2 Y右電極3 2 1 15 M344520 Y左電極3 2 2[Main component symbol description] (This creation part) 2-in-1 touch panel 1 Electric various (digital) main body 1 1 Four-wire resistive (analog) main body i 2 First substrate 1 1 1 Transparent conductive film 112 First transparent conductive film 112a second transparent conductive film 112b conductive layer 1 1 3 first conductive layer 11 3a first conductive layer 1 1 3b flexible printed circuit board 114 first flexible printed circuit board 1 1 4 a 14 M344520 second soft Printed circuit board 114b Second substrate 121 ^ First transparent conductive film 1 2 2a Second transparent conductive film 1 2 2b First conductive layer 1 2 3a Second conductive layer 1 2 3b First insulating layer 1 2 4 a Second insulation Layer 1 2 4b Flexible printed circuit board 1 2 5 Adhesive layer 1 2 6 Spacer 1 2 7 (conventional part) Indium tin oxide conductive glass 21 φ Indium tin oxide conductive film 2 2 Space ball 2 3 X layer resistive film 3 1 X right electrode 3 1 1 X left electrode 3 1 2 Y layer resistive film 3 2 Y right electrode 3 2 1 15 M344520 Y left electrode 3 2 2