201007540 九、發明說明: 【發明所屬之技術領域】 本案係關於一種觸控面板,特別是g於一種電阻式觸控 【先前技術】 • 請參照第1圖,其為習用電阻式觸控面板的基本結構的 . 剖面侧視圖。其中,基本結構1包括一上導電層π、一下導 ❹ 電層12、及多個間隙物(spacer)13。在基本結構1中,上導電 層 11 的製造材料是 PET(P〇lyEthyleneTerephthalate,聚對苯 二甲酸乙二I旨)’其下表面上塗射一層錮錫氧化物(祕咖 〇xide,IT0)層U1。另一方面,下導電層12的製造材料 是PET或是玻璃’其上表面同樣塗佈了一層銦錫氧化物層 12卜上導電層11與下導電層12之間則以間隙物13分隔, 藉以避免無觸摸時造成短路而產生誤動作。 請繼續參照第2圖,其為習用五線電阻式觸控面板的工 讓 作原理示意圖。對於五線電阻式觸控面板2而言,其且有上 導電層21與下導電層22,上導電層2】及下導電層^中間 亦以間隙物23(圖中未示出)分隔。下導電層22的四周圍分別 設置了複數條分壓電極與複數條輔助電極,而位於相對邊的 分麼電極__極是彼醉行,錄柿邊的分壓電極與 _其中—_互平行之對邊的分壓 電極與輔助電極共同形成二條χ電路221、221,,而位於另 -組相互平狀對邊的分_極與獅共卿成二條γ 雷路 222、222’。 5 201007540 承上’利用二條X電路221、221,之間形成一個5V的電 .M降’並且利用二條Y電路222、222,之間形成另-個5V的 *電壓降。當觸控面板2被使用者觸碰時,便能夠藉由上導電 *層21來偵測出下導電層22被觸碰所在點的的電壓大小,所 侧到的電壓值傳送給控制器(圖中未示出)後取得其座標 值。 對於五線電阻式觸控面板來說’由於上導電層21本身是 -個均勻的導電層’因此其上任何一個點皆可用於傳輪電壓。 • 然而,對於上述的習用五線電阻式觸控面板來說,由於 其债測電_方式為類比式,因此僅能細單點觸碰值,對 於一點以上的夕點觸碰來說,不是會產生無讀取動作的反 應,就是產生讀取到未達實際值的中間值的反應。對於使用 者來說,實用性不足。 職是之故’申請人鑑於習知技術中所產生之缺失,經過 悉心試驗與研究’並一本鍥而不捨之精神,終構思出本案的 多點觸控電阻式觸控面板,以下為本案之簡要說明。 【發明内容】 基於前述的先前技術’有必要構思_種具多點偵測功能 的電阻式觸控面板’以祈藉由類比式觸控面板便能達成數位 式觸控面板所能達到的多點偵測效果。 根據上述構想’申請人構思出了一種電阻式觸控面板, 包括:一下基板,其上具有一第一導電層,該第一導電層上 具有複數條分壓雜與複絲獅電極;—上基板,其具有 朝向該第-導電層的—第二導電層,該第二導電層上具有複 6 201007540 一導電區:各該導電區彼此電性絕緣,且至少一導電區具 - ^接尨號線;及複數個間隙物,設於該第一導電層與該 電層之間,其中該電阻式觸控面板被觸碰時,該第二 —=層藉由至少二個該導電區而與該第-導電層彼此同時i =通i辦鍵電極與側助電極針對電性導通的各 該導電區提供—電壓值,细該等外接信麟以侧該等電 壓值藉以判斷該電阻式觸控面板上的哪些點或區 觸碰。 町 • 、因此’本案所提供的電阻式觸控面板可以達成能约精確 地判斷出其上的哪些點被同時觸碰的效果,僅需利用製造類 比式觸控面板的成本便能夠達成數位式觸控面板才能達到的 多點偵測效果。 本案得藉由下列圖式及詳細說明,俾得更深入之了解. 【實施方式】 請參閱第3(A)圖與第3(B)圖’其分別為本案所提出電阻 • 式觸控面板的基本結構的剖面侧視圖以及上、下基板的透明 上視圖。在第3(A)圖中,基本結構3主要包含一上基板31、 一下基板32以及複數個間隙物33,且下基板32上具有一第 一導電層34。 請參閱第3(B)圖,其與第2圖的配置相同,第一導電層 34的四周圍分別設置了由複數條分壓電極與複數條輔助電 極所構成的二條X電路321、321’與二條γ電路322、322,, 利用這對X電路以及這對Υ電路,便可用以分別形成一個 5V的電壓降。 7 201007540 f二導電層311,藉由分區塗佈—導電材質 ==,使得第二導電層311上具有複數個導電以 導電區崎齡时柄枝,使得各該 道带ΐ於複數個卿物的功用則與先前技術相同,設於第-1層34與第二導電層311之間,用以避免該電阻式觸^面 板未被觸摸時造成短路而產生誤動作。 二 由於上基板31的第二導電層311因視需要而 此電性絕緣的複數個導電區,且其巾存在 有一外接信躲;因此,當該電阻式難面板3上有至少^ 個點被同時觸碰時,第二導電層311藉由至少二個該導電^ 而與第-導電層34彼此同時電性導通,此時該對X電ς 32卜321’與該對γ電路322、322,針對電性導通的各該導電 區提供一電壓值,因此經由該等外接信號線偵測每一個電壓 值,便能夠判斷及偵測出電阻式觸控面板3上的哪些點或區 域被同時觸碰,以達成數位式觸控面板才能達到的^點偵二 效果。 需要注意的是,前述「複數個導電區中存在至少一個導 電區具有一外接信號線」包括了「複數個導電區中的每一個 導電區皆具有一外接信號線」或「複數個導電區中僅部分的 導電區分別具有一外接信號線」等情況。此外,各導電區所 連接的外接信號線的個數亦不設限,可視設計上的需求而自 由變更。 關於電阻式觸控面板的基本結構3中的各組成材料則與 8 201007540 先前技術相同,上基板31與下基板32的製造材料係包含但 不限於PET、聚碳酸脂(PC)、玻璃或是其他透明或不透明的 基板製作材料。此外,第一導電層34與第二導電層311的製 造材料則皆係包含但不限於銦錫氧化物(IT〇)、氟錫氧化物 (Fluorine Tin Oxide,FTO)、銻錫氧化物(Antimony Till Oxide, ΑΤΟ)、碳墨導電物(Carbonate)或是類似的導電物質。 本案並未限制劃分導電區的方法,如第四圖之第二導電 層的上視圖所示,可以將導電區劃分為具有不同形狀的二個 (如第4(A)圖所示的導電區A1與A2),或是將導電區劃分為 具有不同形狀的四個(如第4(B)圖所示的等電區A1、A2、A3 與A4) ’當然也可以將導電_分為具有_形狀的η χ ^ 個(如第4(C)圖所示)。201007540 IX. Description of the invention: [Technical field of the invention] The present invention relates to a touch panel, in particular, a resistive touch [Prior Art] • Please refer to FIG. 1 , which is a conventional resistive touch panel Basic structure. Sectional view. The basic structure 1 includes an upper conductive layer π, a lower conductive layer 12, and a plurality of spacers 13. In the basic structure 1, the upper conductive layer 11 is made of PET (P〇lyEthyleneTerephthalate, polyethylene terephthalate), and a layer of bismuth tin oxide (IT0) is coated on the lower surface. U1. On the other hand, the material of the lower conductive layer 12 is made of PET or glass. The upper surface thereof is also coated with a layer of indium tin oxide. The upper conductive layer 11 and the lower conductive layer 12 are separated by a spacer 13 . In order to avoid a short circuit caused by no touch, a malfunction occurs. Please continue to refer to Figure 2, which is a schematic diagram of the working principle of the conventional five-wire resistive touch panel. For the five-wire resistive touch panel 2, the upper conductive layer 21 and the lower conductive layer 22 are separated from each other by the spacers 23 (not shown). A plurality of voltage dividing electrodes and a plurality of auxiliary electrodes are respectively disposed around the lower conductive layer 22, and the electrode __ is located in the opposite side of the lower electrode layer, and the partial pressure electrode of the persimmon side and the _ among the _ The parallel divided electrode and the auxiliary electrode form two χ circuits 221 and 221, and the _ poles located at the other side of the other group and the lion are formed into two γ ray paths 222, 222'. 5 201007540 The use of two X circuits 221, 221, forming a 5V electric .M drop ' and using the two Y circuits 222, 222, forming another -5V * voltage drop. When the touch panel 2 is touched by the user, the voltage of the point at which the lower conductive layer 22 is touched can be detected by the upper conductive layer 21, and the voltage value of the side is transmitted to the controller ( The coordinate value is obtained after not shown in the figure. For a five-wire resistive touch panel, since the upper conductive layer 21 itself is a uniform conductive layer, any point on it can be used for the transmission voltage. • However, for the above-mentioned conventional five-wire resistive touch panel, since the debt measurement method is analogous, only a single touch value can be used. For a point touch or more, it is not A reaction that produces a read-free action is a reaction that produces an intermediate value that is read to an unrealized value. For the user, the practicality is insufficient. The post is the reason for the applicant's lack of knowledge in the prior art. After careful experimentation and research' and a perseverance, the multi-touch resistive touch panel of this case was conceived. The following is a brief summary of the case. Description. SUMMARY OF THE INVENTION Based on the foregoing prior art, it is necessary to conceive a resistive touch panel with multi-point detection function, which can achieve a digital touch panel with an analog touch panel. Point detection effect. According to the above concept, the applicant has conceived a resistive touch panel, comprising: a lower substrate having a first conductive layer thereon, the first conductive layer having a plurality of partial pressure and multifilament lion electrodes; a substrate having a second conductive layer facing the first conductive layer, the second conductive layer having a plurality of conductive regions: 201007540: each of the conductive regions is electrically insulated from each other, and at least one conductive region has a junction And a plurality of spacers disposed between the first conductive layer and the electrical layer, wherein when the resistive touch panel is touched, the second layer is replaced by at least two of the conductive regions Simultaneously with the first conductive layer, i = the key electrode and the side auxiliary electrode provide a voltage value for each of the conductive regions electrically connected, and the external contact pins determine the resistance type by using the voltage values on the side Which points or areas on the touch panel touch.町・, Therefore, the resistive touch panel provided in this case can achieve the effect of accurately determining which points on the screen are touched at the same time, and only need to use the cost of manufacturing analog-type touch panels to achieve digital The multi-point detection effect that the touch panel can achieve. This case can be further understood by the following diagrams and detailed descriptions. [Embodiment] Please refer to Figure 3(A) and Figure 3(B) for the resistance touch panel proposed in this case. A cross-sectional side view of the basic structure and a transparent top view of the upper and lower substrates. In the third (A) diagram, the basic structure 3 mainly includes an upper substrate 31, a lower substrate 32, and a plurality of spacers 33, and the lower substrate 32 has a first conductive layer 34 thereon. Referring to FIG. 3(B), which is the same as the configuration of FIG. 2, two X circuits 321 and 321' composed of a plurality of voltage dividing electrodes and a plurality of auxiliary electrodes are disposed around the first conductive layer 34. With the two gamma circuits 322, 322, the pair of X circuits and the pair of Υ circuits can be used to form a voltage drop of 5V, respectively. 7 201007540 f two conductive layer 311, by partition coating - conductive material ==, so that the second conductive layer 311 has a plurality of conductive strips at the age of the conductive region, so that each of the strips is tied to a plurality of objects The function is the same as that in the prior art, and is disposed between the first layer 34 and the second conductive layer 311 to prevent a malfunction caused by the short circuit caused by the resistive touch panel being untouched. 2, because the second conductive layer 311 of the upper substrate 31 is electrically insulated from the plurality of conductive regions as needed, and the towel has an external contact hiding; therefore, when the resistive hard panel 3 has at least ^ points When touched at the same time, the second conductive layer 311 is electrically connected to the first conductive layer 34 by at least two of the conductive layers, and the pair of X-electrode 32 321 ' and the pair of γ circuits 322 and 322 Providing a voltage value for each of the electrically conductive regions of the electrical conduction, so that each of the voltage values is detected through the external signal lines, and it can be determined and detected which points or regions on the resistive touch panel 3 are simultaneously Touch to achieve the effect of the digital touch panel to achieve the second point detection effect. It should be noted that the foregoing “the presence of at least one conductive region in the plurality of conductive regions has an external signal line” includes “each of the plurality of conductive regions has an external signal line” or “in the plurality of conductive regions” Only a part of the conductive areas have an external signal line, and the like. In addition, the number of external signal lines connected to each conductive area is not limited, and can be freely changed according to the requirements of the visual design. The constituent materials in the basic structure 3 of the resistive touch panel are the same as those in the prior art of 2010201040. The materials for manufacturing the upper substrate 31 and the lower substrate 32 include, but are not limited to, PET, polycarbonate (PC), glass, or Other transparent or opaque substrate fabrication materials. In addition, the materials for manufacturing the first conductive layer 34 and the second conductive layer 311 include, but are not limited to, indium tin oxide (IT〇), fluorine tin oxide (FTO), antimony tin oxide (Antimony). Till Oxide, ΑΤΟ), carbon ink (Carbonate) or similar conductive material. The present invention does not limit the method of dividing the conductive region. As shown in the upper view of the second conductive layer in the fourth figure, the conductive region can be divided into two having different shapes (such as the conductive region shown in FIG. 4(A). A1 and A2), or divide the conductive area into four having different shapes (such as the isoelectric areas A1, A2, A3, and A4 shown in Fig. 4(B)). Of course, the conductive_ can also be divided into η χ of the shape _ (as shown in Figure 4 (C)).
除了上述三種例示之外,只要把握住本案申請專利範圍 的上位概念’熟f本項技術者還可以料電區劃分為具有幅 射形狀的人個(如第4(D)圖所示的導電區A1至A8),或者是 將導電區劃分為具有不同幾何形狀、但每—導電區皆與導電 層的邊緣相接的複數個(如第4(E)圖所示的導電區ai至Μ)。 雖然本案是以前述的五種實施例來作說明,但在本案的 ’導電區的形狀與數目並非重點,只要視設計上的需 ^來^行即可’對於闕本項技術者來說,導電區的數目越 多’其所構成的類比摘控面板的敏感度當然也就越高。 雷思ί上所述’本案提供—種電阻搞控祕,藉由對上導 ,層進仃電性上的切割’使得所製作出來的類 能夠達成麟獅地卿ώ其上的 的效果’僅需利用製造類比式觸控 9 201007540 位式觸控面板才能達到的多點偵測效果。 本案得由熟悉本技藝之人士任施匠思而為諸般修飾,然 皆不脫如附申請專利範圍所欲保護者。 【圖式簡單說明】 習,用電阻式觸控面板的基本結構的剖面侧視圖。 第圖:各用五線電阻式觸控面板的碎原理示意圖。 參 第3(A)圖:本案所提出電阻式觸控面板的基本結構的剖 面侧視圖。 ,3^)圖:本案所提出電阻式觸控面板的上、下基板的 透明上視圖。 第4⑷〜4(E)圖:本案作為例示的五種第二導電層的上 祝圖。In addition to the above three examples, as long as the concept of the patent application scope of the present application is grasped, the technician can also divide the electric area into persons having a radiation shape (such as the conductivity shown in Fig. 4(D). Zones A1 to A8), or a plurality of conductive regions are divided into different geometric shapes, but each conductive region is in contact with the edge of the conductive layer (such as the conductive region ai to 第 shown in Fig. 4(E) ). Although the present case is illustrated by the above five embodiments, the shape and number of the conductive regions in this case are not important, as long as the design needs to be ^^^^, for the technical person, The greater the number of conductive zones, the higher the sensitivity of the analog control panel. Lei Si 上 on the 'this case provides a kind of resistance to control secrets, by the upper guide, the layer of the electrical cutting, so that the produced class can achieve the effect of Lin Shidi Qing '' Only need to make multi-point detection effect that can be achieved by manufacturing Analog Touch 9 201007540 bit touch panel. This case has been modified by those who are familiar with the art, but it is not intended to be protected by the scope of the patent application. [Simple description of the drawing] A cross-sectional side view of the basic structure of a resistive touch panel. Figure: Schematic diagram of the broken principle of each five-wire resistive touch panel. Refer to Fig. 3(A): a cross-sectional side view showing the basic structure of the resistive touch panel proposed in the present invention. , 3^) Figure: Transparent top view of the upper and lower substrates of the resistive touch panel proposed in this case. 4(4) to 4(E): This is an illustration of the five second conductive layers exemplified in the present case.
【主要元件符號說明】 1、2、3電阻式觸控面板 12、22下導電層 111、121銦錫氧化物層 222、222Ύ 電路 32下基板 34第一導電層 322、322Ύ 電路[Main component symbol description] 1, 2, 3 resistive touch panel 12, 22 lower conductive layer 111, 121 indium tin oxide layer 222, 222 电路 circuit 32 lower substrate 34 first conductive layer 322, 322 电路 circuit
Al、A2、A3、A4、A5、 11、21上導電層 13、23、33間隙物 22卜221’X電路 31上基板 311第二導電層 321、32ΓΧ 電路 、Α7、Α8導電區Al, A2, A3, A4, A5, 11, 21 on the conductive layer 13, 23, 33 spacers 22 221'X circuit 31 upper substrate 311 second conductive layer 321, 32 电路 circuit, Α 7, Α 8 conductive area