M419158 五、新型說明: 【新型所屬之技術領域】 本創作是一種觸控面板,特別是指加強周邊及角落感 應信號強度的觸控面板。 【先前技術】M419158 V. New Description: [New Technology Field] This creation is a touch panel, especially a touch panel that enhances the signal strength of the surrounding and corners. [Prior Art]
請參考圖2所示,一般觸控面板係包含一基板2〇以 及形成在該基板20上的複數χ軸感應線路21與γ軸感應 線路22,各X軸感應線路21包含複數串接的X軸電極 210,各Y軸感應線路22包含複數串接的γ軸電極22〇, 且複數X軸感應線路21與Y軸感應線路22彼此絕緣交 錯’其中X、Y軸代表兩互為垂直的軸向。 該觸控面板上可覆蓋-保護玻璃,各χ、γ轴感應線 路21、22分別可由信號線連接到一外部的運算單元;使 :時’使用者可以手指接觸保護玻璃,因人體帶有電荷, 造成手指與觸控面板的電極之間產生電容變化,該運算單 几可偵測出電容變化並判讀出一座標。 人 τη奶"公攻JC崎 厶 鄰的X軸感應線路21 (例如 「yi 乙」)上的電 」、X2」皆會感應出信號’該 「y 1 「 %异早兀係 λ1」、「X2」感應到的信號強度而判斷碰觸點的位 例如「X1」感應到的信號強度大於「χ2」 、立 運專單元即判斷碰觸點靠近「χ 1」。 、強度 惟,位在最外相對兩側的X輛感應線路「 M419158 X5」中’「X0j的左侧與「X5」的右側皆無形成任何 感應線路,因此當使用者碰觸到「Xo」的左側或「χ5」的 右側時’僅有「X。」或「Χ5」的電極側緣會感應出訊號, 此訊號係相對微弱,可能無法供運算單元判斷出座標;此 外,隨著觸控面板應用的電子產品不同(如+機、平板電腦 等),該保護玻璃的材質、厚度也不同’若該保護玻璃形成 的厚度較厚,或是保護玻璃本身選肖導電係、數較低的材 質,將使手指與電極間電容變化不顯著,導致感應到的信 號更微弱。 【新型内容】 因此本創作的主要目的是提供—種加強周邊及角落感 應信號強度的觸控面板,透過本創作觸控面板的構造,以 加強觸控面板周邊的訊號強度。 為達前揭目的,本創作所採用的技術手段是提供一種 加強周邊及角落感應信號強度的觸控面板,其包含有: 一基板; 兩X軸周邊感應線路,形成在該基板上且於基板周邊 呈相對設置’纟X軸周邊感應線路係由複數χ軸電極串接 構成’且各個X軸電極外側對應連接—個χ轴輔助電極; 複數X軸内側感應線路,形成在該基板上且平均排列 在該兩X軸周邊感應線路之間,纟χ轴内側感應線路係由 複數X軸電極串接構成; 兩丫軸周邊感應線路,形成在該基板上且於基板周邊 王相對置’各Υ轴周邊感應線路係由複數丫軸電極串接 構成’且各個丫轴電極外 !對應連接一個γ軸輔助電極; 複數Y轴内側感應線路,形成在該基板上且平均排列 在6玄兩Y軸周邊感應線 ...L w 之間,各γ轴内側感應線路係由 複數丫軸電極串接構成。 本創作提供另-加強周邊及角落感應信號強度的觸控 面板,其包含有: 一第一基板; 〜兩X軸周邊感應線路,形成在該第一基板上表面且於 ^基板周邊呈相對設置,〖χ軸周邊感應線路係由複數 電極串接構成’且各個X軸電極外側對應連接—個X 軸輔助電極; 複數X轴内側感應線路,形成在該第一基板上表面且 第二基板,透過一絕緣膠層貼合於該第一基板上 二在該兩X軸周邊感應線路之間,…内側感應 線路係由複數X轴電極_接構成; 方; 兩Υ軸周邊感應線路,形成在該第二基板下表面且於 :板周邊呈相對設置,〖γ軸周邊感應線路係由複數Υ轴 電極串接構成’且各個Υ軸電極外側對應連接一個 助電極; 神罕南 複數γ軸内側感應線路,形成在該基板下表面且平均 ,列在4兩γ轴周邊感應線路之間,各丫軸内側感應線路 係由複數γ軸電極串接構成。 根據上述構造’料相對最外㈣X、丫轴周邊感應 而5,皆係於一電極連接一輔助電極,令X軸電極、 X轴輔助電極共構形成—較大的感應面積,J_ Y軸電極、 1角轴輔Γ極亦構成較Α㈣應面積,藉由觸控面板周邊 ’:二;應,面積的提升,有效提升觸控面板於周邊與角落 號強度’ Α當觸控面板上的感應線路連接到外部的運 :::::因觸控面板周邊與角落信號已獲加㊣,而可提 升運开早兀判讀座標的準確度。 【實施方式】 該較=二?示’係本創作的一較佳實施例示意圖, 面二Γ:有一基板1〇、以及形成在該基板表 ’兩個X軸周邊感應線 ,P x .w 復数X軸内側感應線路 X Y軸周邊感應線路1 3盘複數γ 14,盆 ^ /、復數丫軸内側感應線路 :中X、Υ軸代表兩互為垂直的軸向。 :亥兩X軸周邊感應線路…系於基板 置’即如圖1中的「X ί〇Χ ,^ 」和Χ5」’各X軸周邊感庫蠄 路11係由複數X軸電極11〇串垃Μ ㈣遭戊應線 1 1 Ω y I 0L. 串接構成,且各個X轴電極 110外側對應連接—個X軸輔助電極川。 該複數X軸内側感應線路12 周邊感應線路η之間,各χ “ 卜列在為兩X軸 X轴電極⑽串接構成? 感應線路12係由複數 ^ ¥接構成’如圖1中的「XI」〜rX4」。 該兩丫軸周邊感應線路13 置’即如…的「丫〇」和「Υ7 ; γ周邊呈相對設 路13係由複數丫轴電極130串二各Υ軸周邊感應線 ㈣外側對庫連接個丫广接構成’且各個丫轴電極 —愿連接一個丫軸輔助電極131。 該複數Υ軸内侧感應線路14 #平Θ Μ M + t 不w I今係十均排列在該兩丫軸 M419158 周邊感應線路1 3之間,各γ軸内側感應線路彳4係由複數 丫軸皂極140串接構成,如圖1中的「丫1」〜「丫6」。 此外,尚有另一種觸控面板,係在一第一基板上表面 形成兩X轴周邊感應線路,及在兩χ軸周邊感應線路之間 平均排列複數X軸内側感應線路,於一第二基板下表面形 成兩個丫轴周邊感應線路,及在兩γ軸周邊感應線路之間 平均排列複數Υ軸内側感應線路,該第二基板透過一絕緣 膠層貼合於該第一基板上方’該第二基板由該絕緣膠層使 第一基板上的感應線路電性絕緣於第二基板上的感應線 路;因第一基板上的X軸周邊感應線路與χ軸内側感應線 路的結構係分別相同於第-較佳實施例的χ軸周邊感應線 路與X車由内側感應線路的結構’且第二基板上# 丫軸周邊 感2線路與Y軸内側感應線路的結構係分別相同於第一較 佳實施例的Y軸周邊感應線路與Y軸内側感應線路的結 構在此不再贅述,僅以第一較佳實施例舉例說明。 第較佳貫施例中’ X、Y軸電極11 〇、120、1 30、 14〇係形成菱形,@ χ轴輔助電極川的形狀係形成三角 开y,並使二角形的面積小於完整菱形對分後的面積;同樣 地,Y軸輔助電極131的形狀係形成三角形,並使三角形 的面積小於完整菱形對分後的面積。 使用時,若觸碰觸控面板的周邊或角落區域,對於各 Y軸周邊感應線路13而言’ Y軸辅助電極131與γ軸電 極=30共構形成一較大的感應面積,由γ軸輔助電極131 補仏Y軸電極1 30之感應信號;同理,對於各χ轴周邊感 應線路1 1而言’ X軸輔助電極)i i肖X軸電極j 〇共構 7 M419158 形成一較大的感應面積,可由X軸辅助電極111補償X轴 電極110之感應信號;於是,觸控面板周邊及角落的感應 L號係由X' γ軸辅助電極獲得補償,係有效提升觸控面 板周邊及角落的感應效果;同時也因感應信號的強度增 加’供運算單元可更準確地判讀座標。 【圖式簡單說明】 圖1 :本創作的較佳實施例示意圖。 圖2:已知觸控面板示意圖。 【主要元件符號說明】 10基板 11 〇 X軸電極 1 2 X軸内側感應線路 1 3 丫軸周邊感應線路 131 丫軸辅助電極 140 Y軸電極 21 X輪感應線路 2 2 Y轴感應線路 11 X軸周邊感應線路 11 1 X軸辅助電極 120 X軸電極 130 Y軸電極 14 丫軸内側感應線路 20基板 21 0 X轴電極 220 Y轴電極Referring to FIG. 2 , a general touch panel includes a substrate 2 and a plurality of x-axis sensing lines 21 and γ-axis sensing lines 22 formed on the substrate 20 . Each of the X-axis sensing lines 21 includes a plurality of Xs connected in series. The shaft electrode 210, each of the Y-axis sensing lines 22 includes a plurality of γ-axis electrodes 22〇 connected in series, and the plurality of X-axis sensing lines 21 and the Y-axis sensing lines 22 are insulated from each other. The X and Y axes represent axes perpendicular to each other. to. The touch panel can cover the cover glass, and the χ and γ-axis sensing lines 21 and 22 can be respectively connected to an external computing unit by signal lines; so that the user can touch the protective glass with the finger, because the human body has a charge , causing a change in capacitance between the finger and the electrode of the touch panel, the operation single can detect the change of the capacitance and judge the reading of a target. Τη奶"The attack on the J-axis sensing line 21 (such as "yi yi") on the JC rugged neighbors, "X2" will induce the signal 'the y 1 '% 早 兀 λ λ1', The signal strength sensed by "X2" determines that the bit of the touch contact, for example, the signal intensity sensed by "X1" is greater than "χ2", and the stand-up unit determines that the touch contact is close to "χ1". The intensity is only in the X sensor line "M419158 X5" on the outermost side. "The left side of X0j and the right side of "X5" do not form any sensing line, so when the user touches "Xo" On the left side or the right side of "χ5", only the side edge of the electrode of "X." or "Χ5" will sense the signal. This signal is relatively weak and may not be used by the computing unit to determine the coordinates. In addition, with the touch panel The applied electronic products are different (such as + machine, tablet computer, etc.), the material and thickness of the protective glass are different. 'If the thickness of the protective glass is thicker, or the protective glass itself is selected as a conductive material and a lower number of materials. , the capacitance between the finger and the electrode will not change significantly, resulting in a weaker signal. [New content] Therefore, the main purpose of this creation is to provide a touch panel that enhances the intensity of the surrounding and corner sensing signals. The structure of the touch panel is used to enhance the signal strength around the touch panel. For the purpose of the prior art, the technical means adopted by the present invention is to provide a touch panel for enhancing the intensity of the surrounding and corner sensing signals, comprising: a substrate; two X-axis peripheral sensing lines formed on the substrate and on the substrate The periphery is in a relative setting of '纟X-axis peripheral sensing circuit is composed of a plurality of x-axis electrodes connected in series' and each X-axis electrode is connected to the outside of the x-axis auxiliary electrode; a plurality of X-axis inner sensing lines are formed on the substrate and averaged Arranged between the two X-axis peripheral sensing lines, the inner sensing circuit of the x-axis is composed of a plurality of X-axis electrodes connected in series; the two-axis peripheral sensing lines are formed on the substrate and are opposite to each other on the substrate periphery. The shaft peripheral sensing circuit is composed of a plurality of x-axis electrodes connected in series and each of the x-axis electrodes is externally connected to a γ-axis auxiliary electrode; a plurality of Y-axis inner sensing lines are formed on the substrate and are arranged on the average of 6 Xuan two Y-axis Between the peripheral sensing lines ... L w , the inner sensing lines of the respective γ-axis are formed by connecting a plurality of x-axis electrodes in series. The present invention provides another touch panel for enhancing the intensity of the peripheral and corner sensing signals, comprising: a first substrate; and two X-axis peripheral sensing lines formed on the upper surface of the first substrate and disposed opposite to each other on the periphery of the substrate , the peripheral sensing circuit of the x-axis is composed of a plurality of electrodes connected in series, and each X-axis electrode is connected to the outside of the X-axis auxiliary electrode; a plurality of X-axis inner sensing lines are formed on the upper surface of the first substrate and the second substrate, Attached to the first substrate through an insulating layer, and between the two X-axis peripheral sensing lines, the inner sensing circuit is composed of a plurality of X-axis electrodes _ connected; square; two yoke peripheral sensing lines are formed in The lower surface of the second substrate is oppositely disposed on the periphery of the plate, and the sensing circuit of the γ-axis is formed by a plurality of Υ-axis electrodes connected in series, and an auxiliary electrode is connected to the outside of each of the Υ-axis electrodes; The sensing lines are formed on the lower surface of the substrate and are averaged between the two γ-axis peripheral sensing lines, and the inner sensing circuits of the respective y-axis are formed by connecting a plurality of γ-axis electrodes in series. According to the above structure, the material is relatively independent (four) X, the periphery of the x-axis is induced, and 5 is connected to an auxiliary electrode by an electrode, so that the X-axis electrode and the X-axis auxiliary electrode are co-constructed - a large sensing area, J_Y-axis electrode The 1 corner auxiliary Γ 亦 亦 亦 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 触控 触控 触控 触控 触控 触控 触控 触控 触控 触控 触控 触控 触控 触控 触控 触控 触控 触控 触控 触控 触控 触控 触控 触控 触控 触控 触控The line is connected to the outside of the transport::::: Because the signal and the corner signal of the touch panel have been corrected, the accuracy of the early reading of the coordinates can be improved. [Embodiment] The comparison = two? A schematic diagram of a preferred embodiment of the present invention is shown in FIG. 2: a substrate 1 〇, and two X-axis peripheral sensing lines formed on the substrate table, P x .w plural X-axis inner sensing line XY axis Peripheral sensing line 1 3 disk complex γ 14, pot ^ /, complex 丫 axis inner induction line: the middle X, Υ axis represents the two perpendicular to each other. :Hai X-axis peripheral sensing line... is placed on the substrate. That is, "X 〇Χ , ^ ” and Χ 5 ′′ in each of the X-axis peripherals of the X-axis are connected by a plurality of X-axis electrodes 11 The Μ (4) is formed by a series of 1 1 Ω y I 0L., and the X-axis auxiliary electrode is connected to the outside of each X-axis electrode 110. The plurality of X-axis inner sensing lines 12 are connected between the peripheral sensing lines η, and the respective columns are formed by connecting the two X-axis X-axis electrodes (10) in series. The sensing circuit 12 is composed of a plurality of terminals, as shown in FIG. XI"~rX4". The two-axis peripheral sensing line 13 is set to be "丫〇" and "Υ7; γ peripherally oppositely disposed 13 is composed of a plurality of 丫-axis electrodes 130 and two Υ-axis peripheral sensing lines (four) outside the library connection丫 接 构成 且 且 且 且 且 且 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿 愿Between the sensing lines 13 and γ-axis inner sensing lines 彳4, the plurality of 丫-axis soap poles 140 are connected in series, as shown in Fig. 1 from "丫1" to "丫6". In addition, there is another touch panel in which two X-axis peripheral sensing lines are formed on the upper surface of the first substrate, and a plurality of X-axis inner sensing lines are evenly arranged between the sensing lines of the two axes, on a second substrate. The lower surface forms two x-axis peripheral sensing lines, and an average number of inner side induction lines are arranged between the two gamma-axis peripheral sensing lines, and the second substrate is adhered to the first substrate through an insulating layer. The second substrate is electrically insulated from the sensing line on the first substrate by the insulating layer; the X-axis peripheral sensing line on the first substrate and the inner sensing line of the first axis are respectively identical to each other; The structure of the x-axis peripheral sensing line of the first preferred embodiment and the structure of the inner side sensing line of the X-vehicle and the structure of the left-side sensing line 2 and the Y-axis inner sensing line of the second substrate are respectively the same as the first preferred embodiment. The structure of the Y-axis peripheral sensing line and the Y-axis inner sensing line of the embodiment will not be described herein, but is exemplified by the first preferred embodiment. In the preferred embodiment, the 'X, Y-axis electrodes 11 〇, 120, 1 30, 14 形成 form a diamond shape, and the shape of the @ χ axis auxiliary electrode forms a triangular opening y, and the area of the digonal shape is smaller than the complete diamond shape. The area after the division; likewise, the shape of the Y-axis auxiliary electrode 131 is formed into a triangle, and the area of the triangle is smaller than the area after the complete diamond is divided. In use, if the peripheral or corner area of the touch panel is touched, the Y-axis auxiliary electrode 131 and the γ-axis electrode=30 are co-constructed to form a large sensing area for each Y-axis peripheral sensing line 13 by the γ-axis. The auxiliary electrode 131 complements the sensing signal of the Y-axis electrode 1 30; similarly, for each of the x-axis peripheral sensing lines 1 1 'X-axis auxiliary electrode' ii Xiao X-axis electrode j 〇 Co-construction 7 M419158 forms a larger The sensing area can be compensated by the X-axis auxiliary electrode 111 for the sensing signal of the X-axis electrode 110; thus, the sensing L of the periphery and corners of the touch panel is compensated by the X' γ-axis auxiliary electrode, which effectively improves the periphery and corner of the touch panel. The sensing effect; at the same time, due to the increased intensity of the sensing signal, the arithmetic unit can interpret the coordinates more accurately. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view of a preferred embodiment of the present creation. Figure 2: Schematic diagram of a known touch panel. [Major component symbol description] 10 substrate 11 〇 X-axis electrode 1 2 X-axis inner sensing line 1 3 丫 axis peripheral sensing line 131 丫 axis auxiliary electrode 140 Y-axis electrode 21 X-wheel sensing line 2 2 Y-axis sensing line 11 X-axis Peripheral sensing line 11 1 X-axis auxiliary electrode 120 X-axis electrode 130 Y-axis electrode 14 丫-axis inner sensing line 20 substrate 21 0 X-axis electrode 220 Y-axis electrode