M440478 五、新型說明: 【新型所屬之技術領域】 本創作係關於一種電容式觸控感測器,尤指一單層結 構的電容式觸控感測器。 【先前技術】 圖1為習知電容式觸控感測器1的電極圖案不意圖。 如圖1所示,電容式觸控感測器1係在一基板表面以第一 次製程佈設二相鄰之第一軸向電極區塊10、第一軸向導線 11及二相鄰之第二軸向電極區塊12,第一軸向導線11係 連接該些第一軸向電極區塊10,且該些第二軸向電極區塊 12係分置於第一軸向導線11雙側,以第二次製程於第一轴 向導線11上覆蓋一絕緣層15,並以第三次製程於該些第二 軸向電極區塊12之間連接一金屬製之第二軸向導線13,而 使第一軸向導線11與第二軸向導線13之間形成電性絕緣 ,以構成一觸控電路圖形。由此可知,習知電容式觸控感 測器1的製程繁瑣,且成本高昂,而且連接第一、二軸向 電極區塊10、12的第一、二電極引線14、16皆為金屬材 質,占據一部分的觸控區域,所以導致觸控電子產品的螢 幕相對較小。 【新型内容】 本創作之主要目的在於提供一種電容式觸控感測器, 具有產品輕薄及製造成本低等功效。 本創作之另一目的在於提供一種電容式觸控感測器, 可以增加觸控時的面積,進而增加感應的精確度。 3/10 M440478 對較小。 本創作之又一目的在於提供一種電容式觸控感測器, 第一、二電極引線的設置不會導致觸控電子產品的螢幕相 根據本揭露書電容式觸控感測器之實施例,一種電容 式觸控感㈣’包括:複數條第—電極引線,其中該每一M440478 V. New Description: [New Technology Field] This is a capacitive touch sensor, especially a single-layer capacitive touch sensor. [Prior Art] FIG. 1 is a schematic view of an electrode pattern of a conventional capacitive touch sensor 1. As shown in FIG. 1 , the capacitive touch sensor 1 is configured to dispose two adjacent first axial electrode blocks 10 , first axial wires 11 and two adjacent ones on a substrate surface in a first process. The two axial electrode blocks 12 are connected to the first axial electrode blocks 10, and the second axial electrode blocks 12 are disposed on both sides of the first axial wire 11 An insulating layer 15 is covered on the first axial wire 11 by a second process, and a second axial wire 13 made of metal is connected between the second axial electrode blocks 12 by a third process. The first axial wire 11 and the second axial wire 13 are electrically insulated to form a touch circuit pattern. Therefore, the process of the conventional capacitive touch sensor 1 is cumbersome and costly, and the first and second electrode leads 14 and 16 connecting the first and second axial electrode blocks 10 and 12 are made of metal. It occupies a part of the touch area, so the screen of the touch electronic product is relatively small. [New Content] The main purpose of this creation is to provide a capacitive touch sensor with the advantages of light weight and low manufacturing cost. Another object of the present invention is to provide a capacitive touch sensor that can increase the area of touch and increase the accuracy of sensing. 3/10 M440478 is smaller. Another object of the present invention is to provide a capacitive touch sensor, wherein the arrangement of the first and second electrode leads does not cause the screen of the touch electronic product according to the embodiment of the capacitive touch sensor of the present disclosure. A capacitive touch sense (four) 'includes: a plurality of first electrode leads, wherein each
係彼此間隔排列;複數條第二電極引線,其中該每—條第 -電極引線係Φ連有複數個第二電極;以及複數個該第二 電極’係彼此間隔排列;其中該些第—電極與該些第二電 極係彼此交錯設置。 其中,S亥第一、二電極的形狀大致呈γ形。 本創作具有以下有益的效果: 本創作的電容式觸控感測器具有單層結構,而且第— 、二電極引線及第-、二電極皆可在單—製程中形成,不 需繁續的多次製程,故本創作具有產品輕薄及製造成本低 等功效。 一電極的形狀大致呈γ形,第一、二Arranging at intervals with each other; a plurality of second electrode leads, wherein each of the first electrode lead lines Φ is connected to a plurality of second electrodes; and a plurality of the second electrodes ' are spaced apart from each other; wherein the first electrodes The second electrode systems are staggered with each other. Among them, the first and second electrodes of the S-hai have a substantially γ shape. The creation has the following beneficial effects: The capacitive touch sensor of the present invention has a single layer structure, and the first and second electrode leads and the first and second electrodes can be formed in a single-process without complicated Multiple processes, so this creation has the effect of light weight and low manufacturing cost. The shape of an electrode is roughly γ-shaped, first and second
本創作的第一、二電極的; 電極具有斜向延伸的第二部分 4/1〇 M440478 以限制者 供參考與說明用,並非用來對本創作加 【實施方式】 圖本創作電容式觸控感測器之—I體實施例的 :::二圖二電容式觸控感測器2包括複數個第一電極20 第二雨心—電極引線22、複數個第二電極24以及複數條 透明其、線26,而且電容式觸控感測器2可進一步包括 ~ /使苐一電極引線22、26及第一、二電 自於《 ^成於透明基板28上。透明基板28可以係選 (PMMah、钱酸醋(PC)、聚酿(PET)、聚甲基丙稀酸甲酯 明薄板 馳絲合物(咖)等之—㈣所製成的透 箪一番f 2所不’複數個第一電極20係彼此間隔排列,且 ί I=㈣難形狀纽m在本實施财,每一 邱二G各具有一第—部分201及兩第二部分202,第 ;to 〇^ ,於第一部分2〇】相對的兩側,第二部分202 分2〇2可呈菱形。另外,每-條第-電 極引線22係各自連接一個第一電極2〇。 曰所不’複數個第二電極24係彼此間隔排列, =些二一電極2〇與該些第二電極24係彼此交錯設置, 且第二電極24的較佳形狀大致呈γ形。在本實施例中,每 -第二電極24各具有一第三部分241及兩第四部分如, 第三部分241水平延伸,第三部分如可呈長方形,兩第 四部分242連接於第三部分241相對的兩側,第四部分如 斜向延伸,第四部分242可呈菱形。另外,每一條第二電 5/10 M440478 極引線26係串連有複數個第二電極μ。第一、二電極引線 22'26因應第一、二電極2〇、24的形狀變化對應形成有複 數個斜向段221、261。 於本實施例巾,第-、二電極引線22、26及第一、二 電極20、24的材質係-透明導電材質^透明導電材質可以 係選自氧化銦錫(ΠΌ)、氧化銦鋅、氧化雜、奈米銀( nano silver)、奈米銅(nanoCu)、導電高分子、奈米碳管( carbon nanotube)、石墨烯(Graphene)、溴化銀(AgBr)及 氧化銦鎵鋅(IGZ0)其中一種。 圖3顯示本創作電容式觸控感測器之另一具體實施例 的部分示意圖。本實施例與圖2之實施例唯一不同之處在 於電極的圖案。如圖3所示,電容式觸控感測器3包括複 數個第一電極30、複數條第一電極引線32、複數個第二電 極34以及複數條第二電極引線36,而且電容式觸控感測器 。可進一步包括透明基板38,使得第一、二電極引線&、 36及第一、二電極30、34係形成於透明基板38上。 如圖3所示’複數個第一電極30係彼此間隔排列,且 第一電極30的較佳形狀大致呈μ形。同樣地,第二電極 34的較佳形狀大致呈μ形。而且,該些第一電極3〇與該 些第二電極34係彼此交錯設置。 以圖2之實施例為例,但不以此為限,由於本創作的電 容式觸控感測器2為一種具有單層結構的電容式觸控感測 器,而且第一、二電極引線22、26及第一、二電極2〇、24 皆可在單一製程中形成,不需繁瑣的多次製程,所以本創 作具有產品輕薄及製造成本低等功效。 其次’本創作的第一、二電極20、24的形狀大致呈γ 6/10 M440478 形,亦即第一、二電極20、24具有斜向延伸的第二部分202 、第四部分242,且第一、二電極引線22、26走的是非直 線的架構,相較於習知的直線走線,本創作可以增加觸控 時的面積,進而增加感應的精確度,有效的改善感應線性 度。 另,本創作的第一、二電極引線22、26及第一、二電 極20、24的材質係為透明導電材質,不需占據另外的區域 ,所以不會導致觸控電子產品的螢幕相對較小。 惟以上所述僅為本創作之較佳實施例,非意欲侷限本 創作的專利保護範圍,故舉凡運用本創作說明書及圖式内 容所為的等效變化,均同理皆包含於本創作的權利保護範 圍内,合予陳明。 【圖式簡早說明】 圖1為習知電容式觸控感測器的電極圖案示意圖; 圖2顯示本創作電容式觸控感測器之一具體實施例的 部分不意圖, 圖3顯示本創作電容式觸控感測器之另一具體實施例 的部分示意圖。 【主要元件符號說明】 電容式觸控感測器1 第一軸向電極區塊10 第一轴向導線11 苐二轴向電極區塊12 第二軸向導線13 7/10 M440478 第一電極引線14 絕緣層15 第二電極引線16 電容式觸控感測器2 第一電極20 第一部分201 第二部分202 第一電極引線22 斜向段221 第二電極24 第三部分241 第四部分242 第二電極引線26 斜向段261 透明基板28 電容式觸控感測器3 第一電極30 第一電極引線32 第二電極34 第二電極引線36 透明基板38 8/10The first and second electrodes of the present invention; the electrode has a second portion 4/1〇M440478 extending obliquely for the purpose of reference and description, and is not used for the creation of the present invention. The capacitive touch sensor 2 of the present invention includes: a plurality of first electrodes 20, a second rain core-electrode lead 22, a plurality of second electrodes 24, and a plurality of transparent And the line 26, and the capacitive touch sensor 2 can further include / / the first electrode lead 22, 26 and the first and second electrodes are formed on the transparent substrate 28. The transparent substrate 28 can be selected (PMMah, vinegar vinegar (PC), polystyrene (PET), polymethyl methacrylate, thin slab, etc. - (d) Fan F 2 does not have a plurality of first electrodes 20 arranged at intervals, and ί I=(4) difficult shapes are in the implementation, each Qiu 2 G has a first portion 201 and two second portions 202, The first portion of the second portion 202 may be in the shape of a diamond. In addition, each of the first electrode leads 22 is connected to a first electrode 2 〇. The plurality of second electrodes 24 are spaced apart from each other, and the second electrodes 2 and the second electrodes 24 are alternately arranged with each other, and the second electrode 24 preferably has a substantially γ shape. In the example, each of the second electrodes 24 has a third portion 241 and two fourth portions. For example, the third portion 241 extends horizontally. The third portion may have a rectangular shape, and the second portion 242 is connected to the third portion 241. On both sides, the fourth portion extends obliquely, and the fourth portion 242 may have a diamond shape. In addition, each second electrical 5/10 M440478 pole lead 26 A plurality of second electrodes μ are connected in series. The first and second electrode leads 22'26 are formed with a plurality of oblique segments 221 and 261 corresponding to the shape changes of the first and second electrodes 2, 24, respectively. The first and second electrode leads 22, 26 and the first and second electrodes 20, 24 are made of a transparent conductive material. The transparent conductive material may be selected from the group consisting of indium tin oxide (yttrium), indium zinc oxide, oxidized impurities, and nano silver. (nan silver), nano copper, conductive polymer, carbon nanotube, graphene, silver bromide (AgBr) and indium gallium zinc oxide (IGZ0). A partial schematic diagram of another embodiment of the present capacitive touch sensor is shown. The only difference between the embodiment and the embodiment of FIG. 2 is the pattern of the electrodes. As shown in FIG. 3, the capacitive touch sensing is performed. The device 3 includes a plurality of first electrodes 30, a plurality of first electrode leads 32, a plurality of second electrodes 34, and a plurality of second electrode leads 36, and a capacitive touch sensor. Further comprising a transparent substrate 38, First and second electrode leads & 36, first and second The electrodes 30, 34 are formed on the transparent substrate 38. As shown in Fig. 3, the plurality of first electrodes 30 are spaced apart from each other, and the preferred shape of the first electrode 30 is substantially μ-shaped. Similarly, the second electrode 34 The preferred shape of the first electrode 3 〇 and the second electrodes 34 are alternately arranged with each other. The embodiment of FIG. 2 is taken as an example, but not limited thereto, due to the creation of the present invention. The capacitive touch sensor 2 is a capacitive touch sensor having a single layer structure, and the first and second electrode leads 22, 26 and the first and second electrodes 2, 24 can be formed in a single process. There is no need for cumbersome multiple processes, so this creation has the effects of light weight and low manufacturing cost. Secondly, the first and second electrodes 20 and 24 of the present invention are substantially in the shape of γ 6/10 M440478, that is, the first and second electrodes 20 and 24 have a second portion 202 and a fourth portion 242 extending obliquely, and The first and second electrode leads 22 and 26 are non-linear structures. Compared with the conventional straight line, the creation can increase the area of the touch, thereby increasing the accuracy of the sensing and effectively improving the linearity of the sensing. In addition, the first and second electrode leads 22, 26 and the first and second electrodes 20, 24 of the present invention are made of a transparent conductive material, and do not occupy another area, so that the screen of the touch electronic product is not relatively relatively small. However, the above description is only the preferred embodiment of the present invention, and it is not intended to limit the scope of patent protection of this creation. Therefore, the equivalent changes made by using this creation specification and the contents of the schema are all included in the right of this creation. Within the scope of protection, it is given to Chen Ming. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing an electrode pattern of a conventional capacitive touch sensor; FIG. 2 is a partial schematic view showing a specific embodiment of the capacitive touch sensor of the present invention, and FIG. 3 shows A partial schematic diagram of another embodiment of a capacitive touch sensor is created. [Main component symbol description] Capacitive touch sensor 1 First axial electrode block 10 First axial wire 11 苐 Two-axis electrode block 12 Second axial wire 13 7/10 M440478 First electrode lead 14 insulating layer 15 second electrode lead 16 capacitive touch sensor 2 first electrode 20 first part 201 second part 202 first electrode lead 22 oblique section 221 second electrode 24 third part 241 fourth part 242 Two-electrode lead 26 oblique section 261 transparent substrate 28 capacitive touch sensor 3 first electrode 30 first electrode lead 32 second electrode 34 second electrode lead 36 transparent substrate 38 8/10