TWM523151U - Touch panel with senseless function metal lines - Google Patents
Touch panel with senseless function metal lines Download PDFInfo
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- TWM523151U TWM523151U TW104218097U TW104218097U TWM523151U TW M523151 U TWM523151 U TW M523151U TW 104218097 U TW104218097 U TW 104218097U TW 104218097 U TW104218097 U TW 104218097U TW M523151 U TWM523151 U TW M523151U
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Description
一種具有無感應功能金屬線條的觸控面板,尤其是一種能在提高觸控訊號辨識度的同時,且有效減少干涉條紋產生的觸控面板,並且感應電極只要使用薄膜光罩製作,故不須使用玻璃光罩,而有效節省製作成本 A touch panel having a metal line without sensing function, in particular, a touch panel capable of improving the recognition of the touch signal while effectively reducing the generation of interference fringes, and the sensing electrode is only required to be fabricated using a film mask, so that it is not necessary Use glass reticle to save production costs
電容式觸控面板是藉由使用者透過手指或導電物件觸碰電容式觸控面板所造成之電容值的改變去偵測手指或導電物件的觸碰位置。進一步而言,電容式觸控面板通常具有彼此電性絕緣的雙層感應電極。在使用者尚未觸碰觸控面板時,雙層感應電極之間具有一電容初始值。而當使用者觸碰觸控面板時,雙層感應電極之間會由於人體帶走電荷而產生電容值的改變,因而改變原本的電容初始值。此時,則能藉由判別各感應電極的電容變化量,經過計算後去判定使用者觸碰的位置。 The capacitive touch panel detects the touch position of a finger or a conductive object by a change in the capacitance value caused by the user touching the capacitive touch panel through a finger or a conductive object. Further, the capacitive touch panel generally has a double-layered sensing electrode electrically insulated from each other. When the user has not touched the touch panel, there is an initial value of capacitance between the double-layered sensing electrodes. When the user touches the touch panel, the capacitance value changes between the double-layered sensing electrodes due to the charge taken by the human body, thereby changing the original initial value of the capacitance. At this time, it is possible to determine the position touched by the user by calculating the amount of change in capacitance of each of the sensing electrodes.
習知之電容式觸控面板技術中,感應電極一般係以透明導電材料例如氧化銦錫(indium tin oxide,ITO)所形成,由於透明導電材料之電阻率一般仍較金屬導電材料高,故使用透明導電材料形成感應電極會發生整體阻值過高而影響到反應速度等問題。因此,目前有以金屬線路交織而成的金屬網格(metal mesh)來取代透明導電材料形成感應電極之設計來提升反 應速度。 In the conventional capacitive touch panel technology, the sensing electrode is generally formed by a transparent conductive material such as indium tin oxide (ITO). Since the resistivity of the transparent conductive material is generally higher than that of the metal conductive material, transparent use is used. When the conductive material forms the sensing electrode, the overall resistance is too high and the reaction speed is affected. Therefore, there is currently a metal mesh intertwined with metal lines instead of a transparent conductive material to form a sensing electrode design to enhance the inverse Should be speed.
然而,觸控面板之金屬網格與顯示面板貼合應用時,易產生所謂的干涉紋(Moire),影響畫面顯示品質。干涉紋的產生是因為金屬網格圖案形狀、排列方式以及金屬網格的線寬影響透光率幾項因素相互影響。當相鄰的條紋圖案彼此規律地排列時,即會產生光學干涉紋,為了能夠有效防止干涉條紋(interference fringes)等光學現象,例如所謂的莫瑞效應(Moire effect)。將金屬網格之線寬製作成介於1微米至3微米之間,以及調整金屬網格的形狀角度或者排列方式是非常有效的方法。 However, when the metal grid of the touch panel is applied to the display panel, a so-called interference pattern (Moire) is easily generated, which affects the display quality of the screen. The interference pattern is generated because several factors affect the light transmittance of the shape and arrangement of the metal grid pattern and the line width of the metal grid. When adjacent stripe patterns are regularly arranged with each other, optical interference fringes are generated, in order to effectively prevent optical phenomena such as interference fringes, such as the so-called Moire effect. It is a very effective method to make the line width of the metal grid between 1 micrometer and 3 micrometers, and to adjust the shape angle or arrangement of the metal grid.
然而為了要將金屬導線之線寬皆介於1微米至3微米之間,不得不利用高解析度玻璃光罩來製作金屬網格,但是玻璃光罩的造價昂貴,導致初期開發及製造成本升高。 However, in order to have a metal wire having a line width of between 1 micrometer and 3 micrometers, a high-resolution glass mask has to be used to fabricate a metal mesh, but the cost of the glass mask is expensive, resulting in an initial development and manufacturing cost increase. high.
金屬網格的製作還有另一種作法,就是利用薄膜光罩(參第一A圖)來製作,但是薄膜光罩1a因解析度較玻璃光罩低的關係,因此相對於玻璃光罩,在線與線的交叉處會有擴大的現象,而透過薄膜光罩1a經由曝光顯影蝕刻製程,製作而成的金屬網格1b(如第一B圖),線寬僅介於5至8微米,且在線與線的交叉處則會形成許多的節點N,而影響透光度並造成光線通過節點處時發生繞射現象,嚴重影響顯示效果。 Another method of making metal mesh is to use a film mask (refer to Figure A), but the film mask 1a has a lower resolution than the glass mask, so it is online with respect to the glass mask. The intersection with the line may be enlarged, and the metal mesh 1b (as shown in the first B) produced through the exposure and development etching process through the film mask 1a has a line width of only 5 to 8 μm, and At the intersection of the line and the line, a large number of nodes N are formed, which affects the transmittance and causes a diffraction phenomenon when the light passes through the node, which seriously affects the display effect.
雖然薄膜光罩的成本低廉,但藉薄膜光罩而形成的金屬網格線寬較寬且節點面積大,易造成透光度降低而使得干涉條紋相對明顯,雖然高解析度玻璃光罩能製作細線寬與高網格密度的金屬網格,有效避免干涉條紋的產生,但是高解析度玻璃光罩的成本過於昂貴,且電容值的變動過小,導致觸控面板的觸控靈敏度無法突破。 Although the cost of the thin film mask is low, the metal grid formed by the thin film mask has a wide line width and a large node area, which easily causes a decrease in transmittance and makes the interference fringe relatively obvious, although a high-resolution glass mask can be fabricated. The metal mesh with thin line width and high mesh density effectively avoids the generation of interference fringes, but the cost of the high-resolution glass mask is too expensive, and the variation of the capacitance value is too small, so that the touch sensitivity of the touch panel cannot be broken.
綜上所述,當能有效防止干涉條紋的產生時,卻又帶來觸控靈敏度無法突破及製作成本高的問題,而提高觸控靈敏度及降低製作成本時,卻又浮現干涉條紋的問題,因此必須提供一種能在防止干涉條紋產生的同時又能提高觸控靈敏度的觸控面板。 In summary, when the generation of interference fringes can be effectively prevented, the problem that the touch sensitivity cannot be broken and the manufacturing cost is high, and the touch sensitivity is improved and the production cost is lowered, the problem of interference fringes appears. Therefore, it is necessary to provide a touch panel capable of preventing the generation of interference fringes while improving the touch sensitivity.
本創作的主要目的在於提供一種在降低干涉條紋產生的同時又能提高觸控靈敏度的觸控面板設計方法,此外還能使用成本低廉的薄膜光罩來做金屬網格。 The main purpose of this creation is to provide a touch panel design method that can reduce the generation of interference fringes while improving the touch sensitivity, and can also use a low-cost film mask to make a metal grid.
為達上述目的,本創作的具有無感應功能金屬線條的觸控面板包含一透光基板,包含一可視觸控區以及一周邊線路區,該周邊線路區在該透光基板的邊緣與該可視觸控區之間;一第一感應電極,設置於該透光基板的一第一面之上,該第一感應電極延一第一方向延伸,該第一感應電極並包含複數第一感測電極與複數第一金屬引線,該等第一感測電極位於該可視觸控區中並沿著該第一方向延伸,該等第一金屬引線則位於該周邊線路區之中,該等第一感測電極並電性連接於該等第一金屬引線,其中相鄰的兩第一感測電極互不相連,該第一感測電極包含複數第一金屬網格,其中一第一金屬網格中配置有複數無感應功能的第一金屬線條,該等無感應功能的第一金屬線條兩端不連接於該第一金屬網格,且該等無感應功能的第一金屬線條彼此相距一間隔;一第二感應電極,設置於該透光基板的一第二面之上,該第一面與該第二面需要互相對應,該第二感應電極延一第二方向延伸,該第二感應電極並包含複數第二感測電極與複數第二金屬引線,該等第二感測電極位於該可視觸控區之中並沿著該第二方向延 伸,該等第二金屬引線則位於該周邊線路區之中,該等第二感測電極並電性連接於該等第二金屬引線,其中相鄰的兩第二感測電極互不相連,該第二感測電極包含複數第二金屬網格,其中一第二金屬網格中配置有複數無感應功能的第二金屬線條,該等無感應功能的第二金屬線條兩端不連接於該第二金屬網格,且該等無感應功能的第二金屬線條彼此相距一間隔。 In order to achieve the above objective, the touch panel having the non-inductive metal line comprises a transparent substrate, comprising a visible touch area and a peripheral line area, the peripheral line area being at the edge of the transparent substrate and the visible Between the touch areas, a first sensing electrode is disposed on a first surface of the transparent substrate, the first sensing electrode extends in a first direction, and the first sensing electrode includes a plurality of first sensing An electrode and a plurality of first metal leads, wherein the first sensing electrodes are located in the visible touch region and extend along the first direction, and the first metal leads are located in the peripheral circuit region, the first The sensing electrodes are electrically connected to the first metal leads, wherein the adjacent two first sensing electrodes are not connected to each other, and the first sensing electrodes comprise a plurality of first metal grids, wherein the first metal grid a first metal line having a plurality of non-inductive functions is disposed, and the first metal lines of the non-inductive function are not connected to the first metal mesh, and the first metal lines without the sensing function are spaced apart from each other. One second The first electrode and the second surface need to correspond to each other, and the second sensing electrode extends in a second direction, and the second sensing electrode includes a plurality of electrodes. a second sensing electrode and a plurality of second metal leads, wherein the second sensing electrodes are located in the visible touch region and extend along the second direction The second sensing leads are electrically connected to the second metal leads, wherein the adjacent two second sensing electrodes are not connected to each other. The second sensing electrode includes a plurality of second metal grids, wherein a second metal grid is provided with a plurality of second metal lines having no sensing function, and the two ends of the non-inductive second metal lines are not connected to the second metal line a second metal grid, and the second metal lines of the non-inductive function are spaced apart from each other.
其中,該第一感應電極與該第二感應電極為相對的設置關係,且該等第一金屬網格與該等第二金屬網格形成相互交錯的相對配置關係,且該等無感應功能的第一金屬線條與該等無感應功能的第二金屬線條亦為相互交錯的相對配置關係。 The first sensing electrode and the second sensing electrode are in an opposite arrangement relationship, and the first metal mesh and the second metal mesh form an interlaced relative arrangement relationship, and the non-inductive functions are The first metal line and the second metal lines having no inductive function are also interdigitated relative arrangement relationship.
本創作的第一主要特點在於,本案於將該第一金屬網格及該第二金屬網格之網格間距提高於1.8mm以上,因網格間距變大,可增加電容值的變化量,而達成提高觸控訊號辨識度的目的。 The first main feature of the present invention is that the mesh spacing of the first metal mesh and the second metal mesh is increased to 1.8 mm or more, and the variation of the capacitance value can be increased due to the larger mesh spacing. And to achieve the purpose of improving the recognition of touch signals.
本案的第二主要特點在於在該第一金屬網格及該第二金屬網格之中個別設置互相交錯且無感應功能的第一金屬線條及無感應功能的第二金屬線條,上段所提的是將該第一金屬網格或該第二金屬網格的網格寬度提高,而提高觸控訊號辨識度,但只提高網格寬度會造成金屬網格密度不足而使肉眼感覺到網格的存在,而將該等無感應功能的第一金屬線條及第二金屬線條設置於該第一金屬網格及該第二金屬網格之中,正好使得該第一感測電極與該第二感測電極的網格密度保持在不被肉眼察覺的程度。 The second main feature of the present invention is that a first metal line interlaced and non-sensing function and a second metal line without sensing function are separately arranged in the first metal grid and the second metal grid, and the The mesh width of the first metal mesh or the second metal mesh is increased to improve the touch signal recognition, but only increasing the mesh width causes the metal mesh density to be insufficient to make the mesh visible to the naked eye. And the first metal line and the second metal line having the non-inductive function are disposed in the first metal mesh and the second metal mesh, such that the first sensing electrode and the second sensing The grid density of the electrodes is kept to a level that is not perceived by the naked eye.
本案的第三主要特點在於,由於無感應功能的金屬線條與金屬網格並不相連,因此減少了節點的數量,且上段所提之第一金屬網格及 無感應功能的第一金屬線條與第二金屬網格及無感應功能的第二金屬線條在相對應的設置上其互相交錯的交叉點也不會有節點的產生,因此不需使用高解析度的玻璃光罩,只要以薄膜光罩(比如底片)就能製作只有極少節點的金屬網格,大大的提高透光度,並有效的使顯示效果提升,也由於薄膜光罩的成本遠低於玻璃光罩,也能有效降低製作成本。 The third main feature of the case is that since the metal lines without induction function are not connected to the metal grid, the number of nodes is reduced, and the first metal grid mentioned in the upper section and The non-inductive first metal line and the second metal grid and the non-inductive second metal line do not have nodes at the intersections of the corresponding arrangement, so no high resolution is required. The glass reticle can make a metal mesh with only a few nodes by using a film mask (such as a negative film), which greatly improves the transparency and effectively improves the display effect, and also because the cost of the film reticle is much lower than that of the film reticle. Glass reticle can also effectively reduce production costs.
1‧‧‧具有無感應功能金屬線條的觸控面板 1‧‧‧Touch panel with sensorless metal lines
10‧‧‧透光基板 10‧‧‧Transparent substrate
11‧‧‧第一感應電極 11‧‧‧First sensing electrode
12‧‧‧第二感應電極 12‧‧‧Second sensing electrode
111‧‧‧第一感測電極 111‧‧‧First sensing electrode
111A‧‧‧第一金屬網格 111A‧‧‧First Metal Grid
111B‧‧‧無感應功能的第一金屬線條 111B‧‧‧First metal wire without induction
113‧‧‧第一金屬引線 113‧‧‧First metal lead
121‧‧‧第二感測電極 121‧‧‧Second sensing electrode
121A‧‧‧第二金屬網格 121A‧‧‧Second metal grid
121B‧‧‧無感應功能的第二金屬線條 121B‧‧‧Second metal lines without induction
123‧‧‧第二金屬引線 123‧‧‧Second metal lead
A、B、C‧‧‧局部區域 A, B, C‧‧‧ local areas
V‧‧‧可視觸控區 V‧‧‧Visual touch area
L‧‧‧周邊線路區 L‧‧‧ surrounding area
X‧‧‧第一方向 X‧‧‧ first direction
Y‧‧‧第二方向 Y‧‧‧second direction
P‧‧‧交錯圖案 P‧‧‧ staggered pattern
N‧‧‧節點 N‧‧‧ node
1a‧‧‧薄膜光罩 1a‧‧‧film mask
第一A圖為習知技術之薄膜光罩的示意圖。 The first A is a schematic view of a conventional film mask.
第一B圖為習知技術經薄膜光罩曝光顯影蝕刻製程所製作的金屬網格的示意圖 The first B is a schematic view of a metal grid made by a conventional film through a film mask exposure and development etching process.
第二圖為本創作具有無感應功能金屬線條的觸控面板的示意圖。 The second figure is a schematic diagram of a touch panel with a metal line without sensing function.
第三圖為第一感應電極與其局部區域A放大後的示意圖。 The third figure is an enlarged schematic view of the first sensing electrode and its partial area A.
第四圖為第二感應電極與其局部區域B放大後的示意圖。 The fourth figure is an enlarged schematic view of the second sensing electrode and its partial area B.
第五圖為第二圖局部區域C的放大示意圖。 The fifth figure is an enlarged schematic view of the partial area C of the second figure.
以下配合圖示及元件符號對本創作之實施方式做更詳細的說明,俾使熟習該項技藝者在研讀本說明書後能據以實施。 The implementation of the present invention will be described in more detail below with reference to the drawings and component symbols, so that those skilled in the art can implement the present specification after studying the present specification.
參閱第二圖,第二圖為本創作具有無感應功能金屬線條的觸控面板的示意圖。如第二圖所示,本創作的具有無感應功能金屬線條的觸控面板1至少包括一透光基板10、一第一感應電極11及一第二感應電極12,其中該透光基板10包含一可視觸控區V以及一周邊線路區L,其中,該周邊線路區L在該透光基板10的邊緣與該可視觸控區V之間,該可視觸控區V為 該透光基板10之非邊緣區域,該周邊線路區L為該透光基板10之邊緣區域,也就是該可視觸控區V較該周邊線路區L遠離於該透光基板10之邊緣,或該周邊線路區L環繞該可視觸控區V。 Referring to the second figure, the second figure is a schematic diagram of a touch panel with a metal line without sensing function. As shown in the second figure, the touch panel 1 having the non-inductive metal line includes at least one transparent substrate 10, a first sensing electrode 11 and a second sensing electrode 12, wherein the transparent substrate 10 includes a visible touch area V and a peripheral line area L, wherein the peripheral line area L is between the edge of the transparent substrate 10 and the visible touch area V, and the visible touch area V is The non-edge area of the transparent substrate 10 is the edge area of the transparent substrate 10, that is, the visible touch area V is farther from the edge of the transparent substrate 10 than the peripheral line area L, or The peripheral line area L surrounds the visible touch area V.
該透光基板10可以是硬質基板或可撓式基板;硬質基板的材質可以是玻璃、強化玻璃、藍寶石、陶瓷或其他適當材質;可撓式基板的材質可以是高分子材質。所述高分子材質例如是聚乙烯(PE)、聚丙烯(PP)、聚苯乙烯(PS)、聚甲基丙烯酸甲酯(PMMA)、聚氯乙烯(PVC)、尼龍(Nylon)、聚碳酸酯(PC)、聚氨酯(PU)、聚四氟乙烯(PTFE)、聚對苯二甲酸乙二酯(PET)、聚醯亞胺(Polyimide,PI)、丙烯酸樹酯(acrylic resin)或聚甲基丙烯酸甲酯與聚碳酸酯的混合材料等材質。應用所述可撓基板所形成之觸控面板可具有撓曲性,因而適於包覆在撓曲表面或是任何需要觸控功能的可撓曲物件上,例如是顯示面板其他適合材料形成之可撓式基板。 The transparent substrate 10 may be a rigid substrate or a flexible substrate; the material of the rigid substrate may be glass, tempered glass, sapphire, ceramic or other suitable materials; and the material of the flexible substrate may be a polymer material. The polymer material is, for example, polyethylene (PE), polypropylene (PP), polystyrene (PS), polymethyl methacrylate (PMMA), polyvinyl chloride (PVC), nylon (Nylon), polycarbonate. Ester (PC), polyurethane (PU), polytetrafluoroethylene (PTFE), polyethylene terephthalate (PET), polyimide (PI), acrylic resin or polymethyl A material such as a mixture of methyl acrylate and polycarbonate. The touch panel formed by using the flexible substrate may have flexibility, and thus is suitable for being coated on a flexible surface or any flexible object that requires a touch function, for example, a display panel and other suitable materials are formed. Flexible substrate.
該第一感應電極11及該第二感應電極12係配置可分別設置於該透光基板10的一第一面及一第二面,該第一面與該第二面需要互相對應,比如互相對應之上表面及下表面,亦可設置於不同之透光基板10之上表面或下表面,再以光學膠(圖面未顯示)按照其相對位置貼合在一起,因此該第一感應電極11及該第二感應電極12只要彼此的部分或全部在互相平行對應的相對位置上,將該第一感應電極11及該第二感應電極12設置於單一或複數基板上都能達成本創作之目的。 The first sensing electrode 11 and the second sensing electrode 12 are respectively disposed on a first surface and a second surface of the transparent substrate 10, and the first surface and the second surface need to correspond to each other, such as each other. Corresponding to the upper surface and the lower surface, the upper surface or the lower surface of the transparent substrate 10 may be disposed on the upper surface or the lower surface of the transparent substrate 10, and then the optical adhesives (not shown) are attached to each other according to their relative positions, so the first sensing electrode 11 and the second sensing electrode 12 can achieve the creation of the first sensing electrode 11 and the second sensing electrode 12 on a single or a plurality of substrates as long as some or all of them are in parallel positions corresponding to each other. purpose.
另請注意,該第一感應電極11或該第二感應電極12的材質為銅金、鋁、銅、銀、鉻、鈦、鉬、釹、鎳及上述金屬之合金的至少其中之一。 Please note that the material of the first sensing electrode 11 or the second sensing electrode 12 is at least one of copper gold, aluminum, copper, silver, chromium, titanium, molybdenum, niobium, nickel and an alloy of the above metals.
該第一感應電極11或該第二感應電極12是以薄膜光罩或玻璃光罩做曝光。 The first sensing electrode 11 or the second sensing electrode 12 is exposed by a film mask or a glass mask.
參閱第三圖,第三圖為第一感應電極與其局部區域A放大後的示意圖,並請配合第二圖所示,其中第二圖是示意該第一感應電極11延一第一方向Y軸向延伸,該第一感應電極11並包含複數第一感測電極111與複數第一金屬引線113,該等第一感測電極111位於該可視觸控區V之中並沿著該第一方向Y軸向延伸,該等第一金屬引線113則位於該周邊線路區L之中,該等第一感測電極111並電性連接於該等第一金屬引線113。 Referring to the third figure, the third figure is an enlarged schematic view of the first sensing electrode and its partial area A, and is shown in the second figure. The second figure shows that the first sensing electrode 11 extends in a first direction Y-axis. Extendingly, the first sensing electrode 11 includes a plurality of first sensing electrodes 111 and a plurality of first metal leads 113. The first sensing electrodes 111 are located in the visible touch region V along the first direction. Y is axially extended, and the first metal leads 113 are located in the peripheral line region L. The first sensing electrodes 111 are electrically connected to the first metal leads 113.
其中相鄰的兩第一感測電極111互不相連,第二圖中的縱向虛線即表示相鄰的兩第一感測電極111之間有一間隔,因第二圖為具有無感應功能金屬線條的觸控面板的巨觀示意,而該第一感測電極111的實際結構,則請參第三圖的局部區域A的放大示意圖,如局部區域A所示,該第一感測電極111包含複數第一金屬網格(metal mesh)111A,其中一第一金屬網格111A中配置有複數無感應功能的第一金屬線條111B,該等無感應功能的第一金屬線條111B兩端不連接於該第一金屬網格111A,且該等無感應功能的第一金屬線條111B彼此相距一間隔。 The adjacent two first sensing electrodes 111 are not connected to each other, and the vertical dotted line in the second figure indicates that there is a gap between the adjacent two first sensing electrodes 111, because the second figure is a metal line with no sensing function. For the actual structure of the first sensing electrode 111, please refer to the enlarged view of the partial area A of the third figure. As shown in the partial area A, the first sensing electrode 111 includes a first metal mesh 111A, wherein a first metal mesh 111A is provided with a plurality of first metal wires 111B having no sensing function, and the non-inductive first metal wires 111B are not connected at both ends The first metal mesh 111A, and the non-inductive first metal lines 111B are spaced apart from each other.
參閱第四圖,第四圖為第二感應電極與其局部區域B放大後的示意圖,並請配合第二圖所示,其中第二圖是示意該第二感應電極12延一第二方向X軸向延伸,該第二感應電極12並包含複數第二感測電極121與複數第二金屬引線123,該等第二感測電極121位於該可視觸控區V之中,該等第二金屬引線123則位於該周邊線路區L之中,該等第二感測電極121並電性連接於該等第二金屬引線123。 Referring to the fourth figure, the fourth figure is an enlarged schematic view of the second sensing electrode and its partial area B, and is shown in the second figure, wherein the second figure shows that the second sensing electrode 12 extends in a second direction X-axis. The second sensing electrode 12 includes a plurality of second sensing electrodes 121 and a plurality of second metal leads 123. The second sensing electrodes 121 are located in the visible touch area V, and the second metal leads are extended. The second sensing electrode 121 is electrically connected to the second metal wires 123.
其中相鄰的兩第二感測電極121互不相連,第二圖中的橫向虛線即表示相鄰的兩第二感測電極121之間有一間隔,因第二圖為具有無感應功能金屬線條的觸控面板的巨觀示意,而該第二感測電極121的實際結構則請參第四圖的局部區域B的放大示意圖,如局部區域B所示,該第二感測電極121包含複數第二金屬網格(metal mesh)121A,其中一第二金屬網格121A中配置有複數無感應功能的第二金屬線條121B,該等無感應功能的第二金屬線條121B兩端不連接於該第二金屬網格121A,且該等無感應功能的第二金屬線條121B彼此相距一間隔。 The adjacent two second sensing electrodes 121 are not connected to each other, and the horizontal dotted line in the second figure indicates that there is a gap between the adjacent two second sensing electrodes 121, because the second figure has a metal line with no sensing function. For the actual structure of the second sensing electrode 121, please refer to the enlarged view of the local area B of the fourth figure. As shown in the partial area B, the second sensing electrode 121 includes a plurality of a second metal mesh 121A, wherein a second metal mesh 121A is provided with a plurality of second metal wires 121B having no sensing function, and the two non-inductive second metal wires 121B are not connected to the two ends. The second metal mesh 121A, and the non-inductive second metal lines 121B are spaced apart from each other.
其中該第一金屬網格111A或該第二金屬網格121A之網格寬度在1.0~3.0mm之間。 The grid width of the first metal mesh 111A or the second metal mesh 121A is between 1.0 and 3.0 mm.
參閱第五圖,第五圖為第二圖局部區域C的放大示意圖。其中該第一感應電極11與該第二感應電極12是形成上下、左右或是斜對之相對的設置關係,如第五圖所示,該等第一金屬網格111A與該等第二金屬網格121A相對上形成相互交錯的相對配置關係,所以該等第一金屬網格111A與該等第二金屬網格121A交錯時會形成密度較低且間距相等的網格;且該等無感應功能的第一金屬線條111B與該等無感應功能的第二金屬線條121B亦為相互交錯的相對配置關係,該等無感應功能的第一金屬線條111B與該等無感應功能的第二金屬線條121B會共同形成一交錯圖案P(從俯視觀之),但從側視觀之,實為疊加之關係(隔著透光基板10);該交錯圖案P至少包含十字或交叉之形狀,而如第五圖的實施例所示,該等無感應功能的第一金屬線條111B與該等無感應功能的第二金屬線條121B所共構的交錯圖案P是由複數井字狀或複數十字狀所構成,且彼此交錯時也會形成密度較高 且間距相等的網格,因此整體來看第一感應電極11與該第二感應電極12相互交錯的相對配置關係形成了高密度且對稱的網格形狀。 Referring to the fifth figure, the fifth figure is an enlarged schematic view of the partial area C of the second figure. The first sensing electrode 11 and the second sensing electrode 12 are disposed in an opposing relationship of up, down, left, and right, and the first metal grid 111A and the second metal are as shown in FIG. The grids 121A are oppositely arranged in a mutually opposite arrangement relationship, so that the first metal grids 111A are interlaced with the second metal grids 121A to form a grid having a lower density and an equal spacing; and the non-inductive The first metal line 111B of the function and the second metal line 121B of the non-inductive function are also in an interlaced relative arrangement relationship, the first metal line 111B without the sensing function and the second metal line without the sensing function. 121B will jointly form a staggered pattern P (from a top view), but from a side view, it is a superimposed relationship (via the transparent substrate 10); the staggered pattern P contains at least a cross or a cross shape, such as As shown in the embodiment of the fifth figure, the staggered pattern P of the non-inductive first metal line 111B and the non-inductive second metal line 121B is composed of a plurality of wells or a plurality of crosses. Constitute and make each other When a higher density is also formed The grids are equally spaced, so that the relative arrangement of the first sensing electrodes 11 and the second sensing electrodes 12 in a staggered manner as a whole forms a high-density and symmetrical grid shape.
其中該等無感應功能的第一金屬線條中之任兩相鄰之無感應功能的第一金屬線條的間隔介於0.2mm~0.6mm之間,且該等無感應功能的第一金屬線條中之靠近於該第一金屬網格的無感應功能的第一金屬線條與該第一金屬網格的間距介於0.2mm~0.6mm之間;該等無感應功能的第二金屬線條中之任兩相鄰之無感應功能的第二金屬線條的間隔在0.2mm~0.6mm之間,且該等無感應功能的第二金屬線條中之靠近於該第二金屬網格的無感應功能的第二金屬線條與該第二金屬網格的間距介於0.2mm~0.6mm之間。其中該金屬網格的形狀為四邊形或菱形。 The interval between any two adjacent non-inductive first metal lines of the non-inductive function is between 0.2 mm and 0.6 mm, and the first metal lines without the sensing function are The first metal line of the non-inductive function close to the first metal grid and the first metal grid are spaced between 0.2 mm and 0.6 mm; any of the second metal lines without the sensing function The spacing between the two adjacent non-inductive second metal lines is between 0.2 mm and 0.6 mm, and the non-inductive second metal lines are adjacent to the non-inductive function of the second metal grid. The distance between the two metal lines and the second metal mesh is between 0.2 mm and 0.6 mm. The metal mesh has a quadrangular shape or a diamond shape.
本創作的第一主要特點在於,由於該第一金屬網格111A或該第二金屬網格121A之網格寬度在1.8mm以上,可增加電容值的變化量,而達成提高觸控訊號辨識度的目的。 The first main feature of the present invention is that since the mesh width of the first metal mesh 111A or the second metal mesh 121A is 1.8 mm or more, the variation of the capacitance value can be increased, and the touch signal recognition degree can be improved. the goal of.
本案的第二主要特點在於在該第一金屬網格111A及該第二金屬網格121A之中個別設置互相交錯且無感應功能的第一金屬線條111B及無感應功能的第二金屬線條121B,上段所提的是將該第一金屬網格111A或該第二金屬網格121A的網格寬度提高,而提高觸控訊號辨識度,但只提高網格寬度會造成金屬網格密度不足而使肉眼感覺到網格的存在,而將該等無感應功能的第一金屬線條111B及第二金屬線條121B設置於該第一金屬網格111A及該第二金屬網格121A之中,正好使得該第一感測電極111與該第二感測電極121的網格密度保持在不被肉眼察覺的程度。 The second main feature of the present invention is that the first metal line 111B and the second metal line 121B having no sensing function are separately arranged in the first metal grid 111A and the second metal grid 121A. In the above paragraph, the mesh width of the first metal mesh 111A or the second metal mesh 121A is increased to improve the touch signal recognition degree, but only increasing the mesh width may cause the metal mesh density to be insufficient. The naked eye senses the presence of the mesh, and the first metal wire 111B and the second metal wire 121B having the non-inductive function are disposed in the first metal mesh 111A and the second metal mesh 121A, such that the The mesh density of the first sensing electrode 111 and the second sensing electrode 121 is maintained to a degree that is not perceived by the naked eye.
本案的第三主要特點在於,由於無感應功能的金屬線條與金 屬網格並不相連,因此減少了節點的數量,且上段所提之第一金屬網格111A及無感應功能的第一金屬線條111B與第二金屬網格121A及無感應功能的第二金屬線條121B在相對應的設置上其互相交錯的交叉點也不會有節點的產生,因此不需使用高解析度的玻璃光罩,只要以薄膜光罩(比如底片)就能製作只有極少節點的金屬網格,大大的提高透光度,並有效的使顯示效果提升,也由於薄膜光罩的成本遠低於玻璃光罩,也能有效降低製作成本。 The third main feature of the case is that due to the non-sensing metal lines and gold The genus grids are not connected, so the number of nodes is reduced, and the first metal grid 111A and the non-inductive first metal line 111B and the second metal grid 121A and the second metal without induction function are mentioned in the above paragraph. Line 121B does not have nodes at the intersections of the corresponding arrangement, so there is no need to use a high-resolution glass mask, as long as a film mask (such as a film) can be used to make only a few nodes. The metal mesh greatly improves the transmittance and effectively improves the display effect, and also because the cost of the film mask is much lower than that of the glass mask, and the manufacturing cost can be effectively reduced.
綜上所述,本創作確實達成了在降低干涉條紋產生的同時又能提高觸控靈敏度的觸控面板設計方法,並且以薄膜光罩製作,還可降低製作成本。 In summary, the present invention has indeed achieved a touch panel design method that reduces the generation of interference fringes while improving touch sensitivity, and is fabricated by a thin film mask, which can also reduce the manufacturing cost.
由於本創作的技術內並未見於已公開的刊物、期刊、雜誌、媒體、展覽場,因而具有新穎性,且能突破目前的技術瓶頸而具體實施,確實具有進步性。此外,本創作能解決習用技術的問題,改善整體使用效率,而能達到具產業利用性的價值。 Since the technology of this creation is not found in published publications, periodicals, magazines, media, and exhibition venues, it is novel and can be implemented through breakthroughs in current technical bottlenecks. It is indeed progressive. In addition, this creation can solve the problems of the conventional technology, improve the overall use efficiency, and achieve the value of industrial utilization.
以上所述者僅為用以解釋本創作之較佳實施例,並非企圖據以對本創作做任何形式上之限制,是以,凡有在相同之創作精神下所作有關本創作之任何修飾或變更,皆仍應包括在本創作意圖保護之範疇。 The above description is only for the purpose of explaining the preferred embodiment of the present invention, and is not intended to impose any form of limitation on the creation, so that any modification or alteration of the creation made in the same creative spirit is provided. , should still be included in the scope of protection of this creative intent.
111‧‧‧第一感測電極 111‧‧‧First sensing electrode
111A‧‧‧第一金屬網格 111A‧‧‧First Metal Grid
111B‧‧‧無感應功能的第一金屬線條 111B‧‧‧First metal wire without induction
121‧‧‧第二感測電極 121‧‧‧Second sensing electrode
121A‧‧‧第二金屬網格 121A‧‧‧Second metal grid
121B‧‧‧無感應功能的第二金屬線條 121B‧‧‧Second metal lines without induction
P‧‧‧交錯圖案 P‧‧‧ staggered pattern
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
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TWI601043B (en) * | 2015-11-11 | 2017-10-01 | Wei-Long Huang | Touch panel with non-sensing metal lines |
CN111240531A (en) * | 2018-11-28 | 2020-06-05 | 无锡变格新材料科技有限公司 | Touch panel with non-node pattern |
CN111694469A (en) * | 2019-03-11 | 2020-09-22 | 无锡变格新材料科技有限公司 | Touch panel capable of reducing parasitic capacitance |
TWI746795B (en) * | 2017-03-06 | 2021-11-21 | 日商富士軟片股份有限公司 | Touch panel, conductive sheet for touch panel, and touch sensor |
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2015
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TWI601043B (en) * | 2015-11-11 | 2017-10-01 | Wei-Long Huang | Touch panel with non-sensing metal lines |
TWI746795B (en) * | 2017-03-06 | 2021-11-21 | 日商富士軟片股份有限公司 | Touch panel, conductive sheet for touch panel, and touch sensor |
CN111240531A (en) * | 2018-11-28 | 2020-06-05 | 无锡变格新材料科技有限公司 | Touch panel with non-node pattern |
CN111694469A (en) * | 2019-03-11 | 2020-09-22 | 无锡变格新材料科技有限公司 | Touch panel capable of reducing parasitic capacitance |
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