TWM472893U - Touch panel - Google Patents

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Publication number
TWM472893U
TWM472893U TW102220695U TW102220695U TWM472893U TW M472893 U TWM472893 U TW M472893U TW 102220695 U TW102220695 U TW 102220695U TW 102220695 U TW102220695 U TW 102220695U TW M472893 U TWM472893 U TW M472893U
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Taiwan
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touch panel
line
wires
area
wire
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TW102220695U
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Chinese (zh)
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Yau-Chen Jiang
Tie-Fie Xiao
de-fa Wu
Li Luo
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Ray Star System Solutions Xiamen Inc
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Publication of TWM472893U publication Critical patent/TWM472893U/en

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Abstract

A touch panel includes a substrate, a touch region and a trace region which surrounds the touch region are defined on the substrate, and a trace collection region is disposed within the trace region, a sensor layer, disposed on the substrate within the touch region, a plurality of traces disposed on the substrate and disposed within the trace region, one end of each trace is disposed within the trace collection region, another end is electrically connected to the sensor layer. Each trace includes at least two trace widths, the present invention narrow down the trace region.

Description

觸控面板Touch panel

本創作係有關於觸控技術領域,特別是一種具導線圖案配置的觸控面板。This creation is related to the field of touch technology, in particular, a touch panel with a wire pattern configuration.

在現今各式消費性電子產品的市場中,個人數位助理(PDA)、行動電話(mobile Phone)、筆記型電腦(notebook)及平板電腦(tablet PC)等可攜式電子產品皆已廣泛的使用觸控面板(touch panel)作為其資料輸入的界面工具。此外,由於目前電子產品的設計皆以輕、薄為方向,因此在產品的設計上會希望能省略如鍵盤、滑鼠等傳統輸入裝置,尤其在講求人性化設計的平板電腦需求的帶動下,觸控式面板已經一躍成為關鍵的零組件之一。In today's market for consumer electronics products, portable electronic products such as personal digital assistants (PDAs), mobile phones, notebooks, and tablet PCs have been widely used. A touch panel is used as an interface tool for data input. In addition, since the design of electronic products is in the direction of lightness and thinness, it is hoped that the traditional input devices such as keyboards and mice can be omitted in the design of products, especially driven by the demand for tablet computers with humanized design. Touch panels have become one of the key components.

一般來說,觸控面板包含有連接觸控電極與外部的處理器的信號導線,其用以傳遞觸控電極與處理器之間的電信號。隨著觸控面板的尺寸增大,信號導線的走線路徑將變長,而信號導線的走線變長相對的也就需要增加信號導線的寬度來確保信號導線的傳遞效果。然而,信號導線的寬度增加,將佔用觸控面板周邊區域更多的面積,如此將不能滿足窄邊框觸控面板的產品需求。因此如何設計讓信號導線不會佔用額外的空間,並且還能維持信號導線的傳遞效果,一直是該技術領域重要的研究課題。Generally, the touch panel includes a signal wire connecting the touch electrode to the external processor for transmitting an electrical signal between the touch electrode and the processor. As the size of the touch panel increases, the routing path of the signal wires will become longer, and the length of the signal wires becomes longer. Therefore, the width of the signal wires needs to be increased to ensure the transmission effect of the signal wires. However, the increase in the width of the signal wires will occupy more area of the peripheral area of the touch panel, which will not meet the product requirements of the narrow frame touch panel. Therefore, how to design the signal wire does not occupy extra space and maintain the transmission effect of the signal wire has been an important research topic in the technical field.

本創作針對觸控面板中走線相對較長的導線來改良設計,讓導線的線寬隨著走線路徑而進行線寬變化,藉以有效地進行走線佈局,降低導線佔用觸控面板的線路區的空間而縮小觸控面板的邊框大小。This design improves the design of the relatively long wires in the touch panel, so that the line width of the wires changes with the line width, thereby effectively laying out the layout and reducing the line occupied by the wires. Reduce the size of the border of the touch panel by the space of the area.

本創作提供一種觸控面板,包含:一基板,界定有一觸控區和一對應觸控區的線路區,線路區內還具有一集線區;一感測電極層,設置於基板上,且位於觸控區;以及複數彼此電性絕緣的導線,設置於基板上,且位於線路區,各導線的一端位於集線區內,另一端電性連接感測電極層,其中,至少一導線包含兩種以上的線寬。The present invention provides a touch panel comprising: a substrate defining a touch area and a line area corresponding to the touch area, the line area further having a concentrating area; a sensing electrode layer disposed on the substrate and located a touch area; and a plurality of wires electrically insulated from each other, disposed on the substrate, and located in the circuit area, one end of each of the wires is located in the line region, and the other end is electrically connected to the sensing electrode layer, wherein at least one wire comprises two types The line width above.

本創作之觸控面板中的導線的線寬會隨著走線佈局而有所變化,更具體來講,在整體走線較為密集的部分,導線的線寬相對設計較小,藉以讓原本因導線的走線較密集而佔用較大線路區的空間得以有效地減小;另一方面,在走線較為分散的部分,導線的線寬則相對可設計較大,以降低前述因線寬較小所增加的線阻,維持導線的傳遞效果。如此一來,本創作之觸控面板的線路區的面積得以有效縮減,進而達成觸控面板窄邊框的設計。The line width of the wires in the touch panel of the present invention varies with the layout of the traces. More specifically, in the portion where the overall traces are dense, the line width of the wires is relatively small, so that the original cause The wiring of the wires is denser and the space occupying the larger circuit area is effectively reduced. On the other hand, in the portion where the wiring is more dispersed, the line width of the wires can be relatively designed to reduce the aforementioned line width. The increased line resistance of the small one maintains the transmission effect of the wire. As a result, the area of the circuit area of the touch panel of the present invention is effectively reduced, thereby achieving the design of the narrow border of the touch panel.

1‧‧‧觸控面板1‧‧‧ touch panel

2‧‧‧觸控面板2‧‧‧ touch panel

10‧‧‧基板10‧‧‧Substrate

20‧‧‧觸控區20‧‧ ‧ touch area

30‧‧‧線路區30‧‧‧Line area

32‧‧‧接腳位32‧‧‧ pin

34,34’,34”‧‧‧導線34,34’,34”‧‧‧ wires

341~345‧‧‧導線341~345‧‧‧ wire

36‧‧‧集線區36‧‧‧Collection area

40‧‧‧感測電極層40‧‧‧Sensing electrode layer

41‧‧‧第一電極軸41‧‧‧First electrode shaft

41a‧‧‧第一導電單元41a‧‧‧First Conductive Unit

41b‧‧‧連接部41b‧‧‧Connecting Department

42‧‧‧第二電極軸42‧‧‧Second electrode shaft

42a‧‧‧第二導電單元42a‧‧‧Second conductive unit

42b‧‧‧橋接部42b‧‧‧Bridge

43‧‧‧絕緣塊43‧‧‧Insulation block

A‧‧‧區域A‧‧‧ area

A1~A4‧‧‧區域A1~A4‧‧‧Area

第1圖繪示本創作第一較佳實施例觸控面板的上視示意圖。FIG. 1 is a top view of the touch panel of the first preferred embodiment of the present invention.

第2圖繪示第1圖中區域A的局部放大示意圖。Fig. 2 is a partially enlarged schematic view showing a region A in Fig. 1.

第3圖繪示本創作觸控面板之導線的另一種實施態樣的局部示意圖。FIG. 3 is a partial schematic view showing another embodiment of the wire of the present touch panel.

第4圖繪示本創作觸控面板之導線的另一種實施態樣的局部示意圖。FIG. 4 is a partial schematic view showing another embodiment of the wire of the present touch panel.

第5圖繪示本創作第二較佳實施例觸控面板的上視示意圖。FIG. 5 is a top view of the touch panel of the second preferred embodiment of the present invention.

為使熟習本創作所屬技術領域之一般技藝者能更進一步了解本創作,下文特列舉本創作之較佳實施例,並配合所附圖式,詳細說明本創作的構成內容及所欲達成之功效。In order to make the present invention more familiar to those skilled in the art to which the present invention pertains, the preferred embodiments of the present invention are listed below, and the composition of the present invention and the desired effect are described in detail in conjunction with the drawings. .

為了方便說明,本創作之各圖式僅為示意以更容易了解本創作,其詳細的比例可依照設計的需求進行調整。在文中所描述對於圖形中相對元件之上下關係,在本領域之人皆應能理解其係指物件之相對位 置而言,因此皆可以翻轉而呈現相同之構件,此皆應同屬本說明書所揭露之範圍,在此容先敘明。For the convenience of description, the drawings of this creation are only for illustration to make it easier to understand the creation, and the detailed proportions can be adjusted according to the design requirements. As described in the text for the relative relationship between the relative elements in the figure, those in the art should be able to understand that it refers to the relative position of the object. In the meantime, the same components can be flipped and presented, which are all within the scope of the disclosure, and are described herein.

第1圖繪示本創作第一較佳實施例觸控面板的上視示意圖,如第1圖所示,本實施例的觸控面板1包含有一基板10、一感測電極層40及複數彼此電性絕緣的導線34。其中,基板10被界定有一觸控區20和一對應觸控區20的線路區30,並且線路區30內還具有一集線區36。在實際設計上,線路區30可例如是設計對應位於觸控區20的至少一側邊,本說明書的實施例皆是以線路區30設計圍繞於觸控區20的四個側邊來做舉例說明。一般而言,觸控區20即為觸控面板1的可視區,而線路區30則為不透光的遮掩區。1 is a top view of the touch panel of the first preferred embodiment of the present invention. As shown in FIG. 1 , the touch panel 1 of the present embodiment includes a substrate 10 , a sensing electrode layer 40 , and a plurality of Electrically insulated wire 34. The substrate 10 is defined with a touch area 20 and a line area 30 corresponding to the touch area 20, and the line area 30 further has a junction area 36. In actual design, the line area 30 can be, for example, designed to be located on at least one side of the touch area 20. The embodiments of the present specification are designed by the line area 30 surrounding the four sides of the touch area 20 as an example. Description. In general, the touch area 20 is the visible area of the touch panel 1, and the line area 30 is the opaque mask area.

感測電極層40是設置於基板10上,並且位於觸控區20內。導線34是設置於基板10上,並且位於線路區30,其中各導線34的一端進一步位於集線區36內,而另一端則電性連接於感測電極層40。此外,本實施例的至少一導線34是包含兩種以上的線寬,藉以在設計上可以因應整體導線34的走線佈局來調整。The sensing electrode layer 40 is disposed on the substrate 10 and located in the touch area 20 . The wires 34 are disposed on the substrate 10 and located in the line region 30, wherein one end of each of the wires 34 is further located in the line region 36, and the other end is electrically connected to the sensing electrode layer 40. In addition, at least one of the wires 34 of the present embodiment includes two or more line widths, so that it can be adjusted in accordance with the layout of the overall wires 34 in design.

如第1圖所示之走線佈局態樣,整體導線34的走線較為分散的區域是在導線34電性連接感測電極層40之一端的附近,而較為密集的區域則是在導線34位於集線區36之一端的附近,對此,本實施例設計導線34在電性連接感測電極層40之一端的線寬大於位於集線區40內之一端的線寬。如此一來,讓導線34佈局在集線區36附近所佔用的空間得以因導線34線寬變小而減少,有效地縮減線路區30的面積大小,另外利用導線34佈局在感測電極層40附近的較大線寬來避免因導線34在集線區36附近的線寬變小或因走線長度長而導致線阻增加的問題,維持整體導線34的傳遞效果。As shown in the layout of the wiring shown in FIG. 1, the area where the wiring of the integral wire 34 is relatively dispersed is in the vicinity of one end of the wire 34 electrically connected to the sensing electrode layer 40, and the denser region is in the wire 34. In the vicinity of one end of the junction region 36, the line width of the design wire 34 at one end of the electrical connection sensing electrode layer 40 is greater than the line width at one end of the junction region 40. In this way, the space occupied by the wire 34 disposed near the line region 36 can be reduced due to the smaller line width of the wire 34, effectively reducing the size of the line region 30, and additionally arranging the wire 34 in the vicinity of the sensing electrode layer 40. The larger line width avoids the problem that the line width of the wire 34 becomes smaller near the line-collecting zone 36 or the wire resistance increases due to the long wire length, and the transmission effect of the integral wire 34 is maintained.

在一實施例中,基板10採用透明的絕緣材料,例如可選自玻璃、壓克力(PMMA)、聚氯乙烯(PVC)、聚丙烯(PP)、聚對苯二甲酸乙二醇酯(PET)、聚萘二甲酸乙二醇酯(PEN)、聚碳酸酯(PC)、聚苯乙烯(PS)等 透明材料,並且更可以是上述透明材料再經過強化製程所製成。此外,基板10可為硬質材料或可撓性的材料。基板10可包含兩平面表面、兩曲面表面,或一平面一曲面之設計,例如可為2.5D形狀,或3D形狀。對此,基板10的選擇並非為本創作所限制。In an embodiment, the substrate 10 is made of a transparent insulating material, for example, may be selected from the group consisting of glass, acrylic (PMMA), polyvinyl chloride (PVC), polypropylene (PP), and polyethylene terephthalate ( PET), polyethylene naphthalate (PEN), polycarbonate (PC), polystyrene (PS), etc. The transparent material, and more preferably the transparent material described above, is made by a strengthening process. Further, the substrate 10 may be a hard material or a flexible material. The substrate 10 may comprise two planar surfaces, two curved surfaces, or a planar one curved surface design, such as a 2.5D shape, or a 3D shape. In this regard, the choice of substrate 10 is not limited by this creation.

再者,本實施例的感測電極層40包含有複數條沿一第一方向(例如為Y軸)平行排列的第一電極軸41、複數條沿一第二方向(例如為X軸)平行排列第二電極軸42及複數個絕緣塊43,位於各第一電極軸41與各第二電極軸42的交叉部位。較佳地,第一方向與第二方向垂直。更詳細說明,本實施例中第一電極軸41包含有複數個第一導電單元41a及連接部41b,第二電極軸42包含有複數個第二導電單元42a及橋接部42b,其中第一電極軸41的連接部41b與第二電極軸42的橋接部42b形成交叉以構成前述的交叉部分。絕緣塊43則是設置於連接部41b及橋接部42b之間,讓第一電極軸41與第二電極軸42在架構上形成電性絕緣。本實施例的第一導電單元41a與第二導電單元42a大致呈菱形,但當然可根據具體要求而設計,不以本實施例中的菱形為限。Furthermore, the sensing electrode layer 40 of the present embodiment includes a plurality of first electrode axes 41 arranged in parallel along a first direction (for example, a Y-axis), and the plurality of strips are parallel along a second direction (for example, an X-axis). The second electrode shaft 42 and the plurality of insulating blocks 43 are arranged at an intersection of each of the first electrode shafts 41 and each of the second electrode shafts 42. Preferably, the first direction is perpendicular to the second direction. In more detail, in the embodiment, the first electrode shaft 41 includes a plurality of first conductive units 41a and a connecting portion 41b, and the second electrode shaft 42 includes a plurality of second conductive units 42a and a bridge portion 42b, wherein the first electrode The connecting portion 41b of the shaft 41 and the bridging portion 42b of the second electrode shaft 42 form an intersection to constitute the aforementioned intersecting portion. The insulating block 43 is disposed between the connecting portion 41b and the bridge portion 42b to electrically insulate the first electrode shaft 41 from the second electrode shaft 42. The first conductive unit 41a and the second conductive unit 42a of the present embodiment are substantially rhombic, but may of course be designed according to specific requirements, and are not limited to the diamond shape in this embodiment.

此外,第一電極軸41及第二電極軸42的至少一端分別進一步包含一接腳位32,用來對應電性連接導線34,讓每一第一電極軸41及第二電極軸42通過接腳位32、導線34來與外部的一處理器(圖未示)進行信號傳遞。本實施例的第一電極軸41及第二電極軸42是以僅一端包含接腳位32來舉例說明,由第1圖所繪製之方位來看,接腳位32是設在第一電極軸41的下端及第二電極軸42的左側端。當然,在其他實施例中,亦可省略接腳位32的設計,讓第一電極軸41及第二電極軸42分別由第一導電單元41a及第二導電單元42a直接與導線34進行搭接來達成電性連接,在此並無加以限制。In addition, at least one end of the first electrode shaft 41 and the second electrode shaft 42 further includes a pin 32 for electrically connecting the wires 34, so that each of the first electrode shaft 41 and the second electrode shaft 42 are connected. The pin 32 and the wire 34 are signaled to an external processor (not shown). The first electrode shaft 41 and the second electrode shaft 42 of the present embodiment are exemplified by the fact that only one end includes the pin position 32. From the orientation drawn in FIG. 1, the pin position 32 is set on the first electrode axis. The lower end of 41 and the left end of the second electrode shaft 42. Of course, in other embodiments, the design of the pin 32 may be omitted, so that the first electrode axis 41 and the second electrode axis 42 are directly overlapped with the wires 34 by the first conductive unit 41a and the second conductive unit 42a, respectively. To achieve an electrical connection, there is no limit here.

第一電極軸41和第二電極軸42的材料可包含各種透明導電材料,例如,氧化銦錫(indium tin oxide,ITO)、氧化銦鋅(indium zinc oxide,IZO)、氧化鎘錫(cadmium tin oxide,CTO)、氧化鋁鋅(aluminum zinc oxide, AZO)、氧化銦鋅錫(indium tin zinc oxide,ITZO)、氧化鋅(zinc oxide)、氧化鎘(cadmium oxide)、氧化鉿(hafnium oxide,HfO)、氧化銦鎵鋅(indium gallium zinc oxide,InGaZnO)、氧化銦鎵鋅鎂(indium gallium zinc magnesium oxide,InGaZnMgO)、氧化銦鎵鎂(indium gallium magnesium oxide,InGaMgO)、氧化銦鎵鋁(indium gallium aluminum oxide,InGaAlO)、石墨烯(Graphene)、奈米銀線(Ag nanowire)或奈米碳管(Carbon nanotubes,CNT)等,但並不限於此。附帶說明的是,由於第二電極軸42中的橋接部42b是屬於架橋結構,為了提高架橋結構的可靠度,橋接部42b採用金屬材質或其組合,例如銅、銀或鉬鋁鉬。The material of the first electrode shaft 41 and the second electrode shaft 42 may include various transparent conductive materials, for example, indium tin oxide (ITO), indium zinc oxide (IZO), cadmium tin oxide (cadmium tin) Oxide, CTO), aluminum zinc oxide (aluminum zinc oxide, AZO), indium tin zinc oxide (ITZO), zinc oxide, cadmium oxide, hafnium oxide (HfO), indium gallium zinc oxide (InGaZnO) ), indium gallium zinc magnesium oxide (InGaZnMgO), indium gallium magnesium oxide (InGaMgO), indium gallium aluminum oxide (InGaAlO), graphene (Graphene), nai Ag nanowire or carbon nanotubes (CNT), etc., but are not limited thereto. Incidentally, since the bridge portion 42b in the second electrode shaft 42 belongs to a bridge structure, in order to improve the reliability of the bridge structure, the bridge portion 42b is made of a metal material or a combination thereof such as copper, silver or molybdenum aluminum molybdenum.

絕緣塊43可為無機材料,例如氮化矽(silicon nitride)、氧化矽(silicon oxide)與氮氧化矽(silicon oxynitride),有機材料,例如,丙烯酸類樹脂(acrylic resin)、聚醯亞胺(Polyimide)或其它適合之材料。The insulating block 43 may be an inorganic material such as silicon nitride, silicon oxide and silicon oxynitride, and an organic material such as an acrylic resin or a polyimide. Polyimide) or other suitable material.

導線34在實際設計上會因為感測電極層40的解析度設計、集線區36的位置、迴避靜電干擾等考量而有不同的走線佈局,並且導線34之間也就會有不同的走線長度。其中,為節省製程步驟,在設計上,導線34、橋接部42b及接腳位32可採用相同材料,如金屬材料(銅、鋁、鉬鋁鉬等)、透明導電材料(氧化銦錫等)或前述材料之組合,並藉由同一製程步驟來形成。當然,本創作不限於此,上述導線34、橋接部42b及接腳位32亦可以採用不相同材料。The actual design of the wire 34 may have different layouts due to the resolution design of the sensing electrode layer 40, the position of the line region 36, and the avoidance of static interference, and the wires 34 may have different traces. length. In order to save the process steps, the wire 34, the bridge portion 42b and the pin 32 can be made of the same material, such as a metal material (copper, aluminum, molybdenum, aluminum, molybdenum, etc.), a transparent conductive material (indium tin oxide, etc.). Or a combination of the foregoing materials, and formed by the same process step. Of course, the present invention is not limited thereto, and the wire 34, the bridge portion 42b, and the pin 32 may be made of different materials.

在另一實施例中,觸控面板1更可包括一保護層(圖未示),用來覆蓋前述感測電極層40及導線34等元件,避免因接觸空氣或受外界應力作用而被破壞。保護層可採用透明絕緣材料,如二氧化矽、光阻等。保護層可以是對應觸控面板1的面積大小而採用完整的平面膜層之設計,但需裸露出位於集線區36的導線34,以便後續將導線34與外部處理器進行電性連接。In another embodiment, the touch panel 1 further includes a protective layer (not shown) for covering the sensing electrode layer 40 and the wires 34 to avoid damage due to contact with air or external stress. . The protective layer may be made of a transparent insulating material such as ruthenium dioxide, photoresist or the like. The protective layer may be a design that uses a complete planar film layer corresponding to the size of the touch panel 1, but the wires 34 located in the junction region 36 are exposed to electrically connect the wires 34 to an external processor.

在其他實施例中,觸控面板1的基板1更可進一步包含一遮蔽層(圖未示),並且直接藉由遮蔽層的佈設區域來定義出前述的線路區30。在此 觸控面板1架構下,感測電極層40是位於觸控區20而設置於基板10上,而導線34則是位於線路區30而設置於遮蔽層上。In other embodiments, the substrate 1 of the touch panel 1 further includes a shielding layer (not shown), and the aforementioned wiring region 30 is directly defined by the layout region of the shielding layer. here In the structure of the touch panel 1, the sensing electrode layer 40 is disposed on the substrate 10 in the touch area 20, and the wires 34 are disposed on the shielding layer on the line area 30.

為了對導線34的線寬設計做更詳細的說明,請再一併參考第2圖,繪示第1圖中區域A的局部放大示意圖。本實施例設計的各條導線34是採用階梯式變化來呈現導線34線寬變化的態樣,從電性連接感測電極層40之一端開始至位於集線區36之一端為止,導線34的線寬是分階段設計愈來愈小。In order to explain the line width design of the wire 34 in more detail, please refer to FIG. 2 together to show a partial enlarged view of the area A in FIG. Each of the wires 34 designed in this embodiment adopts a stepwise change to exhibit a change in the line width of the wire 34, starting from one end of the electrical connection sensing electrode layer 40 to a line at one end of the collecting portion 36, the wire 34 The width is a phased design that is getting smaller and smaller.

本實施例所舉例的各階段是根據第二電極軸42的排列間隔來區分,由於第1圖的區域A中對應有四條第二電極軸42之排列,因此具有四個階段,而本實施例是進一步將區域A依階段來分為四個區域(A1、A2、A3及A4),當導線34每進入一個區域(A1、A2、A3或A4),也就是每經過一條第二電極軸42,線寬即變化一次,例如:區域A中最長的導線345是佈局於四個區域(A1、A2、A3及A4),因此該最長的導線345在區域A中至少具有四種線寬,其餘導線34以此類推。如此一來,讓最後在靠近集線區36附近且走線較為密集的區域的導線34線寬得以大幅減小,進而有效縮減該區域的面積。The stages exemplified in the present embodiment are distinguished according to the arrangement interval of the second electrode shafts 42. Since the area A of the first figure corresponds to the arrangement of the four second electrode axes 42, there are four stages, and this embodiment has four stages. Further, the area A is further divided into four areas (A1, A2, A3, and A4) according to the stage, and each time the wire 34 enters an area (A1, A2, A3, or A4), that is, each time a second electrode axis 42 is passed. The line width changes once, for example, the longest wire 345 in the area A is laid out in four areas (A1, A2, A3, and A4), so the longest wire 345 has at least four line widths in the area A, and the rest Wire 34 and so on. In this way, the line width of the wire 34 which is finally in the vicinity of the line-collecting zone 36 and in which the wiring is dense is greatly reduced, thereby effectively reducing the area of the area.

由第2圖更可看出,本實施例在每個區域(A1、A2、A3或A4)中的不同導線34更是例如設計為相同的線寬,對此在整體線寬設計規劃上較為方便,不需針對每條導線34來特製。具體來看,由區域A1至區域A4依序看下來,已經在區域A1中與第二電極軸42電性連接的導線341,其在下一區域A2就不會佔用任何面積,因而可將區域A2的整體面積平均分配給其他剩餘的導線342~345,以此類推,本實施例對於線寬的規劃方式讓導線342~345的線寬得以愈來愈寬,整體所佔的面積卻又不會超出原先制定的線路區30的大小,因此不需擴大線路區30來容納整體導線34的佈局。It can be seen from Fig. 2 that the different wires 34 in each region (A1, A2, A3 or A4) of the present embodiment are designed, for example, to have the same line width, which is more in the overall line width design plan. Convenient, no need to be tailored for each wire 34. Specifically, the wire 341 that has been electrically connected to the second electrode shaft 42 in the area A1 is sequentially viewed from the area A1 to the area A4, and does not occupy any area in the next area A2, so the area A2 can be used. The overall area is evenly distributed to the remaining wires 342~345, and so on. In this embodiment, the line width is planned to make the line width of the wires 342-345 wider and wider, and the overall area is not Exceeding the size of the previously defined line zone 30, there is no need to enlarge the line zone 30 to accommodate the layout of the integral wire 34.

值得一提的是,本實施例之任一導線34所包含的不同線寬是根據導線34的走線佈局來調整,並非要有一定的變化規則,以第2圖所示的階梯 狀導線34態樣來看,每一階段的線寬及長度並非為本實施例所限制,並且也並非要根據第二電極軸42的排列間隔來區分不同階段。當然,基於電阻的計算公式:電阻(R)=電阻係數(ρ)×長度(L)/截面積(A),在線寬規劃上的前提是,同一導線34中,幾段相對較大的線寬(截面積較大)在設計上要能彌補線寬因設計相對較小(截面積較小)所導致的線阻增加的部分,以及同時也要能彌補因走線長度較長所可能導致線阻增加的部分,藉以維持導線34傳遞信號的傳遞效果。It should be noted that the different line widths included in any of the wires 34 of this embodiment are adjusted according to the layout of the wires 34. It is not necessary to have a certain change rule, and the ladder shown in FIG. 2 In view of the shape of the wire 34, the line width and length of each stage are not limited by the embodiment, and it is not necessary to distinguish the different stages according to the arrangement interval of the second electrode shaft 42. Of course, the calculation formula based on resistance: resistance (R) = resistivity (ρ) × length (L) / cross-sectional area (A), the premise on the line width planning is that a relatively large number of lines in the same wire 34 The width (larger cross-sectional area) is designed to compensate for the increase in line width due to the relatively small design (small cross-sectional area), and at the same time to compensate for the possibility of long lines due to long trace lengths. The portion of the resistance is increased to maintain the transmission effect of the signal transmitted by the wire 34.

承上所述,對於導線34中的最大線寬而言,當一條導線34的線阻已經調配得夠低,即使後續階段再增加導線34的線寬,對於線阻的降低也有限的話,那麼該條導線34的最大線寬即可以被定義出來,換言之,本實施例中的導線34的最大線寬可以設計為小於或等於一固定值。As described above, for the maximum line width in the wire 34, when the line resistance of one wire 34 has been set low enough, even if the line width of the wire 34 is increased in the subsequent stage, the reduction of the line resistance is limited, then The maximum line width of the wire 34 can be defined. In other words, the maximum line width of the wire 34 in this embodiment can be designed to be less than or equal to a fixed value.

下文將針對本創作之觸控面板的不同實施樣態進行說明,且為簡化說明,以下說明主要針對各實施例不同之處進行詳述,而不再對相同之處作重覆贅述。此外,本創作之各實施例中相同之元件係以相同之標號進行標示,以利於各實施例間互相對照。The different implementations of the touch panel of the present invention will be described below, and the following description is mainly for the sake of simplification of the description, and the detailed description is not repeated. In addition, the same elements in the embodiments of the present invention are denoted by the same reference numerals to facilitate the comparison between the embodiments.

本創作之導線34的線寬變化設計,並不限於上述第2圖所繪示。第3圖與第4圖分別繪示本創作觸控面板之導線的另兩種不同實施態樣的局部示意圖。如第3圖所示,本實施例同樣是採用階梯式變化來呈現導線34’線寬變化的態樣,與第2圖之實施例不同處在於,本實施例的階梯式是以第2圖中的每條導線34的長軸為中心進行鏡射而成之導線34’態樣。另外,如第4圖所示,本實施例是採用連續平滑變化來呈現導線34”線寬變化的態樣。The design of the line width variation of the wire 34 of the present invention is not limited to that shown in FIG. 2 above. FIG. 3 and FIG. 4 respectively show partial schematic views of two different implementations of the wires of the present touch panel. As shown in FIG. 3, this embodiment also adopts a stepwise change to present a change in the line width of the wire 34'. The difference from the embodiment of FIG. 2 is that the step type of the embodiment is the second figure. The long axis of each of the wires 34 in the middle is mirrored to form a wire 34'. Further, as shown in Fig. 4, the present embodiment employs a continuous smooth change to exhibit a change in the line width of the wire 34".

請參考第5圖,其繪示本創作第二較佳實施例觸控面板的上視示意圖。本實施例與上述第1圖所示的第一較佳實施例的結構大致相同,不同之處在於,本實施例中的所有第二電極軸42是分兩組以由不同端(如第5圖所繪製之方位的左右兩側端)來電性連接導線34,本實施例是例如採間隔方式來分配。換言之,本實施例有部分的接腳位32是設置在第二電極軸42的左 側端,而有部分的接腳位32是設置在第二電極軸42的右側端。如此一來,在導線34的走線佈局上可以更為分散、靈活,進一步縮減線路區30的面積。Please refer to FIG. 5 , which is a top view of the touch panel of the second preferred embodiment of the present invention. This embodiment is substantially the same as the first preferred embodiment shown in FIG. 1 except that all the second electrode shafts 42 in this embodiment are divided into two groups to be different ends (eg, 5th). The left and right sides of the orientation depicted in the figure are electrically connected to the wires 34, and this embodiment is distributed, for example, by a spacing method. In other words, a portion of the pin 32 of the embodiment is disposed on the left of the second electrode shaft 42. The side end, and a portion of the pin 32 is disposed at the right end of the second electrode shaft 42. In this way, the layout of the wires 34 can be more dispersed and flexible, and the area of the line region 30 can be further reduced.

當然,在實際設計上,除了可如本實施例將所有第二電極軸42分為兩組來電性連接導線34之外,在另一實施例中,更可進一步將所有第一電極軸41也分為兩組以由不同端(如第5圖所繪製之方位的上、下兩端)來電性連接導線34。Of course, in actual design, in addition to all the second electrode shafts 42 can be divided into two sets of the incoming connecting wires 34 as in this embodiment, in another embodiment, all the first electrode axes 41 can be further Divided into two groups to electrically connect the wires 34 by different ends (upper and lower ends of the orientation as depicted in FIG. 5).

綜上所述,本創作提供的觸控面板,導線的線寬會隨著走線佈局而有所變化,更具體來講,在整體走線較為密集的部分,導線的線寬相對設計較小,藉以讓原本因導線的走線較密集而佔用較大線路區的空間得以有效地減小;另一方面,在走線較為分散的部分,導線的線寬則相對可設計較大,以降低前述因線寬較小所增加的線阻,維持導線的傳遞效果。如此一來,本創作之觸控面板的線路區的面積得以有效縮減,進而達成觸控面板窄邊框的設計。In summary, the line width of the touch panel provided by the present invention varies with the layout of the trace, and more specifically, the line width of the conductor is relatively small in the portion where the overall trace is dense. Therefore, the space occupied by the larger wiring area due to the dense wiring of the wires can be effectively reduced; on the other hand, in the portion where the wiring is more dispersed, the line width of the wires can be relatively designed to be reduced to reduce The aforementioned line resistance due to the small line width maintains the transmission effect of the wire. As a result, the area of the circuit area of the touch panel of the present invention is effectively reduced, thereby achieving the design of the narrow border of the touch panel.

以上所述僅為本創作之較佳實施例,凡依本創作申請專利範圍所做之均等變化與修飾,皆應屬本創作之涵蓋範圍。The above descriptions are only preferred embodiments of the present invention, and all changes and modifications made by the scope of the patent application of the present invention should be covered by the present invention.

1‧‧‧觸控面板1‧‧‧ touch panel

10‧‧‧基板10‧‧‧Substrate

20‧‧‧觸控區20‧‧ ‧ touch area

30‧‧‧線路區30‧‧‧Line area

32‧‧‧接腳位32‧‧‧ pin

34‧‧‧導線34‧‧‧Wire

36‧‧‧集線區36‧‧‧Collection area

40‧‧‧感測電極層40‧‧‧Sensing electrode layer

41‧‧‧第一電極軸41‧‧‧First electrode shaft

41a‧‧‧第一導電單元41a‧‧‧First Conductive Unit

41b‧‧‧連接部41b‧‧‧Connecting Department

42‧‧‧第二電極軸42‧‧‧Second electrode shaft

42a‧‧‧第二導電單元42a‧‧‧Second conductive unit

42b‧‧‧橋接部42b‧‧‧Bridge

43‧‧‧絕緣塊43‧‧‧Insulation block

A‧‧‧區域A‧‧‧ area

Claims (11)

一種觸控面板,包含:一基板,界定有一觸控區和一對應該觸控區的線路區,該線路區內還具有一集線區;一感測電極層,設置於該基板上,且位於該觸控區;以及複數彼此電性絕緣的導線,設置於該基板上,且位於該線路區,各該導線的一端位於該集線區內,另一端電性連接該感測電極層,其中,至少一導線包含兩種以上的線寬。A touch panel includes: a substrate defining a touch area and a pair of line areas corresponding to the touch area, the line area further having a line region; a sensing electrode layer disposed on the substrate and located And the plurality of electrically-insulated wires are disposed on the substrate, and are located in the circuit region, wherein one end of each of the wires is located in the line region, and the other end is electrically connected to the sensing electrode layer, wherein At least one wire includes more than two line widths. 如申請專利範圍第1項所述之觸控面板,其中包含兩種以上線寬的該導線在電性連接該感測電極層之一端的線寬大於位於該集線區內之一端的線寬。The touch panel of claim 1, wherein the wire having two or more line widths has a line width electrically connected to one end of the sensing electrode layer greater than a line width at one end of the line region. 如申請專利範圍第1項所述之觸控面板,其中包含兩種以上線寬的該導線是以階梯式變化來呈現線寬變化的態樣。The touch panel of claim 1, wherein the wire comprising two or more line widths exhibits a change in line width in a stepwise change. 如申請專利範圍第1項所述之觸控面板,其中包含兩種以上線寬的該導線是以連續平滑變化來呈現線寬變化的態樣。The touch panel of claim 1, wherein the wire comprising two or more line widths exhibits a line width variation in a continuous smooth variation. 如申請專利範圍第1項所述之觸控面板,其中該些導線具有不同的走線長度。The touch panel of claim 1, wherein the wires have different trace lengths. 如申請專利範圍第1項所述之觸控面板,其中各該導線的最大線寬小於或等於一固定值。The touch panel of claim 1, wherein a maximum line width of each of the wires is less than or equal to a fixed value. 如申請專利範圍第1項所述之觸控面板,其中該些導線採用金屬材料、透明導電材料或前述材料之組合。The touch panel of claim 1, wherein the wires are made of a metal material, a transparent conductive material or a combination of the foregoing materials. 如申請專利範圍第1項所述之觸控面板,其中該基板進一步包含一遮蔽層,該遮蔽層的佈設區域定義出該線路區。The touch panel of claim 1, wherein the substrate further comprises a shielding layer, the routing area of the shielding layer defines the line area. 如申請專利範圍第8項所述之觸控面板,其中該些導線進一步設置於該遮蔽層上。The touch panel of claim 8, wherein the wires are further disposed on the shielding layer. 如申請專利範圍第1項所述之觸控面板,其中該感測電極層包含有複數沿一第一方向平行排列的第一電極軸與複數沿一第二方向平行排列的第二電極軸,以及複數個絕緣塊,位於各該第一電極軸與各該第二電極軸的交叉部位。The touch panel of claim 1, wherein the sensing electrode layer comprises a plurality of first electrode axes arranged in parallel along a first direction and a plurality of second electrode axes arranged in parallel along a second direction. And a plurality of insulating blocks located at intersections of the first electrode axes and the second electrode axes. 如申請專利範圍第10項所述之觸控面板,其中該些第一電極軸及該些第二電極軸的至少一端分別包含一接腳位,用來對應電性連接該些導線。The touch panel of claim 10, wherein at least one ends of the first electrode shaft and the second electrode shaft respectively comprise a pin position for electrically connecting the wires.
TW102220695U 2013-05-09 2013-11-06 Touch panel TWM472893U (en)

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* Cited by examiner, † Cited by third party
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US9811222B2 (en) 2014-07-17 2017-11-07 Industrial Technology Research Institute Sensing structure
TWI668612B (en) * 2018-04-27 2019-08-11 大陸商業成科技(成都)有限公司 Touch Panel And Touch Display Device Using The Touch Panel

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