TWI733506B - Touch device and method for fabricating the same - Google Patents

Touch device and method for fabricating the same Download PDF

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TWI733506B
TWI733506B TW109121932A TW109121932A TWI733506B TW I733506 B TWI733506 B TW I733506B TW 109121932 A TW109121932 A TW 109121932A TW 109121932 A TW109121932 A TW 109121932A TW I733506 B TWI733506 B TW I733506B
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traces
display module
touch
module
conductive layer
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TW109121932A
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Chinese (zh)
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TW202201195A (en
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王進立
洪裕民
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大陸商業成科技(成都)有限公司
大陸商業成光電(深圳)有限公司
英特盛科技股份有限公司
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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F3/00Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
    • G06F3/01Input arrangements or combined input and output arrangements for interaction between user and computer
    • G06F3/03Arrangements for converting the position or the displacement of a member into a coded form
    • G06F3/041Digitisers, e.g. for touch screens or touch pads, characterised by the transducing means
    • G06F3/0412Digitisers structurally integrated in a display
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01LSEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
    • H01L27/00Devices consisting of a plurality of semiconductor or other solid-state components formed in or on a common substrate
    • H01L27/15Devices consisting of a plurality of semiconductor or other solid-state components formed in or on a common substrate including semiconductor components having potential barriers, specially adapted for light emission
    • H01L27/153Devices consisting of a plurality of semiconductor or other solid-state components formed in or on a common substrate including semiconductor components having potential barriers, specially adapted for light emission in a repetitive configuration, e.g. LED bars
    • H01L27/156Devices consisting of a plurality of semiconductor or other solid-state components formed in or on a common substrate including semiconductor components having potential barriers, specially adapted for light emission in a repetitive configuration, e.g. LED bars two-dimensional arrays
    • HELECTRICITY
    • H10SEMICONDUCTOR DEVICES; ELECTRIC SOLID-STATE DEVICES NOT OTHERWISE PROVIDED FOR
    • H10KORGANIC ELECTRIC SOLID-STATE DEVICES
    • H10K59/00Integrated devices, or assemblies of multiple devices, comprising at least one organic light-emitting element covered by group H10K50/00
    • H10K59/10OLED displays
    • HELECTRICITY
    • H10SEMICONDUCTOR DEVICES; ELECTRIC SOLID-STATE DEVICES NOT OTHERWISE PROVIDED FOR
    • H10KORGANIC ELECTRIC SOLID-STATE DEVICES
    • H10K59/00Integrated devices, or assemblies of multiple devices, comprising at least one organic light-emitting element covered by group H10K50/00
    • H10K59/40OLEDs integrated with touch screens
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F2203/00Indexing scheme relating to G06F3/00 - G06F3/048
    • G06F2203/041Indexing scheme relating to G06F3/041 - G06F3/045
    • G06F2203/04103Manufacturing, i.e. details related to manufacturing processes specially suited for touch sensitive devices

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  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Power Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Theoretical Computer Science (AREA)
  • Condensed Matter Physics & Semiconductors (AREA)
  • Computer Hardware Design (AREA)
  • Microelectronics & Electronic Packaging (AREA)
  • Human Computer Interaction (AREA)
  • Position Input By Displaying (AREA)

Abstract

The present invention provides a touch device and a method for fabricating the same, which form a plurality of first conductive traces and a plurality of second conductive traces on a release film. The release film is fixed to a touch module using the three-dimensional hot pressing technology. The first conductive traces extend to the first side surface of the touch module and electrically connect to the first conductive pads of the touch module. The second conductive traces extend to the second side surface of the touch module and electrically connect to the second conductive pads of the touch module. Then, the release film is removed. A curing light is emitted to the conductive traces to cure the conductive traces. The traces and the touch module are encapsulated in a case. The present invention tightly laminates the conductive traces to the sides of the touch module using the hot pressing and laminating technology. Thus, the wiring regions can be greatly reduced to achieve the purpose for narrowing a bezel region.

Description

觸控裝置及其製造方法Touch control device and manufacturing method thereof

本發明係有關一種顯示器之技術,特別是指一種觸控裝置及其製造方法。The present invention relates to a display technology, in particular to a touch device and a manufacturing method thereof.

隨著科技日益漸進,智慧型手機與平板電腦等可攜式電子裝置的功能也變得越來越強大,相對使用者對於可攜式電子裝置的依賴程度逐漸提升,令使用者對於可攜式電子裝置的輕薄度,及易於攜帶的程度等要求也逐漸提高。With the gradual advancement of technology, the functions of portable electronic devices such as smart phones and tablet computers have become more and more powerful. Relative users’ reliance on portable electronic devices has gradually increased. The requirements for the lightness and the ease of carrying of electronic devices are gradually increasing.

由此許多廠商開始針對可攜式電子裝置的零件進行縮減,如製作更小但功能更強大的半導體元件。除此之外,許多廠商也開始針對可攜式電子裝置之觸控螢幕外圈邊框的走線區域進行縮減,此種設計修改不但能使可攜式電子裝置更加輕薄,亦可擴大螢幕的面積。As a result, many manufacturers have begun to reduce the parts of portable electronic devices, such as making smaller but more powerful semiconductor components. In addition, many manufacturers have also begun to reduce the routing area of the outer frame of the touch screen of portable electronic devices. This design modification not only makes the portable electronic device thinner, but also expands the screen area. .

請參照第一圖,一般觸控螢幕80具有可視區84與圍繞可視區86周邊的非可視區86。目前常見的走線設計多半是將觸控螢幕80的走線82拉到非可視區86,走線82以並排的方式設置,將走線82拉到觸控螢幕80背面的電路板(圖中未示)的位置連接,故可視區84的大小會受到非可視區86的走線分布範圍影響。Referring to the first figure, a general touch screen 80 has a visible area 84 and a non-visible area 86 surrounding the periphery of the visible area 86. At present, the common wiring design is mostly to pull the wiring 82 of the touch screen 80 to the non-visual area 86. The wiring 82 is arranged side by side, and the wiring 82 is pulled to the circuit board on the back of the touch screen 80 (as shown in the figure). Not shown) are connected, so the size of the visible area 84 will be affected by the distribution range of the non-visible area 86.

但現今消費者對於螢幕面積的要求越來越大,使得窄邊框的需求提升,若要針對上述這種佈線方式對空間進行調整,僅能採用縮減走線之間的間距,以達到縮小走線區之面積的佔用比例。但這種方式的缺點是,縮減程度易受到材料解析度、基材脹縮、設備精度、解析度、製程穩定性及環境潔靜度等影響,且走線之間無法過於接近,使走線區域能縮減程度仍相當有限。But nowadays, consumers are demanding more and more screen area, which has increased the demand for narrow bezels. To adjust the space for the above-mentioned wiring method, the only way to reduce the spacing between the traces is to reduce the traces. The proportion of the area occupied by the district. However, the disadvantage of this method is that the degree of reduction is easily affected by material resolution, substrate expansion and contraction, equipment accuracy, resolution, process stability, and environmental cleanliness, and the traces cannot be too close to each other, making the traces The extent of regional reduction is still quite limited.

有鑑於此,本發明遂針對上述習知技術之缺失,提出一種觸控裝置及其製造方法,以有效克服上述之該等問題。In view of this, the present invention provides a touch device and a manufacturing method thereof in order to effectively overcome the above-mentioned problems in order to solve the above-mentioned shortcomings of the conventional technology.

本發明之主要目的在提供一種觸控裝置及其製造方法,其利用熱壓貼合的技術,能令走線完整貼合在觸控模組及顯示模組的側壁,以大幅縮減走線的佈線區域,達到窄邊框的目的。The main purpose of the present invention is to provide a touch device and a manufacturing method thereof, which utilizes the hot-press bonding technology to make the wiring completely adhere to the sidewalls of the touch module and the display module, so as to greatly reduce the amount of wiring. Wiring area, to achieve the purpose of narrow frame.

本發明之另一目的在提供一種觸控裝置及其製造方法,其利用熱壓貼合的技術,能令走線完整貼合在觸控模組及顯示模組的側壁,使走線彎折半徑不受基材厚度與基材彎折性影響。Another object of the present invention is to provide a touch device and a manufacturing method thereof, which utilizes the hot-press bonding technology to make the traces be completely attached to the sidewalls of the touch module and the display module, so that the traces are bent The radius is not affected by the thickness of the substrate and the bendability of the substrate.

為達上述之目的,本發明提供一種觸控裝置,包括一觸控模組,包括一基板、一第一導電層、一第二導電層及一透明絕緣層。其中基板具有相鄰之一第一側面及一第二側面;第一導電層位於基板上,具有一第一搭接區,第一導電層具有多個第一電極圖案陣列以及多個第一導電墊,每一第一電極圖案陣列之一端對應設置每一第一導電墊,且該些第一導電墊位於第一搭接區中;第二導電層疊置於第一導電層上,具有一第二搭接區,第二搭接區相鄰第一搭接區之一側,第二導電層具有多個第二電極圖案陣列以及多個第二導電墊,每一第二電極圖案陣列之一端對應設置每一第二導電墊,且該些第二電極圖案之排列方向與該些第一電極圖案之排列方向相交;透明絕緣層夾設於第一導電層上與第二導電層之間,且透明絕緣層裸露出部分該些第一導電墊。觸控模組上更設有多條第一走線延伸至第一側面且與該些第一導電墊電性連接,以及多條第二走線延伸至第二側面且與些第二導電墊電性連接。In order to achieve the above objective, the present invention provides a touch device including a touch module, including a substrate, a first conductive layer, a second conductive layer, and a transparent insulating layer. The substrate has a first side surface and a second side surface adjacent to each other; the first conductive layer is located on the substrate and has a first lap area, and the first conductive layer has a plurality of first electrode pattern arrays and a plurality of first conductive layers. Pads, one end of each first electrode pattern array is provided with each first conductive pad corresponding to each, and the first conductive pads are located in the first lap area; the second conductive layer is placed on the first conductive layer, and has a first conductive pad. Two overlapping areas, the second overlapping area is adjacent to one side of the first overlapping area, the second conductive layer has a plurality of second electrode pattern arrays and a plurality of second conductive pads, one end of each second electrode pattern array Each second conductive pad is correspondingly arranged, and the arrangement direction of the second electrode patterns intersects the arrangement direction of the first electrode patterns; the transparent insulating layer is sandwiched between the first conductive layer and the second conductive layer, And the transparent insulating layer exposes part of the first conductive pads. The touch module is further provided with a plurality of first traces extending to the first side surface and electrically connected to the first conductive pads, and a plurality of second traces extending to the second side surface and connected to the second conductive pads Electrical connection.

在本實施例中,基板上具有一可視區與圍繞可視區之周邊區,該些第一電極圖案陣列及該些第二電極圖案陣列位於可視區,第一搭接區及第二搭接區位在周邊區內。In this embodiment, the substrate has a visible area and a peripheral area surrounding the visible area, the first electrode pattern arrays and the second electrode pattern arrays are located in the visible area, the first overlap area and the second overlap area In the surrounding area.

在本實施例中,觸控裝置更包含一顯示模組,觸控模組設置於顯示模組之上,顯示模組具有一第三側面、一第四側面,且第三側面及第四側面分別與第一側面及第二側面同一側,且該些第一走線自第一側面延伸至第三側面,該些第二走線自第二側面延伸至第四側面。In this embodiment, the touch device further includes a display module. The touch module is disposed on the display module. The display module has a third side surface, a fourth side surface, and a third side surface and a fourth side surface. They are respectively on the same side as the first side surface and the second side surface, and the first traces extend from the first side surface to the third side surface, and the second traces extend from the second side surface to the fourth side surface.

在本實施例中,顯示模組更包含一底面,底面位於顯示模組遠離觸控模組之一側,並與第三側面及第四側面相連接,其中顯示模組的底面具有一接合墊,該些第一走線及該些第二走線匯集至接合墊。In this embodiment, the display module further includes a bottom surface. The bottom surface is located on a side of the display module away from the touch module and connected to the third side surface and the fourth side surface. The bottom surface of the display module has a bonding pad , The first traces and the second traces converge to the bonding pad.

在本實施例中,該些第一走線與該些第二走線之延伸長度大致與觸控模組及顯示模組之厚度總合相同。In this embodiment, the extension lengths of the first traces and the second traces are approximately the same as the total thickness of the touch module and the display module.

另外,本發明亦提供一種觸控裝置之製造方法,其步驟包括,首先在一離型膜上形成多條第一走線與第二走線。提供一觸控模組,觸控模組之結構包括一基板具有相鄰之一第一側面及一第二側面;一第一導電層位於基板上,具有一第一搭接區,第一導電層具有多個第一電極圖案陣列以及多個第一導電墊,每一第一電極圖案陣列之一端對應設置每一第一導電墊,且該些第一導電墊位於第一搭接區中;一第二導電層疊置於第一導電層上,具有一第二搭接區,第二搭接區相鄰第一搭接區之一側,第二導電層具有多個第二電極圖案陣列以及多個第二導電墊,每一第二電極圖案陣列之一端對應設置每一第二導電墊,且該些第二電極圖案之排列方向與該些第一電極圖案之排列方向相交;及一透明絕緣層夾設於第一導電層上與第二導電層之間,且透明絕緣層裸露出部分該些第一導電墊。接著對離型膜施以三維熱壓技術,以將多條第一走線,延伸至第一側面且與些第一導電墊電性連接,以及將多條第二走線,延伸至第二側面且與該些第二導電墊電性連接。移除該離型膜。最後使用固化燈照射該些第一走線與該些第二走線,以固化該些第一走線與該些第二走線。In addition, the present invention also provides a method for manufacturing a touch device, the steps of which include firstly forming a plurality of first traces and second traces on a release film. A touch module is provided. The structure of the touch module includes a substrate having a first side surface and a second side surface adjacent to each other; a first conductive layer is located on the substrate, and has a first lap area, and a first conductive layer The layer has a plurality of first electrode pattern arrays and a plurality of first conductive pads, one end of each first electrode pattern array is correspondingly provided with each first conductive pad, and the first conductive pads are located in the first lap area; A second conductive layer is placed on the first conductive layer and has a second overlap area, the second overlap area is adjacent to one side of the first overlap area, the second conductive layer has a plurality of second electrode pattern arrays and A plurality of second conductive pads, one end of each second electrode pattern array is correspondingly provided with each second conductive pad, and the arrangement direction of the second electrode patterns intersects the arrangement direction of the first electrode patterns; and a transparent The insulating layer is sandwiched between the first conductive layer and the second conductive layer, and the transparent insulating layer exposes part of the first conductive pads. Then apply three-dimensional hot pressing technology to the release film to extend the first traces to the first side and electrically connect with the first conductive pads, and extend the second traces to the second The side surface is electrically connected to the second conductive pads. Remove the release film. Finally, a curing lamp is used to irradiate the first traces and the second traces to cure the first traces and the second traces.

在本實施例中,觸控裝置之製造方法,更包括噴塗絕緣保護層至該些第一走線與該些第二走線上。並安裝殼體以包覆觸控模組之側面、該些第一走線、該些第二走線及顯示模組之底面。In this embodiment, the manufacturing method of the touch device further includes spraying an insulating protective layer on the first traces and the second traces. The casing is installed to cover the side surface of the touch module, the first wires, the second wires, and the bottom surface of the display module.

底下藉由具體實施例詳加說明,當更容易瞭解本發明之目的、技術內容、特點及其所達成之功效。Detailed descriptions are given below by specific embodiments, so that it will be easier to understand the purpose, technical content, features, and effects of the present invention.

本發明可提供一種觸控裝置,透過特殊的結構設計搭配熱壓貼合的技術,令走線完整貼合在觸控模組及顯示模組的側壁,且無須利用基材防護走線,令走線彎折半徑不受基材的厚度及彎折性的影響,能大幅縮減走線的佈線區域,達到窄邊框的目的。The present invention can provide a touch control device. Through a special structure design and hot-press bonding technology, the wiring is completely bonded to the sidewalls of the touch module and the display module, and the wiring is not required to be protected by the substrate. The bending radius of the trace is not affected by the thickness and flexibility of the substrate, and the wiring area of the trace can be greatly reduced to achieve the purpose of a narrow frame.

為能更加瞭解本發明如何達到上述功效,在此詳述觸控裝置及其製造方法之技術,請配合參照第二圖至第五圖,首先說明觸控裝置1之結構,觸控裝置1包括一顯示模組10、一觸控模組20及多條第一走線30與多條第二走線32。觸控模組20設置於顯示模組10之上,且顯示模組10與觸控模組20之間透過黏膠,如光學膠(Optically Clear Adhesive,OCA),連接在一起。In order to better understand how the present invention achieves the above-mentioned effects, the technology of the touch device and its manufacturing method are described in detail here. Please refer to the second to fifth figures together. First, the structure of the touch device 1 will be described. The touch device 1 includes A display module 10, a touch module 20, a plurality of first wires 30 and a plurality of second wires 32. The touch module 20 is disposed on the display module 10, and the display module 10 and the touch module 20 are connected together through an adhesive, such as Optically Clear Adhesive (OCA).

其中觸控模組20可為雙薄膜或單薄膜(Film)結構,如單層氧化銦錫(single ITO,SITO)結構或薄膜-薄膜(F-F)結構。在本實施例中,觸控模組20為之雙薄膜觸控模組20,其結構包括一基板22、一第一導電層24、一第二導電層26及一透明絕緣層28。其中基板22具有相鄰之一第一側面220及一第二側面222,以及基板22上表面的一可視區228與圍繞可視區228之周邊區229。觸控模組20之基板22為透明高分子聚合物薄膜。第一導電層24位於基板22上,第一導電層24可在基板22上形成一第一搭接區224,並露出基板22表面,且第一導電層24具有多個第一電極圖案陣列240以及多個第一導電墊242,每一第一電極圖案陣列240之一端對應設置每一第一導電墊242,該些第一電極圖案陣列240位於可視區228,該些第一導電墊242則位於第一搭接區224中,且第一搭接區224位在周邊區229內。The touch module 20 can be a double film or a single film (Film) structure, such as a single ITO (SITO) structure or a film-film (F-F) structure. In this embodiment, the touch module 20 is a double-film touch module 20, and its structure includes a substrate 22, a first conductive layer 24, a second conductive layer 26, and a transparent insulating layer 28. The substrate 22 has a first side 220 and a second side 222 adjacent to each other, and a visible area 228 on the upper surface of the substrate 22 and a peripheral area 229 surrounding the visible area 228. The substrate 22 of the touch module 20 is a transparent polymer film. The first conductive layer 24 is located on the substrate 22. The first conductive layer 24 can form a first lap area 224 on the substrate 22 and expose the surface of the substrate 22, and the first conductive layer 24 has a plurality of first electrode pattern arrays 240 And a plurality of first conductive pads 242, each first conductive pad 242 is provided at one end of each first electrode pattern array 240, the first electrode pattern arrays 240 are located in the visible area 228, and the first conductive pads 242 are It is located in the first overlapping area 224, and the first overlapping area 224 is located in the peripheral area 229.

第二導電層26疊置於第一導電層24上,第二導電層26可在基板22上形成一第二搭接區226,第二搭接區226相鄰第一搭接區224之一側,第二導電層26具有多個第二電極圖案陣列260以及多個第二導電墊262,該些第二電極圖案260之排列方向與該些第一電極圖案240之排列方向相交。每一第二電極圖案陣列260之一端對應設置每一第二導電墊262,第二電極圖案陣列260位於可視區228,該些第二導電墊262位於第二搭接區226中,且第二搭接區226位在周邊區229內。透明絕緣層28則設置在第一導電層24與第二導電層26之間,且透明絕緣層28裸露出部分該些第一導電墊242,也就是第一搭接區224。The second conductive layer 26 is stacked on the first conductive layer 24. The second conductive layer 26 can form a second lap area 226 on the substrate 22. The second lap area 226 is adjacent to one of the first lap areas 224. On the other hand, the second conductive layer 26 has a plurality of second electrode pattern arrays 260 and a plurality of second conductive pads 262, and the arrangement direction of the second electrode patterns 260 intersects the arrangement direction of the first electrode patterns 240. One end of each second electrode pattern array 260 is provided with each second conductive pad 262 correspondingly. The second electrode pattern array 260 is located in the visible area 228. The second conductive pads 262 are located in the second bonding area 226. The overlap area 226 is located in the peripheral area 229. The transparent insulating layer 28 is disposed between the first conductive layer 24 and the second conductive layer 26, and the transparent insulating layer 28 exposes a portion of the first conductive pads 242, that is, the first bonding area 224.

其中第一電極圖案陣列240與第二電極圖案陣列260為了不輕易被視認,通常採用氧化銦錫(Indium Tin Oxides,ITO)來形成透明的電極圖案陣列,且第一電極圖案陣列240與第二電極圖案陣列260為可為半導體氧化物電極圖案陣列、奈米金屬絲電極圖案陣列、奈米碳材電極圖案陣列、聚二氧乙基噻吩(PEDOT)電極圖案陣列或金屬網格。In order to prevent the first electrode pattern array 240 and the second electrode pattern array 260 from being easily recognized, indium tin oxide (ITO) is usually used to form a transparent electrode pattern array, and the first electrode pattern array 240 and the second electrode pattern array 240 The electrode pattern array 260 may be a semiconductor oxide electrode pattern array, a nanowire electrode pattern array, a carbon nanomaterial electrode pattern array, a polydioxyethylthiophene (PEDOT) electrode pattern array, or a metal grid.

請持續參照第二圖至第五圖,顯示模組10則可為液晶顯示模組(liquid crystal display module,LCM)、有機發光二極體(Organic Light Emitting Diode,OLED)顯示模組、量子發光二極體(quantum dot LED,QLED)顯示模組、毫米發光二極體(mini-LED)顯示模組、微型發光二極體(micro-LED)、電泳顯示技術顯示模組(Electro-Phoretic Display,EPD)或發光二極體(LED)顯示模組。在本實施例中,顯示模組10具有一第三側面12、一第四側面14,且第三側面12及第四側面14分別與基板第一側面220及第二側面222同一側。顯示模組20上更設有一底面16位於顯示模組10上且遠離觸控模組20之一側,並與第三側面12及第四側面14相連接,且顯示模組10的底面16具有一接合墊160。Please continue to refer to the second to fifth figures, the display module 10 can be a liquid crystal display module (LCM), an organic light emitting diode (Organic Light Emitting Diode, OLED) display module, quantum light emitting Diode (quantum dot LED, QLED) display module, millimeter light emitting diode (mini-LED) display module, micro-LED (micro-LED), electrophoretic display technology display module (Electro-Phoretic Display) , EPD) or light emitting diode (LED) display module. In this embodiment, the display module 10 has a third side surface 12 and a fourth side surface 14, and the third side surface 12 and the fourth side surface 14 are respectively the same side as the first side surface 220 and the second side surface 222 of the substrate. The display module 20 is further provided with a bottom surface 16 located on the display module 10 and away from the touch module 20, and connected to the third side surface 12 and the fourth side surface 14, and the bottom surface 16 of the display module 10 has A bonding pad 160.

除此之外,顯示模組10之結構更包括一光源模組18以及至少一功能層19,功能層19設於光源模組18上,且功能層19可為抗壓層、耐熱層、透明導電層、透明接著層或偏光板層。當功能層19為透明導電層時,透明導電層可為半導體氧化物透明導電層、奈米金屬絲透明導電層、奈米碳材透明導電層或二氧乙基噻吩(PEDOT)透明導電層。In addition, the structure of the display module 10 further includes a light source module 18 and at least one functional layer 19. The functional layer 19 is provided on the light source module 18, and the functional layer 19 can be a pressure-resistant layer, a heat-resistant layer, or a transparent layer. Conductive layer, transparent adhesive layer or polarizer layer. When the functional layer 19 is a transparent conductive layer, the transparent conductive layer can be a semiconductor oxide transparent conductive layer, a nanowire transparent conductive layer, a nanocarbon transparent conductive layer, or a dioxyethylthiophene (PEDOT) transparent conductive layer.

多條第一走線30的設置是服貼延伸至基板22的第一側面220且與該些第一導電墊242電性連接,另一端則自第一側面220延伸至顯示模組10的第三側面12,再延伸至及底面16的接合墊160。多條第二走線32則是服貼延伸至基板22的第二側面222且與該些第二導電墊262電性連接,另一端則是自第二側面222延伸至顯示模組10的第四側面14,再延伸至及底面16的接合墊160,以與該些第一走線30匯集至接合墊160。其中該些第一走線30與該些第二走線32之延伸長度D大致與觸控模組20及顯示模組10之厚度總合相同。本實施例中,第一走線30與第二走線32可為感光型銀漿樹脂走線,第一走線30與第二走線32的厚度T僅為3~10微米(um),且貼附在觸控模組20之側面及顯示模組之側面的長度D僅為0.3~6毫米(mm)。The plurality of first traces 30 are arranged to extend to the first side 220 of the substrate 22 and are electrically connected to the first conductive pads 242, and the other end extends from the first side 220 to the first side of the display module 10 The three side surfaces 12 extend to the bonding pad 160 on the bottom surface 16. The plurality of second traces 32 are attached to the second side surface 222 of the substrate 22 and are electrically connected to the second conductive pads 262, and the other end extends from the second side surface 222 to the first side of the display module 10. The four side surfaces 14 extend to the bonding pad 160 on the bottom surface 16 to converge with the first traces 30 to the bonding pad 160. The extension length D of the first traces 30 and the second traces 32 is substantially the same as the total thickness of the touch module 20 and the display module 10. In this embodiment, the first wiring 30 and the second wiring 32 may be photosensitive silver paste resin wiring, and the thickness T of the first wiring 30 and the second wiring 32 is only 3-10 micrometers (um). And the length D attached to the side of the touch module 20 and the side of the display module is only 0.3-6 millimeters (mm).

觸控裝置1更包括一殼體50包覆顯示模組10之側面及觸控模組20之側面,及顯示模組10之底面16,同時包覆多條第一走線30與第二走線32,且殼體50於多條第一走線30與第二走線32之間更設有一絕緣保護層52,可避免包覆殼體50時刮傷第一走線30與第二走線32,並提升觸控裝置1的信賴性。The touch device 1 further includes a housing 50 covering the side surface of the display module 10 and the side surface of the touch module 20, and the bottom surface 16 of the display module 10, and simultaneously covering a plurality of first wires 30 and second wires Wire 32, and the housing 50 is further provided with an insulating protective layer 52 between the first wiring 30 and the second wiring 32 to avoid scratching the first wiring 30 and the second wiring when the housing 50 is covered. Line 32, and enhance the reliability of the touch device 1.

在說明完本發明之結構,接著說明觸控裝置1之製造方法,請配合參照第二圖、第六圖及第七A圖至第七E圖,首先進入步驟S10並配合參照第七A圖,提供一離型膜70,離型膜70又稱剝離膜、隔離膜或離形膜,是指表面具有分離性的薄膜。在離型膜70上鋪設感光型銀漿樹脂,也就是製作第一走線30與第二走線32的材料,以透過曝光及顯影製程在離型膜70上形成多條第一走線30與第二走線32的圖案。After explaining the structure of the present invention, and then explaining the manufacturing method of the touch device 1, please refer to the second, sixth, and seventh A to seventh E diagrams. First, go to step S10 and refer to the seventh A , Provide a release film 70. The release film 70 is also called a release film, an isolation film or a release film, which refers to a film with a separable surface. Lay a photosensitive silver paste resin on the release film 70, which is the material for making the first wiring 30 and the second wiring 32, to form a plurality of first wirings 30 on the release film 70 through the exposure and development process The pattern with the second trace 32.

接著進入步驟S12並配合參照第七B圖,提供一觸控模組20,在本實例中係同時提供已互相接合的觸控模組20及顯示模組10。接著進入步驟S14並持續參照第七B圖,使用治具將離型膜70設置在顯示模組10與觸控模組20上,同時治具並施以三維熱壓技術,令離型膜70上的第一走線30與第一導電墊242電性連接,第一走線30並延伸連接至基板22的第一側面220,第一走線30再自第一側面220延伸至顯示模組10的第三側面12;以及將第二走線32與第二導電墊262電性連接,第二走線32延伸至基板22的第二側面222,第二走線32延伸再自第二側面222延伸至顯示模組10的第四側面14,並使第一走線30及第二走線32匯集至顯示模組10底面16的接合墊160,接合墊160可供與軟性印刷電路板(Flexible Printed Circuit,FPC)或背光模組的FPC接合。Then go to step S12 and refer to Fig. 7B to provide a touch module 20. In this example, the touch module 20 and the display module 10 that have been joined to each other are provided at the same time. Then go to step S14 and continue to refer to Figure 7B, use the jig to set the release film 70 on the display module 10 and the touch module 20, and apply the three-dimensional hot pressing technology to the jig at the same time to make the release film 70 The first trace 30 on the upper side is electrically connected to the first conductive pad 242, the first trace 30 extends and connects to the first side surface 220 of the substrate 22, and the first trace 30 extends from the first side surface 220 to the display module 10 on the third side surface 12; and electrically connect the second trace 32 to the second conductive pad 262, the second trace 32 extends to the second side surface 222 of the substrate 22, and the second trace 32 extends from the second side surface 222 extends to the fourth side 14 of the display module 10, and makes the first trace 30 and the second trace 32 converge to the bonding pad 160 on the bottom surface 16 of the display module 10. The bonding pad 160 can be used with the flexible printed circuit board ( Flexible Printed Circuit (FPC) or FPC bonding of backlight module.

接著進入步驟S16並配合參照第七C圖,利用治具移除離型膜70並進入步驟S18,使用固化燈,如紫外線固化燈照射第一走線30與第二走線32,固化第一走線30與第二走線32後,進入步驟S20並請配合參照第七D圖,噴塗絕緣保護層52至多條第一走線30與第二走線32上,可避免後續在包覆殼體50時刮傷第一走線30與第二走線32並提升裝置的信賴性。最後進入步驟S22並參照第七E圖,安裝殼體50以包覆顯示模組10之側面及觸控模組20之側面,及顯示模組10之底面16,並包覆多條第一走線30與第二走線32,以完成觸控裝置1的製造。Then go to step S16 and refer to figure 7C, use a jig to remove the release film 70 and go to step S18, use a curing lamp, such as an ultraviolet curing lamp, to irradiate the first trace 30 and the second trace 32 to cure the first trace 30 and the second trace 32. After the wiring 30 and the second wiring 32, go to step S20 and refer to Figure 7D in conjunction with spraying the insulating protective layer 52 on the first wiring 30 and the second wiring 32 to avoid subsequent coating on the shell The first wire 30 and the second wire 32 are scratched when the body 50 is used, and the reliability of the device is improved. Finally, go to step S22 and refer to Figure 7E, install the housing 50 to cover the side surface of the display module 10 and the side surface of the touch module 20, and the bottom surface 16 of the display module 10, and cover a plurality of first tracks. The wire 30 and the second wire 32 are used to complete the manufacturing of the touch device 1.

綜上所述,本發明利用熱壓貼合的技術,令走線完整貼合在觸控模組及顯示模組的側壁,以大幅縮減走線的佈線區域,達到窄邊框的目的,且利用熱壓貼合的技術,能令走線完整貼合在觸控模組及顯示模組的側壁,使走線彎折半徑不受基材厚度與基材彎折性影響。To sum up, the present invention uses the hot-press bonding technology to completely bond the traces to the sidewalls of the touch module and the display module, so as to greatly reduce the wiring area of the traces and achieve the purpose of narrowing the frame. The hot-press bonding technology enables the trace to be completely attached to the sidewalls of the touch module and the display module, so that the bending radius of the trace is not affected by the thickness of the substrate and the bending property of the substrate.

唯以上所述者,僅為本發明之較佳實施例而已,並非用來限定本發明實施之範圍。故即凡依本發明申請範圍所述之特徵及精神所為之均等變化或修飾,均應包括於本發明之申請專利範圍內。Only the above are only preferred embodiments of the present invention and are not used to limit the scope of implementation of the present invention. Therefore, all equivalent changes or modifications made in accordance with the characteristics and spirit of the application scope of the present invention should be included in the patent application scope of the present invention.

1:觸控裝置 10:顯示模組 12:第三側面 14:第四側面 16:底面 160:接合墊 18:光源模組 19:功能層 20:觸控模組 22:基板 220:第一側面 222:第二側面 224:第一搭接區 226:第二搭接區 228:可視區 229:周邊區 24:第一導電層 240:第一電極圖案陣列 242:第一導電墊 26:第二導電層 260:第二電極圖案陣列 262:第二導電墊 28:透明絕緣層 30:第一走線 32:第二走線 50:殼體 52:絕緣保護層 70:離型膜 80:觸控螢幕 82:走線 84:可視區 86:非可視區 T:厚度 D:長度 1: Touch device 10: Display module 12: Third side 14: Fourth side 16: bottom 160: Bonding pad 18: Light source module 19: functional layer 20: Touch module 22: substrate 220: first side 222: second side 224: First Lap Zone 226: Second Lap Zone 228: Viewing area 229: Surrounding Area 24: The first conductive layer 240: first electrode pattern array 242: The first conductive pad 26: second conductive layer 260: second electrode pattern array 262: second conductive pad 28: Transparent insulating layer 30: First trace 32: second trace 50: shell 52: Insulation protective layer 70: Release film 80: Touch screen 82: routing 84: Viewing area 86: non-visual area T: thickness D: length

第一圖係為習知佈線結構示意圖。 第二圖係為本發明之觸控裝置立體圖。 第三圖係為本發明之觸控裝置元件分解圖。 第四圖係為本發明之觸控裝置側視圖。 第五圖係為本發明之觸控裝置仰視圖。 第六圖係為本發明之觸控裝置的製造方法流程圖。 第七A圖至第七E圖為本發明之觸控裝置的製造方法之連續動作示意圖。 The first figure is a schematic diagram of the conventional wiring structure. The second figure is a perspective view of the touch device of the present invention. The third figure is an exploded view of the touch device components of the present invention. The fourth figure is a side view of the touch device of the present invention. The fifth figure is a bottom view of the touch device of the present invention. The sixth figure is a flow chart of the manufacturing method of the touch device of the present invention. The seventh A to the seventh E are schematic diagrams of continuous actions of the manufacturing method of the touch device of the present invention.

1:觸控裝置 1: Touch device

10:顯示模組 10: Display module

12:第三側面 12: Third side

14:第四側面 14: Fourth side

16:底面 16: bottom

18:光源模組 18: Light source module

19:功能層 19: functional layer

20:觸控模組 20: Touch module

22:基板 22: substrate

220:第一側面 220: first side

222:第二側面 222: second side

24:第一導電層 24: The first conductive layer

26:第二導電層 26: second conductive layer

28:透明絕緣層 28: Transparent insulating layer

30:第一走線 30: First trace

32:第二走線 32: second trace

50:殼體 50: shell

Claims (12)

一種觸控裝置,包括:一觸控模組,包括:一基板,具有相鄰之一第一側面及一第二側面;一第一導電層,其位於該基板上,具有一第一搭接區,該第一導電層具有多個第一電極圖案陣列以及多個第一導電墊,每一該第一電極圖案陣列之一端對應設置每一該第一導電墊,且該些第一導電墊位於該第一搭接區中;一第二導電層,其疊置於該第一導電層上,具有一第二搭接區,該第二搭接區相鄰該第一搭接區之一側,該第二導電層具有多個第二電極圖案陣列以及多個第二導電墊,每一該第二電極圖案陣列之一端對應設置每一該第二導電墊,且該些第二電極圖案之排列方向與該些第一電極圖案之排列方向相交;及一透明絕緣層,夾設於該第一導電層上與該第二導電層之間,且該透明絕緣層裸露出部分該些第一導電墊;多條第一走線,延伸至該第一側面且與該些第一導電墊電性連接;多條第二走線,延伸至該第二側面且與該些第二導電墊電性連接;以及一顯示模組,該觸控模組設置於該顯示模組之上,該顯示模組具有一第三側面、一第四側面,且該第三側面及該第四側面分別與該第一側面及該第二側面同一側,且該些第一走線自該第一側面延伸至該第三側面,該些第二走線自該第二側面延伸至該第四側面。 A touch device includes: a touch module, including: a substrate having a first side surface and a second side surface adjacent to each other; a first conductive layer located on the substrate and having a first overlap Area, the first conductive layer has a plurality of first electrode pattern arrays and a plurality of first conductive pads, one end of each of the first electrode pattern arrays corresponds to each of the first conductive pads, and the first conductive pads Located in the first lap area; a second conductive layer stacked on the first conductive layer, having a second lap area, the second lap area adjacent to one of the first lap area On the other hand, the second conductive layer has a plurality of second electrode pattern arrays and a plurality of second conductive pads, one end of each second electrode pattern array corresponds to each of the second conductive pads, and the second electrode patterns The arrangement direction intersects the arrangement direction of the first electrode patterns; and a transparent insulating layer is sandwiched between the first conductive layer and the second conductive layer, and the transparent insulating layer exposes a portion of the first electrode patterns A conductive pad; a plurality of first traces extending to the first side surface and electrically connected with the first conductive pads; a plurality of second traces extending to the second side surface and with the second conductive pads Electrically connected; and a display module, the touch module is disposed on the display module, the display module has a third side surface, a fourth side surface, and the third side surface and the fourth side surface are respectively The first side surface and the second side surface are the same side, and the first traces extend from the first side surface to the third side surface, and the second traces extend from the second side surface to the fourth side surface. 如請求項1所述之觸控裝置,其中該基板上具有一可視區與圍繞該可視區之周邊區,該些第一電極圖案陣列及該些第二電極圖案陣列位於該可視區,該第一搭接區及該第二搭接區位在該周邊區內。 The touch device according to claim 1, wherein the substrate has a visible area and a peripheral area surrounding the visible area, the first electrode pattern arrays and the second electrode pattern arrays are located in the visible area, and the first An overlap area and the second overlap area are located in the peripheral area. 如請求項1所述之觸控裝置,其中該顯示模組更包含一底面,該底面位於該顯示模組遠離該觸控模組之一側,並與該第三側面及該第四側面相連接,其中該顯示模組的該底面具有一接合墊,該些第一走線及該些第二走線匯集至該接合墊。 The touch device according to claim 1, wherein the display module further includes a bottom surface, the bottom surface is located on a side of the display module away from the touch module and is opposite to the third side surface and the fourth side surface Connected, wherein the bottom surface of the display module has a bonding pad, and the first wires and the second wires are collected to the bonding pad. 如請求項1所述之觸控裝置,其中該顯示模組更包含一功能層及一光源模組。 The touch device according to claim 1, wherein the display module further includes a functional layer and a light source module. 如請求項1所述之觸控裝置,其中該些第一走線與該些第二走線之延伸長度與該觸控模組及該顯示模組之厚度總合相同。 The touch device according to claim 1, wherein the extension lengths of the first traces and the second traces are the same as the total thickness of the touch module and the display module. 一種觸控裝置之製造方法,包括下列步驟:在一離型膜上形成多條第一走線與第二走線;提供一觸控模組,包括一基板,具有相鄰之一第一側面及一第二側面;一第一導電層,其位於該基板上,具有一第一搭接區,該第一導電層具有多個第一電極圖案陣列以及多個第一導電墊,每一該第一電極圖案陣列之一端對應設置每一該第一導電墊,且該些第一導電墊位於該第一搭接區中;一第二導電層,其疊置於該第一導電層上,具有一第二搭接區,該第二搭接區相鄰該第一搭接區之一側,該第二導電層具有多個第二電極圖案陣列以及多個第二導電墊,每一該第二電極圖案陣列之一端對應設置每一該第二導電墊,且該些第二電極圖案之排列方向與該些第一電極圖案之排列方向相交;及一透明絕緣層,夾設於該第一導電層上與該第二導電層之間,且該透明絕緣層裸露出部分該些第一導電墊;對該離型膜施以三維熱壓技術,以將多條第一走線,延伸至該第一側面且與該些第一導電墊電性連接,以及將多條第二走線,延伸至該第二側面且與該些第二導電墊電性連接;移除該離型膜;以及 使用固化燈照射該些第一走線與該些第二走線,以固化該些第一走線與該些第二走線。 A manufacturing method of a touch device includes the following steps: forming a plurality of first wirings and second wirings on a release film; providing a touch module, including a substrate, and having an adjacent first side surface And a second side surface; a first conductive layer, which is located on the substrate, has a first lap area, the first conductive layer has a plurality of first electrode pattern arrays and a plurality of first conductive pads, each of the One end of the first electrode pattern array is provided with each of the first conductive pads correspondingly, and the first conductive pads are located in the first lap area; a second conductive layer is stacked on the first conductive layer, There is a second lap area, the second lap area is adjacent to one side of the first lap area, the second conductive layer has a plurality of second electrode pattern arrays and a plurality of second conductive pads, each One end of the second electrode pattern array is provided with each second conductive pad correspondingly, and the arrangement direction of the second electrode patterns intersects the arrangement direction of the first electrode patterns; and a transparent insulating layer is sandwiched between the first electrode patterns. Between a conductive layer and the second conductive layer, and the transparent insulating layer exposes a portion of the first conductive pads; applying a three-dimensional hot pressing technique to the release film to extend the plurality of first traces To the first side surface and electrically connected to the first conductive pads, and extend a plurality of second traces to the second side surface and electrically connected to the second conductive pads; remove the release film ;as well as A curing lamp is used to irradiate the first traces and the second traces to cure the first traces and the second traces. 如請求項6所述之觸控裝置之製造方法,其中在提供該觸控模組之步驟中,更包括提供一顯示模組,該觸控模組設置於該顯示模組之上,該顯示模組具有一第三側面、一第四側面,且該第三側面及該第四側面分別與該第一側面及該第二側面同一側,且該些第一走線自該第一側面延伸至該第三側面,該些第二走線自該第二側面延伸至該第四側面。 The method for manufacturing a touch device according to claim 6, wherein the step of providing the touch module further includes providing a display module, the touch module being disposed on the display module, and the display The module has a third side surface and a fourth side surface, and the third side surface and the fourth side surface are respectively the same side as the first side surface and the second side surface, and the first wirings extend from the first side surface To the third side surface, the second traces extend from the second side surface to the fourth side surface. 如請求項7所述之觸控裝置之製造方法,其中該顯示模組更包含一底面,該底面位於該顯示模組遠離該觸控模組之一側,並與該第三側面及該第四側面相連接,其中該顯示模組的該底面具有一接合墊,該些第一走線及該些第二走線匯集至該接合墊。 The method for manufacturing a touch device according to claim 7, wherein the display module further includes a bottom surface, and the bottom surface is located on a side of the display module away from the touch module and is in contact with the third side surface and the first side surface. The four sides are connected, wherein the bottom surface of the display module has a bonding pad, and the first wires and the second wires converge to the bonding pad. 如請求項7所述之觸控裝置之製造方法,其中該顯示模組更包含一功能層及一光源模組。 The method for manufacturing a touch device according to claim 7, wherein the display module further includes a functional layer and a light source module. 如請求項7所述之觸控裝置之製造方法,其中該些第一走線與該些第二走線之延伸長度與該觸控模組及該顯示模組之厚度總合相同。 The method for manufacturing a touch device according to claim 7, wherein the extension lengths of the first traces and the second traces are the same as the total thickness of the touch module and the display module. 如請求項8所述之觸控裝置之製造方法,更包括:噴塗絕緣保護層至該些第一走線與該些第二走線上;及安裝殼體以包覆該觸控模組之該側面、該些第一走線、該些第二走線及該顯示模組之該底面。 The method for manufacturing a touch device according to claim 8, further comprising: spraying an insulating protective layer on the first wires and the second wires; and installing a casing to cover the touch module The side surface, the first traces, the second traces, and the bottom surface of the display module. 如請求項11所述之觸控裝置之製造方法,其中該固化燈為紫外線固化燈。 The method for manufacturing a touch device according to claim 11, wherein the curing lamp is an ultraviolet curing lamp.
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