KR200492694Y1 - Improved touch glass cover panel strucure - Google Patents

Abstract

In the improved touch glass cover panel structure, one bezel layer, one touch sensing layer, and one signal conductor layer are sequentially installed on the bottom surface of one transparent glass cover panel, and the bezel layer is an opaque thin film layer at the bottom of the glass cover panel. A surface circumferential portion is formed, and the visible region of the central portion and the frame-shaped blocking region of the peripheral portion are separated on the glass cover panel, and the touch sensing layer includes a plurality of touch sensing arrays installed in the visible region, and the touch sensing array It is electrically connected to one signal transmission line through the signal conducting layer, wherein the touch sensing array is composed of one common sensing electrode and a plurality of driving electrodes together, and the plurality of driving electrodes is a two driving electrode array. Each driving electrode on the two driving electrode arrays is electrically connected to a bridge terminal installed in the two side blocking regions facing each other on the signal conductor, and again, each of the bridge terminals on the same axis through one bridge coating film After being electrically connected in series with each other, electrically connected to the bonding pad electrical terminal through the silver wire of the signal conductor layer, and the common sensing electrode is directly electrically connected to the bonding pad electrical terminal through the silver wire of the signal conductor layer. It is connected by

Description

Improved touch glass cover panel structure {IMPROVED TOUCH GLASS COVER PANEL STRUCURE}

The present invention relates to a capacitive touch panel, and more particularly, to a capacitive touch panel structure having a single layer touch line on a glass cover panel.

In order to simplify the structure and reduce the cost, many touch panel structures are immediately incorporating a touch sensing structure into the cover panel. For example, in the G1 structure touch panel structure design, a bezel layer, a touch sensing layer, and a signal conductor layer are stacked in order on the bottom surface of the transparent cover panel, and some structural designs have one layer on the bottom surface of the stack. An insulating protective layer is sometimes provided. Here, the bezel layer is an opaque thin film layer that forms a periphery of the bottom surface of the glass cover panel and separates the visible region of the central portion and the frame-shaped blocking region of the peripheral portion, and the touch sensing layer is installed in the visible region of the central portion, and the signal conductor layer Is disposed in a frame-shaped blocking area around the signal conductor layer, wherein a plurality of signal conductors are electrically connected to a driving electrode and a sensing electrode of the touch sensing layer, respectively, through which a touch signal of the touch sensing layer is transmitted to the signal conductor. It can be transmitted through the layer to a subsequent signal processing circuit.

The touch panel structure of the G1 structure includes a single touch sensing layer. That is, a plurality of driving electrodes and sensing electrodes are all disposed on the same layer, and all of the electrodes are connected to the periphery through a conducting wire, and then electrically connected to the signal conducting layer. Currently, the usual method is to gather all the conductors on the same side. However, in the touch sensing layer, there are typically several hundreds of driving electrodes and sensing electrodes in total. In other words, hundreds of electrical connection terminals must be gathered on the same side, as a result of which the side becomes excessively enlarged and the wider frame deteriorates the aesthetics and expands the touch invalid area as well as the current trend of electronic products becoming thinner and lighter. It also does not correspond to, and seriously undermines the application category of this type of touch panel structure. Particularly, a touch panel with a large screen or high detection accuracy has a significant defect due to a larger number of driving electrodes and sensing electrodes.

The purpose of the present invention is to propose an improved structure of a touch glass cover panel that divides the driving electrode of the touch sensing layer into two parts and connects the wires to each of the other sides, thereby reducing the wiring distribution space on the side and reducing the width of the bezel. In addition to reducing the area, the area of the touch manipulation area is enlarged to overcome the defect that the electrical terminals are concentrated on the same side and the edges are enlarged.

In order to achieve the above object, the touch glass cover panel proposed in the present invention mainly includes one bezel layer, one touch sensing layer, and one signal conductor layer installed on the bottom surface of one transparent glass cover panel in order, and the The bezel layer is an opaque thin film layer, forming a periphery of the bottom surface of the glass cover panel, separating the visible region of the central portion and the frame-shaped blocking region of the peripheral portion of the glass cover panel, and the touch sensing layer has a plurality of installed in the visible region. There are two touch sensing arrays, the touch sensing array is electrically connected to one bonding pad electrical terminal through the signal conductor layer, and the bonding pad electrical terminal is electrically lap jointed with one signal transmission line. And transmits the sensing signal of the touch sensing layer to one touch panel control unit to perform calculation, wherein the touch sensing array is composed of one common sensing electrode and a plurality of driving electrodes together, and the plurality of driving electrodes are Divided into two drive electrode arrays, each drive electrode on the two drive electrode arrays is electrically connected to a bridge terminal installed in the two side blocking areas facing each signal wire, and again on the same axis through one bridge coating film. After electrically connecting each of the bridge terminals in series to each other, the electrical connection is electrically connected to the bonding pad electrical terminal through the silver wire of the signal conductor layer, and the common sensing electrode is directly connected to the silver wire of the signal conductor layer. The bonding pad is electrically connected to the electrical terminals.

Here, in the bridge coating film, a plurality of through holes are installed corresponding to the bridge terminals, and one bridge conductor is installed to electrically connect each bridge terminal on the same horizontal axis to each other through each through hole on the same horizontal axis. And then electrically connected to the bonding pad electrical terminal through the silver wire of the signal conducting layer.

Hereinafter, it will be described in more detail with the present invention through relatively preferred specific embodiments.

The present invention not only reduces the width of the bezel by reducing the wiring distribution space on the side by dividing the driving electrode of the touch sensing layer into two parts and connecting the lead wires to each of the other sides. In addition, by expanding the area of the touch manipulation area, the electrical terminals are concentrated on the same side and the edge is enlarged.

1 is an exploded view of a component of the present invention;
2 is a combination diagram of parts of the present invention;
3 is a front view in which the components of the present invention are combined;
4 is a line diagram of a touch sensor and a signal transmission layer according to the present invention; And
5 is an enlarged view of a portion A in FIG. 2.

The following is a relatively preferred embodiment of the present invention. The following examples are for explaining an exemplary embodiment of the present invention and do not limit the scope of protection of the present invention.

As shown in Figs. 1 to 3, this embodiment mainly includes one glass cover panel 1, one blocking bezel 2, one transparent touch sensor 3, and one signal conductor layer 4. Include. Here, the glass cover panel 1 is made of a single glass sheet having a high transmittance excellent in mechanical strength, and the material is various glass, polymethyl methacrylate (PMMA), polycarbonate resin (PC), polyester ( PET) or a cyclic olefin-based copolymer (COC) or a cyclic olefin-based polymer (COP), etc., but the present invention is not limited to the above material. The blocking bezel 2 is installed around the bottom surface of the glass cover panel 1, the blocking bezel 2 is made of a non-conductive material to form an opaque thin film layer, and the non-conductive material is ink or photoresist. It can be selected from (photoresist) and the like, but the present invention is not limited to the above materials. The non-conductive material forms a 15 μm thin film layer on the circumference of the bottom surface of the glass cover panel through technical means such as printing, sputtering, plating, etc., where the circumferential part is separated from the glass cover panel 1 and the frame The blocking area of the mold and the visible area in the center are formed.

In the above embodiment, the transparent touch sensor 3 is a mutual capacitive touch sensor, which is composed of a plurality of sensing arrays 30, and as shown in FIG. 4, each sensing array 30 ) Is installed on the bottom surface of the glass cover panel 1 in the center visible area range, and each sensing array 30 includes one common sensing electrode 31 and two driving electrodes 32 and 32'. , Two driving electrodes 32 and 32 ′ are installed in a mutually symmetric pattern structure, and each driving electrode array has a plurality of driving electrodes 33 and 33 ′, respectively, so that the common sensing electrode 31 and the driving electrode ( 33, 33') is made to be correspondingly installed in a mutually complementary pattern, and in the above embodiment, the common sensing electrode 31 has a rectangular sawtooth arrangement shape, and the driving electrodes 33, 33' It represents a block-shaped rectangular surface and is spaced apart and installed at the inner concave point of the rectangular tooth arrangement. The driving electrodes 33 and 33 ′ of the two driving electrode arrays 32 and 32 ′ are electrically connected to the bridge terminals 35 and 35 ′ installed on the two sides through electrode connection lines 34 and 34 ′, respectively, , The common sensing electrode 31 is directly electrically connected to the bonding pad electrical terminal 45 through the silver wire of the signal conductor layer 4, and the touch sensor 3 is made of a material having a high light transmittance. Indium tin oxide, indium zinc oxide, indium aluminum oxide, or PEDOT (poly-ethylene dioxythiophene) or metal mesh (Metal Mesh), etc. can be selected from a transparent thin film, relatively preferably, the touch sensor 3 directly glass It may be installed on the cover panel 1 to form a touch sensing electrical circuit diagram required by an etching or laser process.

1, 2 and 5, the bridge terminals 35 and 35' are installed in the blocking area of the glass cover panel, and a bridge coating film 36 is formed on the upper surfaces of the bridge terminals 35 and 35'. Covering, the bridge coating film 36 has through-holes 36a respectively opened corresponding to the positions of the bridge terminals 35 and 35', and each through-hole 36a at the same X-direction axis position in the bridge conductor 36b. ), the bridge conductor 36b is connected to the bridge terminals 35 and 35' through the through hole 36a, and through this, each of the bridge terminals 35 and 35' on the same X-direction axis They are electrically connected in series with each other to be electrically connected to the silver wire of the signal conductor layer 4, and the silver wire of the signal conductor layer 4 is installed along the range of the blocking area to be attached to the bonding pad electrical terminal 45. Connected. The bonding pad electrical terminal 45 is installed in a blocking area on one side of the glass cover panel 1, but belongs to a different side from the installation portions of the bridge terminals 35 and 35'. The bonded electrical terminal 45 electrically lap-joins one signal transmission line 46 so that a detection signal triggered by the touch sensor 3 is transmitted through the signal transmission line 46 through a touch panel control unit (in the drawing). (Not shown) can be made to proceed with the operation.

In this embodiment, the driving electrodes of the sensing array having a large quantity are divided into two driving electrode arrays 32 and 32 ′, and the electrode connection lines 34 and 34 ′ are respectively divided into bridge terminals 35 and 35 on two different sides. 35'), the purpose of preventing the phenomenon that the edge is enlarged due to the concentration of electrical terminals on the same side is achieved, and the purpose of uniformly arranging the signal transmission line is achieved. In addition, by connecting the respective bridge terminals 35 and 35 ′ of the related driving electrodes 33 and 33 ′ in series using the structural design of the bridge coating film 36, the number of silver wires in the signal conductor layer 4 The material cost can be reduced because it greatly reduces the thickness and reduces the width of the blocking area, making it convenient to apply to the design of a thin and light structure.

Although the present invention has been completely described through the drawings and specific embodiments, those skilled in the art to which the present invention belongs can make various changes and equations. These changes and modifications belong to the scope of protection of the present invention defined in the claims.

Claims (3)

One bezel layer, one touch sensing layer, and one signal conductor layer are sequentially installed on the bottom surface of one transparent glass cover panel, and the bezel layer is an opaque thin film layer that forms a perimeter of the bottom surface of the glass cover panel, and is visible at the center. The area and the frame-shaped blocking area of the circumference are divided, and the touch sensing layer has a plurality of touch sensing arrays installed in the visible region, and the touch sensing array is electrically connected to one bonding pad electrical terminal through the signal conducting layer. And the bonding pad electrical terminal is electrically lap jointed with one signal transmission line to transmit the sensing signal of the touch sensing layer to one touch panel control unit to perform calculation, wherein, The touch sensing array is composed of one common sensing electrode and a plurality of driving electrodes together, the plurality of driving electrodes are divided into two driving electrode arrays, and each driving electrode on the two driving electrode arrays faces each other on a signal conductor. Electrically connected to the bridge terminals installed in the two side blocking areas, and after electrically connecting each of the bridge terminals on the same axis in series through one bridge coating film, the bonding through the silver wire of the signal conductor layer Electrically connected to the pad electrical terminal, and the common sensing electrode is directly electrically connected to the bonding pad electrical terminal through the silver wire of the signal conducting layer,
Here, in the bridge coating film, a plurality of through holes are installed corresponding to the bridge terminals, and one bridge conductor is installed to electrically connect each bridge terminal on the same horizontal axis to each other through each through hole on the same horizontal axis. And then electrically connected to the bonding pad electrical terminal through a silver wire of the signal conductor layer. delete delete

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