KR20190002540U - Improved touch glass cover panel strucure - Google Patents

Abstract

The improved touch glass cover panel structure is provided with one bezel layer, one touch sensing layer and one signal conductor layer in order on one transparent glass cover panel bottom surface, and the bezel layer is an opaque thin film layer. Forming a surface periphery, and distinguishing the visible area of the central part and the frame-shaped blocking area of the perimeter from the glass cover panel, wherein the touch sensing layer has a plurality of touch sensing arrays installed in the visible area, and the touch sensing array is Electrically connected to one signal transmission wire through the signal lead layer, wherein the touch sensing array is configured together with one common sensing electrode and a plurality of driving electrodes, and the plurality of driving electrodes are arranged in two driving electrode arrays. Each drive electrode on the two drive electrode arrays is separated from the signal lead. Electrically connected to the bridge terminals installed in the two side shielding zones, and electrically connecting the bridge terminals on the same axis to each other in series through one bridge coating film, and then through the silver wire of the signal conductor layer. The common sense electrode is electrically connected to the bond pad electrical terminal directly through the silver wire of the signal lead layer.

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 in a glass cover panel.

In order to simplify the structure and reduce the cost, many touch panel structures are immediately integrating the touch sensing structure into the cover panel. For example, the touch panel structural design of the G1 structure is generally laminated with the bezel layer, the touch sensing layer, and the signal conductor layer in order on the bottom surface of the transparent cover panel, and some structural designs have one layer on the bottom of the stack. An insulating protective layer may be provided. Here, the bezel layer is formed of an opaque thin film layer forming a periphery of the bottom surface of the glass cover panel and distinguishing the visible region of the central portion and the frame-shaped blocking region of the peripheral portion, the touch sensing layer is provided in the visible region of the central portion, and the signal lead layer Is disposed in a frame-shaped blocking region of a circumference, and the signal conductor layer has a plurality of signal conductors electrically connected to the driving electrode and the sensing electrode of the touch sensing layer, respectively, whereby the touch signal of the touch sensing layer is connected to the signal conductor. It can be sent through the layer to subsequent signal processing circuitry.

The touch panel structure of the G1 structure has a single touch sensing layer. That is, the plurality of driving electrodes and the sensing electrodes are all disposed on the same layer, and each of the electrodes is connected to the periphery through the conductive line, and is electrically connected to the signal conductor layer again. Currently, the conventional method is to gather all the conductors on the same side. However, in the touch sensing layer, there are typically several hundred driving electrodes and sensing electrodes. In other words, hundreds of electrical connection terminals must be gathered on the same side, resulting in an excessively enlarged side and a wider frame that not only aesthetics and extends the touch void area, but also become thinner and lighter in the current electronics trend. It also does not conform and seriously undermines the application category of this type of touch panel structure. In particular, a touch panel with a large screen or a large detection accuracy becomes more prominent due to the larger number of driving electrodes and sensing electrodes.

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

In order to achieve the above object, the touch glass cover panel proposed in the present invention is mainly provided with one bezel layer, one touch sensing layer and one signal lead layer in order on the bottom surface of one transparent glass cover panel. The bezel layer is an opaque thin film layer, which forms a periphery of the bottom surface of the glass cover panel, and distinguishes the visible area of the central part and the frame-shaped blocking area of the periphery from the glass cover panel, and the touch sensing layer is provided in the visible area. There are two touch sensing arrays, wherein the touch sensing array is electrically connected to one junction pad electrical terminal through the signal lead layer, and the bonding pad electrical terminals are electrically wrapped with one signal transmission wire. To transmit the sensing signal of the touch sensing layer to one touch panel control unit to perform the operation. Wherein the touch sensing array is comprised together of one common sensing electrode and a plurality of driving electrodes, wherein the plurality of driving electrodes are divided into two driving electrode arrays, and each driving electrode on the two driving electrode arrays is a signal, respectively. The wires are electrically connected to the bridge terminals installed in the two side blocking areas facing each other in the conductive wires, and are electrically connected in series with each other via the bridge coating film, and the silver wires of the signal conductor layer Is electrically connected to the junction pad electrical terminal via the common sense electrode, and is electrically connected to the junction pad electrical terminal directly through the silver wire of the signal lead layer.

Here, a plurality of through holes are provided in the bridge coating film corresponding to the bridge terminals, and one bridge lead is provided to electrically connect each bridge terminal in the same horizontal axis through each through hole in the same horizontal axis. And is electrically connected to the junction pad electrical terminal again via the silver wire of the signal lead layer.

Hereinafter will be described in more detail with the present invention through a relatively preferred specific embodiment.

The present invention proposes a structure of an improved touch glass cover panel which divides the driving electrode of the touch sensing layer into two parts and connects the conductors to each other side, thereby reducing the wiring distribution space on the side to reduce the width of the bezel. Instead, 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.

1 is an exploded view of a part of the present invention;
2 is a combination view of a part of the present invention;
3 is a front view of the components of the present invention in combination;
4 is a line diagram of the touch sensor and the signal transmission layer of the present invention; And
FIG. 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 provided to explain the exemplary embodiment of the present invention and do not limit the protection scope of the present invention.

As shown in Figs. 1 to 3, the present embodiment mainly uses one glass cover panel 1, one blocking bezel 2, one transparent touch sensor 3 and one signal lead layer 4; Include. Here, the glass cover panel 1 is made of one glass sheet of high transmittance with excellent mechanical strength, the material is a variety of glass, polymethyl methacrylate (PMMA), polycarbonate resin (PC), polyester ( PET) or cyclic olefin copolymer (COC) or cyclic olefin polymer (COP), etc., but the present invention is not limited to the above materials. The blocking bezel 2 is installed around the bottom surface of the glass cover panel 1, and the blocking bezel 2 is made of a non-conductive material to form an opaque thin film layer, and the non-conductive material is an ink or photoresist. (photoresist) and the like, but the present invention is not limited to the material. The non-conductive material forms a thin film layer having a thickness of 15 μm around the bottom surface of the glass cover panel through technical means such as printing, sputtering plating, coating, and the like, where the periphery is separated from the glass cover panel 1 and is framed. The blocking region of the mold and the visible region of the center are formed.

In this embodiment, the transparent touch sensor 3 is one mutual capacitive touch sensor, which is composed of a plurality of sensing arrays 30, as shown in FIG. ) Is installed on the bottom surface within the visible range of the central portion of the glass cover panel 1, and each sensing array 30 includes one common sensing electrode 31 and two driving electrodes 32, 32 ′. In addition, the two driving electrodes 32 and 32 'are provided in a mutually opposite pattern structure, and each of the driving electrodes array includes a plurality of driving electrodes 33 and 33', so that the common sensing electrode 31 and the driving electrode ( 33 and 33 'are made to correspond to each other in a complementary pattern. In the above embodiment, the common sensing electrode 31 has a rectangular toothed array structure, and the driving electrodes 33 and 33' Block-shaped rectangular faces And it is installed in the concave points of the rectangular tooth arrangement. The drive electrodes 33 and 33 'of the two drive electrode arrays 32 and 32' are electrically connected to the bridge terminals 35 and 35 'which are provided at two sides through the electrode connecting lines 34 and 34', respectively. The common sensing electrode 31 is directly 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 transmittance. It can be selected from transparent thin films made of materials such as indium tin oxide, indium zinc oxide, indium aluminum oxide or PEDOT (poly-ethylene dioxythiophene) or metal mesh, and relatively preferably, the touch sensor 3 is directly glass It may be installed on the cover panel 1 to form a touch-sensing electric circuit diagram required by an etching or laser process.

As shown in Figs. 1, 2 and 5, the bridge terminals 35 and 35 'are provided in the blocking area of the glass cover panel, and the bridge coating film 36 is formed on the bridge terminals 35 and 35'. In the bridge coating film 36, through holes 36a are formed in correspondence with the positions of the bridge terminals 35 and 35 ', respectively, and through holes 36a in the same X direction axis position in the bridge lead 36b. The bridge conductor 36b is connected to the bridge terminals 35 and 35 'through the through hole 36a, thereby connecting each bridge terminal 35 and 35' on the same X direction axis. Electrically connected in series to each other and electrically connected to the silver wire of the signal lead layer 4, and the silver wire of the signal lead layer 4 is provided along the range of the blocking area to the junction pad electrical terminal 45. Connected. The bonding pad electrical terminal 45 is installed in the blocking area of one side of the glass cover panel 1, but belongs to a side different from the mounting portions of the bridge terminals 35 and 35 ′. The junction electrical terminal 45 electrically wraps one signal transmission wire 46 so that a sense signal triggered by the touch sensor 3 is transmitted through the signal transmission wire 46 to the touch panel control unit (in the drawing). (Not shown) to make the operation proceed.

The present embodiment divides a large number of drive electrodes of the sensing array into two drive electrode arrays 32 and 32 ', and connects the electrode connection lines 34 and 34' to bridge terminals 35 of two different sides, respectively. 35 '), the electrical terminals are concentrated on the same side, preventing the edges from being enlarged and achieving the purpose of uniformly arranging signal transmission lines. In addition, by connecting the bridge terminals 35 and 35 'of the associated drive electrodes 33 and 33' in series using the structural design of the bridge coating film 36, the amount of silver wires arranged in the signal lead layer 4 The cost of materials can be reduced because it greatly reduces the size and reduces the width of the blocking area, making it easy to apply to thin and light structural design.

Although the present invention has been completely described with reference to the drawings and specific embodiments, those skilled in the art to which the present invention belongs may make various changes and modifications. Such changes and modifications fall within the protection scope of the present invention as defined in the claims.

Claims (2)

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 formed of an opaque thin film layer to form the periphery of the glass cover panel bottom surface and is visible in the center. And a frame-type blocking region of the region and the perimeter, wherein 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 junction pad electrical terminal through the signal conductor layer. And the junction pad electrical terminal is electrically lap jointed with one signal transmission line to transmit a sensing signal of the touch sensing layer to one touch panel control unit to perform calculation. The touch sensing array is composed of one common sensing electrode and a plurality of driving electrodes. The plurality of driving electrodes are divided into two driving electrode arrays, and each driving electrode on the two driving electrode arrays is electrically connected to a bridge terminal installed in two side blocking regions facing each other in the signal conductor, and again, one bridge coating film is formed. And electrically connecting each of the bridge terminals on the same axis to each other in series, and then electrically connecting the junction pad electrical terminals through the silver wire of the signal conductor layer, and the common sensing electrode directly to the silver of the signal conductor layer. An improved touch glass cover panel structure, characterized in that it is electrically connected to the bond pad electrical terminal via a wire. The method of claim 1,
A plurality of through holes are provided in the bridge coating film corresponding to the bridge terminals, and one bridge lead is provided to electrically connect each bridge terminal in the same horizontal axis through each through hole in the same horizontal axis. And the electrical connection to the bonding pad electrical terminal via the silver wire of the signal conductor layer.

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