KR20150028917A - Touch Panel Sensor - Google Patents

Abstract

The present invention provides a touch panel sensor. The present invention relates to a connection structure of a transparent sensor electrode and a metal electrode in a boundary of a south screen. The present invention relates to the electrode structure of the touch screen panel formed on a transparent substrate including multiple sensor electrodes which are formed on a window area of the transparent substrate; a first decoration layer which is formed along the boundary of the transparent substrate on the same plane as the multiple sensor electrodes; multiple conductive decoration layers which are extended in a vertical direction of the sensor electrode; a second decoration layer which is divided into insulation decoration layers to insulate the conductive decoration layer; and multiple line electrodes which are formed on the first decoration layer to be connected electrically to the sensor electrode through the conductive decoration layer. The present invention has a beautiful appearance to allow each decoration layer to have various colors by forming the decoration layer as a double structure on the inside and the outside to block the metal electrode.

Description

A touch panel sensor (Touch Panel Sensor)

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a touch screen panel, and more particularly, to a touch panel sensor including a transparent sensor electrode and a metal electrode formed in an edge region of a touch screen.

The touch screen panel is an input device for converting a position of a touch point of a human hand or a touch pen into an electrical signal and inputting a user's command. Such a touch screen panel is classified into a capacitive type and a resistive type according to application technology. Recently, a capacitive type having advantages in light transmittance, multi-touch, durability, and reaction speed is mainly applied. The capacitance type touch screen has various structures such as a GG method, a G2 method, a GFF method, a G1F method, and a GF2 method depending on the arrangement structure of the substrate on which the electrodes are formed and the substrate.

1 is a perspective view showing a general structure of a back surface of an upper substrate constituting a touch screen panel. The capacitive touch screen panel includes an upper substrate and an electrode formed on a back surface of the upper substrate.

As shown in the figure, a sensor electrode 12 for sensing contact with a window area WA is formed at the center of the upper substrate 11, and a lead electrode 13 for transmitting a contact signal is formed at the edge do. Here, the sensor electrode 12 is formed as a transparent electrode so that an image in the window region WA can be transmitted, and the lead electrode 13 is formed as an opaque electrode having a high electrical conductivity. The decorative layer 14 is formed on the edge of the upper substrate 11 to prevent the opaque lead electrode 13 from being transmitted to the outside and the lead electrode 13 is formed on the upper surface of the decorative layer 14 . The decorative layer 14 forms a window decoration area (DA) as a kind of a black matrix layer for blocking the configuration in the area other than the image from being seen to the outside. In recent years, such a decoration area DA may be formed of a white matrix layer or various color layers including an image, a logo, and the like.

In order to electrically connect the sensor electrode 12 and the lead electrode 13 in the above-described electrode structure of the touch screen panel, the end portion of the sensor electrode 12 is electrically connected to the surface of the ornamental layer 14 And is extended and formed as an upper surface. At this time, since the sensor electrode 12 is formed to have a relatively thin thickness as compared with the decorative layer 14, disconnection occurs in the bending region or suddenly the resistance increases, which causes malfunction of the touch screen panel or deteriorates the sensing sensitivity.

In order to prevent this, in Patent Document 10-1030232 (prior art), a through-hole region of a hole pattern or a U-shaped cut-out pattern is formed in a decorative layer, and a sensor electrode is drawn into a through- And a color control conductive layer is formed as an intermediate layer connecting the sensor electrode and the lead electrode. However, in the prior art, there is a problem that the color-adjusting conductive layer must necessarily have the same color as the decorative layer in order to prevent the penetration area having a width of several hundreds of micrometers and the inner electrode thereof from being visually recognized. In addition, in the prior art, since the shape of the through region is extremely limited, there is a limitation in the patterning of the decorative layer, and thus the color of the color control conductive layer must be the same as that of the decorative layer.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a connecting structure of a sensor electrode and a lead electrode, which can prevent a malfunction or a decrease in sensing sensitivity, .

It is another object of the present invention to provide an electrode structure of a touch screen panel which can display a brilliant appearance by forming a decorative layer in a double shape and allowing each decorative layer to exhibit various colors.

According to an aspect of the present invention, there is provided an electrode structure of a touch screen panel formed on a transparent substrate, comprising: a plurality of sensor electrodes formed in a window region of the transparent substrate; A first decorative layer formed along an edge of the transparent substrate in the same plane as the plurality of sensor electrodes; A second decorative layer divided into a plurality of conductive decorative layers extending in the vertical direction of the end portions of the sensor electrodes and an insulating decorative layer insulating the conductive decorative layers between the conductive decorative layers; And a plurality of line electrodes formed on the first decorative layer so as to be electrically connected to the sensor electrode via the conductive decorative layer.

Here, the conductive decorative layer and the insulating decorative layer are colored in the same color, and the first decorative layer and the second decorative layer are colored in different colors.

The second decorative layer may be formed by printing or vapor deposition, and may be formed in a central region contacting the inner or outer side of the first decorative layer or separating the first decorative layer inward and outward.

According to the present invention having such a structure, the sensor electrode is formed on the same surface without bending on the plane of the upper substrate, thereby preventing a problem of malfunction or deterioration of sensing sensitivity due to damage of the electrode line.

Further, in the present invention, the decorative layer for covering the metal electrode is formed as a double structure on the inner and outer sides, so that each decorative layer can have various colors to make the appearance more beautiful.

1 is a bottom perspective view showing a touch screen panel according to a related art,
2 is a bottom perspective view illustrating a touch screen panel according to a first embodiment of the present invention,
FIG. 3 is a cross-sectional view of the electrode structure of the touch screen panel of FIG. 2 in the BB direction,
FIG. 4 is a cross-sectional view of the electrode structure of the touch screen panel of FIG. 2 in the CC direction,
5 is a bottom view of a touch screen panel according to a second embodiment of the present invention, and Fig.
6 is a bottom view of a touch screen panel according to a third embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In the description of the present invention, the touch screen panel exemplifies the electrode structure formed on the bottom surface of the upper substrate, the structure of the sensor electrode formed in the X direction on the back surface of the glass substrate, the connection structure thereof, and the window decorating layer .

FIG. 2 is a bottom perspective view illustrating a touch screen panel according to a first embodiment of the present invention, FIG. 3 is a cross-sectional view of the electrode structure of the touch screen panel of FIG. Sectional view in CC direction showing the electrode structure for the screen panel in detail.

As shown in the figure, the touch screen panel 100 according to the present invention includes a plurality of sensor electrodes 120 formed at predetermined intervals in a central region of the upper substrate 110, A lead electrode 130 for transmitting a sensing signal of the sensing signal to the image display device is formed. A first decorative layer 140 and a second decorative layer 150 for decoration are formed on the edge of the upper substrate 110 on which the lead electrodes 130 are formed.

Specifically, the upper substrate 110 provides a touch area on the touch screen panel 100 as a front surface and a base surface on which electrodes and a decorative layer are formed as a back surface. The upper substrate 110 is a substrate made of an insulating material. The upper substrate 110 has excellent light transmittance and a sufficient hardness. The upper substrate 110 may be made of reinforced glass or reinforced plastic such as polycarbonate.

The sensor electrode 120 is an electrode for sensing a user's touch signal, and may be divided into a horizontal X electrode and a vertical Y electrode. In the present invention, only the horizontal X electrode is shown. The plurality of sensor electrodes 120 are formed at predetermined intervals in the window region. The sensor electrode 120 is formed by printing or vapor-depositing a material having both light transmitting property and conductivity, such as ITO (Indium Tin Oxide) or IZO (Indium Zinc Oxide). Accordingly, the sensor electrode 120 is not recognized from the outside, and an image from the image display device on the lower side of the upper substrate can be recognized.

The lead electrode 130 is an electrode for transmitting a sensing signal of the sensor electrode 120 and extends to one side of the upper substrate 110 to which a connector (not shown) is connected along the edge of the upper substrate 110. Since the lead electrode 130 should have excellent conductivity in order to minimize signal loss, a non-transmissive metal material is used. Accordingly, the lead electrode 130 can be recognized as an external, and is formed on the decorative layer to prevent this.

The first decorative layer 140 prevents the lead electrode 130 from being recognized as the front surface of the upper substrate 110 and is a layer for decorating the front surface of the touch screen panel 100. The lead electrode 130, And is formed along the bottom edge of the upper substrate 110 including the formed region. This first decorative layer 140 is an opaque ink, usually a black ink is printed or deposited. Further, the first decorative layer 210 may be printed with white or various colored inks to improve the appearance of the touch screen panel 100, and may be printed so as to display images of logos, characters, or various shapes, do.

The second decorative layer 150 electrically connects the lead electrode 130 connected to the sensor electrode 120 and prevents the end portion of the lead electrode 130 from being recognized as the front surface of the upper substrate 110 And decorates the front surface of the touch screen panel 100. The second decorative layer 150 for this purpose is composed of a conductive conductive decorative layer 150a and an insulating decorative decorative layer 150b.

In the present invention, the sensor electrode 120 and the first decorative layer 140 are formed on the same plane at the back surface of the upper substrate 110. At this time, the sensor electrode 120 is formed to have a thickness of 300 to 400 nm, but the first ornamental layer 140 is formed to have a thickness of 10 to 30 μm, which is three times or more the thickness of the sensor electrode. Accordingly, a vertical step is generated between the sensor electrode 120 formed directly on the upper substrate and the lead electrode 130 formed on the first decorative layer 140. The sensor electrode 120 and the lead electrode 130 A conductive layer is required to connect the electrodes. 3 and 4, a conductive conductive decorative layer 150a connects the ends of the sensor electrode 120 and the end portions of the lead electrode 130 in the vertical direction, The insulating decorative layer 150b formed between the conductive decorative layers 150a and 150a insulates the conductive decorative layers (or the sensor electrodes) from each other. At this time, it is preferable that the conductive decorative layer 150a and the insulating decorative layer 150b of the second decorative layer 150 are formed at the same height as the first decorative layer 140.

In addition, the second decorative layer 150 in the present invention is formed of an opaque layer containing a colored ink and exhibiting a specific hue. At this time, a coloring ink of a specific color is added to the conductive decorative layer 150a, and a colored ink of the same hue as the conductive decorative layer 150a is added to the insulating decorative layer 150b. Accordingly, the second decorative layer 150 recognized as the outside can be recognized as a decorative layer of the same color without distinguishing between the conductive decorative layer 150a and the insulating decorative layer 150b. Since the second decorative layer 150 is formed separately from the first decorative layer 140, the second decorative layer 150 may contain a colored ink different from the color of the first decorative layer 140, Can be implemented. The second decorative layer 150 may be formed by a printing method such as a silk screen by mixing a curing agent or a pressure-sensitive adhesive with a conductive or insulating ink containing a colored ink, or by a vapor deposition method.

FIG. 5 is a bottom view of a touch screen panel according to a second embodiment of the present invention, and FIG. 6 is a bottom view of a touch screen panel according to a third embodiment of the present invention. The touch screen panel according to the second and third embodiments of the present invention is different in the position where the second decorative layer is formed.

That is, the second decorative layer may be formed to contact the first decorative layer 140 inside the first decorative layer 140 as in the embodiment of FIG. 2, The first decorative layer 140 may be formed on the outer side of the decorative layer 140 so as to be in contact with the first decorative layer 140 or may be formed on the central portion of the first decorative layer 140 as shown in FIG. 6, when the second decorative layer 150 is formed at the center of the first decorative layer 140, the first decorative layer 140 is separated to both sides of the second decorative layer 150, The first decorative layer 140 may be separately formed on the first decorative layer 140. Further, although not shown, the second decorative layer 150 may be formed on both the inner side and the outer side of the first decorative layer 140.

As described above, in the touch screen panel of the present invention, the lead electrode 130 at the edge of the upper substrate 110 is prevented from being recognized by the first decorative layer 140 due to the electrode connection structure having the above- The end of the sensor electrode 120 and the end of the lead electrode 130 are electrically connected by the second decorative layer 150 and the recognition of the outside is blocked. In addition, the second decorative layer 150 may be formed separately from the first decorative layer 140, and may exhibit various colors, thereby exhibiting an advantage that the touch screen panel can be more ornately decorated.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

100: touch screen panel 110: upper substrate
120: sensor electrode 130: lead electrode
140: first decorative layer 150: second decorative layer
150a: conductive decorative layer 150b: insulating decorative layer

Claims (5)

1. A touch panel sensor formed on a transparent substrate,
A plurality of sensor electrodes formed in a window region of the transparent substrate;
A first decorative layer formed along an edge of the transparent substrate in the same plane as the plurality of sensor electrodes;
A second decorative layer divided into a plurality of conductive decorative layers extending in the vertical direction of the end portions of the sensor electrodes and an insulating decorative layer insulating the conductive decorative layers between the conductive decorative layers; And
And a plurality of line electrodes formed on the first decorative layer so as to be electrically connected to the sensor electrode via the conductive decorative layer. The method according to claim 1,
Wherein the conductive decorative layer and the insulating decorative layer are colored in the same color. 3. The method of claim 2,
Wherein the first decorative layer and the second decorative layer are colored in different colors. The display device according to any one of claims 1 to 3,
Wherein the touch panel sensor is formed by printing or vapor deposition. The display device according to any one of claims 1 to 3,
Wherein the touch panel sensor is formed in a central region contacting the inner or outer side of the first decorative layer or separating the first decorative layer into the inner and outer sides.

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