KR101013037B1 - Touch panel sensor - Google Patents

Abstract

PURPOSE: A touch panel sensor for sensing a touch is provided to prevent a bent on an edge of an upper transparent electrode pattern. CONSTITUTION: A plurality of upper transparent electrode patterns(112) sense a user's touch. A window decoration(120) includes a through are(122) which exposes end parts of a plurality of upper transparent electrode patterns. A colored conductive layer(140) is electrically connected to the upper transparent electrode pattern. A metal electrode terminal(113) is electrically connected to the end part of the upper transparent electrode pattern.

Description

Touch Panel Sensor {TOUCH PANEL SENSOR}

The present invention relates to a touch panel sensor, and more particularly, to a touch panel sensor for detecting a contact position of a part of the body.

1 is a perspective view illustrating a conventional capacitive touch panel sensor.

Referring to FIG. 1, the conventional touch panel sensor 1 is bonded to the lower insulating sheet 10 and the upper insulating sheet 20 at predetermined intervals. The lower ITO electrode 30 and the upper ITO electrode 40 are vertically arranged on the opposite surfaces of the lower insulating sheet 10 and the upper insulating sheet 20, and specifically, the lower ITO electrode 30 is The upper surface of the lower insulating sheet 10 is oriented from left to right, and the upper ITO electrode 40 is oriented from the upper side to the lower side on the bottom surface of the upper insulating sheet 20.

The touch panel sensor 1 has a predetermined capacitance, that is, a capacitance value, corresponding to the area of each intersection at each intersection of the lower ITO electrode 10 and the upper ITO electrode 20 arranged to cross each other. When the body part is close, the capacitance of the body part may be changed by adding the area of the body part to the area of the upper ITO electrode 20 disposed above.

In addition, in order to electrically connect the upper ITO electrode 40 and the electrode 52 of the external circuit board 50, a connecting line 48 made of metal is formed from the end of the upper ITO electrode 40 from the upper insulating sheet 20. It extends to the bottom of the), the lower ITO electrode 20 is also connected to the circuit board 50 by a separate connection line.

In this case, the connecting line 48, which is generally provided as a metal, is shiny with metallic luster and does not pass through the light, so that the connecting line 48 may be visually confirmed on the upper portion of the transparent upper insulating sheet 20. Thus, in the related art, a separate non-translucent film 65 for window decoration is formed on the bottom of the reinforcing substrate 60 such as glass or translucent reinforced plastic so that the connecting line 48 and the circuit board 50 are not visually checked. The reinforcing substrate 60 is disposed on the upper insulating sheet 20.

However, attaching the non-translucent film 65 to the bottom surface of the reinforcing substrate 60 may cause a defect because it may be easily shifted during the attaching process, and the attaching process itself may be cumbersome and may increase the process difficulty. have.

In addition, further providing the reinforcing substrate 60 on the upper insulating sheet 20 to protect the surface of the upper insulating sheet 20 results in an increase in the thickness of the touch panel sensor and a complicated assembly process. Occurs.

In addition, an increase in the thickness of the touch panel sensor may cause a decrease in transparency and clarity of the touch panel sensor, and may decrease the sensitivity of the touch panel sensor.

The present invention provides a touch panel sensor capable of minimizing the possibility of damage to the upper ITO electrode provided on the bottom surface of the upper insulating sheet even by refraction or external impact of the upper insulating sheet caused by the user's contact.

The present invention provides a touch panel sensor in which the connecting line and the circuit board for electrically connecting the upper ITO electrode disposed on the upper insulating sheet and the external circuit board are not visually confirmed.

According to an exemplary embodiment of the present invention, the touch panel sensor for detecting the contact position of the body part through the change of capacitance for detecting the contact position of the body part through the change of capacitance, the upper insulating substrate, A plurality of upper transparent electrode patterns formed on a bottom surface of the upper insulating substrate and provided to block light on a bottom surface of the upper insulating substrate, and include through regions exposing ends of the plurality of upper transparent electrode patterns. Window decoration, which is provided to block light in the through area, is a colored conductive layer electrically connected to the upper transparent electrode pattern, and a metal electrically connected to an end of the upper transparent electrode pattern disposed in the through area through the colored conductive layer. An electrode terminal and a lower transparent electrode pattern electrically insulated from the upper transparent electrode pattern and the metal electrode terminal. And a lower sheet provided under the upper insulating substrate to sense an approach of a body part through interaction with the upper transparent electrode pattern.

In the present invention, the upper insulating substrate is a material having a high surface strength, and may be manufactured using other plastic materials that transmit light and have excellent surface strength, such as a glass material or a glass material. The lower insulating substrate on which the lower transparent electrode patterns interacting with each other may also be manufactured by selecting the same material as the upper insulating substrate.

In addition, the upper transparent electrode pattern or the lower transparent electrode pattern may use indium tin oxide (ITO) or indium zinc oxide (IZO) having both transparency and conductivity. Therefore, it is not visible from the outside, and may expose an image of a display module such as a liquid crystal display disposed on the rear surface of the touch panel sensor.

However, at one edge of the upper insulating substrate, a metal electrode terminal electrically connected to an end of the upper transparent electrode pattern is disposed. Since the metal electrode terminal is provided as a non-transmissive metal, it may be visible from the outside, and the conductive connection pattern connecting the metal electrode terminal and the external circuit board may also be provided as the non-transmissive metal to be visible from the outside. Therefore, the window decoration is provided in the shape of a frame in the peripheral region of the upper insulating substrate on which the metal electrode terminal or the conductive connection pattern is disposed.

Here, an end of the upper transparent electrode pattern may be formed on the bottom of the window decoration, and a metal electrode terminal or a conductive connection pattern may be formed on the bottom of the window decoration, but this may be considered at the boundary where the upper transparent electrode pattern and the window decoration meet. Refraction occurs in the upper transparent electrode pattern, which may reduce durability.

Accordingly, in the touch panel sensor according to the present invention, a through area is formed around the end of the upper transparent electrode pattern in the window decoration, and the end of each upper transparent electrode pattern is disposed in the through area so that the upper transparent electrode pattern is entirely refracted. It may be formed on the bottom surface of the upper insulating substrate.

The colored conductive layer is provided in the above-described through region to block light, thereby preventing the inside of the touch panel sensor from being exposed through the through region. The colored conductive layer may be formed of a material including a conductive material, such as carbon, and may be formed using any one of methods such as printing, silkscreen, inkjet, and deposition.

For reference, the colored conductive layer preferably has a color that is mutually harmonized with the window decoration, where the mutually harmonized means that the colored conductive layer visible from the outside has the same color as the window decoration, so In some cases, the coloring conductive layer may not be the same color as the window decoration, but when viewed from the outside, the coloring challenge may have a color separate from the window decoration to display specific patterns and patterns. It may also include cases where there is.

By forming the metal electrode terminal under the above-mentioned colored conductive layer, the end of the upper transparent electrode pattern and the metal electrode terminal disposed in the through area can be electrically connected to each other, and at the same time, the opaque metal electrode terminal is externally Can be prevented. For reference, the colored conductive layer may be provided to have a color similar to that of the window decoration so that the colored conductive layer is not distinguished from the window decoration from the outside.

On the other hand, the thickness of the window decoration is generally thicker than the thickness of the upper transparent electrode pattern having a thickness of about 1 μm or less. Therefore, it is preferable that the colored conductive layer not only covers the through area but also to fill the groove of the through area caused by the difference in thickness between the window decoration and the upper transparent electrode pattern.

The touch panel sensor of the present invention forms a through area at a portion where the window decoration and the upper transparent electrode pattern formed on the bottom surface of the upper insulating substrate overlap, so that no bending occurs at the end of the upper transparent electrode pattern. Damage to the upper transparent electrode pattern due to refraction or external impact can be minimized.

The touch panel sensor of the present invention forms a colored conductive layer in the through area, thereby preventing the inside of the touch panel sensor from being visible through the through area.

1 is a perspective view illustrating a conventional capacitive touch panel sensor.
2 is an exploded perspective view illustrating a touch panel sensor according to an exemplary embodiment of the present invention.
3 is a rear perspective view of the upper sheet of the touch panel sensor according to an embodiment of the present invention.
FIG. 4 is a partially enlarged cross-sectional view cut along the AA direction to explain a connection structure between the metal electrode terminal and the conductive connection pattern in FIG. 3.
5 is a reference view for explaining a problem that may occur when bending occurs in the upper transparent electrode pattern.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, but the present invention is not limited or limited by the embodiments. For reference, in the present description, the same numbers refer to substantially the same elements, and may be described by quoting contents described in other drawings under such a rule, and the contents repeated or deemed apparent to those skilled in the art may be omitted.

The present invention relates to a touch panel sensor for use in a display for sensing the contact position of a part of the body.

2 is an exploded perspective view for explaining a touch panel sensor according to an embodiment of the present invention, Figure 3 is a rear perspective view of the upper sheet of the touch panel sensor according to an embodiment of the present invention, Figure 4 is In order to explain the connection structure between the metal electrode terminal and the conductive connection pattern, it is a partially enlarged cross-sectional view cut along the AA direction.

2 to 4, the touch panel sensor 100 includes an upper sheet 110, a lower sheet 130, and an insulating member 150.

The upper sheet 110 includes an upper insulating substrate 111 and an upper transparent electrode pattern 112, and the lower sheet 130 includes a lower insulating substrate 131 and a lower transparent electrode pattern 132.

The upper insulating substrate 111 is a material having a high surface strength and may be manufactured using a glass material or another plastic material that transmits light, such as glass material, and has excellent surface strength. The lower insulating substrate 131 on which the lower transparent electrode pattern 132 interacting with the electrode pattern 112 is disposed may also be manufactured by selecting the same material as the upper insulating substrate 111.

Meanwhile, the upper transparent electrode pattern 112 and the lower transparent electrode pattern 132, which interact with each other on the bottom surface of the upper insulating substrate 111 and the upper surface of the lower insulating substrate 131, may sense an approach of a body part. The upper transparent electrode pattern 112 or the lower transparent electrode pattern 132 may use indium tin oxide (ITO) or indium zinc oxide (IZO) having both light transmittance and conductivity. Therefore, it may be formed of a transparent material that is not visible from the outside and may pass light emitted from a display such as a PDP or LCD that may be disposed at the bottom of the touch panel sensor 100.

In this case, since the shape of the lower insulating substrate 131 is firmly supported by the display disposed below and is not directly touched by a part of the body, the shape is not easily deformed by external force. It is not necessary to consider the strength, and as a material it can be formed using a material such as plastic and glass, such as polyethylene (polyethylene), polypropylene (polypropylene), acrylic (acryloyl), polyethylene terephthalate (PET). On the other hand, in the case of the upper insulating substrate 111, its strength should be considered differently from the lower insulating substrate 131 described above. Specifically, the touch panel sensor 100 of the present invention adopts a capacitive method, and the upper transparent electrode pattern formed on the bottom surface of the upper insulating substrate 111 and the lower transparent electrode pattern formed on the upper surface of the lower insulating substrate 131 ( In order to prevent the 132 from being bonded to each other, even if a part of the body is directly touched by the upper insulating substrate 111, it is preferable not to be deflected downward as much as possible. Accordingly, in the present invention, the upper insulating substrate 111 may include a rigid glass substrate having excellent strength and is not easily refracted. Although not necessarily a glass material, light is transmitted, and the polycarbonate is not easily refracted due to its excellent strength. It may include a reinforced plastic such as.

In addition, an insulating member 150 is disposed between the upper sheet 110 and the lower sheet 130, and the upper transparent electrode pattern 112 and the lower transparent electrode pattern 132 are electrically separated by the insulating member 150. Can be. The insulating member 150 is bonded to the upper sheet 110 and the lower sheet 120 by using an optical adhesive film or an optically clear adhesive (OCA) film, and the light is well transmitted, thereby being excellent optically.

As described above, the upper transparent electrode pattern 112 uses ITO or IZO which is widely used as a transparent electrode among conductive materials of transparent material, and is not visible from the outside.

However, at one edge of the upper insulating substrate 111, a metal electrode terminal 113 electrically connected to an end of the upper transparent electrode pattern 112 is disposed. Since the metal electrode terminal 113 is made of a non-transparent metal, the metal electrode terminal 113 may be visible from the outside, and the conductive connection pattern 114 connecting the metal electrode terminal 113 and the external circuit board 160 may also be non-transparent metal. It can be provided to be visible from the outside.

The window decoration 120 is disposed on the bottom surface of the upper insulating substrate 111 in a frame shape along its periphery to prevent the conductive connection pattern 114 from being visible from the outside.

However, in the present invention, at the boundary where the window decoration 120 and the upper transparent electrode pattern 112 meet, the window decoration 120 prevents the end of the upper transparent electrode pattern 112 from being deflected by the window decoration 120. ), A through region 122 is formed at each end of the upper transparent electrode pattern 112. Accordingly, bending does not occur at an end portion of the upper transparent electrode pattern 112, and thus damage to the upper transparent electrode pattern 112 may be minimized due to the refraction or external impact of the upper insulating substrate 111. For example, as shown in FIG. 5, when the window decoration 45 is first formed on the bottom surface of the upper insulating sheet 20, and the connection line 48 is formed on the bottom surface of the window decoration 45, the upper ITO electrode ( Refraction may occur at the boundary portion A where the window decoration 45 and the upper ITO electrode 40 meet 40. The refracted structure of the upper ITO electrode 40 may be easily changed when the upper insulating sheet 20 is bent and deformed when the body part contacts the touch panel sensor. It may cause breakage. Therefore, such a touch panel sensor process is not practically suitable for making a product.

In addition, in the present exemplary embodiment, the through region 122 is provided in the form of a hole exposing the end portion of the upper transparent electrode pattern 112. However, in some cases, the through region may be formed from the boundary between the window decoration and the upper transparent electrode pattern. It may be provided in a U-shaped incision pattern extending to the end of the electrode pattern.

2 to 4, the metal electrode terminal 113 for electrically connecting the upper transparent electrode pattern 112 and the external circuit board 160 is formed on the bottom surface of the upper insulating substrate 111. In general, the width thereof may be formed to have a width of about 300 μm to facilitate the connection with the circuit board 160. Because of this, it can be visually confirmed through the through region 122 from the outside of the upper insulating substrate 111 through which light passes well, which may have a bad effect on appearance.

Accordingly, the colored conductive layer 140 may be formed in the through region 122 to prevent the metal electrode terminal 113 electrically connected to the end portion of the upper transparent electrode pattern 112 from being exposed to the outside through the through region 122. Is placed.

The colored conductive layer 140 may be formed of a conductive material, and it is preferable to use a material that does not transmit light and has little reflection. For example, a material containing a conductive material such as carbon may be used, and may be mixed with an adhesive such as a thermal curing agent or an ultraviolet curing agent to form a printing, silkscreen, inkjet method, or through vapor deposition.

By forming the metal electrode terminals 113 on the above-mentioned colored conductive layer 140, the ends of the upper transparent electrode patterns 112 disposed in the through regions 122 and the metal electrode terminals 113 may be electrically connected to each other. At the same time, the opaque metal electrode terminal 113 can be prevented from being exposed to the outside by the colored conductive layer 140. For reference, the colored conductive layer 140 may be provided to have a color similar to that of the window decoration 120 so as not to be distinguished from the window decoration 120 from the outside. In fact, the metal electrode terminal may be used when the touch panel sensor 100 is used. The 113 is disposed under the colored conductive layer 140 so that the metal electrode terminal 113 is not visible to the colored conductive layer 140 from the outside.

On the other hand, the thickness of the window decoration 120 is usually 1㎛ or more, it is generally thicker than the thickness of the upper transparent electrode pattern 112 having a thickness of 1㎛ or less. Accordingly, the colored conductive layer 140 not only covers the through region 122 but also grooves the through region 122 generated due to the difference in thickness between the window decoration 120 and the upper transparent electrode pattern 112. Provide to fill.

As described above, the upper transparent electrode pattern 112 is formed by the conductive connection pattern 114 electrically connected to the metal electrode terminal 113 formed on the bottom surface of the colored conductive layer 140 provided in the through area 122. It is electrically connected to the circuit board 160.

For reference, as shown in the drawing, the conductive connection pattern 114 electrically connected to the upper transparent electrode pattern 112 and the other conductive connection pattern 100 electrically connected to the lower transparent electrode pattern 132 are each a circuit board 160. The electrical contact with the electrode 162 of the circuit board 160 formed on the different surface of the insulating member 150 is provided with a part cut in the portion in which the circuit board 160 is disposed.

As described above, although described with reference to the preferred embodiment of the present invention, those skilled in the art various modifications and variations of the present invention without departing from the spirit and scope of the invention described in the claims below I can understand that you can.

100: touch panel sensor 110: top sheet
111: upper insulating substrate 112: upper transparent electrode pattern
113: metal electrode terminal 114: conductive connection pattern
120: window decoration 122: penetrating area
130: lower sheet 131: lower insulating substrate
132: lower transparent electrode pattern 140: colored conductive layer
150: insulating member 160: circuit board

Claims (8)

In the touch panel sensor for detecting the contact position of a part of the body through the change of capacitance,
Upper insulating substrate;
A plurality of upper transparent electrode patterns formed on a bottom surface of the upper insulating substrate to sense an approach of a body;
A window decoration provided on the bottom surface of the upper insulating substrate and including a through area exposing end portions of the plurality of upper transparent electrode patterns;
A colored conductive layer provided to block light in the through area and electrically connected to the upper transparent electrode pattern;
A metal electrode terminal electrically connected to an end portion of the upper transparent electrode pattern disposed in the through area via the colored conductive layer; And
And a lower sheet provided below the upper insulating substrate.
The touch panel sensor, characterized in that for preventing the external exposure of the metal electrode terminal by the colored conductive layer formed on the bottom surface of the upper insulating substrate. The method of claim 1,
The upper insulating substrate is a touch panel sensor, characterized in that it comprises a tempered glass. The method of claim 1,
The lower sheet includes a lower transparent electrode pattern electrically insulated from the upper transparent electrode pattern and the metal electrode terminal, and touches a touch of a body part through interaction with the upper transparent electrode pattern. Panel sensor. The method of claim 1,
And a conductive connection pattern formed on the bottom of the window decoration to connect the metal electrode terminal and the external circuit board. The method of claim 1,
The window decoration and the colored conductive layer has a color that is in harmony with each other. The method of claim 1,
The colored conductive layer is a touch panel sensor, characterized in that containing carbon. The method of claim 1,
The colored conductive layer is a touch panel sensor, characterized in that formed using any one of printing, silk screen, inkjet, and deposition methods. The method of claim 1,
The window decoration thickness is thicker than the thickness of the upper transparent electrode pattern,
The colored conductive layer fills the through area.

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