Display apparatus integrated with a touch screen panel and including a guard ring pattern

A display device integrated with a touch screen panel including a first substrate, a first guard ring pattern, an insulating layer, and a second guard ring pattern. The first substrate includes a touch region. The first guard ring pattern is positioned at a perimeter of the touch region. The insulating layer is positioned at a perimeter of the first guard ring pattern. The insulating layer is separated from an edge of the first substrate by a first distance. The second guard ring pattern is positioned over each of the first substrate and the insulating layer.

CROSS-REFERENCE TO RELATED APPLICATION

TECHINICAL FIELD

Exemplary embodiments of the present invention relate to a display apparatus, and more particularly to a display apparatus integrated with a touch screen panel.

DISCUSSION OF RELATED ART

Display devices may include a touch screen panel and a display panel. The touch screen panel may be used for user interaction. The display panel may display an image. When a user approaches or contacts an object such as a finger or a touch pen onto a screen of the display device, the touch screen panel may sense a change of pressure, charge, or light applied to the display device. Thus, contact information may be obtained by the display device such as whether an object approaches or contacts a screen and a contact position thereof.

The touch screen panel may replace a separate input device that is connected to the display device. The separate input device may be a keyboard or a mouse. Accordingly, a use of a separate input device connected to the display device is expanding.

The touch screen panel may be a resistive type, a capacitive type, an electro-magnetic type (EM), or an optical type. The capacitive type of touch screen panel may convert a contact position into an electrical signal when an object contacts the touch screen panel. The contact position may be converted into the electrical signal by sensing a change of capacitance formed by a conductive sensing pattern with respect to other sensing patterns or a ground electrode.

The touch screen panel may be separately manufactured to be attached to a surface of the display panel. The display panel may be a liquid crystal display or an organic light-emitting diode display. However, when the separately manufactured touch screen panel and the display panel are attached to each other, an overall thickness of the display device and a manufacture cost thereof may increase.

During the manufacturing process of the touch screen panel, an inner circuit of the touch screen panel may be damaged by static electricity generated during product transportation or a use process. Thus, a possibility of malfunction may be caused.

SUMMARY

An exemplary embodiment of the present invention provides a display apparatus, and more particularly a display apparatus integrated with a touch screen panel. Thus, an influence of static electricity applied from the outside to the display apparatus may be reduced or eliminated. Additionally, a thickness of a display panel of the display apparatus may be reduced and an image visibility of the display panel may be increased.

A display apparatus integrated with a touch screen panel includes a first substrate, a first guard ring pattering, an insulating layer, and a second guard ring pattern. The first substrate includes a touch region. The first guard ring pattern is positioned at a perimeter of the touch region. The insulating layer is positioned at a perimeter of the first guard ring pattern. The insulating layer is separated from an edge of the first substrate by a first distance. The second guard ring pattern is positioned over each of the first substrate and the insulating layer.

A plurality of sensing patterns may be positioned at the touch region. A bonding pad part may be positioned at a first region. The bonding pad part may be connected to an external driving circuit. The external driving circuit may be configured to drive the sensing patterns. The display device may include a plurality of sensing lines. The sensing lines may connect the sensing patterns and the bonding pad part to each other. The first region may be a peripheral area of the touch region.

The display device may include a third guard ring pattern. The third guard ring pattern may be in direct contact with the first guard ring pattern through a contact hole positioned in the insulating layer in a position corresponding to a position of the first guard ring pattern.

The second guard ring pattern may be separated from the third guard ring pattern by a predetermined interval.

The second guard ring pattern and the third guard ring pattern may be integrally formed. The second guard ring pattern and the third guard ring pattern may each include a metal material having a relatively low resistance.

The second guard ring pattern may be connected to the third guard ring pattern in the first region.

The second guard ring pattern may be positioned at the perimeter of the insulating layer at a second region in which the bonding pad part is positioned. The second region may exclude the first region.

The sensing lines and the first guard ring pattern may each include a metal material having a relatively low resistance.

The bonding pad part may include a ground terminal. The first guard ring pattern may be connected to the ground terminal.

The sensing patterns may each include a plurality of first sensing cells, a plurality of first connection lines, a plurality of second sensing cells, and a plurality of second connection lines. The first sensing cells may be positioned along a first direction to be connected for each row of the sensing patterns positioned in the touch region. The first connection lines connect the first sensing cells to each other along the first direction. The second sensing cells may be positioned along a second direction to be connected for each column of the sending patterns positioned in the touch region. The second connection lines may connect the second sensing cells to each other along the second direction. The second direction may cross the first direction.

The second guard ring pattern may be separated from the edge of the first substrate by a second distance. The second distance may be smaller than the first distance.

The display device may include a second substrate and a sealant. The second substrate may include a plurality of display elements. The second substrate may be disposed below the first substrate. The sealant may be configured to seal each of the first substrate and the second substrate. The sealant may be configured to enclose the display elements.

A display device integrated with a touch screen panel includes a first substrate, an insulating layer, and a first guard ring pattern. The first substrate includes a touch region. The insulating layer is separated from an edge of the first substrate by a first distance. The first guard ring pattern is disposed on each of the first substrate and the insulating layer. The first guard ring pattern is configured to enclose an end of the insulating layer.

DETAILED DESCRIPTION OF THE EMBODIMENTS

Exemplary embodiments of the present invention will be described below in more detail with reference to the accompanying drawings. In this regard, the exemplary embodiments may have different forms and should not be construed as being limited to the exemplary embodiments of the present invention described herein.

Like reference numerals may refer to like elements throughout the specification and drawings.

It will be understood that although the terms “first” and “second” may be used herein to describe various components, these components should not be limited by these terms.

Sizes of elements in the drawings may be exaggerated for clarity of description.

It will be understood that when a component, such as a layer, a film, a region, or a plate, is referred to as being “on” another component, the component can be directly on the other component or intervening components may be present.

FIG. 1is a top plan view illustrating a display device integrated with a touch screen panel according to an exemplary embodiment of the present invention.FIG. 2is an enlarged view illustrating a sensing pattern included in a display device integrated with a touch screen panel according to an exemplary embodiment of the present invention.

An exemplary embodiment of the present invention is directed to a display device1. The display device1may include a display panel and a touch screen panel. The display panel and the touch screen panel may be integrated with each other. The touch screen panel may be disposed on a surface of a first substrate210of the display panel. The display panel may be a panel included in an organic light-emitting diode display or a liquid crystal display. A display panel according to an exemplary embodiment of the present invention described in more detail below may be an organic light-emitting diode display.

Referring toFIG. 1, the touch screen panel may be positioned at an outer surface of the first substrate210. The touch screen panel may include a plurality of sensing patterns200. The sensing patterns200may be disposed on an upper surface of the first substrate210. The touch screen panel may include a transparent substrate configured to serve as an encapsulation substrate. The touch screen panel may include a plurality of sensing lines245. The sensing lines245may connect the sensing patterns200to an external driving circuit, for example, through a bonding pad part20.

A region in which the sensing patterns200are disposed may be a touch region TA. The touch region TA may be configured to detect a touch position. A region in which the sensing lines245are electrically connected to each of the sensing patterns200and the bonding pad part20may be a peripheral area PA. The peripheral area PA may be positioned outside the touch region TA. The peripheral area may be a region defined by a dotted line DTL (see, e.g.,FIG. 1), excluding the touch region TA.

According to a maximization of the touch region TA in which touch recognition may be performed, a width of the peripheral area PA positioned at the outside of the touch region TA may be narrowed.

Exemplary embodiments of the present invention are not limited to particular positions of the touch screen panel and the display panel. For example, the touch screen panel may be positioned at an inside surface of the first substrate210. A first part including the sensing pattern200of the touch screen panel among the sensing cells may be positioned at an inner surface of the first substrate210. A second part not overlapping the first part may be positioned at the outer surface of the first substrate210.

The first substrate210may be an encapsulation substrate of the display panel. The first substrate210may include a transparent material. When the display device is a flexible display device, the first substrate210may include a film having a flexible characteristic. The first substrate210may include a plurality of thin films. The thin film may include a polyimide resin, an epoxy based rein, or a material having flexibility.

A first guard ring pattern250may be positioned to substantially enclose the perimeter of the sensing lines245. The first guard ring pattern250may be positioned at a perimeter of the touch region TA. The first guard ring pattern250may be connected to a ground terminal20′ of the bonding pad part20.

The first guard ring pattern250may include a metal material. The metal material may have a relatively low resistance. The metal material may also be substantially the same material included in the sensing lines245. Thus, a malfunction of the touch screen panel by static electricity applied from the outside or the sensing pattern may be reduced or prevented. Additionally, damage to the inner circuit may be reduced or prevented.

To minimize an influence of the static electricity applied from the outside, a width of the first guard ring pattern250may be relatively wide. However, the width of the first guard ring pattern250may be relatively narrowly formed as the width of the peripheral area PA decreases.

The display device integrated with the touch screen panel1according to an exemplary embodiment of the present invention may include a second guard ring pattern270. The display device integrated with the touch screen panel1may include a third guard ring pattern280.

The second guard ring pattern270may include a transparent conductive material. The second guard ring pattern270may be positioned on the first guard ring pattern250. The second guard ring pattern270may be directly connected to the first guard ring pattern250. The second guard ring pattern270may be disposed on a different layer from the first guard ring pattern250. Thus, a wiring thickness of the first guard ring pattern250may be increased such that a similar effect to reduce the resistance value of the first guard ring pattern250may occur.

The third guard ring pattern280may include substantially a same material as the second guard ring pattern270. The third guard ring pattern280may be positioned at the periphery of the first guard ring pattern250. The third guard ring pattern280may be separated from the second guard ring pattern270, for example, by a predetermined interval “g” on a plane.

The third guard ring pattern280may be positioned at a region except for one edge region EA in which the bonding pad part20of the first substrate210is positioned. For example, the third guard ring pattern280may have a shape of which a part is opened (e.g., a ‘C’ shape). The third ring guard pattern280may be disposed at the edge of the first substrate210. The first substrate210may have a rectangular shape. The third guard ring pattern280may be disposed at an outermost edge of the first substrate210. Thus, static electricity applied from the outside may be attracted to the third guard ring pattern280.

The display device integrated with the touch screen panel1may reduce or prevents a static electricity inflow into the display panel and may reduce or eliminate the influence of the static electricity on the display panel.

The static electricity that is not induced to the third guard ring pattern280may be attracted to each of the first guard ring pattern250and the second guard ring pattern270. Thus, the static electricity may be dissipated to a ground terminal20′ of the bonding pad part20. The bonding pad part20may be connected to the first guard ring pattern250. Accordingly, the inflow of the static electricity into the display panel may be reduced or prevented. Thus, the influence of the static electricity on the display panel may be reduced or eliminated.

A structure of the touch screen panel according to an exemplary embodiment of the present invention will be described in more detail below with reference toFIGS. 1 and 2.

Referring toFIGS. 1 and 2, the sensing patterns200may include a plurality of first sensing cells221and222, a first connection line220, second sensing cells241, a second connection line240, and a first insulating layer230. The first sensing cells221and222may be connected to each other for each row of sensing patterns200positioned in the touch region TA along a first direction (e.g., an X-axis direction). The first connection line220may connect the first sensing cells221and222to each other along the first direction. The second sensing cells241may be connected to each other for each column of sensing patterns200positioned in the touch region TA along a second direction (e.g., a Y-axis direction). The second connection line240connect the second sensing cells241to each other along the second direction. The first insulating layer230may be configured to maintain stability between the first connection lines220and the second connection lines240.

The first sensing cells221and222and the second sensing cells241may be alternately disposed, for example, to not overlap with each other. The first connection line220and the second connection line240may cross each other. The first sensing cells221and222and the second sensing cells241might not be in direct contact with each other. The first sensing cells221and222may be disposed on substantially the same plane as the second sensing cells241.

The first sensing cells221and222and the second sensing cells241may be integrally formed with the first connection line220. The second connection line240may include a transparent electrode material such as indium-tin-oxide (ITO). Alternatively, the second connection line240may be formed separately from each of the first sensing cells221and222and the second sensing cells241. For example, the second connection line240may be electrically connected to each of the first sensing cells221and22and the second sensing cells241.

The second sensing cells241may be integrally patterned and formed with the second connection line240, for example, in the second direction (e.g., the Y-axis direction). The first sensing cells221and222may be respectively patterned between the second sensing cells241. The first sensing cells221and222may be connected by the first connection line220. The first connection line220may be positioned on or under the patterned first sensing cells221and222, for example, along the first direction (e.g., the X-axis direction).

The first connection line220may be integrally formed and connected with each of the first sensing cells221and222. The first connection line220may be directly in contact with each of the first sensing cells221and222, for example, through a contact hole.

The first connection lines220may include a transparent electrode material such as ITO. Alternatively, the first connection lines220may include an opaque material. The opaque material may have a relatively low resistance.

The sensing lines245may be connected to each of the first sensing cells221and222and the second sensing cells241, respectively. The first sensing cells221and222may form a row line unit in the touch region TA. The second sensing cells241may form a column line unit in the touch region TA. The sensing lines245may connect the first sensing cells221and222and the second sensing cells241to an external driving circuit, for example, through the bonding part20. The external driving circuit may be a position detection circuit.

The sensing lines245may be positioned in the peripheral area PA. The sensing lines245may include a relatively low resistance material such as ITO, molybdenum (Mo), silver (Ag), titanium (Ti), copper (Cu), aluminum (Ti), or molybdenum/aluminum/molybdenum (Mo/Al/Mo).

The touch screen panel described herein may be a capacitive type touch screen panel. Thus, if an object such as a hand or a stylus pen is in contact therewith, the change of capacitance depending on the contact position may be transmitted from the sensing pattern200to the driving circuit side through the sensing lines245and the bonding pad part20.

The display device integrated with the touch screen panel1according to an exemplary embodiment of the present invention will be described in more detail below with reference toFIG. 3.

FIG. 3is a cross-sectional view illustrating a region of a display device integrated with a touch screen panel taken along a line I-I′ ofFIG. 1according to an exemplary embodiment of the present invention. The display panel may include a second substrate110, a first substrate210, a sealant310, and a bonding layer390. The first substrate210may substantially cover the second substrate110. The sealant310may be disposed between the second substrate110and the first substrate210.

A display element370may be disposed on the second substrate110. The display element370may be positioned in the touch region TA. The display element370may include an organic light-emitting element and a thin film transistor.

The first substrate210may block external moisture or air from entering the display element370. A polarization film may be disposed on the first substrate210. A color filter may be disposed on the first substrate210.

While the display element370of the second substrate110is enclosed, the sealant310and the bonding layer390may each be disposed on the second substrate110.

The sealant310may include an inorganic material or an organic material, for example, a frit or an epoxy. The sealant310may be coated by a dispenser or by screen printing.

The bonding layer390may reinforce a bonding force of the second substrate110and the sealant310. The bonding layer390may reduce or eliminate peeling between the sealant310and the second substrate110caused, for example, by an external impact.

If the static electricity inflows to the sealant310and the bonding layer390, heat may be generated by the static electricity. The heat generated by the static electricity may cause the peeling in at least one position between the first substrate210and the sealant310. Peeling between the sealant310and the bonding layer390, and between the bonding layer390and the second substrate110may also occur.

To reduce or prevent the inflow of the static electricity to each of the sealant310and the bonding layer390, the first guard ring pattern250may be positioned in the peripheral area PA of the first substrate210.

A second insulating layer260may be disposed on each of the sensing lines245, the first guard ring pattern250, and the first substrate210. The second insulating layer260may be disposed on the same layer as the first insulating layer230included in the sensing pattern200.

A first insulating layer260amay be positioned in a region separated from an outer edge I of the first substrate210. The first insulating layer260amay be separated by a first distance d1from the first guard ring pattern250. A second insulating layer260bmay extend from a region on the first guard ring pattern250to a region on the sensing line245.

The second guard ring pattern270may be in direct contact with and connected to the first guard ring pattern250, for example, through a contact hole264a. The contact hole264amay be formed in the insulating layer260. A resistance value due to the bonding of the first guard ring pattern250and the second guard ring pattern270may be smaller than a resistance value of the first guard ring pattern250. Accordingly, when the first guard ring pattern250is bonded with the second guard ring pattern270disposed on the first substrate210, an ability to attract the static electricity through the first guard ring pattern250may be increased relative to when the first guard ring pattern250is solely disposed on the first substrate210.

The third guard ring pattern280may be separated from the second guard ring pattern270. The third guard ring pattern280may be positioned above the outer surface of each of the insulating layer260aand the first substrate210. The third guard ring pattern280may substantially enclose one end of the insulating layer260a. The third guard ring pattern280may be positioned at the region separated from the outer edge I by the first distance d1.

The third guard ring pattern280may be disposed on the outer edge I of the first substrate210. Thus, the static electricity that may inflow to a side of the first substrate210through the edge I may be attracted to the third guard ring pattern280. The third guard ring pattern280may reduce or prevent the static electricity from inflowing to the first substrate210.

The display device integrated with the touch screen panel1including the first to third guard ring pattern250,270and280may reduce or prevent the static electricity inflow to the display panel side. Additionally, the influence of the static electricity on the display panel may be reduced or eliminated.

A polarizer360may be disposed on the touch screen panel. The polarizer360may be attached to the touch screen panel, for example, by a second adhesive layer380.

A window substrate330may be disposed on the polarizer360. The window substrate330may be configured to increase an instrument strength of the display device. The window substrate330may be attached to the polarizer360, for example, by a first adhesive layer350.

The first and second adhesive layers350and380may include a transparent adhesive material. The transparent adhesive material may have a relatively high light transmittance. The transparent adhesive material may include a SVR (Super View Resin) or an OCA (Optically Clear Adhesive).

A black matrix layer340may be positioned at the region of the window substrate330corresponding to and overlapping the peripheral area PA. Thus, the black matrix layer340may be configured to form the border of the touch region TA. The black matrix layer340may also reduce or prevent a pattern from being visible. For example, visibility of the sensing line245in the peripheral area PA may be reduced or prevented.

A touch screen panel according to an exemplary embodiment of the present invention will be described more detail below with reference toFIGS. 4 and 5.

FIG. 4is a top plan view illustrating a display device integrated with a touch screen panel according to an exemplary embodiment of the present invention.FIG. 5is a cross-sectional view illustrating a region of a display device integrated with a touch screen panel taken along a line II-II′ ofFIG. 4according to an exemplary embodiment of the present invention.

Referring toFIGS. 4 and 5a second guard ring pattern271and a third guard ring pattern281may be directly connected to each other. Similar constituent elements as described with reference toFIGS. 1 to 3may have the same reference numerals as those described below with reference toFIGS. 4 and 5and thus descriptions thereof may be omitted.

Referring toFIG. 4, the display device integrated with the touch screen panel1according to an exemplary embodiment of the present invention may include the third guard ring pattern281. The third guard ring pattern281may be directly connected to the second guard ring pattern271.

The second guard ring pattern271may include the transparent conductive material. The second guard ring pattern271may be positioned on a first guard ring pattern251. The second guard ring pattern271may be directly connected to the first guard ring pattern251. The second guard ring pattern271may be disposed on a different layer from the first guard ring pattern251.

The third guard ring pattern281may include substantially the same material as the second guard ring pattern271. The third guard ring pattern281may be positioned at the periphery of the first guard ring pattern251. The third guard ring pattern281may be positioned at the region except for one edge region EA in which a bonding pad part21of a first substrate211is positioned. The third guard ring pattern281may be positioned at the outermost edge of the first substrate211. Thus, the static electricity applied from the outside may be attracted to the third guard ring pattern281.

The third guard ring pattern281may be integrally formed with the second guard ring pattern271. The third guard ring pattern281may be connected to the second guard ring pattern271. The second guard ring pattern271and the third guard ring pattern281may be connected to each other near the edge region EA in which the bonding pad part21of the first substrate211is positioned. The third guard ring pattern281and the second guard ring pattern271may be separated from each other by the predetermined interval g in the rest of the edge region EA.

The second guard ring pattern271and the third guard ring pattern281may be connected to each other only in the edge region adjacent to a ground terminal21′ of the bonding pad part21. The third guard ring pattern281might not be connected to the second guard ring pattern271in the region adjacent to the touch region TA. The third guard ring pattern281may be connected in the region adjacent to the ground terminal21′. Thus, the static electricity may be dissipated to the ground terminal21′, for example, through each of the second guard ring pattern271and the first guard ring pattern251.

The static electricity attracted to the third guard ring pattern281may be transmitted to the first guard ring pattern251, for example, through the second guard ring pattern271. Thus, the static electricity may be dissipated to the ground terminal21′ of the bonding pad part21. Accordingly, the display device integrated with the touch screen panel1according to an exemplary embodiment of the present invention may reduce or prevent the static electricity inflow to the display panel side. The influence of the static electricity on the display panel may be reduced or eliminated.

The rest of the static electricity that is not attracted to the third guard ring pattern281may be attracted to each of the first guard ring pattern251and the second guard ring pattern271. Thus, the static electricity may be dissipated to the ground terminal21′ of the bonding pad part21connected to the first guard ring pattern251. Accordingly, since the inflow of the static electricity to the display panel side may be reduced or prevented, the influence of the static electricity on the display panel may be reduced or eliminated.

Referring toFIG. 5, the second guard ring pattern271may be in direct contact with the first guard ring pattern251. The second guard ring pattern271may be connected to the first guard ring pattern251, for example, through a contact hole264b. The contact hole264bmay be formed in an insulating layer261. A resistance value due to bonding of the first guard ring pattern251and the second guard ring pattern271may be smaller than a resistance value of the first guard ring pattern251.

The third guard ring pattern281may be connected to the second guard ring pattern271. The third guard ring pattern281may be disposed on the outer surface of each of the insulating layer261and the first substrate211. The third guard ring pattern281may be disposed on the outer edge II of the first substrate211.

The static electricity that may inflow to the side of the first substrate211through the edge II may be attracted to the third guard ring pattern281. Thus, the third guard ring pattern281may reduce or prevent the static electricity inflowing into the first substrate211.

The display device integrated with the touch screen panel1including the first to third guard ring patters251,271and281may reduce or prevent the static electricity inflow to the side of the display panel. The influence of the static electricity on the display panel may be reduced or eliminated.

A touch screen panel according to an exemplary embodiment of the present invention will be described in more detail below with reference toFIGS. 6 and 7.

FIG. 6is a top plan view illustrating a display device integrated with a touch screen panel according to an exemplary embodiment of the present invention.FIG. 7is a cross-sectional view illustrating a region of a display device integrated with a touch screen panel taken along a line III-III′ ofFIG. 6according to an exemplary embodiment of the present invention.

Referring toFIG. 6, the display device integrated with the touch screen panel1according to an exemplary embodiment of the present invention may include a third guard ring pattern282and a second guard ring pattern272. The third guard ring pattern282may be directly connected to the second guard ring pattern272. The third guard ring pattern282may be separated from an outer edge III of a first substrate212.

The second guard ring pattern272may include the transparent conductive material. The second guard ring pattern272may be disposed on a first guard ring pattern252. The second guard ring pattern272may be directly connected to the first guard ring pattern252. The second guard ring pattern272may be disposed on a different layer from the first guard ring pattern252.

The third guard ring pattern282may include substantially a same material as the second guard ring pattern272. The third guard ring pattern282may be positioned outside the first guard ring pattern252. The third guard ring pattern282may be separated from each of the outer edge III of the second guard ring pattern272and the first substrate212. The third guard ring pattern282may be positioned at the region separated from the outer edge III of the first substrate212by the second distance d2.

The outer edge III of the first substrate212may be a border line. The border line may divide each display panel from a mother substrate. The mother substrate may include multiple display panels. When the third guard ring pattern282is disposed on the outer edge III of the first substrate212, fragments of the third guard ring pattern282may be generated when the display panel is cut along the outer edge III. Since the third guard ring pattern282may be separated from the outer edge III by the second distance d2, the generation of the fragments of the third guard ring pattern282may be reduced or prevented in the cutting process of the display panel.

The third guard ring pattern282may be disposed at a region in which the bonding pad part22of the first substrate212is disposed, except for the edge region EA is positioned. Since the third guard ring pattern282is disposed at the outermost edge of the first substrate212, the static electricity applied from the outside may be attracted to the third guard ring pattern282.

The third guard ring pattern282may be integrally formed with the second guard ring pattern272. The third guard ring pattern282may be in direct contact with the second guard ring pattern272. The second guard ring pattern272and the third guard ring pattern282may be connected to each other near the edge region EA in which the bonding pad part22of the first substrate212is positioned. The second guard ring pattern272and the third guard ring pattern282may each be separated by the predetermined interval “g” in the rest of the edge region.

The second guard ring pattern272and the third guard ring pattern282may be connected to each other in the edge region EA adjacent to a ground terminal22′ of a bonding pad part22. The third guard ring pattern282might not be connected to the second guard ring pattern272in the region adjacent to the touch region TA. However, the third guard ring pattern272may be connected to the second guard ring pattern272in the region adjacent to the ground terminal22′. Thus, the static electricity may dissipate relatively quickly to the ground terminal22′, for example, through each of the second guard ring pattern272and the first guard ring pattern252.

The static electricity attracted to the third guard ring pattern282may be transmitted to the first guard ring pattern252, for example, through the second guard ring pattern272. Thus, the static electricity may be dissipated to the ground terminal22′ of the bonding pad part22. Accordingly, the display device integrated with the touch screen panel1may reduce or prevent the static electricity inflow to the side of the display panel. The influence of the static electricity on the display panel may be reduced or eliminated.

The static electricity that is not attracted to the third guard ring pattern282may be attracted to each of the first guard ring pattern252and the second guard ring pattern272. Thus, the static electricity may be dissipated to the ground terminal22′ of the bonding pad part22connected to the first guard ring pattern252. Accordingly, since the inflow of the static electricity to the display panel side may be reduced or prevented. The influence of the static electricity on the display panel may be reduced or eliminated.

Referring toFIG. 7, the second guard ring pattern272may be in direct contact with the first guard ring pattern252. The second guard ring pattern272may be connected to the first guard ring pattern252, for example, through a contact hole264cformed in an insulating layer262. The resistance value due to the bonding of the first guard ring pattern252and the second guard ring pattern272may be smaller than the resistance value of the first guard ring pattern252.

The third guard ring pattern282may be connected to the second guard ring pattern272. The third guard ring pattern282may be disposed on the outer surface of each of the insulating layer262and the first substrate212. The third guard ring pattern282may be adjacent to the outer edge III of the first substrate212.

The static electricity that may inflow to the first substrate212through the edge III from the outside may be attracted to the third guard ring pattern282. Thus, the third guard ring pattern282may reduce or prevent the static electricity from inflowing to the first substrate212.

The display device integrated with the touch screen panel1including the first to third guard ring patterns252,272and282may reduce or prevent the static electricity inflow to the display panel side and minimize the influence of the static electricity on the display panel.

While exemplary embodiments of the present invention have been described herein, it is to be understood that the present invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the present invention.