KR20120004232A - Touch panel combined with liquid crystal display - Google Patents

Abstract

PURPOSE: A touch panel integrated with a liquid crystal display is provided to eliminate an OCA(Optical Cleared Adhesive) layer and an ITO(Indium Tin Oxide) film, thereby reducing the thickness of the touch panel and increasing visibility. CONSTITUTION: Pixel electrodes(240) are formed on cross parts where gate and data lines are formed. The gate and data lines are formed on a lower transparent substrate. A TFT(Thin Film Transistor)(250) connects a gate electrode to the gate line, connects a source electrode to the data line, and connects a drain electrode to the pixel electrode. A lower sensor electrode(270) is formed on an insulation layer which covers the TFT. A color filter unit is in parallel with the TFT. The color filter includes a common electrode(440) and an upper sensor electrode. A liquid crystal display unit(300) comprises a liquid crystal between the TFT unit and the color filter unit and a spacer.

Description

LCD integrated touch panel {TOUCH PANEL COMBINED WITH LIQUID CRYSTAL DISPLAY}

The present invention relates to a touch panel, and more particularly, to an LCD cell integrated touch panel in which a sensor electrode is embedded in an LCD cell, thereby reducing the thickness of the touch panel and improving transmittance and visibility.

The touch panel includes a cathode ray tube (CRT), a liquid crystal display (LCD), a field emission display (FED), a plasma display panel (PDP) and an electroluminescent device. It is a computer peripheral device installed on a display surface of an image display device such as (ELD; Electro Luminescence Device) to press a touch panel while the user presses the touch panel while watching the image display device.

Here, the touch panel integrated with the liquid crystal panel in the liquid crystal display will be mainly described. In general, a liquid crystal display device in which a touch panel is mounted includes both a touch panel, a liquid crystal panel, and a backlight independently. In order to operate the touch panel, the touch panel must be connected to the touch controller by a signal line (FPC), and the touch controller again The computer body must be electrically connected. When the operation thereof is described, when the upper part of the touch panel is touched with a predetermined pressure or more, the voltage value at the position is calculated by the touch controller to recognize the coordinates.

1 is a perspective view illustrating a structure of a touch panel combined with a liquid crystal panel according to the related art. Referring to FIG. 1, the LCD panel 110 and the touch screen panel 130 are combined by an adhesive layer (OCA, UV-Cure Resin) 120. However, in such a structure, there is a limit in reducing the thickness of the entire touch screen panel 130 and the LCD panel 110, and the work efficiency is reduced and secondary due to the occurrence of adhesion component residue of the OCA used as the adhesive layer 120. Defect occurs. Moreover, there is a problem of reliability caused by UV-cure resin, which is another means of the adhesive layer, and there is a problem of decreasing LCD visibility due to the use of film and OCA.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems, and an object of the present invention is to include a touch panel function in an LCD panel without using OCA or UV-cure Resin, thereby reducing secondary defect rate and reducing thickness and An LCD integrated touch panel for improving LCD visibility is provided.

An LCD integrated touch panel according to an embodiment of the present invention for solving the above problems includes a plurality of pixel electrodes formed at each intersection of gate lines and data lines formed on a lower transparent substrate; A thin film transistor having a gate electrode connected to the gate line, a source electrode connected to the data line, and a drain electrode connected to the pixel electrode; And a lower sensor electrode formed on an insulating layer covering the thin film transistor. A color filter unit facing in parallel with the TFT and including a common electrode formed under the upper transparent substrate, and an upper sensor electrode; And a liquid crystal portion formed between the TFT portion and the color filter portion, and a spacer for maintaining a gap between the TFT portion and the color filter portion. It includes, wherein the upper sensor electrode and the lower sensor electrode is arranged to face each other with a gap (gap).

The upper sensor electrode is formed inside the common electrode, and in this case, the pixel electrode is formed on the insulating layer and is connected to the drain electrode through a via hole penetrating through the insulating layer.

The color filter unit may further include a black matrix formed under the upper transparent substrate, and the upper sensor electrode is formed under the black matrix.

In particular, the upper or lower sensor electrode may be made of the same metal as one of the pixel electrode, the gate wiring, and the data wiring.

By the present invention, by removing the OCA layer and the ITO film, the thickness of the entire touch panel is reduced, and the transmittance and visibility are improved. In addition, it is possible to reduce the secondary incidence rate due to the removal of the adhesive layer (OCA).

1 is a perspective view showing the structure of a touch panel combined with a liquid crystal panel according to the prior art.
2 is a cross-sectional view and a circuit diagram of an LCD integrated touch panel according to an embodiment of the present invention.
3 is a cross-sectional view and a plan view showing an operating principle of an LCD integrated touch panel according to an embodiment of the present invention.

Hereinafter, an LCD integrated touch panel according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. In the description of the embodiments, “on” and “under” of one side of the front film or back film are formed “directly” or “indirectly” through other components. It includes everything. In addition, the criteria for the top or bottom of each component will be described with reference to the drawings. The size of each component in the drawings may be exaggerated for the sake of explanation and does not mean the size actually applied.

2 is a cross-sectional view and a circuit diagram of an LCD integrated touch panel according to an embodiment of the present invention. Referring to FIG. 2, an LCD integrated touch panel according to an exemplary embodiment of the present invention includes a TFT unit 200, a liquid crystal unit 300, and a color filter unit 300.

More specifically, the TFT unit 200 includes a lower transparent substrate 210, a gate wiring 220, a data wiring 230, a pixel electrode 240, a TFT 250, and a storage capacitor (Cs) electrode 280. , An insulating layer 260, and a lower sensor electrode 270. The gate lines 220 and the data lines 230 are formed on the lower transparent substrate 210, and the pixel electrode 240 is formed at each intersection of the gate lines 220 and the data lines 230.

As shown in the circuit diagram below, the TFT 250 has a gate electrode 254 connected to the gate wiring 220, a source electrode 253 connected to the data wiring 230, and a pixel electrode 240. The drain electrode 255 is connected. The Cs electrode 280 may be further included on the lower transparent substrate 210. The insulating layer 260 is formed to cover the TFT 250, and this insulating layer 260 is generally made of SiN. The pixel electrode 240 and the lower sensor electrode 270 are arranged on the insulating layer 260. The pixel electrode 240 formed on the insulating layer 260 is connected to the drain electrode 255 through a via hole (not shown) penetrating the inside of the insulating layer 260.

In particular, the lower sensor electrode 270 may be patterned. In addition, the material of the lower sensor electrode 270 may be made of the same metal material as one of the pixel electrode 240, the gate wiring 220, and the data wiring 230.

Meanwhile, the color filter unit 400 faces the TFT unit 200 in parallel with each other, and the color filters 420a, 420b, and 420c formed under the upper transparent substrate 410, the common electrode 440, and the upper sensor. Electrode 450. Here, the color filters 420a, 420b, and 420c are divided into three filters, red 420a, green 420b, and blue 420c. In addition, the common electrode 440 formed under the color filters 420a, 420b, and 420c is typically formed using ITO, which is a transparent electrode material. In addition, the upper sensor electrode 450 is formed under the color filters 420a, 420b, and 420c, and the position thereof is arranged to face the lower sensor electrode 270 of the TFT portion 200. In addition, the upper sensor electrode 450 may be formed inside the common electrode 440. In this case, the common electrode 440 of the portion including the upper sensor electrode 450 protrudes downward as shown. Has

In particular, the color filter unit 400 may further include a black matrix 430. The black matrix 430 may be arranged in a portion of the color filter unit 400 corresponding to the portion between the pixel electrode 240 and the adjacent pixel electrode 240 of the TFT unit 200. It may also be arranged between red 420a, green 420b, blue 420c filters. In this case, the upper sensor electrode 450 is formed below the black matrix 430.

The liquid crystal unit 300 including the liquid crystal 310 and the spacer 320 exists between the TFT unit 200 and the color filter unit 400. The color filter unit 400 and the TFT unit 200 are spaced apart by the spacer 320, and in particular, a constant gap must exist between the upper sensor electrode 450 and the lower sensor electrode 270. .

3 is a cross-sectional view and a plan view showing an operating principle of an LCD integrated touch panel according to an embodiment of the present invention. Referring to FIG. 3, the LCD integrated touch panel according to the exemplary embodiment may be driven in a resistive manner or in a capacitive manner. When driven in a resistive manner, the upper sensor electrode 450 and the lower sensor electrode 270 are energized by external pressure, as indicated by a circle in the cross-sectional view, to recognize coordinates. In this case, the object under pressure is irrelevant whether or not it has a charge. In addition, when driven in a capacitive manner, the coordinates are recognized through the difference in the charge capacity of the liquid crystal 310 filled between the upper sensor electrode 450 and the lower sensor electrode 270.

Although the liquid crystal 310 is shown only in the left side in this figure, it should be understood that the liquid crystal 310 exists throughout the space between the color filter unit 400 and the TFT unit 200. In this case, since the charge capacity of the filled liquid crystal 310 must be changed, the object applying pressure must be an object having a charge.

On the other hand, when the driving principle is described with reference to the bottom plan view, as shown, the lower sensor electrode 270 is connected to the common wiring 290, the lower sensor electrode 270 by the above-described resistive or capacitive method It is possible to detect the change of charge generated in. In particular, the lower sensor electrode 270 is capable of not only basic touch sensing but also multi-touch sensing by giving a pulse and a time difference to the voltage. For example, the time of the voltage pulse applied to the lowermost right sensor electrode and the time of the voltage pulse applied to the lower sensor electrode adjacent to the left side may be different from each other even if several parts are touched at the same time. .

In the foregoing detailed description of the present invention, specific examples have been described. However, various modifications are possible within the scope of the present invention. The technical spirit of the present invention should not be limited to the above-described embodiments of the present invention, but should be determined by the claims and equivalents thereof.

110: LCD panel 120: adhesive layer
130: touch screen panel 200: TFT section
210: lower transparent substrate 220: gate wiring
230: data wiring 240: pixel electrode
250: thin film transistor (TFT) 260: insulating layer
270: lower sensor electrode 280: Cs electrode
290: common wiring 300: liquid crystal unit
310: liquid crystal 320: spacer
400: color filter unit 410: upper transparent substrate
420a, 402b, 420c: color filter 430: black matrix
440: common electrode 450: upper sensor electrode

Claims (5)

A plurality of pixel electrodes formed at intersections of the gate lines and the data lines formed on the lower transparent substrate; A thin film transistor having a gate electrode connected to the gate line, a source electrode connected to the data line, and a drain electrode connected to the pixel electrode; And a lower sensor electrode formed on an insulating layer covering the thin film transistor.
A color filter unit facing in parallel with the TFT and including a common electrode formed under the upper transparent substrate, and an upper sensor electrode; And
A liquid crystal portion including a liquid crystal formed between the TFT portion and the color filter portion, and a spacer for maintaining a gap between the TFT portion and the color filter portion;
And an upper sensor electrode and a lower sensor electrode arranged to face each other with a gap therebetween.
The method of claim 1,
The upper sensor electrode is an LCD integrated touch panel formed inside the common electrode.
The method of claim 2,
And the pixel electrode is formed on the insulating layer and connected to the drain electrode through a via hole penetrating through the insulating layer.
The method of claim 2,
The color filter unit further includes a black matrix formed under the upper transparent substrate,
And the upper sensor electrode is formed under the black matrix.
The method of claim 3, wherein
And the upper or lower sensor electrode is made of the same metal as one of the pixel electrode, gate wiring, and data wiring.

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