KR100605249B1 - LCD module - Google Patents

Abstract

The present invention relates to an LCD module, and by applying a light emitting device having a color filter and a light source function to an LCD panel, the thickness of the LCD module is reduced, and light efficiency, which has been degraded due to the color filter, is improved.

Description

LCD module

The present invention relates to an LCD module, and more particularly to an LCD module to remove the color filter to improve the light transmittance.

In general, an LCD module includes a backlight assembly, an LCD panel, and a driving circuit unit for driving the LCD panel.

The backlight assembly is preferred for low power consumption, good temperature characteristics and long life. For this purpose, a cold cathode tube is generally used, and a light guide plate is used to transmit uniform light to the front of the panel.

In order to secure the uniformity of light, a diffusion sheet is employed on one surface of the light guide plate, and a prism sheet for condensing light on one surface of the diffusion sheet is employed.

Light emitted from the backlight assembly passes through the polarizing film before being incident on the LCD panel, and the light polarized in a specific direction while passing through the polarizing film passes through the liquid crystal layer injected between the C / F substrate and the TFT substrate. Will change.

The light passing through the liquid crystal layer passes through a color filter to produce color, and three kinds of color filters are used in R, G, and B, and the transmittance of the color filter generally has a transmittance of 30 to 35%.

The light passing through the color filter passes through the polarizing film, and the transmittance is adjusted.

As such, since the transmittance of the color filter is low, the overall light transmittance is lowered, and an attempt to remove the color filter has been made to overcome this problem. For this, the backlight assembly is prepared in three colors, R, G, and B, respectively, so that the color can be realized without using color filters on the LCD panel. It was made.

However, there is a problem that the overall thickness of the LCD module is increased by using the backlight assembly without using the color filter.

Accordingly, an object of the present invention is to reduce the overall thickness of the LCD module and to improve the light efficiency.

Other objects of the present invention will become more apparent from the following detailed description and the accompanying drawings.

In order to achieve the above object, the LCD module of the present invention has a light emitting part in which light emitting elements each having an RGB color are arranged insulated from each other on an upper surface thereof, and an mutual insulation array positioned between light emitting elements on an upper surface of the light emitting part. And a liquid crystal interposed between the upper substrate, the lower substrate and the upper substrate having a lower substrate having a first polarizing film, a second polarizing film, a common electrode and a black matrix arranged opposite to the driving elements. It can be made, including.

In this case, the light emitting device may include an electrode formed on the upper surface of the substrate, an organic light emitting member having a predetermined color formed on the upper surface of the electrode, and a transparent electrode formed on the upper surface of the organic light emitting member.

The polarizing film may be interposed between the light emitting part and the driving part.

In addition, another LCD module of the present invention is opposite to the driving electrodes on the lower substrate and the lower substrate having a first polarizing film and a driving unit formed by mutually insulated the pixel electrodes and driving elements electrically connected to the pixel electrodes, respectively. The light emitting devices each having an RGB color may be formed of a light emitting part formed by insulated from each other, and an upper substrate having a second polarizing layer and a common electrode, and a liquid crystal interposed between the upper substrate and the lower substrate.

Hereinafter, an LCD module according to an embodiment of the present disclosure will be described in detail with reference to the accompanying drawings.

Referring to FIG. 1, an LCD module is composed of a liquid crystal 14 interposed between a lower substrate 10, an upper substrate 12, a lower substrate 10, and an upper substrate 12.

At this time, the lower substrate 10 is formed on the upper surface of the light emitting unit 18 and the light emitting unit 18 in which the light emitting elements 16 each having an RGB color formed on the upper surface thereof are arranged insulated from each other. And a first polarizing film 24 interposed between the light emitting portion 18 and the driving portion 22 having the driving elements 20 arranged mutually insulated between the light emitting elements 16.

As shown in FIG. 2, the light emitting unit 18 is formed of light emitting elements 16 formed on the upper surface of the substrate 26 and an insulating layer 27 insulating the light emitting elements 16 from each other.

The light emitting device 16 is an electrode 28 formed on an upper surface of the substrate 26, an organic light emitting member 30 formed on an upper surface of the electrode 28, having a predetermined color such as RGB, and organic. It is made of a transparent electrode 32 formed on the upper surface of the light emitting member (30).

The light emitting device 16 has a structure in which the organic light emitting member 30 emits light by an electric signal applied from the positive electrodes 28 and 30 to emit a predetermined color.

As such, instead of the backlight assembly used in the related art, light emitting devices are formed to simultaneously perform the functions of the backlight assembly and the color filter.

The driver 22 is disposed on the gate electrode 36 formed on the upper surface of the substrate 34, the gate insulating film 38 formed on the gate electrode 36, and the gate insulating film 38 facing the gate electrode 36. A driving element 20 composed of a silicon film 40 formed on the silicon film 40, and source / drain electrodes 42 and 44 formed on the silicon film 40, an insulating film 46 and a drain electrode 44 formed thereon. And a pixel electrode 48 electrically connected to the drain electrode 44 through a contact hole formed in

In addition, the upper substrate 12 has a black matrix 50 positioned between the driving elements 20 formed on the lower surface of the substrate 52, and a common electrode 54 formed on the black matrix 50. The polarizing film 55 is formed on the upper surface of the substrate 52.

As such, by forming light emitting devices instead of the backlight assembly used in the related art, functions of the backlight assembly and the color filter may be simultaneously performed, thereby reducing the overall thickness of the LCD module and improving the light efficiency degraded by the color filter.

Meanwhile, FIG. 3 shows another embodiment of the light emitting part of the lower substrate, and detailed description of the same parts as those of FIG. 2 will be omitted.

As illustrated, the organic light emitting member 60 is formed on the upper surface of the electrode 58 formed on the upper surface of the substrate 56, and the transparent electrode 62 is formed on the upper surface of the organic light emitting member 60. An insulating film 66 which insulates the formed light emitting elements 64 from each other is formed on the light emitting elements 64. At this time, the insulating film has a two-layer structure.

The operation and effect of the light emitting portion having such a structure is the same as the operation and effect of the above-mentioned light emitting portion.

Figure 4 shows an LCD module according to another embodiment according to the technology of the present invention, detailed description of the same parts as those mentioned in the above embodiment will be omitted.

Referring to FIG. 4, the upper substrate 68 is formed by arranging light emitting elements 74 insulated from each other by an insulating film 72 on a lower surface of the substrate 70 at predetermined intervals, and the surface of the insulating film 72. In the polarizing film 76 and the common electrode 78 are formed.

Since the lower substrate 80 has the same structure as the driving unit described with reference to FIG. 1 except that the polarizing film 82 is formed on the lower surface of the substrate 82, a detailed description of the lower substrate is omitted.

The liquid crystal 86 is interposed between the upper substrate 68 and the lower substrate 80.

The action and effect of the LCD module having such a structure is also the same as the action and effect of the LCD module mentioned in the above embodiment.

As described above, the present invention has the effect of reducing the thickness of the LCD module and improving the light efficiency of the conventional LCD due to the color filter and the light emitting device having the light source function to the LCD panel.

1 is a cross-sectional view showing an LCD module according to an embodiment of the present invention.

FIG. 2 is a cross-sectional view of the light emitting part of FIG. 1. FIG.

3 is a cross-sectional view showing a modified embodiment of the light emitting portion of FIG.

Figure 4 is a cross-sectional view showing an LCD module according to another embodiment according to the technology of the present invention.

Claims (4)

A light emitting part having light emitting devices generating red, green, and blue light on the upper surface of the substrate at regular intervals, a driving part having driving devices formed on the light emitting part between the light emitting devices, and a first polarizing film; A lower substrate; An upper substrate including a second polarizing film, a common electrode, and a black matrix formed to face the driving elements; And LCD module comprising a liquid crystal interposed between the lower substrate and the upper substrate. The display apparatus of claim 1, wherein each of the light emitting devices comprises: an electrode formed on an upper surface of the substrate; An organic light emitting member formed on an upper surface of the electrode and generating one of red, green and blue light; And LCD module, characterized in that it comprises a transparent electrode formed on the upper surface of the organic light emitting member. The LCD module of claim 1, wherein the first polarizing layer is disposed between the light emitting part and the driving part. A lower substrate including a driving unit having pixel electrodes and driving elements electrically connected to the pixel electrodes at regular intervals, and a first polarizing film; An upper substrate including a light emitting part, a second polarizing film, and a common electrode formed such that light emitting devices respectively generating red, green, and blue light are disposed between the driving elements on a lower surface of the substrate; And An LCD module comprising a liquid crystal interposed between the upper substrate and the lower substrate.