KR20100010560A - Liquid crystal display - Google Patents

Abstract

PURPOSE: A liquid crystal display is provided to reduce the size of a rear polarizing plate, thereby reducing manufacturing costs. CONSTITUTION: A liquid crystal display panel includes a light source(15), a rear polarizing plate(20), a light guiding plate, a rear glass plate(30), a transistor(40), a liquid crystal layer(50), a color filter(60), a front glass plate(70), a front polarizing plate(80), and a screen(90). The light source is located on the lateral side of the light guiding plate. The rear polarizing plate is arranged on the lateral side of the light guiding plate. The rear polarizing plate transfers light to the light guiding plate by polarizing the light emitted from the light source in one direction. The polarized light penetrates the rear glass plate from the light guiding plate and is guided to the transistor.

Description

Liquid Crystal Display Panel {LIQUID CRYSTAL DISPLAY}

The present invention relates to a liquid crystal display panel (LCD) that can be applied to a mobile phone (Handphone), PDA, PMP, etc. More specifically, it is possible to reduce the cost by reducing the size of the rear polarizer by changing the position of the rear polarizer The present invention relates to a liquid crystal display panel that can reduce the thickness of the LCD panel itself by changing the position of the rear polarizer.

The flat panel display (FPD) has begun to emerge as the electronic display industry has developed rapidly among the semiconductor industry. A flat panel display (FPD) is an image display device that is thinner and lighter than a cathode ray tube (CRT), which is conventionally used as a display for a TV or a computer monitor, and includes a liquid crystal display, LCD), plasma display panel (PDP), organic EL (Organic Light Emitting Diodes, OLED), and the like.

The TFT-LCD, which is one of the flat panel displays, injects a liquid crystal, which is an intermediate material between a solid and a liquid, between two thin upper and lower glass substrates. It is a device using a kind of optical switch phenomenon that displays the number or the image by generating the contrast by changing the arrangement.

Liquid crystal displays (LCDs) are widely used in electronic products such as electronic clocks, electronic calculators, TVs, notebook PCs, speed displays and driving systems of automobiles, aircrafts, etc., due to their excellent performance of thinning, light weight, and low power consumption.

Meanwhile, the development of wireless communication networks and the development of various IT technologies have led to the production of various miniaturized terminals, and PDAs, PMPs, etc. are being produced, including mobile phones, which are the most widely used among them. Most of them use liquid crystal display panels (LCDs).

Liquid crystal display panels (LCDs) are producing many types of products, ranging from initial inches to large screens of 80 inches in recent years, and occupy an indispensable position as display-related components in the IT industry. It is growing day by day, and this form is expected to continue for years to come.

One of the components necessary for producing such a liquid crystal display panel (LCD) is a polarizing plate, and the polarizing plate is a very important component that plays a role of controlling the light propagation between liquid crystals.

1 is a diagram illustrating a structure of a general liquid crystal display panel (LCD).

Referring to FIG. 1, the light guide plate 1, the rear polarizer 2, the rear glass plate 3, the transistor 4, the liquid crystal layer 5, the color filter 6, the front glass plate 7, The front polarizing plate 8 and the screen 9 are sequentially arranged, and the light source 1a is disposed on the side of the light guide plate 1.

Looking at the operation of the liquid crystal display panel (LCD) having the above configuration, the light from the light source (1a) passes through the light guide plate (1) through the rear polarizer 2 located on the rear of the liquid crystal layer (5). While being polarized in one direction, the polarized light is controlled by the liquid crystal layer 5 in which the polarized light is controlled by the transistor 4.

When the polarization is controlled by the liquid crystal layer 5, the polarizer is passed through the color filter 7 located on the front side of the liquid crystal layer 5, and then passes through or is blocked by the front polarizer 8 to display an image on the screen 9.

As described above, the rear polarizer 2 and the front polarizer 8 are basic components in the operation of the liquid crystal display panel (LCD) which induces polarization of light emitted from the light source 1a.

As a light source of a liquid crystal display panel (LCD), a light guide plate and a white LED are mainly used in a small panel, and a large panel is directly irradiated from the rear of the liquid crystal using a CCFL (Cold Cathode Fluorescent Lamp).

In the case of a small panel, a structure currently used has an LED light source 1a on the side of the light guide plate 1, and light flowing through the light guide plate 1 is transmitted in the direction of the liquid crystal layer 5. This transmitted light is polarized while passing through the rear polarizer 2 placed on the rear of the liquid crystal layer 5.

In this case, since the size of the rear polarizer 2 itself must be greater than or equal to the light guide plate 1, a problem of cost increase occurs, and at the same time, the overall thickness becomes thick due to the thickness of the rear polarizer 2 itself. There is a problem that there is a limit in making the panel (LCD) thin.

As a result, there is a need to change the structure in order to reduce the thickness of the liquid crystal display panel (LCD).

An object of the present invention is to provide a liquid crystal display panel (LCD) that can reduce the cost by reducing the size of the rear polarizer by changing the position of the rear polarizer.

In addition, another object of the present invention is to provide a liquid crystal display panel (LCD) that can reduce the thickness of the panel itself by positioning the rear polarizer on one side of the light source is incident on the light guide plate.

However, the objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above objects, the present invention provides a liquid crystal display panel (LCD) as follows.

According to a feature of the present invention, in a liquid crystal display panel (LCD) comprising a light source, a rear polarizer, a light guide plate, a rear glass plate, a transistor, a liquid crystal layer, a color filter, a front glass plate, a front polarizer, and a screen,

The light source is located on the side of the light guide plate,

The rear polarizer may be disposed between the light guide plate and the light source, that is, at the side of the light guide plate, to polarize light emitted from the light source in one direction and to pass the light through the light guide plate.

The liquid crystal display panel (LCD) according to the present invention has an effect of reducing the size of the rear polarizer by reducing the size of the rear polarizer by changing the size of the rear polarizer to the size of the side area of the light guide plate. .

In addition, there is an effect that the thickness of the panel itself can be reduced by placing the position of the rear polarizing plate on one side where the light source is incident on the light guide plate.

As a result, when the present invention is viewed in terms of the thickness of the panel, since the rear polarizer used in the rear of the liquid crystal layer is eliminated, the thickness thereof is reduced, and thus, it is expected to meet the trend of various IT devices that are miniaturized and thinned.

Hereinafter, a preferred embodiment of a liquid crystal display panel (LCD) according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a view showing the structure of a liquid crystal display panel (LCD) according to a preferred embodiment of the present invention.

Referring to FIG. 2, reference numeral 10 denotes a light guide plate that performs a function of guiding light emitted from the light source 15 in the direction of the liquid crystal layer 50, and at the same time performs a luminance and a uniform illumination function. In this case, the light source 15 is positioned at the side of the light guide plate 10.

A reference numeral 20 is disposed between the light guide plate 10 and the light source 15, that is, at the side of the light guide plate 10 to polarize light emitted from the light source 15 in one direction to pass through the light guide plate 10. A polarizing plate is shown.

Reference numeral 30 denotes a rear glass plate, 40 transistors, 50 liquid crystal layers, 60 color filters, 70 front glass plates, 80 front polarizers, and 90 screens. This configuration is the same as or similar to that of a conventional liquid crystal display panel (LCD), and the function is also the same or similar, so a description thereof is omitted.

Referring to the operation of the LCD according to the present invention having the configuration as described above is as follows.

When the light emitted from the light source 15 is incident on the rear polarizer 20, the light is polarized in one direction and then incident toward the light guide plate 10. Light polarized in one direction from the rear polarizer 20 is led from the light guide plate 10 to the transistor 40 through the rear glass plate 30.

The transistor 40 includes an electrode 42 and an electrode 44 that are turned off to display an image. The polarization direction of light passes through the liquid crystal layer 50 that is oriented as the electrode is turned off or turned on. Is maintained or changed.

While the polarization direction is maintained while passing through the liquid crystal layer 50, the color filter 60 and the front glass plate 70 pass through the light, but are blocked by the front polarizer 80 so that the pixel 92 turned off from the screen 90. ), The light of which the polarization direction is changed while passing through the liquid crystal layer 50 passes through the color filter 60 and the front glass plate 70 and then passes through the front polarizer 80 to turn on the screen 90. It is represented by 94.

As a result, in the conventional LCD, two front polarizers and two rear polarizers are positioned with the liquid crystal layer interposed therebetween. In the present invention, the rear polarizer 20 is positioned at the light source 15 and the light guide plate 10. Located on one side in between will induce polarized light.

The drawings and detailed description of the invention are merely exemplary of the invention, which are used for the purpose of illustrating the invention only and are not intended to limit the scope of the invention as defined in the appended claims or claims. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

When the liquid crystal display panel (LCD) according to the present invention is applied, the size of the rear polarizer is changed from the size of the front area of the light guide plate to the size of the side area, thereby reducing the size of the rear polarizer to reduce the cost.

In addition, it is possible to reduce the thickness of the panel itself by positioning the rear polarizer on one side of the light source is incident on the light guide plate.

As a result, in the case of a large LCD panel used for a monitor or a TV, it is not influenced by a small change in the panel thickness. By using the method provided by the present invention, the thickness of the microporous plate may be reduced, and the material cost may be reduced by decreasing the size of the polarizing plate itself.

The detailed description of each drawing is provided in order to provide a thorough understanding of the drawings cited in the detailed description of the invention.

1 illustrates a structure of a general liquid crystal display panel (LCD).

2 is a view showing the structure of a liquid crystal display panel (LCD) according to a preferred embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

10: light guide plate 15: light source

20: rear polarizer 30: rear glass plate

40: transistor 50: liquid crystal layer

60: color filter 70: front glass plate

80: front polarizer 90: screen

Claims (1)

In a liquid crystal display panel (LCD) including a light source, a rear polarizer, a light guide plate, a rear glass plate, a transistor, a liquid crystal layer, a color filter, a front glass plate, a front polarizer, and a screen, The light source is located on the side of the light guide plate, The rear polarizer is disposed between the light guide plate and the light source, that is, on the side of the light guide plate, and polarizes the light emitted from the light source in one direction and passes through the light guide plate.

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