KR100289539B1 - Active light emission type liquid crystal display - Google Patents

Abstract

PURPOSE: The present invention employs a light-emitting polarizing plate that emits light with high efficiency in accordance with the wavelength of the backlight, thereby improving the viewing angle and widening the range of color reproduction without omitting color filters employed in conventional liquid crystal display devices. An active light emitting color liquid crystal display device is provided.

Configuration: A conventional color liquid crystal display device having a liquid crystal layer interposed between a pair of transparent electrodes, comprising: a light emitting polarizing plate made of an organic polymer, and light having a predetermined wavelength for exciting the light emitting polarizing plate so that light is emitted from the light emitting polarizing plate. The light emitting polarizing plate is disposed on the upper side (observer side) of the liquid crystal layer to introduce the light irradiated from the back light source through the liquid crystal layer, the back light source is the Corresponding to the absorption spectrum, the main emission peak is irradiated with light located in the range of 370 ~ 550nm, the light emitting material is a high molecular weight polymer of polythiophene, phthalocyaninatopolysiloxane, p-phenylene, phenyleneethynylene, phenylenevinylene is applied.

Effect: As such, the present invention absorbs the light emitted from the rear light source into the light emitting polarizer and emits excitation light having a unique color of the light emitting material, thereby realizing a high quality color image having improved viewing angle and brightness.

Description

Active light emission type liquid crystal display

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a display device. In particular, by employing a light-emitting polarizing plate that generates light having high light utilization efficiency in accordance with the wavelength of back light, the viewing angle is improved and color reproduction is omitted even if the color filter employed in the conventional liquid crystal display device is omitted. The present invention relates to an active light emitting color liquid crystal display device having a wide range.

A liquid crystal display is a display that displays pixels using a material having an electro-optic property called liquid crystal. The liquid crystal display device can lead the next generation, such as an advantage of being thin and large, capable of high definition by multi-scanning lines, and low power consumption. It has requirements as a display. Therefore, many researches and developments are being conducted for perfect high quality image realization through the present.

In the case of a simple matrix structure, a pair of electrodes arranged in a lattice structure with a liquid crystal composition interposed therebetween, and in the case of an active matrix structure, a pixel electrode and a common electrode are arranged. In the case of a transmission type employing a rear light source, a pair of polarizing plates (hereinafter, referred to as polarizers and analyzers) including a pair of glass substrates are basically included on the front and rear surfaces of both electrodes described above. It is an arranged structure.

In order to realize the color of the liquid crystal display device as well as the structure, conventionally, by applying a color filter of red, green, and blue per unit pixel on a glass substrate, it is possible to implement multi-gradation by adding and subtracting light.

However, two problems of the liquid crystal display device can be presented.

One of them is that the viewing angle of the liquid crystal display device is not wide enough to narrow the viewable angle. That is, since the light passing through the liquid crystal display element has a predetermined directionality as it passes through a medium such as an analyzer, a liquid crystal composition, a color filter, and a polarizer, the pixel display is viewed when viewed from the side of the display element in front of the display element. It is not clear.

The other is that the luminance is lowered as the light utilization efficiency is lowered while the light emitted from the rear light source passes through the liquid crystal display. This is because the light emitted from the back light source and introduced through the analyzer is selected only by light of the natural wavelength by the color filter and the rest is lost.

Accordingly, researches have recently been conducted to solve the viewing angle problem of liquid crystal display devices and to improve the light utilization efficiency of the rear light source. As a result, an active light emitting liquid crystal display device having a structure in which a light emitting material is coupled to a liquid crystal cell has been introduced.

As a technology related to an active light emitting liquid crystal display device, US PAT. 4822144 and JP PAT. 62-194228 are disclosed. Among them, the former has a feature of using a ultraviolet light source as a back light source and using a phosphor excited to ultraviolet light. It has the same structure as 4822144 and has the feature of using a 450nm light source together with an ultraviolet light source as a back light source.

However, all of them have a problem in terms of stability that the life of the liquid crystal material is reduced due to exposure to ultraviolet rays and low light utilization efficiency due to a decrease in transmittance.

In light of this, the present applicant has filed with US PAT. No. 94/18087 and priority claim of the same invention. 5608554, which sets a wavelength of light in a region where the transmittance of the liquid crystal cell is high but does not adversely affect the life of the liquid crystal material, and matches the phosphor material which emits light efficiently to the wavelength, thereby improving practicality. A technology has been proposed and filed.

2, the upper glass substrate 90 and the lower glass substrate (not shown), a pair of transparent electrodes 62 and 64, and between the transparent electrodes 62 and 64 are commonly used. In addition to the interposed liquid crystal layer 50 and the analyzer 42 and the polarizer 44 as a polarizing plate, the back light source 20 having a main emission peak at 380 to 420 nm so as not to harm the liquid crystal material, and this back surface. And a phosphor layer 82 containing red, green, and blue phosphors (R, G, and B) that emit light by the light source 20. Here, the glass substrate 90 including the phosphor layer 82 is disposed between the front surface of the polarizer 44 or between the analyzer 42 and the rear light source 20, and the phosphor layer 82 A black matrix 84 is provided to improve contrast between the phosphors R, G, and B.

However, since the above-described conventional technical configuration has a two-layer structure in which the polarizer 44 and the phosphor layer 82 are sequentially stacked with respect to the back light source 20, the manufacturing process is complicated and the polarizer 44 is of course complicated. It is pointed out as a big problem that back light is introduced due to interference between neighboring phosphors R, G, and B introduced through the light.

In addition, an improvement in cost reduction in terms of the two materials of the polarizer 44 and the phosphor layer 82 must be separately processed.

The present invention devised in order to solve the above-mentioned problems and at the same time meet the needs of the present invention prevents the interference caused by the interference between the phosphors as in the prior art, while improving the viewing angle and light utilization efficiency while simplifying the manufacturing process of the display device. An object of the present invention is to provide an active light emitting liquid crystal display device.

The present invention for achieving the above object is a conventional color liquid crystal display device having a liquid crystal layer interposed between a pair of transparent electrodes, the light emitting polarizing plate made of an organic polymer and the light emitting so that light is emitted from the light emitting polarizing plate A back light source for irradiating light of a predetermined wavelength for exciting the polarizing plate is included.

Here, the light emitting polarizing plate may be applied as a polarizer disposed on the liquid crystal layer that selectively transmits the light introduced through the analyzer according to the applied electric field, but the present invention is not limited thereto, and the light emitting polarizing plate is used as the analyzer. You can also apply.

In addition to this configuration, the rear light source is a wavelength range of light corresponds to the absorption spectrum of the light-emitting polarizing plate, the main light emission peak is configured to irradiate light located within the range of 370 ~ 550nm, the light emitting material is a high molecular weight As the polymer of at least one of polythiophene, phthalocyaninatopolysiloxane, p-phenylene, phenyleneethynylene, phenylenevinylene is applied.

As such, the present invention absorbs the light emitted from the rear light source into the light-emitting polarizing plate to emit light of a unique color, thereby realizing a high quality color image with improved viewing angle and brightness.

1 is a cross-sectional view showing a layer structure of a display device according to the present invention

2 is a cross-sectional view illustrating a layer structure of a conventional display device.

Explanation of symbols on the main parts of the drawings

20-Back Light Source 42-Prospector

50-Liquid Crystal Layer 62,64-Transparent Electrode

70-luminescent polarizer (polarizer) 90-upper glass substrate

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the drawings, and in describing the embodiments of the present invention, the same reference numerals will be given to the same parts for clarity of explanation and avoidance of overlapping description. do.

1 illustrates a layer structure of an active light emitting color liquid crystal display device according to an exemplary embodiment of the present invention.

According to the embodiment of the present invention, the rear light source 20 disposed on the rearmost surface, the analyzer 42 as a first polarizing plate for selecting only light in a predetermined direction from the light emitted from the rear light source 20, A liquid crystal layer (50) interposed between the pair of transparent electrodes (62, 64) and a polarization light transmitted through the liquid crystal layer (50) to absorb only the polarization corresponding to the polarization direction and emit light The polarizers 70, which are two polarizing plates, are sequentially stacked and the upper glass substrate 90 is disposed thereon.

The polarizer 70 exhibits polarization in absorbing excitation light and employs a light-emitting polarizing plate made of an organic polymer so as to emit light of an intrinsic color by absorbed polarization.

The material constituting the light-emitting polarizing plate 70 may be formed by using a thin organic coating polymer that is easy to pattern and build red, green, and blue display areas on the panel of the liquid crystal display device.

In addition, the back light source 20 has characteristics that match the absorption spectrum of the light emitting polarizer 70 so as to increase the efficiency of light emitted from the light emitting polarizer 70 without adversely affecting the lifetime of the liquid crystal material. As wavelength, what irradiates light located in the range whose main emission peak is longer than 254-365 nm which is the light emission peak wavelength of a normal ultraviolet lamp, especially the area of 370-550 nm is used.

In order to maximize the efficiency of the light emitted from the light emitting polarizing plate 70 by the back light of the wavelength characteristics, the light emitting material is a high molecular weight polymer of polythiophene, phthalocyaninatopolysiloxane, p-phenylene, phenyleneethynylene, phenylenevinylene or a mixture thereof It is preferred to consist of a material.

According to the present invention, the light emitting polarizing plates emitting red, green, and blue light are made in advance, and the polarizing plates are formed in a predetermined pattern using the polarizing plates to produce high quality color images through the liquid crystal display of the present invention. Can be implemented.

As such, when the color is implemented by the light emitted from the light emitting polarizer 70 of the present invention, the light use efficiency may be improved as compared with the conventional color filter, thereby improving luminance.

That is, in the conventional liquid crystal display device employing a color filter, the light utilization efficiency is lowered while the color filter is selected through the color filter, whereas in the active light-emitting color liquid crystal display device of the present invention, the back light is selected to the light-emitting polarizing plate 70. As light is emitted directly, the brightness displayed on the screen is improved.

In addition, in the conventional liquid crystal display device employing the phosphor, phosphors are stacked on the entire surface of the polarizer 44, thereby causing a problem of spreading. However, the active light-emitting color liquid crystal display device of the present invention is disposed on the liquid crystal layer 50. Since light is directly emitted from the polarizer 70, the spreading problem is eliminated.

As described above, since the function of the conventional color filter or phosphor and the function of the polarizing plate are performed by one light emitting polarizing plate according to the present invention, of course, the manufacturing process of the liquid crystal display element is simplified as compared with the conventional method. In addition, it is possible to improve the luminance and viewing angle of the liquid crystal display and to solve the problem of spreading, thereby improving the display quality.

On the other hand, the present invention is not limited to the specific preferred embodiment, it is a matter of course that a variety of applications are possible by ordinary knowledge in the art within the technical rights described in the claims.

Claims (4)

In a conventional color liquid crystal display device having a liquid crystal layer interposed between a pair of transparent electrodes, a light emitting polarizing plate made of an organic polymer and a light having a predetermined wavelength for exciting the light emitting polarizing plate to emit light from the light emitting polarizing plate An active light emitting color liquid crystal display device comprising a back light source for irradiation. The active color light emitting display device of claim 1, wherein the light emitting polarizing plate is disposed on an upper portion of the liquid crystal layer to introduce light irradiated from the rear light source through the liquid crystal layer. The active color light emitting device of claim 1 or 2, wherein the rear light source irradiates light having a main emission peak within a range of 370 to 550 nm so as to correspond to an absorption spectrum of the light emitting polarizer. The active light emitting color liquid crystal display device as claimed in claim 3, wherein the light emitting material is a high molecular weight polymer, wherein at least one of polythiophene, phthalocyaninatopolysiloxane, p-phenylene, phenyleneethynylene, and phenylenevinylene is applied.