KR19990010131A - Liquid crystal display capable of stereoscopic images - Google Patents

Abstract

The present invention relates to a liquid crystal display device capable of stereoscopic image display, comprising: image display means for separately including first image information shown by the left eye and second image information shown by the right eye; Polarization means mounted in front of the image display means, the structure which can be polarized in the first direction and the second direction are alternately formed to separate and polarize the light of the first image information and the light of the second image information, respectively, and then transmit it. and; It comprises a recognition means is equipped with a polarizing plate in each corresponding direction so as to independently recognize the light polarized in the first direction and the second direction, thus, a liquid crystal display capable of three-dimensional image representation according to the present invention The apparatus divides the image information for each pixel into image information shown through the left eye and image information shown through the right eye, respectively, and polarizes the light of the left image and the light of the right image in the vertical and horizontal directions, respectively. By using the polarized glasses to recognize the three-dimensional image, the effect of viewing the live image information occurs.

Description

Liquid crystal display capable of stereoscopic images

The present invention relates to a liquid crystal display device capable of three-dimensional image representation.

The image information output from an ordinary CRT screen or liquid crystal display device has only brightness, color, and position information. That is, since it does not have distance information about each corresponding image information, three-dimensional display is impossible.

Therefore, when the image is to be output through a general liquid crystal display device, the horizontal lattice is formed so that the vertical polarization is formed in the vertical direction so that the polarization is performed in the vertical direction, and the polarization is performed in the horizontal direction. The liquid crystal display panel is mounted between the horizontal polarizing plates 12 on which is formed.

When a corresponding image is output through a liquid crystal display panel mounted between the vertical polarizer 11 and the horizontal polarizer 12 by a data signal applied to a liquid crystal display panel (not shown), the light of the backlight (not shown) is vertical. Polarized light is passed through the polarizer 11 and then passed through the horizontal polarizer 12 through the liquid crystal display panel.

Therefore, the viewer can see the image output to the liquid crystal display panel.

Therefore, as described above, since the image output through the liquid crystal display panel is only a two-dimensional image, the observer observes the output image without realism.

Therefore, an object of the present invention is to solve the above-described problems, and it is possible to express a three-dimensional image so that a three-dimensional stereoscopic image can be realized by separating and outputting image signals input through the left and right eyes, respectively. It is to provide a liquid crystal display device.

1 is a schematic diagram of a liquid crystal display capable of displaying a stereoscopic image in the related art.

2 is a schematic diagram of a liquid crystal display capable of stereoscopic image display according to an embodiment of the present invention;

3 is a schematic diagram of a binocular stereoscopic method according to an embodiment of this invention.

The configuration of the present invention for achieving the above object is

Image display means for separately including first image information visible to the left eye and second image information visible to the right eye;

Polarization means mounted in front of the image display means, the structure which can be polarized in the first direction and the second direction are alternately formed to separate and polarize the light of the first image information and the light of the second image information, respectively, and then transmit it. and;

It comprises a recognition means is mounted with a polarizing plate in each corresponding direction so that the light polarized in the first direction and the second direction can be independently recognized.

In the image display means, one pixel is composed of a left image and a right image, and the left image and the right image are polarized in phases in opposite directions, respectively.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a configuration diagram of a liquid crystal display capable of displaying a stereoscopic image according to an exemplary embodiment of the present invention.

3 is a schematic diagram of a binocular stereoscopic method according to an embodiment of this invention,

Referring to FIG. 2, the structure of the present invention will be described with reference to a liquid crystal display 10 containing a 3D image and a 3D image image mounted in front of the liquid crystal display 10 and exiting the screen display 10. Polarizing plate 20 for polarizing in the direction to

Polarizing glasses that are manufactured to be worn by a person and are separately attached to a first polarizing plate 301 having a horizontal polarization direction and a second polarizing plate 302 having a vertical polarization direction at a position corresponding to the human eyes. It consists of 30.

The liquid crystal display 10 uses a TN type liquid crystal display in which a liquid crystal rotates by 90 °.

As shown in FIG. 3, the liquid crystal display 10 uses a TN type liquid crystal display in which a liquid crystal is rotated by 90 °, and light of an image output from the liquid crystal display 10 is output using a binocular stereoscopic method. This is due to the video signal.

Since the same single subject 300 is photographed using two left and right cameras 100 and 200, left image information and right image information corresponding to each left and right eye are obtained, respectively.

Accordingly, one pixel includes left image information and right image information corresponding to the left eye and the right eye, respectively.

The operation of the present invention consisting of the above configuration is as follows.

First, as shown in FIG. 2, when image information corresponding to the left eye and the right eye is obtained using the left camera 100 and the right camera 200, the corresponding left and right image information is not shown. The non-data signals are separated and output to each corresponding pixel of the liquid crystal display device 10.

That is, since the data signal for the right image information and the data for the left image information are separately output to one pixel, the two left and right images are included in one pixel.

As described above, all pixels may be separated into pixels having a left image and a right image, respectively, so that the liquid crystal display 10 may output a 3D stereoscopic image.

As described above, the light of the 3D stereoscopic image passes through the polarizing plate 20 in which horizontal polarization and vertical polarization are alternately formed with respect to one pixel.

Therefore, the light corresponding to the left image for one pixel is polarized in the horizontal direction, and the light corresponding to the right image is polarized in the vertical direction and passes through the polarizing plate 30.

As described above, in order to observe the light passing through the light corresponding to the left image and the right image for one pixel, respectively, into vertical and horizontal polarizations, the polarized glasses 30 are illustrated in FIG. 2. Should be worn.

The polarizing glasses 30 are manufactured to be worn by a person and are respectively polarized plates 301 and 302 so as to be polarized in a vertical direction and a horizontal direction on each of left and right sides at positions corresponding to both eyes of a person. These are attached, respectively.

The first polarizing plate 301 and the second polarizing plate 302 of the polarizing glasses 30 are mounted so that polarization operations that are opposite to the polarization states of the left and right images of the polarizing plate 20 can be re-executed. It is because the kind of liquid crystal display part 10 used uses the TN type liquid crystal display device by which a liquid crystal rotates 90 degrees.

Therefore, the light corresponding to the left image polarized in the horizontal direction is transmitted only through the first polarizing plate 301 polarized in the vertical direction and is incident to the left eye of the human, and the light corresponding to the right image polarized in the vertical direction is horizontal. Since the light is transmitted only through the second polarizing plate 302 polarized and is incident on the right eye of the human being, it recognizes the prosthesis of the corresponding three-dimensional image. The 3D image is recognized after the recognition of the image screen.

In the exemplary embodiment of the present invention, the polarizer 20 is designed such that the light of the left image is horizontally polarized and the light of the right image is vertically polarized, but this may be arbitrarily varied.

In addition, in the case of the polarizing glasses 30, the reason for vertically polarizing the light of the horizontally polarized left image and horizontally polarizing the light of the vertically polarized right image is that the liquid crystal display 10 used is a TN type liquid crystal display device. However, this can be changed depending on the type of the liquid crystal display 10 used or the state of the polarizing plate 20.

Accordingly, the liquid crystal display device capable of displaying a stereoscopic image according to the present invention divides the image information of each pixel into image information shown through the left eye and image information shown through the right eye, respectively, respectively. By virtue of polarizing the light of the right image in the vertical and horizontal directions, and recognizing the 3D image using polarized glasses, live image information can be viewed.

In addition, since both horizontal and vertical polarizations can be realized in one polarizer, only one polarizer can be used, resulting in cost reduction.

Claims (3)

Image display means for separately including first image information visible to the left eye and second image information visible to the right eye; Polarization means mounted in front of the image display means, the structure which can be polarized in the first direction and the second direction are alternately formed to separate and polarize the light of the first image information and the light of the second image information, respectively, and then transmit it. and; And a recognizing means mounted with polarizing plates in respective corresponding directions so as to independently recognize light polarized in the first and second directions. The method of claim 1, wherein the video display means, A liquid crystal display capable of displaying a stereoscopic image, wherein one pixel includes a left image and a right image. The method of claim 1, And the left image and the right image are polarized in opposite directions, respectively.