KR101068323B1 - Cubic image displaying device and the operating method thereof - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a display device, and to a stereoscopic image display device capable of viewing a 2D image and a 3D image, and a driving method thereof.

A stereoscopic image display device according to the present invention comprises: an image panel; A light source irradiating light from a rear surface of the image panel; Including a switching liquid crystal panel to display a full-white when the two-dimensional image display request from the front of the image panel, and forms a transparent slit and opaque slit of zigzag pattern when the three-dimensional image display request Characterized in that made.

According to the present invention, two-dimensional and three-dimensional images can be displayed in a stereoscopic image display device, and two-dimensional and three-dimensional images can be easily switched by a parallax barrier using a liquid crystal panel. There is an advantage that can be seen by selecting. In addition, the parallax-barrier is formed in a zigzag pattern to improve the moire phenomenon and the image quality.

Parallax-Barrier, Zigzag, Moire, Switching, 3D

Description

Stereoscopic image display device and the operating method

1 is a diagram illustrating a conventional parallax-barrier scheme.

2 is a block diagram showing a stereoscopic image display device according to the present invention.

3 is a plan view of a switching liquid crystal panel in a three-dimensional image display in a two-dimensional / three-dimensional switching liquid crystal panel according to an embodiment of the present invention.

4 is a plan view of a switching liquid crystal panel in a two-dimensional image display.

Description of the Related Art [0002]

210: image panel 230, 330: liquid crystal panel for switching

240: backlight 250 (251, 252, 253): polarizer

331: gate wiring 332: data wiring

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a display device, and more particularly, to a cubic image displaying device capable of viewing a 2D image and a 3D image, and a driving method thereof.                         

In particular, the present invention relates to a liquid crystal display, and more particularly, to a stereoscopic image display device having a parallax-barrier method so that an observer feels a stereoscopic image.

The services to be realized for the high speed of information built on the high-speed communication network today are 'view and listen' multi-centered around digital terminals which process text, voice and video from simple 'listening and talking' services such as current telephones. It is expected to develop into a media-type service and ultimately to a hyper-spatial 3D stereoscopic information communication service of 'feeling and enjoying realistic and three-dimensionally beyond time-space'.

In general, three-dimensional images representing a three-dimensional image is achieved by the principle of stereo vision through two eyes. The parallax of two eyes, that is, the binocular disparity that appears because two eyes are about 65mm apart, is the most important factor of the three-dimensional effect. This can be called.

In other words, each of the left and right eyes sees different two-dimensional images, and when these two images are transmitted to the brain through the retina, the brain accurately fuses each other to reproduce the depth and reality of the original three-dimensional image.

This ability is commonly referred to as stereography.

Stereoscopic image display uses the binocular disparity, and according to whether the viewer wears separate glasses, stereoscopic polarization and time division, autostereoscopic parallax-barrier and lenticular methods Linking light (blinking light) method and the like.                         

While the former can enjoy stereoscopic images, many people need to wear separate polarized glasses or liquid crystal shutter glasses, and the latter has a structure in which an image splitter and a cylindrical lens array are combined on the display, respectively. As the observation range is fixed to a small number of people, there is a characteristic of not wearing a separate glasses type, so it tends to be preferred.

The spectacle stereoscopic image display device causes discomfort and unnaturalness because the viewer must wear special glasses.

On the other hand, many studies have been conducted on the non-glasses stereoscopic image display device because the observer directly observes the screen and the above-mentioned disadvantages disappear.

The parallax-barrier method is a method in which a stereoscopic image is sensed by separating and observing a stereoscopic image synthesized through the slit by placing a vertical or horizontal shape (slit) in front of an image corresponding to both left and right eyes.

1 is a diagram illustrating a conventional parallax-barrier method.

As shown in FIG. 1, in the parallax-barrier method, a mask 120 formed by repeatedly arranging transparent slits and opaque slits is disposed in front of the image panel 130.

An observer sees an image displayed on the image panel 130 through the transparent slit of the mask 120. Even though the left and right eyes of the observer 110 pass through the same transparent slit, different regions of the image panel 130 are respectively provided. You will see

Such a parallax-barrier method uses this principle, and the left and right eyes display an image corresponding to pixels of different regions seen through the transparent slit, so that a 3D feeling can be felt.

That is, in FIG. 1, the left eye L views the left eye corresponding pixel Lp on the image panel 130, and the right eye R views the right eye corresponding pixel Rp on the image panel 130.

Accordingly, although not shown, images corresponding to the left and right eyes are displayed on the corresponding pixels of the image panel 130 by the image processor.

However, in the conventional parallax-barrier method, a mask formed by repeatedly arranging transparent slits and opaque slits is disposed on the front surface of the liquid crystal panel to form a three-dimensional stereoscopic image. .

In addition, in the conventional parallax-barrier scheme, six subpixels are used to display a three-dimensional image, thereby making it impossible to express two-dimensional text.

According to the present invention, a parallax-barrier liquid crystal display is full-white when a two-dimensional image is displayed using an active matrix liquid crystal display in a parallax-barrier. It is an object of the present invention to provide a stereoscopic image display device and a driving method thereof that can be freely and easily switched by gray scale expression between white and black when displaying a 3D image.

In order to achieve the above object, a stereoscopic image display apparatus according to the present invention, the image panel;
A light source irradiating light from a rear surface of the image panel;
In front of the image panel, a full-white display when a two-dimensional image display request, and a switching liquid crystal panel for forming a transparent slit and opaque slit of a zigzag pattern when a three-dimensional image display request; ,
The switching liquid crystal panel is formed of a transparent upper substrate and an active matrix in which the gate wiring and the data wiring intersect, and in the crossing region, the lower substrate on which the switching element is formed is bonded to each other with the liquid crystal interposed therebetween. ,
The data line is formed in a zigzag pattern.

The image panel may generate a plurality of viewpoint images having parallax.

The image panel is a liquid crystal display device (LCD) panel.

The switching liquid crystal panel is composed of a switching element of the active matrix (active matrix) is characterized in that each drive.

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

2 is a block diagram showing a stereoscopic image display device according to the present invention.

As shown in FIG. 2, the stereoscopic image display device according to the present invention includes an image panel 210 displaying an image, and a parallax barrier disposed at a predetermined interval on the front of the image panel 210. It is configured to include a liquid crystal panel 230 for switching.

In addition, it is preferable to further include polarizers 250 (251, 252, and 253) on the front and rear surfaces of the image panel 210 and on one surface of the switching liquid crystal panel 230.

In addition, a backlight 240 for irradiating light is disposed on the rear surface of the image panel 210.

The image panel 210 may include a liquid crystal display (LCD), a plasma display panel (PDP), a field emission device (FED), and the like to realize red (R), green (G), and blue (B) colors. It is preferable to have any one of an organic EL (Electro-Luminescence) panel.

In the three-dimensional image display device configured as described above, the parallax-barrier switching liquid crystal panel 230 is driven by turning on and off a plurality of liquid crystal cells of an active matrix type when displaying a 3D image. ) And black alternately to form a mask having transparent slits and opaque slits.

The parallax-barrier switching liquid crystal panel 230 displays a full-white image to display an image represented by the image panel 210 when the two-dimensional image display device displays a two-dimensional image. Permeate as it is.

At this time, when the 3D image is displayed, an image displayed on the image panel 210 is viewed through the white marked transparent slit of the switching liquid crystal panel, and the viewer's left and right eyes are each through the same transparent slit. You will see another area of 230.

In addition, the present invention is to produce the parallax-barrier as an active matrix liquid crystal panel to freely and easily select and switch the 3D / 2D image, the two-dimensional text portion when displaying the 3D image Only by displaying the parallax-barrier in full-white, it is possible to partially display a 3D / 2D image.

In addition, as mentioned, there is an advantage in that the convenience of the user is improved because only a simple switching operation is required to partially display the 3D / 2D image.

3 is a plan view of a switching liquid crystal panel in a three-dimensional image display in a two-dimensional / three-dimensional switching liquid crystal panel according to an embodiment of the present invention, Figure 4 is a switching liquid crystal panel of a two-dimensional image display Top view.

The switching liquid crystal panel 330 is in a full-white state so that all the light can be transmitted as it is when a 2D image display is requested, and corresponding to pixel information of the image panel when a 3D image display is required. It is provided to have a structure.

That is, as illustrated in FIG. 3, the switching liquid crystal panel 330 may be formed by alternately forming transparent slits in which each pixel may transmit light in displaying a 3D image and alternately with the transparent slits. That is made of opaque slits.

The switching liquid crystal panel is controlled to be turned on or off according to the type of the 2D / 3D image to transmit the light as it is in the 2D image display and to block the light in the 3D image display.

In this case, the switching liquid crystal panel 330 is formed as an active matrix liquid crystal panel to turn on / off respective pixels formed by crossing a gate line 331 and a data line 332. The data lines 332 are formed in a zigzag pattern.

Therefore, the switching liquid crystal panel 330 formed of such an active matrix has an advantage of easily switching a 2D / 3D image by controlling on / off of each pixel.

In addition, by forming the data line 332 of the switching liquid crystal panel 330 in a zigzag pattern, a moire phenomenon due to a phase difference may be improved.

Here, the moire phenomenon refers to an interference fringe that is created when two or more periodic patterns overlap, and refers to a unique pattern when several gratings having similar periods overlap.

As described above, the switching liquid crystal panel 330 may include a liquid crystal panel driven in a matrix structure to selectively turn on / off light according to a control signal.

Therefore, a general STN (Super Twisted Nematic) LCD panel may be used as the switching liquid crystal panel 330, or a TFT (Thin Film Transistor) LCD panel may be used.

In this case, the switching liquid crystal panel 330 may be formed to have the same pixel structure as the image panel (see 210 in FIG. 2).

For example, when the switch liquid crystal panel 330 is used as the image panel 210 of FIG. 2, except for a color filter, the same LCD panel used in the flat panel display device is switched. Can be used as That is, the switch liquid crystal panel 330 is formed by bonding two transparent substrates together, and the upper substrate is a transparent substrate on which no array of color filters, a black matrix, and the like are formed, and the lower substrate is an array substrate of a liquid crystal display device. As described above, the gate line and the data line vertically cross each other, and the thin film transistor serving as the switching element is disposed in the crossing area.

Therefore, the switching liquid crystal panel 330 can form a parallax-barrier of a lattice structure only in the 3D image display.

Here, the parallax-barrier may be manufactured as an active matrix liquid crystal panel to freely and easily select and switch a 3D / 2D image.

As such, in the parallax-barrier method, six sub-pixels are used to display a three-dimensional image. When displaying the three-dimensional image, only the two-dimensional text portion is displayed in full-white. Thus, the 3D / 2D image can be partially displayed.

In addition, as mentioned, there is an advantage in that the convenience of the user is improved because only a simple switching operation is required to partially display the 3D / 2D image.

Although the present invention has been described with reference to the embodiments illustrated in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

According to the present invention, two-dimensional and three-dimensional images can be displayed in a stereoscopic image display device, and two-dimensional and three-dimensional images can be easily switched by parallax-barrier using a liquid crystal panel. There is an advantage to see the mode.

In addition, the parallax-barrier is formed in a zigzag pattern to improve the moire phenomenon and the image quality.

In addition, the present invention can partially display a 3D / 2D image, and since only a switching operation is required to partially display the 3D / 2D image, user convenience is improved.

Claims (10)

An imaging panel; A light source irradiating light from a rear surface of the image panel; In front of the image panel, a full-white display when a two-dimensional image display request, and a switching liquid crystal panel for forming a transparent slit and opaque slit of a zigzag pattern when a three-dimensional image display request; , The switching liquid crystal panel is formed of a transparent upper substrate and an active matrix in which the gate wiring and the data wiring intersect, and in the crossing region, the lower substrate on which the switching element is formed is bonded to each other with the liquid crystal interposed therebetween. , And the data line is formed in a zigzag pattern. The method of claim 1, And the image panel generates a plurality of viewpoint images having parallax. The method of claim 1, And the image panel is a liquid crystal display device (LCD) panel. delete The method of claim 1, And displaying the 3D image or the 2D image at the same time. The method of claim 1, And the switching liquid crystal panel is capable of partially full-white display. delete delete delete delete

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