KR20050056068A - 3d image display apparatus according to the variable observation distance - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

The present invention relates to a three-dimensional image display device having a variable viewing distance.

2. The technical problem to be solved by the invention

The present invention has a variable viewing distance that can adjust the barrier width and spacing of the parallax barrier so that the observer can observe the 3D stereoscopic image at any viewing distance, not at a fixed position. To provide a three-dimensional image display device.

3. Summary of the Solution of the Invention

According to an aspect of the present invention, there is provided a three-dimensional image display apparatus comprising: a first glass plate for emitting incident light from the outside into first light without changing polarization; A first polarizing plate for polarizing the first light and emitting the first light as second light having a component vibrating in a predetermined direction; A liquid crystal display panel configured to change a vibration direction of the second light according to an arrangement of liquid crystals to emit a third light including image information; A second polarizing plate for polarizing the third light to emit the fourth light having a component vibrating in a predetermined direction; Maintaining a suitable distance between the second polarizing plate and the barrier to display a three-dimensional image by a parallax barrier method, and outputting the fourth light to the fifth light without changing the polarization; 2 glass plates; At least one barrier liquid crystal display panel configured to change the vibration direction of the fifth light according to the arrangement of the liquid crystal to emit the sixth light including parallax barrier information; And a third polarizing plate for polarizing the sixth light to emit the seventh light having a component vibrating in a predetermined direction.

4. Important uses of the invention

The present invention is used in a three-dimensional image display device.

Description

3D image display apparatus according to the variable observation distance}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to the field of three-dimensional image display, and in particular, a variable that can adjust the barrier width and spacing of a parallax barrier so that an observer can observe a three-dimensional stereoscopic image at an arbitrary viewing distance. A three-dimensional image display device having an observation distance.

The parallax barrier method is a parallax that allows an image panel to appear in three dimensions by arranging the barrier filter at a distance from the front and then observing different images or images through the barrier filter. ) Method.

In general, the biggest factor that humans feel in three dimensions is the effect of the spatial difference on the left and right retinas caused by the left and right eyes looking at an object in one direction. Using this effect, a method of displaying different images, that is, stereoscopic images (three-dimensional images), in both left and right eyes was used. The stereoscopic image (3D image) has been developed into a method of wearing glasses and a method of wearing glasses according to a display method, and the most representative method of viewing without glasses is a lenticular plate representing only vertical parallax. It is a method of viewing a stereoscopic image by attaching it to a display device, and further developing into a multi-view image display mask such as a multi-view or ultra-multi-view IP (Integral Photography) plate, a cross lenticular plate, or a square lens plate that expresses vertical and horizontal parallax It became.

As such, the 3D display method is divided into a method of observing a 3D image with glasses and a method of observing a 3D image without glasses.

A method of observing a 3D image by wearing glasses is a method of observing a 3D image in a large space such as a theater and uses a binocular stereoscopic image (3D image) display method. In addition, as a method of viewing without wearing glasses, there is a method of observing a three-dimensional image mainly at a position where a small number of observers are determined at an observation position.

By the way, a representative conventional method for observing a three-dimensional image without wearing glasses is using a parallax barrier method, but when displaying a three-dimensional stereoscopic image in a conventional parallax barrier method Since the scope of observation is limited, there is a problem that the observer must observe the 3D image at a fixed position.

The present invention has been proposed to solve the above problems, so that the observer can observe a three-dimensional stereoscopic image at any observation distance, not a fixed position, the barrier of the parallax barrier (barallaer) It is an object of the present invention to provide a three-dimensional image display device having a variable viewing distance that can adjust the width and spacing.

According to an aspect of the present invention, there is provided a three-dimensional image display apparatus comprising: a first glass plate for emitting incident light from the outside as first light without changing polarization; A first polarizing plate for polarizing the first light and emitting the first light as second light having a component vibrating in a predetermined direction; A liquid crystal display panel configured to change a vibration direction of the second light according to an arrangement of liquid crystals to emit a third light including image information; A second polarizing plate for polarizing the third light to emit the fourth light having a component vibrating in a predetermined direction; Maintaining a suitable distance between the second polarizing plate and the barrier to display a three-dimensional image by a parallax barrier method, and outputting the fourth light to the fifth light without changing the polarization; 2 glass plates; At least one barrier liquid crystal display panel configured to change the vibration direction of the fifth light according to the arrangement of the liquid crystal to emit the sixth light including parallax barrier information; And a third polarizing plate for polarizing the sixth light to emit the seventh light having a component vibrating in a predetermined direction.

The present invention may further include a storage container for sequentially receiving the first glass plate, the first polarizing plate, the liquid crystal display panel, the second polarizing plate, the second glass plate, the at least one barrier liquid crystal display panel, and the third polarizing plate.

A 3D image display apparatus comprising: a backlight assembly for generating a first light; A first polarizing plate for polarizing the first light and emitting the first light as second light having a component vibrating in a predetermined direction; A liquid crystal display panel configured to change a vibration direction of the second light according to an arrangement of liquid crystals to emit a third light including image information; A second polarizing plate for polarizing the third light to emit the fourth light having a component vibrating in a predetermined direction; In order to display a three-dimensional image by a parallax barrier method, to maintain a suitable distance between the second polarizer and the barrier (barrier), and to emit the fourth light to the fifth light without changing the polarization Glass plate; At least one barrier liquid crystal display panel configured to change the vibration direction of the fifth light according to the arrangement of the liquid crystal to emit the sixth light including parallax barrier information; A third polarizing plate for polarizing the sixth light to emit the seventh light having a component vibrating in a predetermined direction; And a storage container for sequentially receiving the backlight assembly, the first polarizing plate, the liquid crystal display panel, the second polarizing plate, the glass plate, the at least one barrier liquid crystal display panel, and the third polarizing plate.

The present invention intends to adjust the barrier width and spacing (ie, barrier pitch) of the parallax barrier so that an observer can observe a 3D stereoscopic image at an arbitrary viewing distance.

To this end, the present invention drives a suitable liquid crystal display panel among the plurality of liquid crystal display panels according to the viewing distance by using the multiple liquid crystal display panel. Through this, three-dimensional stereoscopic images can be observed at various viewing distances.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention allows a 3D image to be naturally observed at a variable viewing distance instead of a fixed viewing distance using a parallax barrier based 3D image liquid crystal display device.

To this end, the present invention adds the barrier liquid crystal display panel 21 and the polarizing plate 22 to the general liquid crystal display device as shown in FIG. 1, or the multiple barrier liquid crystal display panel 31 and the polarizing plate 22 as shown in FIG. By further configuring, it is possible to observe a three-dimensional stereoscopic image at various viewing distances.

For reference, a general liquid crystal display device includes a glass 11, a polarizing plate 12, a color liquid crystal display panel 13, a polarizing plate 14, and a glass 15 as shown in FIG. 1.

FIG. 2 shows a barrier liquid crystal display panel 21 and a polarizing plate 22 in the general liquid crystal display device of FIG. 1, wherein the glass 15 between the polarizing plate 14 and the barrier liquid crystal display panel 21 is a barrier. The liquid crystal display panel 21 has a thickness suitable for displaying a 3D image.

As shown in FIG. 2, the three-dimensional image display apparatus having a variable viewing distance according to the present invention is configured to polarize the glass 11 and the first light to emit incident light from the outside into the first light without changing the polarization. And a polarizing plate 12 for emitting the second light having a component vibrating in a predetermined direction, and for changing the vibration direction of the second light according to the arrangement of the liquid crystals to emit the third light containing the image information. 3D by the color liquid crystal display panel 13, the polarizing plate 14 for polarizing a 3rd light, and emitting it as the 4th light which has a component which vibrates in a predetermined direction, and the parallax barrier method Maintaining a suitable distance between the polarizer 14 and the barrier so as to display an image, the glass 15 for outputting the fourth light to the fifth light without changing the polarization, and the fifth according to the arrangement of the liquid crystals. The vibration direction of the light And a barrier liquid crystal display panel 21 for emitting the sixth light including the parallax barrier information, and a seventh light having a component that polarizes the sixth light and vibrates in a predetermined direction. It includes a polarizing plate 22 for emitting. In addition, the glass 11, the polarizing plate 12, the color liquid crystal display panel 13, the polarizing plate 14, the glass 15, the barrier liquid crystal display panel 21, and the housing for accommodating the polarizing plate 22 sequentially. It further comprises a container (not shown in the figure).

Here, in order to realize a variable observation distance with one barrier liquid crystal display panel 21, the pixel and pixel pitch of the barrier liquid crystal display panel 21 are reduced, and then the observation distance is reduced. To adjust the width of the barrier and the barrier pitch by turning the pixels on and off as much as the control area to adjust the width of the barrier and the barrier pitch. do. Looking at this in detail.

The barrier liquid crystal display panel 21 is composed of pixels having a high resolution in a vertical or horizontal direction, which shows a pattern as shown in FIG. 4 when forming a barrier pattern vertically. At this time, the barrier (barrier) should be different from the width of the barrier (barrier) and the barrier (barrier) interval depending on the viewing distance of the observer. Therefore, if the observer's viewing distance is close, the barrier pattern is changed according to the on / off of the pixel (Fig. 6). That is, the viewer can adjust the width of the appropriate barrier and the barrier spacing according to the observer's viewing distance by turning the pixels on and off, thereby allowing the viewer to view a natural three-dimensional stereoscopic image. Can be observed. In addition, such a pattern may be configured horizontally, and vertical and horizontal patterns may be configured as shown in FIG. 5.

3 is configured to observe the 3D image at various viewing distances by placing the multiple barrier liquid crystal display panel 31 at the position of the barrier liquid crystal display panel 21 of FIG. 2. That is, by overlapping the several barrier liquid crystal display panels 31 without using a single barrier liquid crystal display panel 21, the configuration as shown in FIG.

Here, the multi-barrier liquid crystal display panel 31 spatially samples the entire range in which the observer can observe the 3D image along the distance axis, and has a pattern of a parallax barrier suitable for each sampled position. It consists of a liquid crystal display panel. Therefore, by driving the liquid crystal display panel corresponding to the barrier pattern suitable for the position of the observer and not driving the remaining liquid crystal display panels, the observer can observe the 3D stereoscopic image at an arbitrary position and move closer or farther from the display device. As a result, the three-dimensional stereoscopic image can be observed by driving the barrier liquid crystal display panel according to each moment.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible in the art without departing from the technical spirit of the present invention. It will be clear to those of ordinary knowledge.

The present invention as described above, when observing a three-dimensional stereoscopic image in a parallax barrier (parallax barrier) method, there is an effect that can observe the three-dimensional stereoscopic image at various observation distances, not a fixed position.

1 is an exemplary configuration diagram of a general liquid crystal display device.

2 is a block diagram of an embodiment of a three-dimensional image display apparatus having a variable viewing distance according to the present invention.

3 is a configuration of another embodiment of a three-dimensional image display apparatus having a variable viewing distance according to the present invention.

4 is an exemplary explanatory diagram showing a vertical barrier formation pattern by a barrier liquid crystal display panel used in the present invention.

FIG. 5 is a diagram illustrating an embodiment of a vertical / horizontal barrier formation pattern by a barrier liquid crystal display panel used in the present invention. FIG.

Figure 6 is an embodiment explanatory diagram showing the interval conversion pattern of the barrier for the variable observation distance used in the present invention.

* Explanation of symbols on the main parts of the drawing

11,15 glass 12,14,23 polarizer

13 liquid crystal display panel 21 barrier liquid crystal display panel

31: multi-barrier liquid crystal display panel

Claims (5)

In the three-dimensional image display device, A first glass plate for emitting incident light from the outside into the first light without changing the polarization; A first polarizing plate for polarizing the first light and emitting the first light as second light having a component vibrating in a predetermined direction; A liquid crystal display panel configured to change a vibration direction of the second light according to an arrangement of liquid crystals to emit a third light including image information; A second polarizing plate for polarizing the third light to emit the fourth light having a component vibrating in a predetermined direction; Maintaining a suitable distance between the second polarizing plate and the barrier to display a three-dimensional image by a parallax barrier method, and outputting the fourth light to the fifth light without changing the polarization; 2 glass plates; At least one barrier liquid crystal display panel configured to change the vibration direction of the fifth light according to the arrangement of the liquid crystal to emit the sixth light including parallax barrier information; And A third polarizing plate for polarizing the sixth light and emitting it as a seventh light having a component vibrating in a predetermined direction 3D image display apparatus having a variable viewing distance comprising a. The method of claim 1, Storage container for sequentially receiving the first glass plate, the first polarizing plate, the liquid crystal display panel, the second polarizing plate, the second glass plate, at least one barrier liquid crystal display panel, the third polarizing plate 3D image display apparatus having a variable viewing distance further comprising. The method according to claim 1 or 2, The at least one barrier liquid crystal display panel, It is composed of one barrier liquid crystal display panel, and in order to realize a variable viewing distance with one barrier liquid crystal display panel, the pixel and pixel pitch of the barrier liquid crystal display panel are reduced. Barrier width and barrier pitch by turning the pixels on and off as much as the control area to adjust the width and barrier pitch (barrier distance) according to the viewing distance. 3D image display apparatus having a variable viewing distance, characterized in that for adjusting the. The method according to claim 1 or 2, The at least one barrier liquid crystal display panel, After sampling the observation range, it consists of multiple liquid crystal display panels including barrier width and barrier pitch (parallax barrier information) suitable for each fixed position. 3D image display apparatus having a variable viewing distance, characterized in that the liquid crystal display panel. The method of claim 4, wherein The multi-barrier liquid crystal display panel, In order to realize a variable viewing distance, a suitable liquid crystal display panel is turned on among the plurality of liquid crystal display panels according to the viewing distance, and the remaining liquid crystal display panel is turned off, so that a suitable viewing distance is changed as the viewing distance changes. 3D image display apparatus having a variable viewing distance, characterized in that for driving the liquid crystal display panel.