KR101543418B1 - A Multi Display - Google Patents

Abstract

The present invention relates to a multi-display device that provides a three-dimensional stereoscopic image and a two-dimensional image together. A multi-display device according to an embodiment of the present invention includes a main body having a viewing window for viewing an image, a main image panel provided in the viewing window to display a two-dimensional image, a light source for providing light to the main image panel, A stereoscopic image unit for providing a three-dimensional stereoscopic image through a video panel, a light source for rotating the stereoscopic image unit such that the light source and the stereoscopic image unit are rotated to provide a light of the light source to the main image panel, And a control unit for controlling the rotation of the rotation mechanism. Accordingly, it is possible to provide two-dimensional and three-dimensional images together, and to provide three-dimensional stereoscopic images with improved stereoscopic effect.

Description

A multi display device

The present invention relates to a multi-display device that provides a three-dimensional stereoscopic image and a two-dimensional image together.

2. Description of the Related Art In general, a display device is an apparatus for outputting an image. In recent years, not only a simple two-dimensional plane image but a three-dimensional three-dimensional image are displayed. Type display devices are being developed.

As an example of a display device capable of simultaneously providing two-dimensional and three-dimensional images, there is a two-dimensional and three-dimensional combined-use image display device of Korean Patent Laid-Open No. 10-2010-0033067 (published on March 29, 2010).

The conventional two-dimensional and three-dimensional image display apparatus includes a display and a second display, and a lenticular lens is positioned between the first display and the second display to form a two-dimensional image or a three- A display unit for selectively outputting the display; And a controller for controlling the first display and the second display to selectively output a two-dimensional image or a three-dimensional image.

The two-dimensional and three-dimensional image display apparatus having such a configuration can selectively display a two-dimensional image and a three-dimensional image by selectively selecting a first display in which a user selectively displays a two-dimensional image and a second display in which a three- I was able to watch the video.

However, in the conventional two-dimensional and three-dimensional image display apparatuses, since the two-dimensional image is converted into three-dimensional images using the lenticular lens provided in the second display, the representation of the three-dimensional effect is insufficient, There is a problem that it is somewhat insufficient to feel a dimensional image.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a multi-dimensional image display device capable of providing a three- And a display device.

According to an aspect of the present invention, there is provided a multi-display device including a main body having a viewing window for viewing an image, a main image panel provided on the viewing window to display a two-dimensional image, A light source for providing light, a stereoscopic image unit for providing a three-dimensional stereoscopic image through the main image panel, a light source for rotating the stereoscopic image unit such that the positions of the light source and the stereoscopic image unit are reversed, Or a stereoscopic image of the stereoscopic image unit, and a control unit for controlling the rotation of the rotation mechanism.

Wherein the stereoscopic image unit is formed as a polygonal pyramidal semi-transparent body, and the image projected on each surface is synthesized internally to provide a three-dimensional stereoscopic image, and a projection system for projecting an image on each side of the image composite body And a sub-image panel.

The sub-image panel may display an image corresponding to at least two or more surfaces except for the bottom surface of the image composition on one screen, and provide the image to each surface of the image composition .

The rotation mechanism may include a rotary case divided into a space in which the light source is positioned and a space in which the stereoscopic image unit is located, a driving motor for rotating the rotary case, and a controller for measuring the rotated state of the rotary case Sensor.

Wherein the main image panel includes a plurality of light sources and a plurality of stereoscopic image units, the main image panel including a light source and a stereoscopic image unit, It may be formed as a curved surface.

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According to the present invention, a two-dimensional image and a three-dimensional image can be selectively or simultaneously provided using a main image panel and a stereoscopic image unit.

In addition, it is possible to provide a three-dimensional image with improved stereoscopic effect by using a stereoscopic image unit, and to provide an image to be synthesized on each side of an image composite body in a sub-image panel, It can be implemented easily.

1 is an exploded perspective view of a multi-display device according to an embodiment of the present invention.
2 is a side sectional view showing a multi-display device according to an embodiment of the present invention.
3 is a side cross-sectional view illustrating a multi-display device according to an embodiment of the present invention, and shows a state of providing a stereoscopic image.
4 is a perspective view schematically showing a stereoscopic image unit constituting a multi-display device according to an embodiment of the present invention.
5 is a plan view schematically illustrating an image displayed on a sub-image panel in a stereoscopic image unit constituting a multi-display device according to an embodiment of the present invention.
6 is a side view of a stereoscopic image unit constituting a multi-display device according to an embodiment of the present invention, and is a diagram for explaining the synthesis of a stereoscopic image.
Fig. 7 is a schematic diagram showing a rotating mechanism constituting a multi-display device according to an embodiment of the present invention.
8 is a side sectional view showing a multi-display device according to another embodiment of the present invention.
FIG. 9 is a side sectional view of a multi-display device according to another embodiment of the present invention, showing a state of providing a stereoscopic image.

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

First, when an event occurs in a state of providing a two-dimensional image, the multi-display device of the present invention provides a three-dimensional image when an event occurs or, conversely, provides an image of a three- , A two-dimensional image may be provided, and a two-dimensional image and a three-dimensional stereoscopic image may be selectively or simultaneously provided.

1 to 3, a multi-display device according to an embodiment of the present invention may include a main body 300.

The main body 300 is formed in an empty box shape to accommodate the configurations described below.

On one side of the main body 300, a viewing window 310 for viewing an image may be formed.

The multi-display device according to an exemplary embodiment of the present invention may include a main image panel 100.

The main image panel 100 may display a two-dimensional image, and the main image panel 100 may be an LCD panel, a PLAZMA panel, an OLED panel, and a PLED panel. These panels are well known in the art, Is omitted.

The main image panel 100 may be installed to close the viewing window 310 of the main body 300 and the viewing window 310 may be formed to have a convex or concave curved surface outside the main body 300 have.

The main image panel 100 may be a transparent main image panel 100 through which objects are transmitted.

A multi-display device according to an embodiment of the present invention may include a light source 230.

The light source 230 may provide light to an image displayed on the main image panel 100 to provide a bright image to a spectator.

Meanwhile, the light source 230 may be a lamp that emits light, and may be implemented by an LED, a CCFL, or the like.

The light source 230 may include a light guide plate 231. The light guide plate 231 can uniformly diffuse light from the light source 230 and provide the light to the main image panel 100.

The light source 230 may include a light guide plate 231 or a light guide plate 231. The light guide plate 231 may be formed of a reflective material such that light is reflected in a direction in which the main image panel 100 is positioned, A plurality of light sources 230 may be provided on one surface of the light guide plate 231 to provide light to the light guide plate 231 and a prism that diffuses light by replacing the light guide plate 231.

4 to 6, the multi-display device according to an embodiment of the present invention may include a stereoscopic image unit 250. [

The stereoscopic image unit 250 can provide a three-dimensional stereoscopic image.

Meanwhile, the stereoscopic image unit 250 can provide a three-dimensional stereoscopic image in the form of, for example, synthesizing images provided on each side, and the stereoscopic image unit 250 can provide the stereoscopic image, (253).

The image composite 251 may be formed in the shape of a polygonal pyramid, and the outer surface of the image composite 251 may be formed of a semi-transparent body that reflects part of the light and transmits the part of the image, It may be implemented as a polygonal prism formed of a semi-transparent body.

In the embodiment, the image composite body 251 has a semi-transparent plate, for example, a half-mirror, in the form of a quadrangular pyramid.

At this time, the image composite body 251 may be formed in a semi-transparent form except the bottom face.

The sub-image panel 253 is a structure for displaying an image and can provide the image to be synthesized by the image composition body 251 to the image composition body 251. [

The sub-image panel 253 may be an LCD panel, an OLED panel, a PLAZMA panel, or a PLED panel for displaying an image. Here, when the sub-image panel 253 is an LCD panel, the sub-image panel 253 may include the light source 230 that emits light to the LCD panel.

The sub image panel 253 may display an image to be projected on at least two surfaces by locating the center of the sub image panel 253 on the top vertex P of the image composition body 251 having a polygonal pyramid shape (See FIG. 4).

For example, assuming that the real image of the stereoscopic image to be synthesized and displayed in the image composition body 251 is located inside the image composition body 251, An image that is positively projected on the screen can be displayed on the sub-image panel 253.

5, since the respective sides of the image composite body 251 are positioned radially with respect to the vertex P as viewed from above, the image composite body 251 corresponds to each surface in one sub-image panel 253 The image to be provided to each surface of the image composite 251 in one sub-image panel 253 can be displayed all at once by displaying the image in the radial direction with the vertex P as a center.

Here, in order to minimize the interference of the synthesized stereoscopic image, the image composition body 251 may be configured such that the image is not displayed on the side opposite to the side on which the viewer views the image, and the image is displayed on the remaining side have.

As shown in FIG. 6, since the image provided to each surface is partially transmitted and the remaining part is reflected, the image composition body 251 configured as described above can be used when looking at one of a plurality of surfaces, Dimensional stereoscopic image can be provided in a form in which the image reflected from the viewing plane and the image transmitted from the other plane overlap with each other.

2, 3, and 7, the multi-display device according to an embodiment of the present invention may include a rotation mechanism 200. FIG.

The rotation mechanism 200 includes a light source 230 and a stereoscopic image unit 250. The rotation mechanism 200 rotates to provide the light source 230 to the main image panel 100 to supply light, Dimensional stereoscopic image displayed on the image unit 250 to the spectator through the main image panel 100. [

The rotation mechanism 200 may include a rotary case 210. The rotary case 210 has an installation space 211 in which the light source 230 is installed and an installation space 213 in which the stereoscopic image unit 250 is installed are partitioned by a partition wall 215, It is possible to provide the light of the light source 230 to the main image panel 100 or provide the three-dimensional image displayed on the stereoscopic image unit 250 to the spectator through the main image panel 100. [

When the rotary case 210 is viewed from the side, a half of the light source 230 is positioned and the other half of the rotary case 210 is provided with a stereoscopic image unit 250 And a plurality of the stereoscopic image units 250 may be installed in the rotary case 210.

At this time, the light source 230 may be configured such that a light guide plate 231 is installed on a circumference of a half of the rotary case 210 so as to generate light on a circumference of a half of the rotary case 210, The curvature of the main image panel 100 may be formed to have the same or similar curvature as the curvature of the rotary case 210 so that the rotary case 210 can be partially inserted into the rear of the panel 100 and overlapped.

The ratio of the light source 230 and the stereoscopic image unit 250 in the rotary case 210 is half, but when the ratio of the light source 230 and the stereoscopic image unit 250 is half or less, that is, when the rotary case 210 is viewed from the side, Or less, and either the light source 230 or the stereoscopic image unit 250 may be positioned within an angular range of 180 degrees or more.

The rotating case 210 may be provided with a rotating shaft 217 protruding outward at the center of the rotating case 210. The rotating case 210 is rotatably supported by a support 219 provided on the main body 300, Can be combined in a fitted manner.

The rotating mechanism 200 may include a driving motor 270. The driving motor 270 is connected to the rotating shaft 217 of the rotating case 210 and can rotate the rotating case 210 by the driving force of the driving motor 270.

In addition, the rotating mechanism 200 may include a brake 280. This brake 280 can accurately stop the rotating rotary case 210 at a desired angle. On the other hand, the brake 280 may be an electronic brake 280 and may be a mechanical brake 280. Since the brake 280 is a known technique, detailed description is omitted.

The rotation mechanism 200 may include a control unit 290. The control unit 290 can control the rotation of the rotation mechanism 200, more specifically, the rotation case 210.

That is, the controller 290 controls the driving motor 270 so that the light source 230 is positioned on the main image panel 100 or the stereoscopic image unit 250 is positioned to rotate the rotating case 210, The rotation of the case 210 can be stopped.

At this time, the control unit 290 may control the driving motor 270 to rotate or stop the rotating case 210, and may stop the brake 280 by controlling the brake 280 when the rotating case 210 is stopped.

Here, the controller 290 may be implemented as a limit switch for turning on / off the drive motor 270 or the brake 280 at an arbitrary point, and the controller 290 may include the sensor 291 .

The controller 290 receives the rotation angle information of the rotary case 210 measured by the sensor 291 and controls the driving motor 270 or the brake 280 on the basis of the angle information, As shown in FIG.

The operation and effect between the above-described respective constitutions will be described.

The main image panel 100 is positioned in the viewing window 310 of the main body 300 and the rotating mechanism 200 is installed in the main body 300. [

The light source 230 and the stereoscopic image unit 250 are positioned within the rotating case 210 so that the rotating case 210 is rotatable by the driving motor 270 .

The rotary case 210 may be provided with a brake 280 for stopping the rotation of the rotary case 210 at an accurate position and the rotary case 210 may be rotated or stopped by the control unit 290 have.

The stereoscopic image unit 250 has a center of the sub-image panel 253 positioned at a vertex P of the image composite 251 formed in a polygonal pyramid shape, And provides a stereoscopic image to be synthesized in the body 251.

When the light source 230 is positioned to face the main image panel 100 in the rotary case 210, the stereoscopic image unit 250 is positioned in the rotation case 210 such that the stereoscopic image unit 250 is turned upside down, When the rotating case 210 rotates so that the main image panel 100 faces the main image panel 100, the main image panel 100 may be provided with a normal image.

In addition, the main body 300 may be provided with a power supply unit for supplying power to each configuration, and an image providing module for providing sub-images may be located.

The multi-display device according to one embodiment of the present invention is configured such that when the rotating case 210 rotates and the light source 230 faces the main image panel 100, the light from the light source 230 is provided to the main image panel 100 And a two-dimensional image displayed on the main image panel 100 is provided to the spectator.

In order to provide three-dimensional stereoscopic images, the driving motor 270 rotates to rotate the rotating case 210 so that the positions of the light source 230 and the stereoscopic image unit 250 are reversed, Controls the driving motor 270 or the brake 280 so as to stop the rotation at a precise position facing the main image panel 100 when the rotary case 210 rotates.

When the rotary case 210 stops at a position facing the main image panel 100, an image provided to each side of the image composite 251 is displayed on the sub-image panel 253, 251) reflects a part of the images on each surface and transmits the remaining part of the images to synthesize the three-dimensional images in the image composition body 251, and transmits the three-dimensional images to the viewer through the main image panel 100 And provides a stereoscopic image.

At this time, the main image panel 100 displays the image in white and becomes transparent, so that the spectator can view the three-dimensional stereoscopic image provided in the stereoscopic image unit 250 through the main image panel 100.

Meanwhile, when a three-dimensional image is provided through the stereoscopic image unit 250, a two-dimensional image is also displayed on the main image panel 100 to synthesize a three-dimensional stereoscopic image and a two-dimensional image, .

At this time, the main image panel 100 can view the image of the main image panel 100 together with the three-dimensional image by the light generated from the natural light or the stereoscopic image unit 250.

The multi-display device according to an embodiment of the present invention provides a two-dimensional game image on the main image panel 100 when applied to a game machine, for example, and instantaneously generates a three- So that the interest of the game can be further increased.

Accordingly, the multi-display device according to an embodiment of the present invention can selectively provide a two-dimensional image and a three-dimensional stereoscopic image together with the rotation of the rotation mechanism 200.

In addition, the three-dimensional image unit 250 can provide three-dimensional stereoscopic images with three-dimensional sensations.

Also, by providing an image to be synthesized on each side of the image composite 251 in one sub-image panel 253, it is possible to easily realize a three-dimensional stereoscopic image at a low cost.

Hereinafter, another embodiment of the present invention will be described with reference to the accompanying drawings.

In the other embodiments of the present invention, the same components as those of the first embodiment are denoted by the same reference numerals, and the same components have the same functions and effects, and detailed description thereof will be omitted.

The multi-display device according to another embodiment of the present invention can be configured by replacing the rotation mechanism 200 of one embodiment with a shield plate 400. [

8 and 9, in another embodiment, the main video panel 100 is installed in the viewing window 310 of the main body 300, and the main video panel 100 of the main body 300 corresponding to the main video panel 100 The light source 230, the shield plate 400, and the stereoscopic image unit 250 may be sequentially installed at positions of the light source 230,

Meanwhile, the blocking plate 400 may be formed of a semitransparent material, that is, a material that reflects a part of light and a part of the light is transmitted. The blocking plate 400 may be selectively formed by a half mirror or electricity Transparent or opaque PDLC (Polymer Dispersed Liquid Crystal).

In this case, the main image panel 100 may be formed as a convex curved surface or may be a curved panel having a curved shape. The light source 230 may include a light guide plate 231 for diffusing and providing light of the light source 230, The light blocking plate 231 may overlap the back surface of the image panel 100 and the blocking plate 400 may overlap the back surface of the light pipe 231. [

When the multi-display device according to another embodiment thus configured provides light to the main image panel 100 through the light guide plate 231 in the light source 230, the spectator can view the two-dimensional image displayed on the main image panel 100 You can see it.

At this time, since the stereoscopic image unit 250 disposed on the rear surface of the blocking plate 400 is not operated, the spectator can view only the two-dimensional image displayed on the main image panel 100.

On the other hand, when the operation of the light source 230 is stopped and the stereoscopic image unit 250 is operated, the sub image panel 253 displays images corresponding to the respective sides of the image composition body 251, So that the spectator can view the three-dimensional image synthesized by the image composite 251 through the main image panel 100.

When the stereoscopic image unit 250 is operated, a bright light image is reproduced from the stereoscopic image unit 250 disposed on the rear surface of the shield plate 400. Thus, the spectator can view the stereoscopic image through the main image panel 100 250 can be viewed.

In addition, when the blocking plate 400 is implemented as a PDLC, it may be selectively opaque and transparent. Therefore, when the image of the main image panel 100 is viewed, it is changed to opaque so that the light of the light source 230 is reflected on the main image panel Dimensional image provided in the main image panel 100 in the form of providing the stereoscopic image to the stereoscopic image unit 100 in order to view the three-dimensional stereoscopic image, Dimensional stereoscopic images provided through the main image panel 100 can be viewed.

Meanwhile, in another embodiment, the three-dimensional image provided by the stereoscopic image unit 250 and the two-dimensional image provided by the main image panel 100 are provided together as in the embodiment, And three-dimensional stereoscopic images can be synthesized and viewed.

At this time, the main image panel 100 can view the image of the main image panel 100 together with the three-dimensional image by the light generated from the natural light or the stereoscopic image unit 250.

Accordingly, the multi-display device according to another embodiment of the present invention can selectively or simultaneously provide a two-dimensional image and a three-dimensional stereoscopic image in accordance with the rotation of the rotation mechanism 200.

In addition, the three-dimensional image unit 250 can provide three-dimensional stereoscopic images with three-dimensional sensations.

Also, by providing an image to be synthesized on each side of the image composite 251 in one sub-image panel 253, it is possible to easily realize a three-dimensional stereoscopic image at a low cost.

While the present invention has been particularly shown and described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, And all changes and modifications to the scope of the invention.

100: main image panel 200: rotation mechanism
210: Rotating case 211: Installation space of light source
213: installation space of the stereoscopic image unit 215: partition wall
217: rotating shaft 219:
230: light source 231: light guide plate
250: stereoscopic image unit 251:
253: Sub-image panel 270: Driving motor
280: Brake 290:
291: Sensor 300:
310: view window 400:
P: vertex

Claims (9)

A body formed with a viewing window for viewing the image,
A main image panel provided in the viewing window to display a two-dimensional image,
A light source for providing light to the main image panel,
A stereoscopic image unit for providing a three-dimensional stereoscopic image through the main image panel,
A rotation mechanism for rotating the main light source and the stereoscopic image unit so that the positions of the light source and the stereoscopic image unit are changed to provide light of the light source to the main image panel or providing a stereoscopic image of the stereoscopic image unit,
And a control unit for controlling the rotation of the rotation mechanism. The method according to claim 1,
The stereoscopic image unit
An image composite formed of a polygonal pyramidal semi-permeable body, the image projected on each surface being synthesized internally to provide a three-dimensional stereoscopic image, and
And a sub-image panel for projecting an image on each side of the image composition body. 3. The method of claim 2,
The sub-
Wherein the multi-display device displays images on at least two surfaces except for the bottom surface of the image composite, which are located at an upper portion of the image composite, on a screen to provide the combined images to the image composite. The method according to claim 1,
The rotating mechanism
A rotating case divided into a space in which the light source is located and a space in which the stereoscopic image unit is located,
A drive motor for rotating the rotary case, and
And a sensor for measuring the rotated state of the rotary case and providing the measured state to the control unit. The method according to claim 1,
The rotating mechanism
And a cylindrical rotating case installed so that the light source and the stereoscopic image unit are partitioned,
The main video panel
And a curved surface corresponding to the rotating case such that a part of the rotating case overlaps the rear surface of the main image panel. delete delete delete delete

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