KR102482008B1 - 3d image hardware application system for exhibition - Google Patents

Abstract

A 3D image hardware application system for exhibition of the present invention comprises: a case through which front and rear surfaces are penetrated or in which a transparent window is provided and a projection space where an image is projected is provided; a display disposed above or below the case to project an image into the projection space; a half mirror disposed inclined in an upward and downward direction based on a direction in which an image is projected from the display into the projection space; a lighting assembly installed in the case, disposed at a predetermined distance from the position, where the display is installed, to the rear side, and having a plurality of light emitting diodes installed to radiate light toward the front of the case to offset background backlight light emitted from the display; a first sensor which tracks the number of viewers in the sensing area and generates a mode signal determining a reproduction mode of the image played on the display; and a second sensor which tracks the operator's motion within the sensing area and generates a manipulation signal changing the image played on the display according to the manipulation signal.

Description

3D image hardware application system for exhibition {3D IMAGE HARDWARE APPLICATION SYSTEM FOR EXHIBITION}

The present invention relates to a 3D image hardware application system for exhibition.

Recently, with the development of technology for providing 3D stereoscopic images, products and services that provide various forms of immersive images, such as 3D TV and hologram performances, are appearing. In Korean Patent Registration No. 10-2377063, the above method provides images in consideration of the difference in the viewing angles of the left and right eyes, and provides different images recognized by the left and right eyes through special glasses, such as a 3D TV. electronic way.

On the other hand, a hologram is made by recording an interference pattern of the reference light and object light by entering reference light and light reflected from an object to record information, that is, object light, on a recording medium.

In the form of providing a 3D effect using hologram technology, a floating image method has recently been commercialized, so that the image projected on a transparent or semi-transparent film overlaps with the image of the background, so that the image between the reflected image and the background image is overlapped. It provides a three-dimensional effect through the distance difference, and the most common method since Dennis Garbor first invented the hologram until now is the two beam transmission hologram developed by E, Leith and the one beam reflection hologram developed by Denisyuk and the edge-lit hologram developed by N, Phillips.

Among them, there is provided a technique for reflecting and synthesizing an image using a reflective film so that a viewer can recognize it as a hologram so that it looks three-dimensional. This method is called a floating hologram. Technologies such as 2020-0120360 'transmissive real hologram 3D display system' and Korean Patent No. 10-1102610 'stereoscopic image display device' have been developed.

Here, the floating hologram may include a transmissive hologram and a reflective hologram. In the transmissive hologram, the reference light and the object light are incident in the same direction to the recording medium during recording, and the reference light transmits the recorded hologram during reproduction. and the hologram is played in the opposite direction. Also, in the reflective hologram, reference light and object light are incident in opposite directions to the recording medium during recording, and during reproduction, the reference light reflects the hologram so that the hologram is reproduced in the same direction as the reference light.

The problem to be solved by the present invention is to provide a 3D image hardware application system for exhibition.

The problems to be solved by the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the description below.

The 3D image hardware application system for exhibition of the present invention for solving the above problems is a case in which front and rear surfaces are penetrated or a transparent window is provided and a projection space in which an image is projected is provided; a display disposed above or below the case to project an image into the projection space; a half mirror disposed inclined in an upward and downward direction based on a direction in which an image is projected from the display into the projection space; A lighting assembly installed in the case, disposed at a predetermined distance from the position where the display is installed to the rear side, and having a plurality of light emitting diodes installed to radiate light toward the front of the case to offset background backlight light emitted from the display; a first sensor that tracks the number of viewers in the sensing area and generates a mode signal that determines a reproduction mode of the image reproduced on the display; It may be characterized by including a second sensor that tracks the operator's motion within the sensing area and generates a manipulation signal that changes the image reproduced on the display according to the manipulation signal.

The sensing area of the first sensor is a first sector furthest from the image reproduced on the display and a second sector in which the distance between the image reproduced on the display is intermediate and the distance closest to the image reproduced on the display. It is divided into three sectors, and the first sensor determines that the video played on the display is in a still state when more than half of the total number of viewers present in the first sector, second sector, and third sector are in the first sector. A first mode signal is generated and transmitted to the display, and when more than half of the total number of viewers present in the first sector, the second sector, and the third sector are in the second sector, the image played on the display is A second mode signal is generated and transmitted to the display to move under pre-programmed conditions, and if more than half of the total number of viewers present in the first sector, the second sector, and the third sector are in the third sector, the display It may be characterized in that a third mode signal is generated and transmitted to the display so that the image reproduced in moves according to the manipulation signal generated by the second sensor.

The second sensor may be characterized in that it selects an operator from among a plurality of spectators.

The lighting assembly may be disposed at a distance of 5 to 7 cm from the display.

The light emitting diode may be characterized in that it is disposed on the edge side when viewed from the front side.

The present invention has the advantage of actively inducing the participation of the viewer to increase the interest and experience of the exhibited artifact.

In addition, in the present invention, the lighting assembly is disposed at a position away from the display at a certain distance from the rear side to offset the light of the background of the projected stereoscopic image irradiated from the lighting unit such as the backlight of the display, and at the same time, the projected stereoscopic image is transmitted from the lighting assembly. It has the effect of improving the three-dimensional effect of the projected image by making it look forward.

In addition, since the present invention is displayed on the rear side of the case at a distance from the stereoscopic image on which the background image is projected as a two-dimensional image, the three-dimensional effect of the projected image can be improved and the viewer's interest can be aroused. effect can be maximized.

Furthermore, according to the present invention, the illumination unit such as the backlight provided in the peripheral portion of the display can be made to have lower illumination than the illumination unit such as the backlight provided in the center portion to highlight the projected image, thereby further improving the three-dimensional effect.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description below.

1 is a perspective view showing a three-dimensional image hardware application system for display of the background art of the present invention.
Figure 2 is a view showing a part of the front of Figure 1;
3 is a view showing the main part of FIG. 1 cut vertically to explain the main configuration of the 3D image hardware application system for exhibition of the background art of the present invention.
4 is a conceptual diagram showing the operation of the 3D image hardware application system for exhibition of the present invention.

Advantages and features of the present invention, and methods of achieving them, will become clear with reference to the detailed description of the following embodiments taken in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, only these embodiments are intended to complete the disclosure of the present invention, and are common in the art to which the present invention belongs. It is provided to fully inform the person skilled in the art of the scope of the invention, and the invention is only defined by the scope of the claims.

Terminology used herein is for describing the embodiments and is not intended to limit the present invention. In this specification, singular forms also include plural forms unless specifically stated otherwise in a phrase. As used herein, "comprises" and/or "comprising" does not exclude the presence or addition of one or more other elements other than the recited elements. Like reference numerals throughout the specification refer to like elements, and “and/or” includes each and every combination of one or more of the recited elements. Although "first", "second", etc. are used to describe various components, these components are not limited by these terms, of course. These terms are only used to distinguish one component from another. Accordingly, it goes without saying that the first element mentioned below may also be the second element within the technical spirit of the present invention.

Unless otherwise defined, all terms (including technical and scientific terms) used in this specification may be used with meanings commonly understood by those skilled in the art to which the present invention belongs. In addition, terms defined in commonly used dictionaries are not interpreted ideally or excessively unless explicitly specifically defined.

The stereoscopic image display apparatus 100 of the background art of the present invention includes a case 1, a display 3, a half mirror 5, and a lighting assembly 7.

The case 1 may be formed in a form in which the front and rear surfaces are penetrated. That is, when viewed from the front, the case 1 may have a perforated shape with nothing disposed on the front and rear surfaces.

In this case, there is an advantage that the background of the back part can be seen naturally. However, the embodiment of the present invention is not limited thereto, and the case 1 is provided with transparent windows 1a on the front and rear surfaces, so that the background of the rear part can be seen naturally while protecting the inside of the case 1.

Case 1 is provided with a projection space in which the image is projected in the middle portion.

On the other hand, the case 1 may be provided with a supporting portion 9 on its bottom surface. The supporting portion 9 may be another case, and a control device capable of controlling the display 3 and the lighting assembly 7 may be accommodated. In addition, although not shown, an audio output device or the like may be installed on the supporting portion 9 .

In addition, a touch screen 11 capable of selecting an image to be projected on the display 3 by touching it with a hand may be installed on the front side of the support part 9 . The touch screen 11 provides the convenience that a user can easily manipulate from the outside.

The display 3 may be disposed on the upper or lower surface of the case 1 . In the embodiment of the present invention, an example in which a screen is displayed in a state in which the display 3 is arranged from the upper surface of the case 1 to the lower side will be described.

The display 3 may display a two-dimensional image on the screen and project the image into a projection space. Since the display 3 displays the 2D image on the screen, software produced with the existing 2D image can be used as it is.

When the display 3 has lighting such as the backlight provided to a liquid crystal display (LCD), the first backlight 13 installed in the center of the screen and the second backlight 13 disposed around and at the edges of the first backlight 13 A backlight 15 may be included. Also, the second backlight 15 preferably has a lower illuminance than the first backlight 13 . That is, the brightness of the second backlight 15 is darker than that of the first backlight 13, so that the background portion of the 3D image IMG projected on the display 3 is projected darker to enhance the 3D image IMG. In addition, when the brightness of the second backlight 15 is lower than that of the first backlight 13, the irradiation of light of a specific color emitted from the second backlight 15 to the background portion of the stereoscopic image IMG is minimized. can make it

The half mirror 5 is disposed obliquely in the projection space of the case 1 . The half mirror 5 may reflect part of an image and transmit part of the image. The half mirror 5 preferably has transmittance and reflectance in the range of 6:4 to 5:5. That is, the half mirror 5 preferably has a transmittance of 50% to 60% and a reflectance of 40% to 50%.

The best stereoscopic image IMG can be obtained when the transmittance and reflectance of the half mirror 5 have the above ranges.

On the other hand, the half mirror 5 may be disposed at an inclined angle (a, shown in FIG. 3) with an upper portion disposed toward the rear side and a lower portion disposed toward the front side. It is preferable that the half mirror 5 has an inclined angle a in the range of 47° to 60° with respect to the screen of the display 3. An image having the best three-dimensional effect can be obtained within the range of the inclination angle (a) of the half mirror (5).

The lighting assembly 7 is installed on the rear side of the case 1 . The lighting assembly 7 is installed with a plurality of light emitting diodes 17 for radiating light toward the front side of the case 1. The light emitting diodes 17 serve to offset light emitted from the second backlight 15 disposed in the periphery of the display 3 . The light emitting diode 17 is preferably disposed in the middle portion of the edge side when viewed from the front side of the case 1. When the light emitting diode 17 is disposed on the edge side of the case 1 when viewed from the front, it darkens the background by offsetting the light of the second backlight 15 irradiated on the background portion of the projected stereoscopic image IMG. This is to enhance the stereoscopic image (IMG).

It is preferable that the lighting assembly 7 is separated by a certain distance (D1, shown in FIG. 1) from the position where the display 3 is installed to the rear side. That is, it is preferable that the back side end of the display 3 installed in the case 1 and the lighting assembly 7 are disposed at a distance of about 5 to 7 cm.

The detailed description of the operation of the 3D image hardware application system for exhibition of the background art of the present invention made as described above is as follows.

First, the two-dimensional image selected by the user on the touch screen 11 is displayed on the display 3. The image displayed on the screen displayed on the display 3 is projected into the projection space. At this time, some images are reflected on the half mirror 5 and some images pass through the half mirror 5 to form a stereoscopic image ( IMG) is projected.

At this time, the image projected by the first backlight 13, which is the central part of the display 3, is projected relatively brighter on the side of the first backlight 13 than on the side of the second backlight 15, and the first backlight 13 In the background of the image projected by the second backlight 15 constituting the periphery of ), the second backlight 15-side portion is projected darker than the first backlight 13-side portion.

Therefore, since the background portion of the three-dimensional image IMG projected by the display 3 appears relatively dark, it can have a clearer three-dimensional effect.

In addition, the light of a constant color of the second backlight 15 irradiated on the background side of the stereoscopic image IMG projected by the display 3 does not disappear completely and remains finely on the side side of the lighting assembly 7. This is offset by the light emitting diodes 17 provided. Therefore, the three-dimensional image IMG projected by the display 3 is projected so that the background becomes darker so that a clear three-dimensional effect can be felt.

In particular, since the lighting assembly 7 is disposed at a certain distance D1 from the end of the rear side of the display 3, the stereoscopic image IMG projected by the display 3 has a sense of space and a three-dimensional effect.

On the other hand, in the embodiment of the present invention, when the front and rear surfaces of the case 1 are penetrated or the transparent window 1a is installed, the background of the projected stereoscopic image IMG is the installation position of the case 1. Since it can be freely changed according to the image, the three-dimensional effect of the projected stereoscopic image can be further revived.

Hereinafter, the 3D image hardware application system 100 for exhibition of the present invention will be described. The contents of the invention of the 3D image hardware application system for exhibition of the background art of the present invention described above can be applied to the 3D image hardware application system 100 for exhibition of the present invention within the scope of not conflicting except for the following contents.

The 3D image hardware application system 100 for exhibition of the present invention has the advantage of arousing interest in the exhibition artifacts reproduced on the display 3 and naturally inducing participation. To this end, the first sensor (Mido time), and a second sensor (not shown) may additionally be included, and the stereoscopic image (IMG) reproduced on the display 3 may include a first mode (still stereoscopic image), a second mode (dynamic stereoscopic image), and a third mode (dynamic stereoscopic image). It can be reproduced in mode (user interaction stereoscopic image). On the other hand, in the 3D image hardware application system 100 for exhibition of the present invention, a relic (3D image of the display) in which a nearby area (nearby area of the 3D image hardware application system for exhibition of the present invention; sensing area of the first sensor) is displayed. The first sector farthest from the exhibited artifact (eg, an area between 5 and 10m distance from the exhibited artifact) and the second sector with an intermediate distance from the exhibited artifact (eg, the distance from the exhibited artifact is 3-5m area) and a third sector closest to the exhibited artifact (for example, an area with a distance between 0 and 3 m from the exhibited artifact).

The first sensor may track the number of viewers located within the sensing area. The first sensor senses in real time the number of viewers in the first area, the second area, and the third area near the exhibited artifact (near the 3D image hardware application system for exhibition of the present invention), and reproduces it on the display 3 A mode signal for determining a reproduction mode of the stereoscopic image IMG may be generated and transmitted to the display 3 . To this end, as an example, lidar may be used as the first sensor, but it is not limited thereto, and various types of non-contact three-dimensional shape (profile) detection sensors may be used.

The second sensor may track an operator's motion located within the sensing area. The second sensor senses the operator's gesture in real time when the stereoscopic image IMG is reproduced in the third mode (user interaction stereoscopic image), and the stereoscopic image IMG reproduced on the display 3 is displayed according to the operator's signal. An operating signal to be changed can be generated and transmitted to the display 3 . To this end, as an example, lidar may be used as the second sensor, but is not limited thereto, and various types of non-contact 3-dimensional form (profile) detection sensors may be used.

In the 3D video hardware application system 100 for exhibition of the present invention, 1) when more than half of the total number of viewers present in the first sector, second sector, and third sector are in the first sector, in the display (3) The 3D image (IMG) can be reproduced in the 1st mode by receiving the 1st mode signal from the 1st sensor (the 3D image remains stationary in the 1st mode (the posture, behavior and position of the artifact are not changed)) 2) If more than half of the total number of viewers existing in the first sector, the second sector, and the third sector are in the second sector, the display 3 receives the second mode signal of the first sensor The stereoscopic image (IMG) can be reproduced in the second mode (the stereoscopic image is reproduced in a pre-programmed movement in the second mode (a state in which at least one of the posture, behavior, and position of the artifact changes according to a pre-programmed condition)), 3) If more than half of the total number of viewers existing in the first sector, second sector, and third sector are in the third sector, the display 3 receives the third mode signal of the first sensor and displays a stereoscopic image (IMG) ) can be reproduced in the third mode (the stereoscopic image is a movement matching the operator's signal generated by the second sensor in the third mode (a state in which at least one of the posture, behavior, and position of the artifact changes according to the operator's signal) play as).

Meanwhile, the second sensor may select an operator from among a plurality of spectators in the third mode. For example, the sensing area of the second sensor may be divided into a plurality of rooms (spaces), and the second sensor detects the viewer's body (eg, hand) most quickly among the plurality of rooms at the start of the third mode. It is possible to generate a manipulation signal by tracking the movement of the spectator only in the room where the control panel is located.

Summarizing the above, in the 3D video hardware application system 100 for exhibition of the present invention, 1) when most of the viewers are away from the exhibition artifacts at the beginning of the viewing, the stereoscopic image (IMG) is played in the first mode and 2) that Next, when more than half of the viewers approach the exhibition artifacts, a 3D image (IMG) can be played in the second mode to arouse the attention and arouse interest at the same time. 3) Then, more than half of the viewers are exhibited In the case of close contact with the artifact, a stereoscopic image (IMG) is played in the third mode, and a customized image is displayed through the manipulation of the viewer, allowing the viewer to be fully immersed in the artifact. In addition, the second sensor generates a manipulation signal by tracking the operator's motion only in the room where the operator's body is sensed the fastest among a plurality of rooms (that is, the 3D image hardware for exhibition of the present invention among a plurality of spectators in the third mode). By selecting the viewer who arrives at the third sector of the application system fastest and puts his or her body in the sensing area of the second sensor as the operator), plural viewers stimulate a competitive spirit that they want to manipulate the stereoscopic image (IMG). You can maximize your interest in artifacts.

On the other hand, when a stereoscopic image (IMG) is reproduced in the third mode on the display 3, the room where the viewer's body is detected most quickly among a plurality of rooms in the sensing area by the second sensor can become a control console, and the corresponding room A spectator who preoccupies can become a manipulator. In this case, the second sensor can generate a manipulation signal by tracking the manipulation action taken by the operator in the corresponding room, and the display 3 receives the manipulation signal and produces a stereoscopic image IMG to have a movement matching the manipulation signal. (For example, when the operator rotates the finger counterclockwise in the corresponding room, a stereoscopic image is played so that the artifact rotates counterclockwise, and when the operator moves the finger up and down in the corresponding room, an explanation window for the artifact is displayed. initiated).

Although the embodiments of the present invention have been described with reference to the accompanying drawings, those skilled in the art to which the present invention pertains can be implemented in other specific forms without changing the technical spirit or essential features of the present invention. you will be able to understand Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive.

Claims (5)

A case through which the front and rear surfaces are penetrated or a transparent window is provided and a projection space in which a relic image is projected is provided;
a display disposed above or below the case to project an artifact image into the projection space;
a half mirror disposed obliquely in the upper and lower directions based on the direction in which the relic image is projected on the display into the projection space;
A lighting assembly installed in the case, disposed at a predetermined distance from the position where the display is installed to the rear side, and having a plurality of light emitting diodes installed to radiate light toward the front of the case to offset background backlight light emitted from the display;
a first sensor for tracking the number of viewers in the sensing area and generating a mode signal for determining a reproduction mode of the artifact image reproduced on the display; and
A second sensor for tracking the operation of the operator in the sensing area and generating a manipulation signal for changing the artifact image reproduced on the display according to the signal of the manipulation operation;
The lighting assembly is disposed at a distance of 5 to 7 cm from the display, and the light emitting diode is disposed at the edge side when viewed from the front side,
The sensing area of the first sensor has a distance between a first sector furthest from the artifact image reproduced on the display and a second sector intermediate in distance between the artifact image reproduced on the display and the artifact image reproduced on the display. divided into the nearest third sector,
The first sensor,
In the case of the first mode in which more than half of the total number of viewers present in the first sector, the second sector, and the third sector are in the first sector, the posture, behavior, and position of the artifact image played on the display do not change. Generating and transmitting a first mode signal to the display to maintain a stationary state, which is a non-stop state;
In the case of the second mode in which more than half of the total number of viewers present in the first sector, the second sector, and the third sector are in the second sector, the artifact image played on the display is pre-programmed, and the posture and behavior of the artifact Generating and transmitting a second mode signal to the display so that the position of and changes,
In the case of the third mode in which more than half of the total number of viewers present in the first sector, the second sector, and the third sector are in the third sector, the artifact image reproduced on the display responds to the manipulation signal generated by the second sensor A third mode signal is generated and transmitted to the display so that the posture, behavior, and position of the artifact change according to the
The second sensor,
The sensing area is divided into a plurality of rooms, and at the start of the third mode, the viewer's motion is tracked and a manipulation signal is generated only in the room where the viewer's body is sensed the fastest among the plurality of rooms, thereby controlling the operator among the plurality of viewers. A three-dimensional imaging hardware application system for exhibition, characterized in that for selecting. delete delete delete delete

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