KR20190003063U - Pseudo-hologram apparatus - Google Patents

Abstract

The present invention relates to a pseudo hologram device. Similar hologram device according to the present invention, the inner body is reflected, but the upper body is configured to be darker than the external brightness by the light transmittance control processing; A lower body mounted below the upper body and provided with an image control device for generating or playing a video image; And a display device provided inside the upper body and displaying an image image transmitted by the image control apparatus of the lower body.

Description

Pseudo Hologram Device {PSEUDO-HOLOGRAM APPARATUS}

The present invention relates to a pseudo hologram device, and more particularly to a floating hologram device.

Hologram is a compound word of 'holo' which means perfection and 'gram' which means message and information. In 1948, British physicist Dennis Gabor won the Nobel Prize for discovering key principles, which began researching and developing in the 1960s after the development of coherent lasers. When an object is in the path of, the wave reflects off the surface of the object and meets the original light to form an interference pattern, which is determined by the distance from the surface of the object. After exposure and engraving on the film surface, passing the same light through the developed film at the same angle, the light is diffracted by the interference pattern on the film, the same pattern is reproduced and the three-dimensional image of the object is visible.

In addition to analog holograms, which are photographs that take a three-dimensional image of an object, hologram technology includes digital holograms that digitally reproduce the light reflected on the object. Digital methods use mathematical calculations and processing to create interference patterns and record data as 3D images. To play.

In other words, if a stereoscopic image is first determined and then inversely calculated on a mathematical principle to generate a specific pattern, and then the specific pattern appears on the panel, light emitted from the LCD backlight passes through the pattern, diffracted for each pixel, and intensity changes. Desired light rays meet and interfere with each other in a specific space, resulting in a 3D stereoscopic image.

However, due to the complexity of the calculation process, the digital hologram of the original meaning still has technical limitations, and furthermore, the quality and reproduction degree of the 3D stereoscopic image are insufficient to be reproduced in the open space.

Therefore, before these original digital holograms are properly implemented, separate methods that have similar effects are used, which are not true holograms, but rather mimic them to represent stereoscopic images or appear to be floating in a specific space. As a confusion, this is collectively referred to as 'similar hologram'.

In other words, in recent years, many similar holograms have been used as a step before entering the real world of holograms, and a representative hologram is a floating hologram.

The floating hologram is a projector that shows excellent effects on performances and exhibitions by projecting high-resolution images on a large two-dimensional transparent film to create a three-dimensional image like floating in the air.

In addition, there is a multiple hologram method that shoots images from four angles. Pyramid holograms are also called as images in the air are like pyramids. In the end, each of the four pictures is constantly sending out information, which allows the viewer to recognize the reflected image as a floating hologram.

Like this, all images that cause an illusion that a predetermined image floats in the air can be called 'similar holograms'. Recently, similar hologram technologies have been incorporated into small collection boxes for personal use.

For example, a hologram box of SKT or a hologram virtual home robot of Japan Gate Box.

However, such a conventional holographic box for a private collectible uses a conventional floating hologram technique used on a stage.

In other words, a separate projector transmits an image, and the transmitted image reaches the translucent membrane so that people may mistake the image displayed on the translucent membrane together with the background behind it as if it were floating in the air. It is.

This example is shown in FIG.

As shown in the figure, in the case of the conventional pseudo-hologram box 1, a kind of screen 11 is provided inside the predetermined cylindrical body 10, and the projection unit of the projector 20 provided outside ( 21) transmits the image to be reflected on the screen.

However, in the case of the conventional pseudo-hologram box technology, as described above, the actual image is displayed (translucent screen 11) and the image is transmitted (projector projection unit 21) so as to fall by a certain distance in space. Having a structure that allows it to be separated or reflected, the structure is not only complicated but also limited in miniaturizing its overall volume.

That is, in the case of the conventional pseudo-hologram box, the conventional floating hologram method used on the stage is just used as it is, and the above-described various problems occur.

Patent Registration No. 10-1597628

The present invention has been made to solve the above-mentioned disadvantages, the object is to provide a similar hologram device that can achieve a similar hologram effect through a simpler structure and manner.

In order to achieve the above object, a similar hologram device according to the present invention includes: an upper body configured to allow the interior to shine, and to process the light transmittance so that the internal brightness is darker than the external brightness; A lower body mounted below the upper body and provided with an image control device for generating or playing a video image; And a display device provided inside the upper body and displaying a video image transmitted by the image control apparatus of the lower body.

Here, the display device may have no edge or 1 mm or less.

Here, the surface of the upper body may be attached with a black translucent sheet for controlling the visible light transmittance of the outside, or may be coated with a black paint.

Here, the upper body may include a black dye for controlling the visible light transmittance introduced during the injection process therein.

Here, the display device may have a rectangular shape, and both ends and top and bottom ends may contact the inner surface of the upper body.

The display device may be disposed in the center of the upper body.

Here, the upper body may be formed in a cylindrical shape.

In this case, the display device may be configured with a plurality of OLEDs (Organic Light-Emitting Diode) to accurately represent black.

As described above, according to the present invention, since the image image is floating in space or in the air, that is, in order to achieve a similar hologram effect, a separate projector for transmitting the image image is not required. It can be simple.

In addition, there is a disadvantage that the image quality is not clear when the image transmitted by the projector is reflected on the screen directly or by reflection, but according to the present invention there is a clear image quality improvement effect because the display device itself displays the image image.

1 is a schematic configuration diagram of a conventional pseudo-hologram device,
2 is a perspective view of a similar hologram device according to an embodiment of the present invention,
3 is an exploded view of the similar hologram device of FIG. 2,
4 is a detailed perspective view of the display apparatus of FIG. 2;
FIG. 5 is a cutaway perspective view of a portion of FIG. 2;
6 is a functional block diagram of the image control apparatus of FIG. 3.

Hereinafter, with reference to the accompanying drawings will be described in detail for the subject innovation.

Hereinafter, each embodiment according to the present invention is only one example to help understanding of the present invention, and the present invention is not limited to these embodiments. In particular, the present invention may be composed of a combination of at least one or more of individual components or individual functions included in each embodiment.

2 is a perspective view of a similar hologram device 100 according to an embodiment of the present invention, Figure 3 is an exploded perspective view of FIG.

As shown in the drawings, the similar hologram device 100 according to an embodiment of the present invention includes an upper body 200, a lower body 300, a display device 210, and an image reproducing unit.

Here, the upper body 200 is configured to reflect the inside, the light transmittance treatment is configured so that the internal brightness is darker than the external brightness.

It may be said that it is comprised so that the light transmittance from the outside may be substantially lower than the light transmittance from the inside.

For example, the upper body (from the total amount of artificial light generated inside the upper body 200 than the amount transmitted through the upper body 200 of the total amount of artificial light or natural light, such as lighting located around the upper body 200) 200) The upper body 200 may be configured to have a greater amount transmitted to the outside.

Here, the artificial light generated inside the upper body 200 is caused by the display device 210 included in the upper body 200, which will be described later.

As such, the surface treatment of darkening the inside of the upper body 200 may be performed on the surface of the upper body 200 to make the inside of the upper body 200 darker than the outside of the upper body 200, or the upper body 200 material The processing for itself can be made.

For example, the upper body 200 may be made of glass or synthetic resin, and a colored (preferably black) translucent sheet is attached or colored (preferably black) to control the transmittance of visible light on the surface thereof. Black) paint may be applied.

The coating of the colored paint may be performed through a deposition process. For example, the upper body 200 may be coated with a colorant that controls visible light by inserting the upper body 200 mold into a deposition machine to color or coat the deposition machine. Can be added to.

As another example, the upper body 200 may include a black dye for adjusting the visible light transmittance injected during the injection process therein.

For example, in the injection process to generate the upper body 200, the insertion ratio of the color pigment (powder / grain shape, etc.) is adjusted, and a similar dye such as pyridone azo is added to adjust the yellow wavelength causing glare, By adjusting the black dye, the upper body 200 having a visible light transmittance of 7-15% can be produced.

Through this process, a dark environment for improving the concentration of the image image displayed on the display device 210 provided in the upper body 200 is formed, as well as a cyanide improvement effect of the appearance of the upper body 200.

In this case, when the visible light transmittance is less than 7%, the brightness of the display device 210 provided inside the upper body 200 must be further increased, as described below. Therefore, power consumption increases, and the visible light transmittance exceeds 15%. In this case, as described below, the peripheral portion of the display device 210 provided inside the upper body 200 is not sufficiently dark, so that the similar hologram effect that the present invention is to achieve is inferior.

As described above, other methods may be applied to darken the upper body 200. However, in the case of the colored paint applying method, since the upper body 200 may be mass-produced through an additional process, the conventional upper body 200 mass production process may be changed. It is advantageous in that there is no need, and the method of attaching the black sheet paper allows the light transmittance in the upper body 200 to be made constant in that the sheet paper having a uniform transmittance can be selected. It can be expected in advance before attachment, which has the advantage of easy transmittance adjustment.

In addition, the method of including the black dye in the injection process of the upper body 200 has an advantage in that the overall light transmittance does not vary greatly even if the surface of the upper body 200 is scratched or damaged. That is, the opacity may be maintained even when the outer surface of the upper body 200 is damaged.

The above-described processing of various methods, that is, sheet paper, coating of colored paint or inserting colored pigment may be performed through the entire upper body 200, but as described below, the front portion of the display apparatus 210 is provided therein. Such processing may be performed only in a direction, or processing may be performed to prevent light from being transmitted at all behind the display apparatus 210.

Meanwhile, the display device 210 is a device for displaying an image image, and performs a function of receiving and displaying an image image reproduced by the image control apparatus 310 of the lower body 300 to be described later.

That is, the display device 210 may be configured to include a display panel on which an actual image image is displayed and a backlight that emits light on the display panel, or may be configured only of the display panel.

Preferably, the display device 210 may be configured as an organic light emitting diode (OLED) panel that is a self-light emitting device and that reproduces black more accurately than a liquid crystal display (LCD).

The reason why accurate black reproduction is important here is that when the display device 210 displays a specific object (for example, a human image image), the closer the area except the object is to black, the greater the effect of floating the object in space. to be.

Therefore, in order to achieve a similar hologram effect, the display device 210 is preferably composed of an OLED panel.

As shown in FIG. 4, the display device 210 (display panel) may have no edges 211 and 212 or may have a thickness of at least 1 mm or less.

This is to maximize the effect that the image image floats in the air, that is, the similar hologram effect when the display apparatus 210 according to the present invention displays a predetermined image image. When the thickness exceeds 1mm, the edge is prominently noticeable so that the presence of the display device 210 can be recognized.

In addition, the display device 210 is configured in a rectangular shape, and both ends and top and bottom ends thereof may be configured to contact the inner surface of the upper body 200, which is also a separate display device 210 on the upper body 200. This is to maximize the pseudo-hologram effect as described above, so that users do not notice.

That is, the display device 210 may have a circular or other irregular polygonal shape in addition to the rectangular or square shape described above, and may be configured to have a slight gap without contacting the inner surface of the upper body 200, but may be configured as described above. As described above, when the rectangular body is configured to be in contact with the inner surface of the upper body 200, the pseudo hologram effect is increased.

In particular, the upper body 200 may be formed in a cylindrical shape. In this case, the display device 210 is preferably disposed in the center of the upper body 200. In this case, the stereoscopic effect of the video image displayed on the display device 210 generated by the refraction of the light due to the cylindrical shape can be maximized.

5 illustrates a state in which the display apparatus 210 is disposed at the center portion of the cylindrical upper body 200, and both and upper and lower ends of the display apparatus 210 abut inside the upper body 200.

Although not shown in FIG. 5, a separate fixing frame (not shown) may be further provided between the display device 210 and the inner surface of the upper body 200.

That is, one side of the fixing frame is in contact with at least a portion of the outer peripheral surface of the display device 210 and the other side of the fixing frame is in contact with the inner surface of the upper body 200.

The fixing frame not only serves to fix the display device 210 to the upper body 200, but also prevents the display device 210 from being damaged from an external shock.

To this end, the fixing frame is preferably composed of an elastic material capable of buffering, and in order to maximize the effect of the similar hologram as described above, the color is preferably composed of a dark color such as black.

The lower body 300 is mounted below the upper body 200 and serves to support the upper body 200.

In addition, the lower body 300 serves to protect various electronic devices, ie, the image control device 310, for displaying an image displayed on the display device 210 as described above.

That is, the image control apparatus 310 performs a function for generating or playing an image image. An example of a functional block of the image control apparatus 310 is illustrated in FIG. 6.

As shown in the figure, the image control apparatus 310 may include a storage unit 314, an input unit 311, a communication unit 312, and a control unit 313.

Here, the storage unit 314 stores a program or data for the operation of the image control apparatus 310, and may be provided with various contents for image reproduction.

The input unit 311 receives a user's input or input by various sensors (not shown), and allows the controller 313 described later to play the specific content according to the user's selection or the surrounding environment through the sensor.

The communication unit 312 communicates with an external predetermined device or a predetermined server. For example, various communication devices such as a short range wireless LAN communication (Wi-Fi) module, a mobile communication module communicating with a base station, a wired communication module, a Bluetooth communication module, etc. It may be configured to include at least one of various communication modules supporting the wireless communication.

In particular, the communication unit 312 may receive various types of information (for example, today's weather information, atmospheric information, etc.) received from an external server.

The control unit 313 performs a function of real time playing or storing new content stored in the storage unit 314 according to a command or various information received through the input unit 311 or the communication unit 312.

The controller 313 transmits the content thus reproduced or generated to the display apparatus 210 of the upper body 200 to be displayed.

In order to communicate with the controller 313, the display device 210 may include a contact terminal 212 as shown in FIG. 4. Of course, the control unit 313 and the display device 210 may be connected by a cable such as a flat cable instead of the contact terminal 212.

On the other hand, the present invention is not limited to the above-described specific embodiments and can be carried out by variously modified and modified within the scope not departing from the gist of the present invention. It will be apparent that such variations and modifications are included in the present invention as long as they belong to the appended claims.

100: similar hologram device 200: upper body
300: lower body 210: display device
310: image control device 311: input unit
312 communication unit 313 control unit
314: storage

Claims (9)

An upper body configured to reflect the inside but to adjust the light transmittance so that the internal brightness is darker than the external brightness;
A lower body mounted below the upper body and provided with an image control device for generating or playing a video image;
And a display device provided inside the upper body and displaying a video image transmitted by the image control device of the lower body. The method of claim 1,
The display device has a similar hologram device, characterized in that no border or less than 1mm. The method according to claim 1 or 2,
And a fixing frame having one side contacting at least a portion of an outer circumferential surface of the display device and the other side contacting the inside of the upper body. The method of claim 1,
The surface of the upper body is a similar hologram device, characterized in that the black translucent sheet is attached for controlling the visible light transmittance of the outside, or black paint is applied. The method of claim 1,
The upper body is a similar hologram device characterized in that it contains a black dye for controlling the visible light transmittance introduced during the injection process therein. The method of claim 1,
The display device has a rectangular shape, and the similar hologram device, characterized in that both ends and the upper and lower ends are configured to abut the inner surface of the upper body. The method of claim 6,
And the display device is disposed in the center of the upper body. The method according to claim 6 or 7,
The upper body is a similar hologram device, characterized in that consisting of a cylindrical shape. The method of claim 1,
The display device is a hologram device, characterized in that composed of a plurality of OLED (Organic Light-Emitting Diode) for accurate representation of black.

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