KR20200120357A - Straight spotting type real hologram 3D display system - Google Patents

Abstract

The present invention relates to a direct view real hologram 3D display system, in which left and right mirror plates (11, 21) are installed to correspond to the left and right display panels and the left and right display panels in the case (100) in which a hologram system is embedded, and a holographic image appears on the left and right mirror plates (11, 21). The present invention optimizes a content viewing range by calibrating both contents by the left and right mirror plates and a simple structure of the direct-view structure, and a clear real hologram can be obtained. In addition, the present invention can provide an immersive content and images to users, has the direct-view structure, and has a large viewing angle, so the present invention can have a quality higher than that of existing 3D images, and can have directionality such as horizontal and vertical format as a single product and content expression is free.

Description

Straight spotting type real hologram 3D display system}

The present invention relates to a direct-view real hologram 3D display system, and more specifically, a calibration of both contents by a left and right mirror plate and a simple structure of a direct-view structure optimizes the content viewing range and provides a clear real hologram. It relates to a direct viewing type real holographic 3D display system.

In general, in recent years, a hologram system capable of performing realistic interactions with the resolution of an image is being developed. In particular, a real hologram 3D display system of a direct view type is being developed, and as an example, a conventional patent publication has been disclosed. No. 10-2014-0087434 includes an image display panel for displaying a 2D or 3D image; A backlight unit for injecting light onto the image display panel; The backlight unit is disclosed in a stereoscopic image display device, characterized in that it includes a light source and a diffraction film on which an interference pattern for a hologram is recorded.

In addition, Korean Patent Application Publication No. 10-2017-0073119 discloses a display device, comprising: a bottom portion provided in a lower region; An image source disposed to face the bottom portion in an upper area and projecting a first image onto a transparent screen; The transparent screen disposed on the bottom portion and configured to have a plurality of side panels in a shape of a polygonal pyramid or a pyramid shape to generate a hologram of the first image in an inner space; And a transparent display disposed in front of at least one side panel of the plurality of side panels constituting the transparent screen to display a second image, wherein the display device comprises: a hologram of the first image A hologram-based stereoscopic image display device is disclosed, wherein the second images are combined to display a stereoscopic image.

However, the prior art has a disadvantage in that the content viewing range is narrow and the real hologram is not clear, so it is difficult to provide realistic content and images to the user, and the viewing angle is small, so that the quality of the 3D image is low.

Therefore, the present invention was conceived to solve the above problems, and the present invention optimizes the content viewing range by the simple structure of the straight-view structure and calibration of both contents by the left and right mirror plates, and a direct view that can obtain a clear real hologram It is to provide a real holographic 3D display system.

In addition, since it has a direct view structure and has a large viewing angle, it can provide more realistic content and images to users, so it can have a quality higher than that of existing 3D images, and can have directionality such as horizontal and vertical formats as a single product. It relates to a direct-view type real hologram 3D display system with free expression of the word.

The present invention relates to a direct-view real hologram 3D display system, in which the left and right display panels and the left and right mirror plates 11 and 21 are installed corresponding to each of the left and right display panels and the left and right display panels inside the case 100 in which the hologram system is embedded. It is characterized in that the holographic image appears on the left and right mirror plates (11, 21).

Therefore, the present invention has a remarkable effect of optimizing the content viewing range by calibrating both contents by the left and right mirror plates and the simple structure of a direct view structure, and obtaining a clear real hologram.

In addition, it is possible to provide realistic content and images to users, has a direct view type structure, and has a large viewing angle, so it can have higher quality than existing 3D images, and can have directionality such as horizontal and vertical format as a single product. There is a remarkable effect of freedom of expression.

1 is a cross-sectional view of a direct-view real holographic 3D display system of the present invention
2 is a conceptual diagram of a hologram using a direct-view real hologram 3D display system of the present invention
3 is an operation diagram of the direct-view real holographic 3D display system of the present invention
4 is a picture of the direct-view real hologram 3D display system of the present invention
5 is a side view of a real holographic 3D display system of the present invention.
Figure 6 is a picture of the operating state of the direct-view real hologram 3D display system of the present invention

The present invention relates to a direct-view real hologram 3D display system, in which the left and right display panels and the left and right mirror plates 11 and 21 are installed corresponding to each of the left and right display panels and the left and right display panels inside the case 100 in which the hologram system is embedded. It is characterized in that the holographic image appears on the left and right mirror plates (11, 21).

In addition, the case 100 includes a left portion 10 on which a left display panel 12 and a left mirror plate 11 are installed, and a right portion 20 on which the right display panel 12 and the right mirror plate 12 are installed. ), and a hologram of an object is displayed on the left mirror plate 11 and the right mirror plate 12.

In addition, the left portion 10 is characterized in that the slope is formed so as to decrease in width toward the center, and the right portion 20 is also inclined to decrease in width toward the center, so that the horizontal cross section is triangular.

In addition, one side of the left and right side portions 20 is characterized in that the connector 21 to which the power supply or communication line is connected is formed.

In addition, each image of the left and right mirror plates 11 and 12 is characterized in that it displays half and half of the 3D content image.

The present invention will be described in detail with reference to the accompanying drawings as follows. 1 is a cross-sectional view of a direct view real hologram 3D display system of the present invention, FIG. 2 is a conceptual diagram of a hologram by a direct view real hologram 3D display system of the present invention, and FIG. 3 is an operation diagram of the direct view real hologram 3D display system of the present invention 4 is a photograph of the direct-view real hologram 3D display system of the present invention, FIG. 5 is a photograph of the direct-view real hologram 3D display system of the present invention as viewed from the side, and FIG. 6 is a direct view real hologram 3D display system of the present invention. It's a picture.

The present invention is a new type of direct-view real holographic 3D display system.

It is a real hologram for humans who can walk with two feet on a table screen, and a real hologram image with real depth in a free space. And it is for the realization of Holo-Reality that actually takes place before our eyes.

Soon, the present invention is a real hologram display capable of direct interaction events, which is a real holographic image structure.

Therefore, it is possible to display a real hologram in the free space and provide a high-resolution image with a large depth, so there is no need for special glasses, and spatial coordinate recognition interaction.

The direct-view real hologram system of the present invention can provide immersive content and images to users.

Since it has a direct-view structure and has a very large viewing angle, it can have a quality higher than that of existing 3D images, and it has the advantage of free expression of content as it can have orientation such as horizontal and vertical format with one product.

Soon, the case 100 of the present invention includes the left side 10 where the left display panel 12 and the left mirror plate 11 are installed, and the right side where the right display panel 12 and the right mirror plate 12 are installed ( 20). Holograms of objects appear on the left mirror plate 11 and the right mirror plate 12.

On the other hand, the left portion 10 is inclined so that the width decreases toward the center, and the right portion 20 is also inclined so that the width decreases toward the center, so that the horizontal cross section becomes triangular. The overall case shape is a shape in which the front center is concave backward in a rectangular cross section. Therefore, the left display panel is installed on the inner left side that becomes the triangular straight wall surface on the left side, and the left mirror plate 11 is installed on the inner inclined surface that becomes the triangular inclined wall surface and is installed inclined to the front. The right display panel is installed on the inner right side that becomes the triangular straight wall surface on the right side, and the right mirror plate 21 is installed on the inner inclined surface that becomes the triangular inclined wall surface and is installed inclined to the front.

Therefore, the left and right mirror plates, which are two displays of the present invention, are installed to form a 90-degree perpendicular structure to each other.

As a result, the two mirror plates create one 3D content image through two independent display panels.

Each image of the left and right mirror plate displays half of the 3D content image.

The angle between the left and right mirror plates on the left and right is set at 90 degrees to optimize the calibration of both contents and the content viewing range due to the direct-view structure.

Soon, in the present invention, the angle between the left and right mirror plates on the left and right sides is set at 90 degrees, which is to optimize the content viewing range due to the calibration of both contents and the direct-view structure.

100: case 10: left side
11: left mirror plate 12: left display panel
20: right side 21: right mirror plate
22: right display panel
2: Wire, communication line connector

Claims (3)

Left and right mirror plates 11 and 21 are installed to correspond to the left and right display panels 12 and 22 and each of the left and right display panels inside the case 100 in which the hologram system is embedded, and the left and right mirror plates 11 and 21 ), a real holographic 3D display system with a holographic image The method of claim 1, wherein the case 100 includes a left display panel 12 and a left mirror plate 11, and a right display panel 12 and a right mirror plate 12. A direct view type real hologram 3D display system consisting of a right part 20, wherein a hologram of an object is displayed on the left mirror plate 11 and the right mirror plate 12 The direct-view type real holographic 3D display system according to claim 2, wherein each image of the left and right mirror plates (11, 12) displays half of the 3D content image.

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