KR20200121580A - 3D spatial image display system - Google Patents

Abstract

The present invention relates to a three-dimensional (3D) spatial image display system, which comprises: an integrated image pickup system including a 3D object (100), a lens array (200) installed on the right side of the 3D object (100), a camera (300) installed on the right side of the lens array (200), and a projector (500) to which an image captured by the camera (300) is transmitted as an element image (400); and a display system including a 3D object (100), a lens array (200) installed on the right side of the 3D object (100), a camera (300) installed on the right side of the lens array (200), and a projector (500) to which an image captured by the camera (300) is transmitted as an element image (400). Accordingly, it is possible to easily express 3D content in space, and an observer has a remarkable effect of being able to see a 3D object expressed in space in the field of view.

Description

3D spatial image display system

The present invention relates to a three-dimensional spatial image display system, and more particularly, consists of an integrated image pickup system and a display system, so that three-dimensional content can be easily expressed in space, and the observer It relates to a three-dimensional spatial image display system for viewing dimensional objects.

In general, a three-dimensional spatial image display system has been developed, and as an example, when the element images are acquired in the image acquisition step 100 in Registration No. 10-1615828, the image acquisition device 130 When the area is obtained by expanding the area by n times and displayed as a 3D image in space through the display device 230 and the lens array 220, the element images are expanded and acquired by the display device 230 to be displayed. The viewing angle of the dimensional image is displayed by expanding n times, and since the size of each of the element images displayed on the display device 230 is increased by n times, a series of element images in time sequence so that the element images do not overlap each other. A mask panel characterized by displaying arrays, wherein the size of each element image is np (p is the size of the existing element image), and the transmission area 241 of the mask panel 240 through which the element images pass is formed at np intervals A method of increasing the viewing angle in an integrated image display system using

Registered Patent Publication No. 10-0950628 describes an integrated imaging system having a display unit for reproducing a 3D basic image captured by a pickup unit, wherein the display unit includes a projection type display device including a second display element and a projection lens, 1 A flat panel display device composed of a display element and a lens array is installed to have a right angle or an obtuse angle, and the first display element and the second display element are configured to reproduce a three-dimensional basic image captured by the pickup unit in three dimensions. Arranged at right angles or obtuse angles, the lens array is installed in front of the first display element and displays a real image of the first display element, and uses a convex mirror to display a virtual image of the second display element, The projection lens is a virtual image and real image combined integrated imaging system, characterized in that installed on the front of the second display device is disclosed.

However, the conventional panel-based integrated imaging system, which is the prior art, can represent a 3D spatial image, but there is a flip area where the images are mixed.

In the conventional mirror array-based projection integrated image system, the flip area is removed, but the spatial image cannot be expressed. In addition, existing spatial image expression displays have a disadvantage in that they can only express 2D images.

Accordingly, the present invention was devised to solve the above problems, and a three-dimensional spatial image display system in which three-dimensional content can be easily expressed in space, and an observer can see three-dimensional objects expressed in space in the field of view. Is to provide.

The present invention relates to a three-dimensional spatial image display system, characterized by comprising an integrated image pickup system and a display system.

Therefore, the present invention can easily express 3D contents in space, and the observer has a remarkable effect of being able to see a 3D object expressed in space in the field of view.

1 is a layout diagram of a 3D spatial image display system of the present invention

The present invention relates to a three-dimensional spatial image display system, characterized by comprising an integrated image pickup system and a display system.

In addition, the integrated image pickup system includes a 3D object 100, a lens array 200 installed on the right side of the 3D object 100, a camera 300 installed on the right side of the lens array 200, and , The image captured by the camera 300 is characterized by consisting of a projector 500 that is transmitted as an element image 400.

In addition, in the display system, a mirror array 600, a half mirror 800, and a retroreflective module 700 are installed together on the right side of the projector, and a half mirror is installed inclined downward from the front surface of the retroreflective module. A mirror array is installed on the lower surface of the half mirror, and the element image 400 transmitted to the projector 500 is projected onto the mirror array 600, and the rays reflected from one element mirror of the mirror array are the half mirror 800. After passing through, the light rays that meet the retroreflection module 700 are re-reflected in the same optical path, and the reflected rays are re-reflected by the half mirror 800 to collect the image in space. And, the image integrated in the space creates a 3D reconstructed image, and the observer can view the 3D reconstructed image expressed in the space.

The present invention will be described in detail with reference to the accompanying drawings as follows. 1 is a layout diagram of a 3D spatial image display system of the present invention.

In the present invention, three-dimensional content can be expressed in space, and an observer can see three-dimensional objects expressed in space in the field of view.

The system has three stages.

1. Using an integrated image pickup system, an elemental image for a 3D object is created. The integrated imaging system consists of a 3D object 100, a lens array 200, and a camera 300. The 3D object 100 is located on the left side of the lens array. The camera 300 photographs an image formed after the light rays emitted from the 3D object 100 pass through the lens array 200. The photographed image becomes the element image 400. The generated elemental image is transmitted to the projector 500.

2. The display system of the present invention is composed of a projector 500, a mirror array 600, a retroreflective module 700, and a half mirror 800. The system structure is as follows. First, the mirror array 600 is located below. Above it, the half mirror 800 is inclined at 45 degrees. A retroreflective module 700 is positioned on the half mirror.

3. The 3D spatial image is played in the following order. The element image 400 transmitted to the projector 500 is projected onto the mirror array 600. Light rays reflected from one element mirror of the mirror array pass through the half mirror 800 and are transmitted to the retroreflection module 700. The light rays that meet the retroreflection module 700 are reflected back in the same optical path. The re-reflected rays are re-reflected by the half mirror 800 to integrate an image in space.

4. The image integrated in the space creates a 3D reconstructed image 900, and the observer 1000 can see the 3D reconstructed image expressed in the space.

Therefore, the present invention can display 3D spatial images and can be used in various industrial fields such as digital signage and AI speakers.

100: three-dimensional object 200: lens array
300: camera 400: element video
500: projector
600: mirror array 700: retroreflective module
800: half mirror

Claims (3)

3D spatial image display system comprising an integrated image pickup system and a display system The method of claim 1, wherein the integrated image pickup system comprises a 3D object 100, a lens array 200 installed on the right side of the 3D object 100, and a camera installed on the right side of the lens array 200 (300) and a three-dimensional spatial image display system, characterized in that the image captured by the camera (300) is composed of a projector (500) that is transmitted as an element image (400) The display system according to claim 2, wherein a mirror array 600, a half mirror 800, and a retroreflective module 700 are installed together on the right side of the projector, and the half mirror is inclined downward from the front surface of the retroreflective module. It is installed, and a mirror array is installed on the lower surface of the half mirror, so that the element image 400 transmitted to the projector 500 is projected onto the mirror array 600, and the light rays reflected from one element mirror of the mirror array are The light rays that pass through the mirror 800 and are transmitted to the retroreflection module 700 are reflected back in the same optical path, and the reflected rays are reflected again by the half mirror 800 to be spatially 3D spatial image display system, characterized in that the image is integrated in the space and the image integrated in the space creates a 3D reconstructed image, and the observer can view the 3D reconstructed image expressed in the space.

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