KR200164080Y1 - 3d display system - Google Patents

Abstract

The present invention consists of two transmissive screens on the front and back of one main body casing, and the projector and reflector of the double optical path inside, and the projection light path is composed of the upper and lower ends. It relates to a stereoscopic image display device.

Description

Stereoscopic Display Device {3D Display SYSTEM}

The present invention relates to a stereoscopic image display apparatus which displays a stereoscopic image, but minimizes its occupancy area as an image display apparatus.

The present invention, for example, by projecting photos of scenic spots, ecosystem photos such as learning expeditions, company promotional slides, etc., to observe large-scale, but to be able to observe in three dimensions.

In the past, the projection distance of the projector occupies a considerable area for displaying a projected image in a limited area, so it is only limited to one or two scenes or large photographs arranged on the wall. There was no way

In more detail, these photo exhibitions must display a large number of photographs at the same time and be projected and magnified by the projector, especially to enlarge a small screen such as a slide.

In addition, in order to observe a stereoscopic image by combining the left and right images, a double image of the left and right images is projected by a projection method to create a double image.

In this case, since a large amount of space must be occupied by the projection distance of the projector, a large amount of space is required in proportion to the enlarged projection of many three-dimensional pictures, and thus a three-dimensional image display has not been realized.

In consideration of the above, the present invention utilizes a reflector and a transmission screen in a narrow space to reduce the projection distance as much as possible, and configures the projection distance to the upper and lower spaces to minimize the occupied area. The other two images are configured to form an image, thereby minimizing the occupied area per image unit.

1 is an external view of the present invention

2 is a schematic cross-sectional view of the present invention

3 is a structure explanatory diagram of a projector section

4 is an explanatory diagram when installing the subject innovation

5 is an explanatory view of the occupied area comparison of the subject innovation

6 is an explanatory diagram when using the present invention application

Brief description of symbols for names in the drawings

1. Body case 2. Front transmissive screen 2A. Rear transmissive screen

3. Projector 4,5 reflector 6. Main reflector

6A. Rear main reflector

The present invention is as shown in Figure 1 and 2

The front transmissive screen (2) and the rear transmissive screen (2A) are formed on the front and rear surfaces of the main body case (1) at a stop, and the projector (3) is squared from the rear end of the lower end thereof, and the reflector (4) is placed at the front end of the casing. After constructing the square reflector (5) at an upward angle, the main reflector (6) is installed at the rear end of the screen (2).

In addition, the projector 3 and the reflector 4, 5 are provided in the same order as described above, and the rear main reflector 6A is provided in the same manner from the upper end of the main body case 1 by the same method. Install in parallel with the same square as.

The structure of the projector 3 is configured as shown in FIG. 3, but since a three-dimensional image must be projected, the projector 3 is composed of an optical system having two optical paths.

That is, the light source lamp 7, the condenser lens 8, the slide 9, the projection lens 10, and the polarizing film 11 are installed in the same optical axis from the rear end in the same light axis. .

However, one side of the slide portion is provided with the left image 9 and the other with the right image 9A, and the polarizing film constitutes the polarization angles of the left polarizing film 11 and the right polarizing film 11A symmetrically. .

The present invention as described above, the left and right image light source by the projector (3) installed on the inner bottom of the body casing 1 as shown in Figure 2 by the reflector (4) and the reflector (5) the reflection refraction in the body case (1). It forms in the transmission screen 2.

In addition, the light source of the projector 3A installed in the same upper symmetrical structure on the upper part of the main body case 1 also forms an image on the rear transmissive screen 2A by the same operation as described above.

Thus, the left image 9 is an X-axis image by the left polarizing film 11 and the right image 9A is the right polarizing film 11A among the images formed on the front and rear transmissive screens 2 and 2A. As a Y-axis image, the image is duplicated and the viewer observes the left image 9 in the left field of view and the right image 9A in the right field of view through polarized glasses composed of X and Y axes. will be.

In addition, since the stereoscopic image projected from the upper portion is projected to the front transmission screen 2, and the stereoscopic image projected from the lower portion is projected to the rear transmission screen 2A, it is possible to display two different images in one main body case (1). All.

Accordingly, when the main body casing 1 is arranged as shown in FIG. 4, the main body casing 1 arranged in two rows has a three-dimensional main body casing 1 arranged in front and rear surfaces, so that the main body casing 1 is arranged in two rows. Compared to the linear arrangement of the projection distance like the 'I' diagram, the present invention can minimize the occupation area by arranging the projection distance with the vertical area with the small occupied area.

The effects of the present invention can be arranged in a minimum area such as 'A', which is the occupancy distance of this paper, as compared to 'B', which is the occupancy distance of a general display device, such as 'I', FIG. 5. Therefore, many stereoscopic images can be displayed in a small space.

In addition, the present invention is divided into two parts between the main reflector 6 and the rear main reflector 6A as shown in FIG. Can be used as a connection.

In addition, it is possible to reduce the optical path more efficiently by adding or subtracting the number of internal reflectors (4,5), and the internal projector can be replaced by two known projectors of the same standard, but in this case, the front of the projection lens 10 The polarizing films 11 and 11A should be bonded at symmetry angles.

Therefore, this paper is able to observe many screens on a large stereoscopic screen by enlarging and projecting the left and right screens of images and slides in a minimal space, so it is practically used for tourist attractions promotion, academic exhibitions, product exhibitions, and stereoscopic image display instead of the real thing. It is a design that can be done.

Claims (2)

In the stereoscopic image observation device The front and rear transmissive screens (2, 2A) are composed of the front and rear surfaces outside the body case (1). The main body case (1) is divided into upper and lower ends From the bottom back, configure the projector (3), reflectors (4,5) and main reflector (6) From the top rear, the projectors (3), reflectors (4, 5) and the rear main reflector (6A) are configured identically. The main reflecting mirror 6 and the back main reflecting mirror 6A are formed in parallel in a rectangular shape. The internal structure of the projector 3 is composed of a projector 3 of a plurality of optical systems having left and right dual optical paths. Stereoscopic image display device characterized by projecting the left and right images on the front and back transmission screens (2, 2A) in double images The method of claim 1 Three-dimensional image display device characterized in that the main casing (1) is separated into two stages between the main reflecting mirror (6) and the rear main reflecting mirror (6A) by combining the upper and lower structures as necessary.