KR20090112498A - Reflection-type screen used in projection-type 3D integral imaging display system - Google Patents

Abstract

PURPOSE: A reflective screen used in projection three dimensional image system is provided to reduce manufacturing cost by using lens array through one reflective screen used in the projection three dimensional image system. CONSTITUTION: A reflective screen(100) includes a lens array(110) and a mirror(120). The lens array indicates the virtual image of the integrated image outputted from a projection. The mirror is isolated at certain distance in the lens array. The separation distance of the lens array and mirror comes under the focal distance of the lens array. The virtual image of the indicated lens array is side by side arranged with the lens array represented on the mirror front.

Description

Reflection-type screen used in projection-type 3D integral imaging display system}

The present invention relates to a screen used in a projection-type integrated imaging system, which is one of autostereoscopic 3D display methods. In particular, when two lens arrays are arranged in succession, the depth of the displayed image is reversed, but the stereoscopic effect can be transmitted. The present invention provides a reflective screen used for a projection type 3D integrated image display system that can display a stereoscopic image by arranging a lens array and a mirror behind the lens array without using two lens arrays that are difficult to arrange.

In general, integrated imaging is one of autostereoscopic 3D display methods. The integrated imaging system using the integrated imaging method stores a three-dimensional information of an object in the form of an elemental image by using a lens array composed of a plurality of elemental lenses. It is a device that displays an image as a 3D image again through a lens array.

FIG. 1 schematically shows a configuration of a conventional projection type 3D integrated imaging system. As shown in FIG. 1, an image reflected by an object 11 through a lens array 12 is photographed by a photographing element 13 such as a camera. The pickup unit 10 for creating the dimensional base image and the 3D base image obtained by the pickup unit 10 are output to the projection 21, and the output base image passes through the base lens 22, and The passed image is projected onto the screen 23 and integrated into a stereoscopic image behind the screen 23. However, in this case, when the size of the base lens 22 is greater than or equal to a certain degree, since the minimum aperture ratio is larger than that of the base lens, the integrated image cannot be directly observed by the naked eye.

Next, Fig. 2 shows an embodiment of a projection integrated imaging system using a conventional transmissive screen, wherein the transmissive screen 30 has two lens arrays 31 and 32 arranged side by side. The transmissive screen receives the integrated image output from the projection integrated imaging system and displays the virtual image and the real image regardless of the size of the basic lens 22 as the basic image output from the projection 21. The displayed image has a three-dimensional effect although the depth is reversed. Could be delivered as is.

Such a transmissive screen in which the two lens arrays are arranged side by side has a problem in that it is difficult to apply the screen to the screen because it is very difficult to arrange the lenses of the lens arrays in parallel.

In addition, the screen using the two lens array has a problem that the manufacturing cost of the transmissive screen is high because the value of the lens array is relatively expensive.

Accordingly, in order to solve the above-mentioned problems, the present invention comprises a lens array and a mirror installed on the rear of the lens array, the screen for delivering the integrated image output from the projection type integrated image system to the viewer as a stereoscopic image. The object of the present invention is to provide a reflective screen having a three-dimensional effect although the depth is reversed by forming the screen by the lens array reflected in the lens to have the same effect as having two lens arrays.

In addition, by using only one lens array in the reflective screen it is another object to reduce the manufacturing cost and to be easy to manufacture.

In order to achieve the above object, the present invention provides a screen constituting a projection type 3D integrated image system, the screen comprising: a lens array for transmitting a stereoscopic image output from the projection type integrated image system; It is provided on the rear of the lens array provides a reflective screen used in the projection-type three-dimensional integrated imaging system, characterized in that the reflective screen consisting of a mirror providing a form in which two lens arrays are arranged side by side to the lens array. .

As described above, the reflective screen according to the present invention comprises a lens array displaying a virtual image of a stereoscopic image output from a projection integrated imaging system, and a mirror installed on the rear surface of the lens array. By having the effect of having two lens arrays constituting the screen, it is possible to provide a reflective screen having a three-dimensional effect although the depth is reversed.

In addition, the use of only one lens array in the reflective screen can reduce the manufacturing cost and can be easily manufactured.

Hereinafter, with reference to the accompanying drawings will be described in more detail the present invention.

Figure 3 shows an embodiment of a reflective screen used in the projection-type three-dimensional integrated imaging system according to the present invention, the reflective screen 100 is for displaying a virtual image of the integrated image output from the projection 21 One lens array 110; It consists of a mirror 120 which is installed at a predetermined distance apart from the rear of the lens array 110. In this case, the separation distance between the lens array 110 and the mirror 120 is installed to be spaced apart by the focal length of the lens array 110.

In the reflective screen configured as described above, the lens array is reflected on the mirror to display the virtual image of the lens array, and the virtual image of the displayed lens array is disposed in parallel with the lens array displayed in front of the mirror, as if two lens arrays were arranged. Have the same status.

In the reflective screen as described above, the base image output from the projection 21 is reflected on the reflective screen 100 through the base lens 22, so that an observer is positioned in front of the screen to view a stereoscopic image. The reflective screen has the same configuration as using the conventional two-lens array, so that the depth is reversed and the stereoscopic effect is excellent.

As described above, the present invention has been described with reference to the embodiments shown in the drawings, but it is only for illustrating the invention, and those skilled in the art to which the present invention pertains various modifications or equivalents from the detailed description of the invention. It will be appreciated that one embodiment is possible. Therefore, the true scope of the present invention should be determined by the technical spirit of the claims.

1 illustrates an embodiment of a conventional projection type three-dimensional integrated imaging system.

2 is a view showing an embodiment of a transmissive screen constituting a conventional projection type 3D integrated imaging system.

3 is a view showing one embodiment of a reflective screen constituting a projection three-dimensional integrated imaging system according to the present invention;

<Description of the symbols for the main parts of the drawings>

10: pickup portion 11: object

12,31,32,110: lens array 13: image pickup device

20: display unit 21: projection

22: basic lens 23,30: transmissive screen

24: stereoscopic image 100: reflective screen

120: mirror

Claims (2)

In the screen constituting the projection-type three-dimensional integrated imaging system, The screen includes a lens array for transmitting a stereoscopic image output from the projection integrated image system; And a reflective screen formed on a rear surface of the lens array and configured to mirror a lens array to provide two lens arrays arranged side by side. The method of claim 1, And an installation distance of the lens array and the mirror is spaced apart by a focal length of the lens array.

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