KR100659327B1 - three-dimension projector - Google Patents

Abstract

The stereoscopic image projector 100 of the present invention includes a first reflector 20a, a second reflector 20b, and an image driver for reflecting and outputting light emitted from the first light source 10a and the second light source 10b, respectively. The left liquid crystal display device 32 and the right liquid crystal display device 42 and the first reflection mirror which implement the left and right images according to the left image data LD and the right image data RD output from the 200. The first lens 31 for the left to concentrate the light reflected from the 20a, the second lens 33 for the left to concentrate and output the left image signal, and the second lens 33 for the left is polarized in the 45 degree direction. The first lens for the right for concentrating the light reflected from the second polarization filter 50a and the left polarization filter 50a for outputting the left polarization signal through which only the left image signal in the 45 degree direction is transmitted from the left image signal (41), the second lens 43 for the right to focus and output the right image signal, polarized in the 45-degree direction Of the right image signals output from the side second lens 43, the right polarization filter 50b for outputting the right polarization signal that transmits only the right image signal in the 45 degree direction and the right output from the right polarization filter 50b The right polarized signal is incident and the right polarized signal is projected through the projection lens 70 as it is, and the left polarized signal output from the left polarized filter 50a is incident and the left polarized signal is incident. Half mirror that projects the image on the screen through the projection lens 70 so that the polarized signal is rotated 180 degrees to project the left image through the projection lens 70 so that the polarization direction of the left image and the polarization direction of the right image are orthogonal to each other. It consists of 60.

Projection device, polarizing filter, screen, polarizing glasses, half mirror

Description

Stereo Image Projector {three-dimension projector}

1 is a schematic configuration diagram of a conventional stereoscopic image projection apparatus;

2 is a configuration diagram of a stereoscopic image projection apparatus of the present invention.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a three-dimensional image projection apparatus, and more particularly, to a three-dimensional image projection apparatus that provides a three-dimensional image by using a single image projection apparatus and that can enjoy the provided image in three-dimensional through polarized glasses.

In general, a method of realizing a stereoscopic image is to take an image using two cameras, and display the overlapping images having right angle deviations on one screen using a polarization filter and display the two images on one screen, and the left and right sides are perpendicular to each other. Through the polarizing glasses having a polarizing lens of the two cameras by viewing the left and right eyes, respectively, the stereoscopic image can be implemented.

1 is a schematic configuration diagram of a conventional stereoscopic image projection apparatus.

As shown in the conventional stereoscopic image projection apparatus of FIG. 1, two polarizers having different polarization directions in order to allow the viewer to recognize the left and right images in the left and right eyes of the viewer to form a stereoscopic image. There must be an image projector, that is, a left eye projection device 3a and a right eye projection device 3b.

That is, the conventional stereoscopic image projection apparatus of FIG. 1 includes an image signal input unit 1, an image driver 2, a left eye projection device 3a, a right eye projection device 3b, and projection lenses 4a and 4b. Two polarizing filters 5a, 5b and a screen 6, the viewer needs polarizing glasses 7.

The video signal input unit 1 provides a composite video signal, and the video driver 2 receives the video signal output from the video signal input unit 1 and separates it into a left video signal and a right video signal. The left image data and the right image data are output by driving the image signal and the right image signal by horizontal lines or vertical lines. The left image data and the right image data are separately input to the left eye projection apparatus 3a and the right eye projection apparatus 3b, respectively. Projection lenses 4a and 4b are disposed in front of the binocular projection devices 3a and 3b, respectively, and in front of the two projection lenses 4a and 4b, the vertical polarization filter 5a and the horizontal polarization filter 5b is provided. When two projection apparatuses 3a and 3b configured as described above are used to project images having a right angle phase difference to each other on the screen 6, the viewer is provided with polarized glasses equipped with a vertical polarizer and a horizontal polarizer in the left eye. (7) can be worn to recognize the separated image for left and right eyes to watch a stereoscopic image.

The conventional stereoscopic image projection apparatus of FIG. 1 requires expensive two projection apparatuses in order for a viewer to watch a stereoscopic image, which requires expensive cost, and has a cumbersome problem in installation. Each screen is provided from two projection apparatuses. Since the image must be projected on the screen, the size, brightness, color, etc. of the image must be adjusted.

An object of the present invention is to superimpose the left eye polarization signal and the right eye polarization signal to be orthogonal to each other through a half-mirror by using one projection device having one projection lens to project the overlapping image signal to the screen through the projection lens Disclosed is a stereoscopic image projection apparatus that enables viewers to wear stereoscopic glasses at low cost to watch stereoscopic images.

In order to achieve the above object, the stereoscopic image projection apparatus of the present invention includes an image driver for outputting left image data and right image data by driving a left eye image signal and a right eye image signal photographed by a camera by horizontal lines or vertical lines. In the three-dimensional image projection apparatus that receives the left image data and the right image data from the image driver to project the left image and the right image on the screen through the projection lens, a viewer wearing polarized glasses can watch a stereoscopic image,

A first light source and a second light source emitting white light; A first reflecting mirror and a second reflecting mirror reflecting and outputting light emitted from the first and second light sources, respectively; A left liquid crystal display device for implementing a left image according to the left image data output from the image driver; A right liquid crystal display device for implementing a right image according to the right image data output from the image driver; A left first lens positioned between the first reflecting mirror and the left liquid crystal display element to concentrate the light reflected from the first reflecting mirror to the left liquid crystal display element; A second left lens positioned at a rear end of the left liquid crystal display and concentrating and outputting a left image signal output from the left liquid crystal display; A left polarization filter which polarizes in a 45 degree direction and outputs a left polarization signal that transmits only a left image signal in a 45 degree direction among the left image signals output from the second lens for left; A right first lens positioned between the second reflecting mirror and the right liquid crystal display device to concentrate the light reflected from the second reflecting mirror to the right liquid crystal display device; A second right lens positioned at a rear end of the right liquid crystal display and concentrating and outputting a right image signal output from the right liquid crystal display; A right polarization filter which polarizes in a 45 degree direction and outputs a right polarization signal that transmits only a right image signal in a 45 degree direction among the right image signals output from the right second lens; And the right polarization signal outputted from the right polarization filter is incident, and the right polarization signal is projected to the right image through the projection lens as it is in the polarization direction, and the left polarization signal output from the left polarization filter is incident and incident. Equipped with a half-mirror for projecting the image on the screen through the projection lens so that the polarized direction of the left image and the polarization direction of the right image are orthogonal to each other by projecting the left polarized signal 180 degrees out of phase. It is characterized by.

Hereinafter, a stereoscopic image projection apparatus of the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram of a stereoscopic image projection apparatus of the present invention.

In the stereoscopic image projection apparatus 100 of FIG. 2, the light emitted from the first light source 10a and the second light source 10b, the first light source 10a, and the second light source 10b that emits white light is emitted. The left liquid crystal display device 32 and the image for implementing the left image according to the left image data LD output from the first reflector 20a and the second reflector 20b and the image driver 200, respectively, which are reflected and outputted. The left liquid crystal display device 42 is positioned between the right liquid crystal display device 42, the first reflecting mirror 20a, and the left liquid crystal display device 32 to implement the right image according to the right image data output from the driver 200. A first lens 31 for the left side which concentrates the light reflected from the first reflector 20a, and a left image signal which is located at the rear end of the left liquid crystal display element to concentrate the left image signal outputted from the left liquid crystal display element. The second lens 33 for the left side is polarized in the 45 degree direction and output from the second lens 33 for the left side. Among the left image signals, the left polarization filter 50a, which outputs the left polarization signal that transmits only the left image signal in the 45 degree direction, is positioned between the second reflecting mirror 20b and the right liquid crystal display element 42 for the right. It is located at the rear end of the right first lens 41 and the right liquid crystal display 42 for concentrating the light reflected from the second reflector 20b to the liquid crystal display 42 from the right liquid crystal display 42. The right second lens 43 that concentrates the output right image signal and outputs the polarized light in the 45 degree direction, and transmits only the right image signal in the 45 degree direction among the right image signals output from the right second lens 43. The right polarization signal 50b for outputting the right polarization signal and the right polarization signal output from the right polarization filter 50b are incident, and the incident right polarization signal is right through the projection lens 70 as it is in the polarization direction. Project the image, and use the left polarization filter (50a) The left polarized signal outputted from the camera is incident and the left polarized signal is rotated 180 degrees to project the left image through the projection lens 70 so that the polarization direction of the left image and the polarization direction of the right image are orthogonal to each other. It is composed of a half mirror 60 for projecting the image on the screen through the lens 70.

The first lens 31 for left, the first lens 41 for right, the second lens 33 for left and the second lens 43 for right are composed of flat convex lenses.

Operation of the stereoscopic image projection apparatus of the present invention according to the above configuration is as follows.

As shown in FIG. 2, the first light source 10a and the second light source 10b emit white light or the like using a lamp such as halogen, tungsten or xenon. The first reflecting mirror 20a and the second reflecting mirror 20b respectively change the paths to reflect the light irradiated from the first light source 10a and the second light source 10b to travel in one direction. The left liquid crystal display element 32 and the right liquid crystal display element 42 are generally used liquid crystal display elements. The left image image and the right eye image signal photographed by the camera are driven by horizontal lines or vertical lines. The left liquid crystal display device 32 receives the left image data LD from the image driver 200 which outputs the data LD and the right image data RD to implement the left image according to the left image data LD. The right liquid crystal display 42 implements the right image according to the right image data RD output from the image driver 200. The left first lens 31 and the left second lens 33 disposed before and after the left liquid crystal display device 32 concentrate the light reflected from the first reflecting mirror 20a to project an image. Focus on 70. As described above, the right first lens 41 and the right second lens 43 disposed before and after the right liquid crystal display device 42 concentrate the light reflected from the second reflecting mirror 20b. Focus the image on the projection lens (70).

The left polarization filter 50a is polarized in the 45 degree direction and is polarized in the 45 degree direction among the left image signals output from the left second lens 33, that is, the left image signals output from the left liquid crystal display device 32. The polarized signal for the left is outputted by transmitting only the light. The right polarization filter 50b is also polarized in the 45 degree direction, and the right image signal output from the second lens 43 for right, that is, the 45 degree polarization of the right image signal output to the right liquid crystal display device 42. The polarized signal for the right is outputted by transmitting only the received light.

The half mirror 60 projects the right polarized signal output from the right polarization filter 50b through the projection lens 70 as it is in the polarization direction, and the left polarization output from the left polarization filter 50a. The signal is rotated 180 degrees of the incident left polarized signal to project the left image through the projection lens 70 so that the polarization direction of the left image and the polarization direction of the right image are orthogonal to each other on the screen through the projection lens 70. Project the image. That is, the half mirror 60 overlaps the left polarized signal and the right polarized signal so as to be perpendicular to each other. In the superimposed image, the right image and the left image that are orthogonal to each other are projected on the screen through the projection lens 70.

When the images having the mutually perpendicular phase difference are projected on the screen as described above, the viewer can watch the stereoscopic image by wearing the polarized glasses equipped with the vertical polarizer and the horizontal polarizer in the left eye and recognizing the separated images for the left and right eyes. .

The stereoscopic image projection apparatus of the present invention superimposes the left eye polarization signal and the right eye polarization signal to be orthogonal to each other through a half mirror using a single projection device having one projection lens, and superimposes the superimposed images on the screen through the projection lens. Projection allows viewers wearing polarized glasses to view stereoscopic images at low cost.

Claims (3)

It is equipped with an image driver which outputs the left image data and the right image data by driving the left eye image signal and the right eye image signal captured by the camera by horizontal lines or vertical lines. In the three-dimensional image projection apparatus for projecting the left-side image and the right-side image through the projection lens to a viewer wearing polarized glasses to watch a stereoscopic image, A first light source and a second light source emitting white light; A first reflecting mirror and a second reflecting mirror reflecting and outputting light emitted from the first and second light sources, respectively; A left liquid crystal display device for implementing a left image according to left image data output from the image driver; A right liquid crystal display device for realizing a right image according to the right image data output from the image driver; A left first lens positioned between the first reflecting mirror and the left liquid crystal display element to concentrate the light reflected from the first reflecting mirror to the left liquid crystal display element; A second left lens positioned at a rear end of the left liquid crystal display and concentrating and outputting a left image signal output from the left liquid crystal display; A left polarization filter configured to output a left polarization signal that transmits only a left image signal in a 45 degree direction among the left image signals polarized in a 45 degree direction and output from the second lens for left; A right first lens positioned between the second reflecting mirror and the right liquid crystal display element to concentrate the light reflected from the second reflecting mirror to the right liquid crystal display element; A second right lens positioned at a rear end of the right liquid crystal display and concentrating and outputting a right image signal output from the right liquid crystal display; A right polarization filter which polarizes in a 45 degree direction and outputs a right polarization signal that transmits only a right image signal in a 45 degree direction among the right image signals output from the right second lens; And The right polarization signal output from the right polarization filter is incident and the right polarization signal is incident to the right image through the projection lens in the polarization direction, and the left polarization signal output from the left polarization filter is incident. Half-mirror to project the left image through the projection lens by shifting the phase of the incident polarization signal 180 degrees and projecting the left image through the projection lens so that the polarization direction of the left image and the polarization direction of the right image are orthogonal to each other. Stereoscopic image projection apparatus comprising a. The stereoscopic image projection apparatus according to claim 1, wherein the first left lens and the right first lens are made of a flat convex lens. The stereoscopic image projection apparatus according to claim 1, wherein the second left lens and the second right lens are flat convex lenses.

Images