JPH075325A - Polarizing film for stereoscopic display and stereoscopic display device - Google Patents

Abstract

PURPOSE:To simplify the construction and driving of stereoscopic spectacles in stereoscopic viewing of images by utilizing the polarizing films for stereoscopic display alternately arranged with two kinds of polarizing plates varying in unit shapes and polarization direction equally flush with each other. CONSTITUTION:The polarizing films 1 and 1a for stereoscopic display vary by 90 deg. in the directions where two kinds of the polarizing plates (a)2 and (b)3 having the polarization directions perpendicular to each other are arranged. Incident light 101 entering via a glass substrate 10a passes the polarizing films 1 for stereoscopic display as it is when liquid crystal arrangements 8 arranged with liquid crystals corresponding to pixels are not impressed with voltages by electrodes 9a, 9b. The incident light does not pass the polarizing films 1 for stereoscopic display when the voltages are impressed thereto. Two kinds of the videos are thereby displayed. The stereoscopic viewing with the stereoscopic spectacles having the simple construction is thus enabled.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a stereoscopic display polarizing film and a stereoscopic display device, and more particularly to a stereoscopic display polarizing film and a stereoscopic display device for performing stereoscopic display by a video camera.

[0002]

2. Description of the Related Art In conventional stereoscopic display using a video camera, images viewed from the right eye and images viewed from the left eye are alternately displayed at high speed, and the left and right lenses are alternately shuttered at high speed for this display. Utilizing this, stereoscopic viewing is enabled by synchronously controlling the operation so that the left-eye image is viewed when the right-eye shutter is down and the right-eye image is viewed when the left-eye shutter is down.

[0003]

The conventional stereoscopic display by the video camera requires glasses having a complicated structure in which left and right lenses are alternately shuttered at high speed, and further, the displays of the glasses and the display are synchronized with each other. There is a problem that the control circuit of is required.

The object of the present invention is to solve the above-mentioned problems,
An object of the present invention is to provide a stereoscopic display polarizing film and a stereoscopic display device that do not require glasses having a complicated structure.

[0005]

A three-dimensional display polarizing film of the present invention is a uniform polarizing film in which first and second polarizing plates of predetermined display units whose polarization directions are orthogonal to each other are in contact with each other and have symmetry. It has a configuration in which planes are alternately arranged in an arrangement pattern.

Further, the three-dimensional display polarizing film of the present invention has a first display unit of predetermined display units whose polarization directions are orthogonal to each other.
And one of the second polarizing plates is arranged in a plane in a uniform arrangement pattern having symmetry with the polarization direction aligned and the optically transparent member of the predetermined display unit interposed. And the other polarizing plate other than the polarizing plate arranged on the first polarizing film is arranged in a plane in a uniform arrangement pattern having symmetry corresponding to the optically transparent member. No polarizing film, the first
And the second polarizing film does not face each other, and the first and second polarizing films are polymerized.

In the stereoscopic display device of the present invention, a liquid crystal array of a plurality of liquid crystals corresponding to pixels arranged in contact with each other and a pair of electrodes arranged on both sides of the liquid crystal array to drive the liquid crystal array. , Two optically transparent members arranged facing each other on the pair of electrodes and first and second polarizing plates of predetermined display units whose polarization directions are orthogonal to each other are in contact with each other and symmetrical Of the first stereoscopic display polarizing film and the first stereoscopic display polarizing film alternately surface-arranged on one of the two optically transparent members in a uniform arrangement pattern having a property And a second stereoscopic display polarizing film disposed on the other of the two optically transparent members, wherein the arrangement of the polarizing plates is reversed and the stereoscopic liquid crystal display is provided. .

Further, the stereoscopic display device of the present invention has a constitution including a stereoscopic display CRT display having a stereoscopic display polarizing film provided with a polarizing plate arranged corresponding to a constant display unit of the CRT display at a constant ratio.

Further, the stereoscopic display device of the present invention has a structure including stereoscopic glasses in which two polarizing lenses whose polarization directions are orthogonal to each other are formed as left and right lenses.

The stereoscopic display device of the present invention has a structure in which a stereoscopic display image using a stereoscopic display polarizing film is stereoscopically viewed by the stereoscopic glasses.

[0011]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, the present invention will be described with reference to the drawings. FIG. 1 is a perspective view of a stereoscopic display polarizing film of a first embodiment of the present invention. Stereoscopic display polarizing film 1 shown in FIG.
Is a basic constituent element of the present invention in which two types of polarizing plates (a) 2 and (b) 3 of two kinds whose polarization directions are orthogonal to each other are in contact with each other and are evenly arranged in a plane. Is. The parallel lines shown in the figure schematically show the polarization direction,
It has no direct relation to the actual structure.

FIG. 2 is a perspective view of the stereoscopic display polarizing film of the second embodiment of the present invention.

The three-dimensional display polarizing film 7 shown in FIG. 2 is a first polarizing film in which the polarizing plate (a) 2 of the first polarizing plate of a constant display unit is arranged evenly on one surface with the polarization directions aligned. Polarizing film (a) 4 and polarizing film (a) 5
Means that the polarizing film (b) 6 which is the second polarizing film in which the polarizing plates (b) 3 of the second polarizing plate of a constant display unit whose polarization directions are orthogonal to each other are evenly arranged on one surface It is composed by overlapping through the transparent member 4 so that the plates do not overlap each other, whereby two images whose polarization directions are perpendicular to each other can be displayed.

FIG. 3 is a perspective view of a stereoscopic liquid crystal display according to a third embodiment of the present invention.

The three-dimensional display liquid crystal display 11 shown in FIG.
Liquid crystal array 8 composed of a plurality of liquid crystals arranged in contact with each other
And a pair of electrodes 9 facing each other to drive the liquid crystal array 8.
a and 9b, and two optically transparent member glass substrates 10a and 10b disposed on the electrodes 9a and 9b,
The three-dimensional display polarizing film 1 shown in FIG. 1 as the first three-dimensional display polarizing film arranged on the glass substrates 10a and 10b, and the polarizing plate (a) 2 and the polarizing plate (b) constituting the three-dimensional display polarizing film 1. 3 includes a stereoscopic display polarizing film 1a as a second stereoscopic display polarizing film in which the arrangements of 3 are opposite to each other, and FIG. 3 also shows incident light 101 together.

The polarizing plates (a) 2 and (b) 3 constituting the three-dimensional display polarizing film 1 correspond to the liquid crystals corresponding to the pixels constituting the liquid crystal array 8 at a ratio of 1: 1 and the polarization directions are alternately orthogonal to each other. It is arranged in a checkered pattern like a grid. At the time of display, the liquid crystal array 8 and the glass substrate 10a
The incident light 101 that has passed through is the stereoscopic display polarizing film 1a.
When passing through, the amplitude direction of light is limited for each pixel, and two types of polarized light whose amplitude directions are orthogonal to each other are made incident on each liquid crystal of the liquid crystal array 3. Each liquid crystal of the liquid crystal array 8 has an electrode 9
If no voltage is applied by a and 9b, the incident light 101
Is controlled so as to pass through the stereoscopic display polarizing film 1 and not pass through the stereoscopic display polarizing film 1 when a voltage is applied, and by applying a voltage to the liquid crystal array 3 and a combination of two stereoscopic display polarizing films 1 and 1a arranged opposite to each other. It is possible to simultaneously display two images on one screen.

The image for stereoscopic display is an image in which the image from the right and the image from the left overlap. When the image is displayed on the stereoscopic liquid crystal display 11, the image from the right is displayed by using one of two types of polarized light, and the image from the left is displayed with the remaining polarized light in advance. Which pixel is used for display is taken into consideration. The displayed image for stereoscopic display is a polarizing lens that passes only polarized light displaying the image from the right, to the right eye,
Viewing with the glasses from the left, I have glasses with a polarizing lens that passes only the polarized light that passes through the left eye. The image from the right can be seen only by the right eye, and the image from the left can be seen only by the left eye for stereoscopic viewing.

FIG. 4 is a stereoscopic display C according to the fourth embodiment of the present invention.
FIG. 5 is a perspective view of an RT display, and FIG. 5 is a view schematically showing stereoscopic glasses of a fifth embodiment of the present invention.

The stereoscopic display CRT display 12 having the stereoscopic display polarizing film 13 shown in FIG. 4 and the stereoscopic glasses 14 having the right polarizing lens 15 and the left polarizing lens 16 whose polarization directions are orthogonal to each other shown in FIG. The image from the right is constructed on the premise that the image is displayed with light in the vertical direction of the screen in the amplitude direction, and the image from the left is displayed with light in the horizontal direction of the screen. The stereoscopic display polarizing film 13 used in the stereoscopic display CRT display 12 is composed of a polarizing plate of a constant display unit in which the screen of the CRT is minutely divided into a lattice. This stereoscopic display CRT display 1
The image for stereoscopic display shown in 2 is based on the above-mentioned premise, and the image from the right has only the pixels having the polarizing plate whose polarization direction is the vertical direction, and the image from the left has the polarizing plate having the horizontal polarization direction. In order to display only the pixels, the positions of the respective images are taken into consideration where the images are displayed in a fixed display unit that is minutely divided into a lattice of the stereoscopic display CRT display. When the stereoscopic image displayed in this way is viewed using stereoscopic glasses, the image from the right passes through the right-eye lens whose polarization direction is the same because the amplitude direction of the light is the vertical direction. , The left-eye lens whose polarization direction is orthogonal to the left-right direction does not pass. Similarly, an image from the left only passes through the lens of the left eye. As a result, the right eye sees only the image from the right and the left eye sees the image from the left, and stereoscopic viewing is possible.The stereoscopic display system that enables such stereoscopic viewing is a stereoscopic display using a stereoscopic display polarizing film. This can be optionally performed by using stereoscopic glasses that use polarized light for the display image of the device.

[0020]

As described above, according to the present invention, the image from the right and the image from the left are simultaneously displayed on one screen to enable stereoscopic viewing with the spectacles equipped with the polarizing lens. Is significantly simplified, and the high-speed shutter operation of the eyeglasses and the control circuit for synchronizing the high-speed shutter operation and the display can be eliminated.

[Brief description of drawings]

FIG. 1 is a perspective view of a stereoscopic display polarizing film according to a first embodiment of the present invention.

FIG. 2 is a perspective view of a stereoscopic display polarizing film according to a second embodiment of the present invention.

FIG. 3 is a perspective view of a stereoscopic liquid crystal display according to a third embodiment of the present invention.

FIG. 4 is a perspective view of a stereoscopic CRT display according to a fourth embodiment of the present invention.

FIG. 5 is a diagram schematically showing stereoscopic glasses according to a fifth embodiment of the present invention.

[Explanation of Codes] 1,1a Stereoscopic display polarizing film 2 Polarizing plate (a) 3 Polarizing plate (b) 4 Transparent member 5 Polarizing film (a) 6 Polarizing film (b) 7 Stereoscopic displaying polarizing film 8 Liquid crystal array 9a, 9b Electrodes 10a, 10b Glass substrate 11 Stereoscopic display liquid crystal display 12 Stereoscopic display CRT display 13 Stereoscopic polarizing film 14 Stereoscopic glasses

Claims (6)

[Claims] 1. The first and second polarizing plates of predetermined display units whose polarization directions are orthogonal to each other are alternately arranged in a plane in a uniform arrangement pattern which is in contact with each other and has symmetry. Three-dimensional display polarizing film. 2. An optically transparent member of a predetermined display unit in which one of the first and second polarizing plates of predetermined display units whose polarization directions are orthogonal to each other is aligned in polarization direction. And the other polarizing plate other than the polarizing plate arranged on the first polarizing film is formed into a first polarizing film by plane-arranged in an even arrangement pattern having symmetry with the optically transparent member. To form a second polarizing film by arranging in a plane with a uniform arrangement pattern having symmetry, and polymerizing the first and second polarizing films without the first and second polarizing plates facing each other. A polarizing film for stereoscopic display, characterized by comprising: 3. A liquid crystal array of a plurality of liquid crystals corresponding to pixels arranged in a plane so as to be in contact with each other, a pair of electrodes arranged to face both sides of the liquid crystal array to drive the liquid crystal array, and a pair of electrodes on the pair of electrodes. A uniform arrangement pattern in which two optically transparent members arranged facing each other and first and second polarizing plates of predetermined display units whose polarization directions are orthogonal to each other are in contact with each other and have symmetry And the first three-dimensional display polarizing film and the first three-dimensional display polarizing film, which are alternately surface-arranged on one of the two optically transparent members, are the first
And a second stereoscopic display polarizing film which has the arrangement combination of the second polarizing plates reversed and which is disposed on the other of the two optically transparent members, and a stereoscopic display liquid crystal display. 4. A stereoscopic display CRT, comprising a stereoscopic display polarizing film having a polarizing plate arranged corresponding to a constant display unit of the CRT display at a constant ratio.
display. 5. Stereoscopic glasses comprising two polarizing lenses whose polarization directions are orthogonal to each other as left and right lenses. 6. A stereoscopic display system, wherein a stereoscopic display image using a stereoscopic display polarizing film is stereoscopically viewed by the stereoscopic glasses.