RU16873U1 - OPTICAL VOLUME IMAGE SYSTEM - Google Patents

Description

OPTICAL VOLUME IMAGE SYSTEM

The proposed solution - the optical system of the volumetric image - is designed to convert a flat image into a three-dimensional. It serves to work with objects that emit (TV screens) or reflect light rays (projector screens, etc.).

The formation of a flat or volumetric image in the visual center of the brain occurs during the analysis of light rays emanating from flat or volumetric objects and perceived by the human eye (1).

When the human brain perceives the rays coming from the TV screen, the projector (for example, in a movie theater), then visual images of a flat image are formed on the basis that the source emitting (reflecting) light rays has a geometrically flat shape. Therefore, if this source has a geometrically three-dimensional shape, then the visual images that form in the visual center of the brain will be three-dimensional.

Known devices for converting a flat image into a volumetric image using glasses with chiral cells that transmit light of the same polarization, which allows you to divide the image of a stereo pair in the eyes of the viewer. The glasses used reduce the restriction on the tilt of the head of the viewer (2).

Known optical volumetric image system, which includes a light image source (3).

However, the known systems do not achieve the goal of harmonious combination in the reproduced image of a natural color, volume of objects and depth of space.

The task in creating the proposed solution was to develop a stereoscopic system that achieves the listed goals, and the result is the simplicity and efficiency of the system.

MPKN04M 13 / 00.15 / 00;

G02 C 7/16.

The light source of the image contains a set of transparent planes located between the eye of the viewer and the light source of the image.

The optical system can be made in the form of glasses containing a set of transparent planes.

This solution is characterized in that the set of transparent planes contains at least three of these planes.

You can change a flat image source (a TV screen, a projector screen, etc.) to a volume one by setting, for example, several transparent planes, for example, glasses, films, located at a distance from each other between the screen and the human eyes. Then the human brain will capture the same image emitted by the image source on several planes at once, and not on one plane plane (TV screen). And since several planes located at a distance from each other, in the aggregate, represent a geometrically three-dimensional shape, then, therefore, this image source is three-dimensional. Accordingly, the visual images perceived from this source will be formed in the visual center of the brain by volume, i.e. the image seen by man will be voluminous.

The proposed system is illustrated by drawings, which depict: FIG. 1 - a system for the example of a television and the like light source of the image; figure 2 - the implementation of the system in the form of glasses.

The drawings indicate: 1 - transparent planes, 2-TV screen, etc., 3 - glasses mount.

The optical system of the volumetric image consists of at least three glasses, slightly larger than the TV screen, installed mainly parallel to the screen at a distance of 50 mm from the screen and 50 mm from each other. A television image viewed by a person through a similar set of glasses is duplicated on each of the glasses (i.e., transferred to each of the transparent planes) and is perceived as a whole, creating

image effect of a three-dimensional image, which is not inferior in quality to other devices for demonstrating a three-dimensional image.

A similar effect is achieved when glasses are used instead of glasses, based on the same principle, in which at least three glasses are installed in parallel, located at a distance of 15 mm from the eyes and 15 mm from each other. Similar glasses can be used, for example, in the cinema hall when watching a movie.

Instead of glass, you can use transparent films.

The number of transparent planes can be four to five.

The perception of the image by the viewer using the proposed system is comfortable, and the cost of producing such an optical volumetric image system is very small compared with similar systems of the stereoscopic effect.

The proposed system, unlike existing systems, can be used in any conditions - at home or in the cinema, etc .; it does not require special recording of stereoscopic images.

Sources of information:

1. "Brief medical encyclopedia, AMS, M., 1989, p. 494.

2.Avt.svid. USSR No. 1695524, H04 N 5/74. Bull.№44, 1991.

3. “Stereoscopy and its use, ed. B.A. Anichkina, I.G. Vinitsky, Saratov University Press, Saratov, 1989, p. 203-205

Claims (3)

1. The optical system of the volumetric image, including a light source of the image, characterized in that it contains a set of transparent planes located between the eye of the viewer and the light source of the image.  2. The optical three-dimensional image system according to claim 1, characterized in that it is made in the form of glasses containing a set of transparent planes. 3. The optical three-dimensional image system according to claim 1, characterized in that the set of transparent planes contains at least three of these planes.