RU7569U1 - STEREO TV SYSTEM - Google Patents

Abstract

A stereo television system comprising a video camera consisting of two lenses, two image-to-electrical signal converters equipped with video amplifiers, and a control device, a television channel, a television receiver equipped with two polarizing filters with mutually perpendicular polarization planes, and polaroid glasses, characterized in that the outputs of the video amplifiers of both image converters into an electrical signal are connected to the input of the electronic switch, the output of which is it is single with the input of the shaper of the television frame, and the output of the latter is with the input of the terminal video amplifier, and the television receiving device is a video projector with a screen and video matrix for generating projected images, in which along the light rays from the lamp after the video matrix there is an optical stereo nozzle, each of two channels which is equipped with an anamorphic lens with a positive anamorphism coefficient and a polarizing filter, and the screen is made of a material capable of preserving to polarize the light flux from anamorphic lenses.

Description

The technical field to which relates

The utility model relates to the field of television technology, namely, to stereo television systems using the polaroid principle of image separation.

State of the art

A well-known stereo television system (Katys G.P. Volumetric and quasi-volumetric presentation of information. M: Energia, 1975, p. 52-55), using the polaroid principle of image separation and containing two video cameras located at some distance from each other, two television channels , two television sets, two polarizing filters with mutually perpendicular planes of polarization and polaroid glasses. In the system, after shooting, transmitting signals on two television channels and reproducing images of the left and right frames of a stereo pair by two television receivers, separation of the left and right is a useful model

Stereopairs are realized using two polarization filters with mutually perpendicular planes of polarization installed in front of the screens of television receivers and polaroid glasses used by the audience.

The disadvantage of such a stereo television system is the doubling of television equipment and the need to use two television channels to transmit three-dimensional images on television.

Closest to the technical nature is the stereo television system (Mamchev G.V. Stereo television. M.: Energy, 1979, p.21-22; Shmakov P.V. et al. Stereo television. M.: Communication, 1968, p. 81- 83) using the polaroid principle of image separation, which contains a video camera consisting of two lenses, two image converters into an electrical signal, equipped with video amplifiers and a control device, a television channel, a television receiver equipped with polarizing filters with mutually perpendicular oskostyami polarization and Polaroid glasses. In this system, after shooting with a video camera, transmitting a video signal and playing back, separation of the images of the left and right frames of a stereo pair is carried out by polarizing filters with mutually perpendicular planes of polarization, which are equipped with a television receiver, and polaroid glasses used by viewers.

The disadvantage of such a stereo television system is the doubling of the bandwidth of the video path compared to broadcast television.

Utility Model Essence

The objective of the utility model is to create a stereo television system using the polaroid principle of separating stereo pair frames and providing the possibility of observing a three-dimensional image with an optimal frame format.

EFFECT: creation of broadcasting and applied television systems providing transmission of stereo images with an optimal frame format on one broadcasting television channel, based on modern means of television technology.

The technical result is achieved by the fact that in a stereo television system containing a video camera consisting of two lenses, two image to electrical converters equipped with video amplifiers, a control device, a television channel,

a television receiver equipped with two polarizing filters with mutually perpendicular planes of polarization, and polaroid glasses, the outputs of the video amplifiers of both image converters into an electrical signal are connected to an electronic switch, the output of which is connected to the input of the frame shaper, and the output of the latter is connected to the input of the terminal video amplifier. The television receiver of the system is a video projector with a screen and a video matrix for generating projected images, in which along the light rays from the lamp, after the video matrix, an optical stereo nozzle is placed, each of the two channels of which is equipped with an anamorphic lens with a positive anamorphism coefficient and a polaroid filter, and the screen is made from a material capable of preserving the polarization of light fluxes from anamorphic lenses.

Compared with the prototype of the claimed design has a difference in the combination of elements, their connection and location.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 illustrates a stereo television system.

Best implementation

The stereo television system contains a video camera 1 for shooting an object 2, a television channel 3, a television receiver 4 equipped with polarizing filters 5 and b with mutually perpendicular planes of polarization and a screen 1, and polaroid glasses 8 with polarizing filters 9 and 10 with mutually perpendicular planes of polarization.

The video camera 1 contains lenses 11 and 12 located in a horizontal plane at some distance from each other, image converters into an electrical signal 13 and 14 with video amplifiers 15 and 16, an electronic switch 17, a frame shaper 18, a control device 19, and an end video amplifier 20. Outputs video amplifiers 15 and 16 are connected to the input of the electronic switch 17, its output is connected to the input of the frame former 18, and the output of the latter is connected to the input of the terminal video amplifier 20. The output of the video amplifier 20 is connected to a television channel 3. The device 19 serves to control all blocks camcorder. The television receiving device 4 is a video projector comprising a projection lamp 21, an optical model

system 22, video matrix 23 for forming

projected images, an optical stereo nozzle 24 (Shmakov G.V. et al. Stereo. M: Communication, 1968, p. 81-83), equipped with anamorphic lenses 25 and 26 for projecting the left and right frames of the stereo pair. Lenses have positive and equal anamorphism coefficients. The electronic device 27 is designed to receive a signal from a television channel, process it and control the video matrix.

The stereo TV system operates as follows. The camera 1 through the lenses 11 and 12 carry out the shooting of the left and right angles of the object 2. In this case, converters 13 and 14 form the images of the left and right frames of the stereo pair corresponding to these angles. The images of the left and right frames of the stereo pair are converted into electrical signals, which are amplified by video amplifiers 15 and 16. The signals of the video amplifiers are fed to the input of the electronic switch 17. The latter alternately connects the video amplifiers 15 and 16 to the shaper 18 of the television frame so that it is connected to the shaper in the first half of each line the output of the video amplifier 15, and the second, the output of the video amplifier 16. Thus, at the output of the shaper of the television frame there is a video signal that carries information about twice compressed horizontal plane images of left and right frames of a stereo pair. This video signal through the video end amplifier 20 enters the television channel 3, and then to the television receiving device 4. The electronic device 27 receives the signal from the television channel, processes the signal, and generates on the video matrix 27 two-time compressed images of the left and right frames of the stereo pair . Using optical stereo nozzles, these images are sent to two anamorphic lenses, with which the images of the left and right frames of the stereo pair are stretched twice in the horizontal plane and projected onto the screen. Passing through polarizing filters 5 and 6, the light fluxes from the lenses are polarized in mutually perpendicular planes. Polaroid glasses 8 carry out spatial separation of the left and right frames of a stereo pair that are simultaneously displayed on screen 7. As a result, the viewer through the glasses can observe a three-dimensional image of an object with the same format that was adopted when shooting, for example, with an optimal 4: 3 format; 5: 4 or the new 16: 9 format.

the ability to transmit 3D images on television, with a simple refinement of the camcorder and television receiver;

-the ability to use one television channel when transmitting volumetric images with the optimal and new format;

- ease of implementation.

Industrial applicability

The stereo television system can be widely used in broadcast and applied television.

Claims (1)

A stereo television system comprising a video camera consisting of two lenses, two image-to-electrical signal converters equipped with video amplifiers, and a control device, a television channel, a television receiver equipped with two polarizing filters with mutually perpendicular polarization planes, and polaroid glasses, characterized in that the outputs of the video amplifiers of both image converters into an electrical signal are connected to the input of an electronic switch, the output of which it is single with the input of the shaper of the television frame, and the output of the latter is with the input of the terminal video amplifier, and the television receiving device is a video projector with a screen and video matrix for generating projected images, in which along the light rays from the lamp after the video matrix there is an optical stereo nozzle, each of two channels which is equipped with an anamorphic lens with a positive anamorphism coefficient and a polarizing filter, and the screen is made of a material capable of preserving to polarize the light flux from anamorphic lenses.