SU940126A1 - Device for recording images with laser beam - Google Patents

Description

(54) DEVICE FOR RECORDING OF IMAGE The invention relates to professional cinematography, in particular to devices for recording and printing images on a carrier. And; rightly a device for recording images by a laser beam on a halogen-free silver photographic carrier containing a laser, a light modulator, an optical system, a scanner. When recording a color image, three lasers (blue, green, and red) and three video signals are used to record each color. The combination of laser beams is optical, with the help of a dichroic air cap system. The line scanning of the image is carried out with a high-speed mirror scanner, and the frame scan is performed with the help of a frame mirror galvanometer, deflector. Under the action of the modulating signal, the laser beam creates on the film a hidden color image, which is further processed by conventional ones. by chemical methods tl by a LASER BEAM The drawbacks of the device are the complexity, since it is intended to record a television image on film, and, in accordance with the standard, must have a high speed-gey. In addition, film recording is carried out in a light-insulated camera and subsequent chemical processing of the film is required, which eliminates the possibility of direct visual control of the quality of the recorded movie image. The closest in technical essence to the present invention is a device for recording an image with a laser beam, comprising a scanning unit associated with an analyzing system and a synthesizing system with a continuous radiation laser, the scanning unit being designed as a 2-sided mirror prism, where Γg is an integer , a collimator and connected to the analyzing system through an adjustable amplifier with a modulator, film channels, transporting barmbias for the original and a copy mounted on the same shaft and connected to the blue ronnym drives t2.

However, the known device does not have sufficient stability of operation, which is caused by the need for phase synchronization of two synchronous drives, as well as sufficient image quality recorded on a copy. The purpose of the invention is to raise the stabil-O synthesis to carry the device and the quality of the image recorded on a copy. This goal is achieved by introducing a logarithm, a horizontal sync pulse shaper and a video signal level linker into the device, the first photodetector output being connected to the horizontal sync pulse shaper input, one output of which is connected to the synchronous drive of the transporting drums, and the other output is connected to one from the inputs of the video signal level binding device, another input connected via an adjustable amplifier and a logarithm to the second output ika and the output level of the video device affixing connected to the input of the modulator. The drawing shows the functional scheme of the device. The device contains a continuous radiation laser 1, a collimator 2, a modulator 3, an optical shaping system 4, a mirror prism scanner 5, a synchronous drive 6 of the scanner 5, a synchronous drive 7 of the continuous transport of the original 8 and a copy 9, gear toothed drums 10 and 11 installed on one shaft 12, controlled by a synchronous drive 7, the schsidrically movie channels 13 and 14 are analyzed by an analyzing system consisting of axles 15 and a photodetector 16, which are connected to the logarithm 17 and form a 18 line sync uyuschego pulse adjustable amplifier 19 is connected to an apparatus 2O affixing video signal level. The scanner 5 is simultaneously an element of the analyzing and synthesizing systems, and the distance between axial 00. The channels 13 and 14 are equal to the paccTOHHijpo between the alternating vertices of the mirror prism of the scanner 5. The device works as follows, To the movie channels 13 and 14 and to the jagged conveying 1O drums

Claims (2)

and And the original 8 and the copy 9 are charged. The laser 1, the illuminator 15 of the analyzing light, the synchronous drive 6 of the scanner 5, the synchronous drive 7 of the continuous transport of the original 8 and the copy 9 are turned on. The edges of the mirror prism of the scanner 5 are simultaneously scanned by an analyzer beam of the illuminator 15 and a laser beam 1, producing a cinematic image on copy 9. The image on copy 9 is synthesized using electrical optical density signals taken from the output of the radiator 17 connected to the first output of the photodetector 16, through an adjustable amplifier 19 and a video signal level binding device 20 using a modulator 3. The logarithm 17 converts the transparency signals of the original 8 into optical density linear signals according to Weber-Fechner law, which allows linear conversion with an optical density signal in the adjustable amplifier 19. The second output of the photodetector 16 is connected to the shaper 18 of the horizontal synchronizing pulse, which is generated during the return stroke of the analyzing light beam. Shaper 18 plays the role of a synchronizing generator for the synchronous drive 7 of the transporting reels 10 and 11 for the original 8 and copy 9 connected to the drive 7 by means of a common shaft 12, in this case the output of the former 18 is connected to the synchronous drive 7. The second output of the forwarder 18 is connected To the first input of the device 2O, the video signal level is set to the second input of which is connected via an adjustable amplifier 19 to the output of the logarithm 17. The video signal level linking device 20 operates by analogy with similar devices, in television, and is intended to stabilize the video signal level of optical density, which ultimately improves the image quality in the synthesized copy 9. The output of the 2O device is connected to the input of the modulator 3. To match the optical diameter of the laser 1 with an input light diameter of the modulator 3 collimator 2 is used. Optical shaping {that system 4 is intended to form the necessary aperture of the synthesizing beam in the copy plane 9. In order to ensure that the analyzing and synthesizing rays are located in the fip plane, the channels 13 and 14 of the original 8 and copy 9 are spaced between the longitudinal axial 00 and 00 equal to the size R between alternating vertices A and & mirror prism-scanner 5, and to ensure focusing on the line edges, the film channels 13 and 14 are curved cylindrically in the direction perpendicular to the movement of the films. The recording of the image in copy 9 is achieved by element-wise local evaporation of the non-cerebral dye from the base of the film of copy 9 in accordance with the electrical signals fed to the modulator 3. The device is designed to record leader tape for parts of films. The length of the tape tape for each part of the print is 6 m. In the proposed device, the stability and quality of the recorded image are consistent. The invention is a device for recording an image with a laser beam, comprising a scanning unit made in the form of a 2-sided mirror prism, transporting gear drums mounted on one shaft, curved film channels whose axes are located at a distance equal to the distance between alternating apexes of mirror prism, synthesizing system, made in the form of consecutive radiation on the optical axis of the laser, collimator, modulator and optical system, analyzing the system It is made in the form of an illuminator, a photodetector, and an adjustable amplifier, and synchronous procedures associated with a mirror prism and transporting bar-shaped abanas, characterized in that, in order to increase stability of work and increase its quality. image is recorded, a logarithmizer, a horizontal sync pulse shaper and a video signal level linker are entered into it, the first photoreceiver output being connected to the horizontal sync pulse shaper input, one output of which is connected to the synchronous drive of the transporting drums, and the other output is connected to one of the inputs a device for assigning a video signal level, another input connected via an adjustable amplifier and a logarithm to the second output of a photodetector, and you The video signal level device's travel is connected to the modulator input. Sources of information taken into account in the examination 1. Radio electronics abroad. News bulletin. M., 1975, vol. 6 (77O), p. 18-23. 2. USSR author's certificate for application number 2915О25 / 18-1О, class Q OZ B 27/46, 16.O4.80 (prototype).