SU1160356A1 - Apparatus for recording image on cine-film by laser beams - Google Patents

Description

The invention relates to professional cinematography, in particular to devices for recording and printing a motion picture on a photographic medium. ' five

Devices are known for capturing images by a laser beam on a silver halide photographic carrier comprising a laser, a light modulator, an optical forming system, a scanning system, and a film channel. When recording a color image, it uses three lasers - blue, red and green, three light modulators, 15 three color-separated video signals. The combination of laser beams is carried out using a system of dichroic mirrors. A line scan of the image in the plane of the photo material is performed by a high-speed mirror scanner, a frame one is a frame deflector or ’continuous transport of films [ΐΊ. ’

The lack of such devices - 25

exceptional complexity and low speed. ₍

I

The closest to the proposed technical essence and the achieved result is ³⁰

A device for recording an image on film by a laern light source, containing ¹

analyzing system with illuminator, optically connected with the first optical forming system, and the original film channel through a multifaceted mirror scanner mounted on the shaft of the first synchronous electric motor, with photopr2

an adjustable amplifier, a synthesizing system with a laser optically coupled through a collimator with a modulator, a second optical shaping system connected to the movie channel of the copy, two original toothed drum gears and a copy kinematically connected to the second synchronous motor, and a synchronous generator

However, the known device is characterized by an insufficiently high quality of the recorded movie image and the possibility of producing only one copy, which results in productivity.

The purpose of the invention is to improve the productivity and quality of the recorded movie image.

This goal is achieved in that the device for recording an image on a film with a laser light source contains an analyzing system with an illuminator optically connected to the first optical forming system and the original film channel through a multifaceted mirror scanner mounted on the shaft of the first synchronous electric motor with a photodetector and adjustable amplifier, a synthesizing system with a laser optically coupled through a collimator with a modulator, a second optical shaping system associated with films a channel of a copy, two'transmitting gear drums of the original and a copy, kinematically connected with the second synchronous elec3, 1160356 4

by the tropic motor, and the synchronous generator, an additional collimator, a beam splitter, a logarithmator, a video signal level binding unit, an exponential converter, and

the first and second feedback photosensors, the η-knee propeller shaft and p-1 additional synthesizing systems, 10 where PTZ is a natural number, each synthesizing system contains an optical forming system, a film channel and a transporting toothed drum , additional 15

a collimator mounted between the splitter and the modulator, configured as a fixed η-sided ^pi} ramidy whose base is parallel to the plane of rotation of the scanner, and 20

the vertex is located on the optical axis of the laser coinciding with the axis of rotation of the scanner, made in the form of two articulated large bases, the truncated η-sided pyramids and 25 fixed annular η-faceted reflector, whose faces are symmetrical to the optical axis of the laser, are at an angle of 45 ° to it and parallel to the faces of the pyramid and the scanner, while the first synchronous motor is connected to the output of the first automatic control system, to the first input of which the output of the first feedback photosensor 35 is connected, connected wired with a scanner, and the output of the synchronous generator, transporting the gear drums of additional synthesizing systems and the main copy transporting drum of the copy are mounted on the Δ-knee ring of the propeller shaft mechanically connected to the outlets of the second, 45 axis synchronous motor, 45 on the shaft the second photosensor of feedback is installed, connected to the first input of the second automatic control system, to the second input of which the output of the clock generator is connected, and the output of the second oh automatic control system is connected to the second synchronous motor, the output of the photodetector is connected to the input of the modulator 55

. through sequentially connected logarithmator, adjustable force (body, block of the signal level of the video signal connected to the output of the synchro-generator, and an exponential converter. ·

Figure 1 shows a functional diagram of a device for recording a film image on film by laser light sources; Fig.2 functional diagram of the node scan of the laser beams in the plane of the scanner.

The device contains an analyzing system made of the illuminator 1, the first optical forming system 2, the first film channel 3 of the original 4, the photodetector 5, the logarithm 6, the adjustable amplifier 7, the block 8 of the binding of the video signal level, the exponential converter 9, the synthesizing system containing a laser,

10, collimator 11, modulator 12, additional collimator 13, beam splitter 14, consisting of a n-sided pyramid 15 and a stationary annular η-facet reflector 16, a second optical forming system 17, a second film channel 18, n-1 additional optical forming systems 19 , p-1

additional Canadian film 20 copies 21, a mirror scanner 22, the first synchronous motor 23 of the scanner 22, the first automatic control system 24, the first feedback photosensor 25, the synchronous generator 26, the second automatic control system 27, the second synchronous electric motor 28, the second feedback photosensor .29 feedback , the first transporting toothed drum 30 with the original 4, the second toothed drum 31, p-1 additional transporting toothed drums 32, η-knee drum this shaft 33.

The interrelation of blocks and units of the device is as follows

The lighter 1 is optically connected through the face of the scanner 22, the first optical forming system 2 with the first movie channel 3 of the original 4, the latter is mounted on the teeth of the transporting drum 30. A photo-receiver 5 is installed behind the first movie channel, the output of which is through the sequentially connected logarithm 6, the adjustable amplifier 7, video signal level block 8 and exponential converter

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9 is connected to the input of the modulator 12 of the synthesizing system. The laser radiation 10 is supplied through successively arranged collimator 11, modulator 12, additional collimator 13, pyramid faces 15, fixed ring η-face reflector 16 of the splitter 14, scanner faces 22, second optical shaping system 17 to the second film channel 18, and through η 1 additional optical forming systems 19 - in p-1 additional movie channels 20. In movie channels 18.

and 20 are synthesized copies 21 on the corresponding toothed drums 31 and 32, which are mounted on the g "-leege propeller shaft 33. The drive shaft 33 and the first transporting drum 39 are kinematically connected with the second synchronous electric motor 28, which is connected to the output of the second automatic control system 27 , to the first input of which a feedback photo output sensor 29 is connected, and to the second input - output of a synchronous generator 26, a photo sensor 29 is mounted on the shaft 33. The mirror scanner 22 is installed on the shaft of the first synchronous electrode a control unit 23 connected to the output of the first automatic control system 24, the first input of which is connected to the output of the feedback photo sensor 25 installed on the scanner 22, and the second input is the output of the clock generator 26, the output of which is also connected to the second input of the level binding unit 8 video signal.

The recording device operates as follows.

In the first film channel 3, the film of the original 4 is charged on the teeth of the first transporting gear drum 30. In the second film channel 18, the film of the first copy of copy 21 is charged on the teeth of the second transport drum 31, the remaining n-1 copies of copies 21 are charged in n-1 additional film channel to the corresponding p-1 transfrushing gear drums 32. The illuminator 1, laser 10, the first synchronous motor 23 of the scanner 22, the synchronous electric motor are switched on

The continuous film transport detector 28 of the original and copy 21. The edges of the mirror scanner 22 simultaneously scan the analyzing and synthesizing beams, while the radiation of the illuminator 1 is turned by the scanner 22 and transferred through the first optical forming system 2 to the plane of the first film channel 3, where elementwise analysis of the film image of the original 4. The number of faces of the scanner 22 is chosen to be 24-25 and determines the number of lines per revolution of the scanner 22.3a by the film channel 3; minik 5, the optical input of which receives radiation from the illuminator 1 modeled by the transparency of the original 4. The output of the photodetector 5 through the logarithm 6, converts the transparency video signals into optical density video signals, 'through the adjustable amplifier 7, the block 8 of the level of the video signal and the exponential converter 9 is connected to the input of the modulator 12 light. The block 8 of the level of the video signal fixes the level of the video signal by the pulses of the clock generator 26 during the flyback of the horizontal scan. The exponential converter 9 performs the inverse transformation of the logarithm, and is designed to ensure the proportional dependence of the radiant laser radiation flux on the video signal coming from the output of the analyzing system. Conversion of video signals. Transparencies into linear video signals of optical density allows you to produce in a regulated amplifier 7. linear conversion of video signals of optical density. The image in copies 21 is synthesized by signals from the output of the analyzing system to the input of the modulator 12 of the synthesizing system, while the radiation of the laser 10 passes the collimator 11, performing optical matching of the laser beam 10 with the optical input of the modulator 12 _o . From the output of the modulator 12, the laser radiation 10 is fed to the input of an additional collimator 13, which expands the light beam to

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size equal to the diameter of the base of the mirror pyramid-reflector 15 of the beam splitter 14. The edges of the pyramid 15 (the number of faces is equal to the number of movie channels of the copies 21) set at 5 with an angle of 45 ° to the optical axis of the laser, fan out at 90 ° to the optical axis of the laser splitting a bundle into η components. Each beam falls on the reflecting mirrors 10 16, which direct the beams to the corresponding faces of the mirror scanner 22, which produces their deflection by an angle determined by the number of faces of the scanner. The verge of the pyramid 15, "5

the faces of the reflecting mirrors of the 16 g-channel beam splitter 14 and the faces of the mirror scanner 22 are mutually parallel, the mirror scanner 22 captures the light beams with its faces and scans them through the corresponding optical forming systems 17 and 19 of the copies 21 located in the corresponding movie channels 18 25

and · 20. The mirror scanner 22 is mounted on the shaft of the synchronous motor 23, which is connected to the output of the automatic control system 24, to the first input and which is connected to the output of the photosensor 25 installed on the scanner 22, which is reflected, and to the second input is connected to the output of the synchronous generator 26. Continuous transportation system the film belt consists of the first transport gear drum 30, the second gear drum 31 and p-1 additional transport gear wheels 32, kinematically connected by η knee cardan shaft 33 with a second synchronous electric motor 28, which is connected to the output of the second automatic control system 27, to the first input of which is connected the output of the second feedback photo sensor 29 mounted on the shaft, and to the second input the output of the synchro-generator 26. Purpose of the first system 24 automatic control consists in damping the low-frequency rotations of the rotor (not shown) of the synchronous motor 23 with the scanner 22 on the shaft. The purpose of the second automatic control system 27 is to create a uniform raster along the length of the film material with a given degree of overlapping lines in copies 21. The divider 14 is fixedly mounted. The recording of the movie image in copies 21 is achieved by element-wise exposure of the photo-’graphic emulsion using video signals to the modulator 12. After the chemical-photographic processing, a movie image is obtained in copies 21 *

Compared with the known device, stability of work, quality of recording and productivity of labor are enhanced.

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Claims (1)

DEVICE FOR RECORDING IMAGE FILM LAZORNSHY light source, comprising: an analyzing system with the illuminator is optically coupled to the first optical forming system and the film channel original through mnogogranny mirror scanner mounted on the shaft of the first synchronous motor, with a photodetector ⁵ and an adjustable amplifier, synthesizing system a laser, optically coupled through a collimator with a modulator, the second optical forming system connected with the movie channel of the copy, two transporters the original cog drum and a copy kinematically connected with the second synchronous electric motor and the synchrogenerator, which is based on the fact that, in order to increase the productivity and quality of the recorded image, an additional collimator, a beam splitter, logarithm, video signal level binding unit, exponential converter, first and second automatic control systems, first and second feedback sensors, η-knee propeller shaft, and η-1 additional synthesizing systems m, where n} 3 is a natural number, each additional synthesizing system contains an optical forming system, a film channel and a transporting gear drum, an additional collimator is installed between the modulator and the beam splitter, made in the form of a fixed π-pyramid, the base of which is parallel to the plane of rotation of the scanner, and the vertex is located on the optical axis of the laser, coinciding with the axis of rotation of the scanner, made in the form of two articulated large bases of truncated η-sided pyramids and a fixed rotating arm n-faceted reflector faces which are symmetric with the optical axis of the laser, are at an angle of 45 ° thereto and parallel to the faces of the pyramid and the scanner, the first synchronous motor connected to the output of the first automatic control system, to which a first input connected to the output of the first photodetector. feedback associated with the scanner, and the second input is connected to the output of the synchronous generator, transporting the gear drums' additional synthesizing systems and the main transporting drum 1160356 copies are mounted on a ¹ π forming,-knee ring cardan shaft mechanically connected to the shaft overhangs of the second synchronous electric motor, on the shaft of which a second feedback photosensor is mounted, 'connected to the first input of the second automatic control system, to the second input of which the sync output is connected6060356 torus, and the output of the second automatic control system is connected to the second synchronous motor, the photodetector output is connected to the modulator input through a series-connected logarithm, an adjustable amplifier, a video signal level binding unit connected to the output of the synchronous generator, and an exponential converter. one