SU775712A1 - Electronic copying apparatus - Google Patents

Description

(54) ELECTRONIC COPYING DEVICE

Claims (1)

The invention relates to the field of instrumentation, in particular to devices for photographic printing with automatic exposure control. The electron-copying device, which has found wide application in technical photography, in X-ray technology, in photogrammetry I, is known. This device consists of an electron-beam tube, a deflecting system of which is connected to a scanner unit, sequentially located behind an electron-beam tube of an optical proshffuyuyu system, applied glass for placement negative and positive photographic material, mirrors a, a photomultiplier tube connected to a cathode ray tube through a feedback amplifier. Masking when printing on these devices is carried out by creating an unsharp brightness mask using an amplitude MODULATION AND EXPOSURE, T.G, by changing the brightness of the scanning beam in elementary areas of negat1. However, KO is distorted into the brightness of the electron beam. The closest in technical essence to the invention is an electron-copying device comprising an electron-beam tube, a deflecting system of which is connected to a scanner unit, an applied glass behind an electron-beam tube for accommodating a negative, which is optically coupled through a beam-splitting system and an optical projection system with a screen spread out a positive photo material, a photomultiplier tube optically coupled to the beam-splitting system, and electrically through an amplifier about fraternal connection with an electron beam / tube -1. The drawback of the device is the need for the operator to make several samples for different: the values of the masking coefficient and the different values of the exposure value to obtain a photographic print with predetermined gradation characteristics. In this case, the copy of the samples depends on the operator's experience, and the accuracy of determining the value of co; masking effect and exposure value is determined on the basis of a subjective assessment of the resulting image on the best (subjective) imprint. The presence of samples and the subjective factor of image budding reduces productivity and does not provide prints with predetermined gradations / characteristics: as a result, photographic image quality is reduced. The purpose of the invention is to exclude free-form printing, to obtain prints with predetermined gradation characteristics and to improve the quality of photographic images. The goal is achieved by the fact that a logarithmic converter, an analog switch, an amplitude selector, an analyzer-optsh1,1Izator with feedback and time controllers, a synchro-generator, a block for building a characteristic curve of a positive photographic material, a switch, a type of work type print- analysis, alphanumeric display. At the same time, the output of the photomultiplier tube is connected through a switch of the type with a feedback amplifier, and through serially connected logarithmic converter, an analog key and an amplitude selector - with the first input of the analyzer-optimizer, the first output of which is connected to the feedback booster, and the second to the first input of the switch, the output of which is connected to the alphanumeric display, and the second input to the first output of the building block of the characteristic curve of the positive photo from the material, the second output of which th is connected to the second input of the analyzer of the optimizer, the third output of which is coupled to the sweep unit and the cathode ray tube, and the third input - to the first output clock, a second output of which is connected to the analog switch, and a third output - to the unit scans. FIG. 1 shows a block diagram of the device / in FIG. 2 shows an example of the functions analyzed by the operator on the display screen when determining the process parameter. The electron-copying device contains a scanning source of light, an electron-beam tube 1, a deflecting system 2, a scanner unit 3, negative 4, an application glass 5 for placing negative 4, a beam-splitting system 6, a projecting system 7, a screen 8 for accommodating positive material 9, photoelectronic multiplier 10, logarithmic converter 11, analog switch 12, amplitude selector 13, optimizer analyzer 14, feedback amplifier 15, switch 16, alavitno-digital display 17, block 18 of the characteristic curve positive photographic material, synchro-generator 19, switch 20, kind of work print-analysis, regulator 21 feedback factor, regulator 22 exposure. Electronic copying device operates as follows. In order to determine the necessary masking coefficient and the required exposure value, upon receipt of a print with the specified gradation characteristics, an analysis of the gradation characteristics of the negative image is performed. To do this, negative 4 is installed on the application glass 5, the print analysis analysis switch is set to the analysis position, the electron beam is turned on, the tube 1 and the screwdriver 3, the negative image is scanned with an electron beam of constant luminance and at a constant speed. Part of the light flux transmitted through the negative is diverted by the beam-splitting system 6 to the photomultiplier 10, the output of which is an electrical signal, a portion of the transparency of the negative, is fed to a logarithmic converter 11, which converts an electrical signal proportional to the transparency of the negative, into an optical density signal which is fed to the input of the analog switch 12, where its amplitude values are fixed at the moments of time determined by voltage pulses fed to the second input of the analog A new key 12 from the sync generator 19. The purpose of the analog key is to limit the amount of incoming information, i.e., perform static sampling with a volume determined by the frequency of the control voltage pulses of the clock generator 19. From the output of the analog key 12, amplitude-modulated pulses are sent to the amplitude selector 13, where the optical density optical signals are measured in amplitude and, according to the amplitude of the amplitude, are distributed over d) to the memory of the storage device, analyzing the torus optimizer 14, where d account their number. Thus, a putogram of the negative optical density distribution is formed in the storage part of the device 14. Through the switch 16, this histogram is displayed on the screen of the alphanumeric display 17. To the second input of the switch 16 there is connected a block 18 for constructing a characteristic curve of positive photographic material. Received on the curve is output via the switch 16 to the screen of the alphanumeric display 1 7 and simultaneously to the second input of the analyzer-optic mixer 14, where it is registered in the memory device. Characteristic curve in the memory of the analyzer-optimizer 14 and on the display screen 17 takes its position in accordance with the photosensitivity of the photographic material. The operator observed on the display screen the nature of the distribution of optical potentialities negat sha N (Tjc (see steep 1, fig. 2) and its position on the axis of optical densities, as well as the characteristic curve of the positive photo photo material Sc and its position on the axis of exposure (see curve U), the controller 21 of the feedback coefficient through the functional converter of the analyzer optimizer 14 changes and modulates the histogram of the optical density distribution of the masked negative image (curve G), and the regulator 22 exposure values through the functional converter of the analyzer-optimizer sets the mixing of the characteristic curve along the axis of exposure (curve I). Offset of the characteristic curve along the axis of exposure determines the scanning time (exposure) when printing negative, based on the obtained optical density data of masked HeraTima (crt 1, and taking into account the characteristic curve (curve I), the functional converter of the analyzer-optimizer converts the distribution of optical densities HeraTima into Optical density (curve JIl) is shown on a positive print that is displayed on the display screen. The shape of the histogram of the density distribution on a positive print (111 and III) is determined by the position of the inverse 12 controls. 6 The linkage and the exposure magnitude correspond to the specified masking, as well as the appearance and shift of the characteristic photo positive photo material. Modeled in the analyzer optimizer 14, the curve of the distribution of positive optical densities (curve III) gives the operator a priori data on the gradation characteristics of the imprint before it is received. The found values of the masking coefficient and the exposure values are fixed by the optimizer-analyzer 14. When the switch is placed on the print 20 to the print position, a copy of the screen 4 is taken on the photographic material. The analyzer-opt5 analyzer, in accordance with the set magnitude of the exposure, controls the scanning cycle through the scanner unit 3 and the electron-receiving tube 1, and based on the set feedback coefficient, the masking cycle through the feedback amplifier. For synchronous and common-mode operation, an analog switch 12, an analyzer-optimizer 14, a scanner unit 3 is connected to a synchronous generator 19. Formula of the invention Electron-copying device containing an electron-beam tube, from which tilting system is connected with a scanner unit, an application glass behind the electron-beam tube to accommodate a negative that is optically coupled through the beam-splitting system and the optical projection system with a screen for placing positive photo material, a photomultiplier tube optically connected with the light-deliberate to the: theme, and electrically through the feedback amplifier with the electron-beam tube, which means, in order to eliminate the test print, to obtain prints with gradational characteristics And and improving the quality of the photographic image, a logarithmic converter, an analog key, an AMR-PLY1UDNY selector, an anolyzer-optimizer with feedback and time controllers, a synchro-generator, a block for the construction of a characteristic positive photomat Riala, switch, type of job switch print anaiz and alphanumeric display, with