SU951339A1 - Device for reading graphic data - Google Patents

Description

(54) DEVICE FOR READING GRAPHIC INFORMATION

The invention relates to automation and computing, in particular, to devices for reading graphic information. Graphic information reading devices are known that contain a photoelectric scanner unit connected in series, including a tape mechanism from a carrier & m of graphics, a light source, a projection lens, a deployment mirror mounted on the axis of an electrical signal converter to the angular position of a mechanical photoelectric converter with Yushi Gyaafragma, the search and capture unit, the time discriminator and the right block, the integrator and the amplifier of the electric drive, which form the basis implicit closed loop tracking of the image graph line. In addition, the device contains an additional control circuit, including a reference pulse generator, the first output of which is. The second is connected to the second input of the main readout circuit, and the second output is connected to the second input of the control unit through the local sweep generator. The device also contains an additional error correction circuit arising due to a change in the phase delay of oscillations of the output mechanical axis of an electrical signal converter, including a time discriminator, a generator of selector pulses, an integrator, a time modulator, a time delay generator, and a switch of selector pulses Cl. The disadvantage of this device is its low accuracy. Closest to the invention is a device comprising a photoelectric conversion unit connected to control and discrimination units of the pulses whose inputs are connected to pulse generators and alternating voltage, a misalignment driver, which is connected to a pulse duration regulator, and a pulse distributor. f23, The rest of this device is not a high enough accuracy of the device. The purpose of the invention is to improve the accuracy of the device. The goal is achieved by the fact that the device contains a photoelectric conversion unit whose input is connected to the control unit, and the output is connected to one of the first dis- criminator pulse, the other input is connected to the pulse generator, and the alternating voltage generator connected to the inputs of the control unit and the pulse generator, a series-inoperated limiter amplifier, a second pulse discriminator, an integrator, whose output is connected to an alternating voltage generator, are introduced in series Eni, and the one-shot, the other input of which is connected to the amplifier-limiter, and the output is connected to the input of the second discriminator pulse. The drawing shows the block diagram of the device. The device comprises a photoelectric converter unit 1, the first 2 and second 3 pulse discriminators, the amplifier-limiter 4, the one-oscillator control unit 5, the integrator 7, the alternating voltage generator 8 and the pulse generator 9. In this case, unit 1 contains a flap depressing mechanism 10 with a carrier 11 of graphics, illuminated by source 12 of light and located in the area of objects of the projection lens 13, in the image area whose appearance is optically coupled by a spreading mirror 14 mounted on the axis of the electric converter 15 signal to the angular position of the mechanical axis, and a photoconverter 16 with a separating diaphragm 17. The device operates as follows. The image of the carrier 11 of the graph, charged into the tape-forming mechanism Yu and illuminated by the light source 12, is projected using a projection lens 13 and a sweep mirror 14 mounted on the electrical signal converter 15 to the angular position of the mechanical axis, 17 for which is located; photoconverter 16. In the process of reading, when the order of the processed graph is changed as a result of moving the ngx: rotary mirror 14 under the action of the negative feedback circuit, covering block I, discriminator 2 and block 5, it rotates continuously, ensuring the image of the line of the graph is not directly around the diaphragm 17 photoconverter 16. The control signal, under the influence of which the axis of the converter 15 turns around and, consequently, the mirror 14, is developed by means of block 5, Intensity of the impulse error signal generated by the discriminator 2, in order to generate a impulse error signal between the center of the graph line and the read trasement, i.e. the projection of the diaphragm 17 onto the graph carrier, the sweeping mirror 14 is attached to an oscillatory motion excited by block 5 through the output of a commanded signal from the controlled oscillator 8, from which the pulses necessary for the operation of the discriminator 2 are also generated by the generator 9. These pulses are generated at the times when a local sweep of the image of the traffic carrier passes through the level,;, corresponding to the next sweep. Under this condition, in the steady state reading mode, the center of the local scan is aligned with the center of the line of the graph. The accuracy of the discriminator 2, i.e. the accuracy of the generation of the mismatch signal of the main tracking contour, is significantly affected by the styling of the read pulse parameters that occur on the flow of block 1 when crossing the raster element of the graph line, and above all the duration of these pulses. When n «5 is the amplitude of the oscillations of the mirror 14, which provides local scanning of the image of the carrier of the graph, in close proximity to the recording, the duration of the tfftJbcoE reading changes according to the width of the graph. With large changes in the width of the graphic line, the ego not only reduces the accuracy of reading, but also leads to disruption of tracking. To increase the reading accuracy and reliability of the device, it is necessary to adjust the size of the local scraper in accordance with the width of the gra line (as a result, the readout pulses at the input of the discriminator 2 are stabilized. The adjustment is performed by changing the value of the Output Sigal of the generator 8,

59

controlled by the output signal of the engragor 7. This control signal is formed by integrating the signals inputted by the discriminator 3 over the pulses of the controlled single vibrator b and the normalized read pulses from the output of the amplifier-limiter 4, from the leading edge of which the single vibrator 6 is triggered. The output signal of the integrator is 7.

As a result, when changing the duration of the read pulses at the output of block 1, the output voltage of the generator 8 changes, causing a local sweep so that the change in the pulse duration due to the negative feedback circuit considered will be compensated. to stabilize, which significantly improves the accuracy of reading graphic information, the width of the recording line of which varies within wide limits.

After the termination of the readout transient processes and the adjustment of the local sweep value, the control action developed in block 5 is converted into a digital code and outputs to the device output.

The introduction of new nodes and elements, as well as new constructive links

96

allowed to significantly improve the accuracy of the device.

Claims (2)

1. USSR author's certificate number 441575, cl. q Rev 11 / GS, 1973. 2. Japanese Patent No. 53-42373, cl. 97 (7) B 23 ,. publish 1978 (prototype).