SU680003A1 - Device for reading-out charts - Google Patents

Description

The invention relates to the field of automation and computer technology and can be used in systems for input of graphic information in computers. A device for reading graphs, known for scanning, the working field by a photodetector with subsequent electronic processing of the generated signal l, is known. The closest solution to this invention is a device for reading graphs containing an optically coupled lens, a two-sided scanning mirror with a drive, a screen, a photomultiplier, a light source, a pinner, and a pulse amplifier, whose input is connected to the output of the photomultiplier, and the decoder - to the light source. The disadvantage of this device is the low accuracy of reading in the manual input mode, due to the discrepancy between the position of the touch mark on the screen and the graph line caused by steam etrov elements of the device object of the invention - povpdenie accuracy schitshyni graphs. To achieve this goal, a second scanner with a drive, installed between the light source and the lens, a splitter, installed between two-way scanning and a screen, a second photomultiplier, whose EIT is optically coupled to the splitter, a variable delay unit, inputs which is connected to the outputs of the first and second photomultipliers, and the correction unit, the input of which is connected to the output of the variable delay unit, and the output - to the drive of the second sk tween mirror. The drawing shows a block diagram of the proposed device. The device comprises a lens 1, a double-sided scanning mirror 2 with a drive, a beam splitter 3, a screen 4, a multiplier 5, a source of sweat 6, a second scanning mirror 7 with a drive, a lens 8, a second photomultiplier 9, a variable delay unit 10 and a correction unit 11. For operation of the device on the image scanning line is applied from the check mark 12. The device operates as follows. The graph is illuminated by an external source of the matchmaker (not shown in the drawing). The light reflected from the graph enters the object 1, which projects the image of the graph to the screen 4. In the light flux there is a two-sided scanning mirror 2 with the drive behind the lens. The light flux from the light source b passes through the lens 8 and, reflecting from the scanning mirror 2, hits the screen 4 and creates on it a light spot interlaced with the scanning frequency, visually observed as a vertical glowing line. In addition, the scanning mirror 2 reflects part of the light flux from lens 1 and directs the scanning image of the graph onto the diaphragm plane of photomultiplier 5. At the same time, in front of the photomultiplier 5, a cross-section image of the ribbon of the graph carrier passes. During the passage through the aperture of the diaphragm 1 1 of the photomultiplier 5, the graph lines at the output of the photomultiplier 5 generate pulse signals at the input of the variable delay unit 1O and through the correction block AND produce a deflection of the second scanning mirror 7 through its drive. As a result, horizontal label, whose position corresponds to the ordinate of the line of the graph. The luminous flux from the light source 6 through the second scanning mirror 7, the lens 8, the scanning mirror 2 and the beam splitter 3 scans before di an afragma photo multiplier 9 in such a way that when there is no signal at the drive input, the second scanning mirror 7 at the moment when the photoperiod of the second diaphragm crosses the second photomultiplier 9 produces a signal at its entrance, and if there is a signal at the time the second beam passes the opening of the second diaphragm the flow due to the deviation of the Second Scanning Mirror 7 bypasses the aperture of the second photomultiplier. The information carrier has a reference mark 12 located in the lower part of the readout field, the signal from which and scanning also passes through the multiplier 5 to the variable charging unit 10, the Photomultiplier 9 is optically fixed with screen 4 and the reference mark 2. In the absence of a mismatch with the mark of the sight and the image on the screen 4, the deflection of the scanning mirror from the signal of the mark 12 occurs in the oment when the light flux from the light source 6 passes through the aperture of the second photomultiplier .9. In this case, the light due to the second scanning mirror 7 deviates from the opening of the diaphragm of the second multiplier 9 and the signal is not formed at its output. The mismatch between the image of the reference mark 12 on the screen 4 and its indication by means of the light reticle means that the deviation of the second scanning mirror 7 occurs earlier or later than the desired moment. In this scanning of the luminous flux near the aperture of the second photomultiplier 9, the deflection of the beam will also occur earlier or later than the moment when the luminous flux must cross the opening of its diaphragm. In this case, the signal from the output of the second photomultiplier 9 is fed to a variable delay unit 10, which, depending on the "magnitude and mismatch sign between the signals from the photomultiplier 5 and the second photomultiplier 9, changes the delay value of the input signal until the error disappears. Due to the fact that the display point of the check mark 12 on the screen 4 and the aperture of the second photomultiplier 9 have a hard optical connection, the device eliminates the mismatch of M9zhdu with the image of the check mark 12, and hence the line of the graph on the screen 4 and their display with the help of a light reticle . Correction unit 11 is designed to increase the speed of the drive of the second scanning mirror 7 by raising the high-frequency spectrum of the control pulse from the output of the variable-delay block 10. These functions, for example, can carry out a differentiation circuit.

 Formula of the invention A device for reading graphs, containing an optically coupled lens, a double-sided scanning mirror with a drive, a screen, a photomultiplier, a light source and a lens, which, in order to improve the reading accuracy, it contains a second scanning mirror with a drive installed between the light source and a lens, a beam splitter installed between a two-sided ckaHHpyKHUHM mirror and a screen, a second photomultiplier, whose passage is optically coupled to the beam splitter, a variable delay unit, which is connected to the outputs of the first and second photomultipliers and a correction unit having an input connected to the output of the variable delay unit and output - to the drive of the second scanning mirror.

Sources of information taken into account in the examination

1. USSR author's certificate number 427349, cl. G 06 K 11 / GS, 1970.

2. USSR author's certificate

No. 396698, cl. Q About K 11 / GS, 1972.