SU720428A1 - Device for reading-out graphical data - Google Patents

Description

The invention relates to the field of automation and computer engineering and can be used in geology and mining for converting plans into projections on an inclined plane.

Known devices for reading graphic information that solve this problem [1, 2].

One of the known devices contains a fixed guide rod and two rulers moving along it, one of which carries a carriage with a bypass pin, and the other a carriage with a writing pin, while a 15-ka line with a writing pin is mounted in guides parallel to its longitudinal axis , with the help of a flexible transmission, is connected to the carriage of the bypass pin and has three scales with a common reference point [1].

A disadvantage of the known device is low productivity, fatigue of the operator, as a consequence of the mechanical principle of the device.

The closest technical solution to the proposed one is a device containing a transmitting 30 cathode ray tube, a deflecting system connected to line and frame scan generators, a pulse generator connected to the And element, the other input of which is connected to the video signal conditioner, a counter, one input of which is connected to element And the other to the data input unit, and the output to a computer or other computing. device [2].

The disadvantage of this device is its complexity.

The purpose of the invention is to simplify the device.

This goal is achieved in that in a device containing a transmitting cathode ray tube, a deflecting system connected to line and frame scan generators connected to a sync generator, a video signal shaper, a pulse generator connected to one of the inputs of the And element, the other input of which is connected to the horizontal generator sweep, data input unit, two-channel counter, computational unit and data output unit, one of the inputs of the counter is connected to a video signal conditioner, the second input to the output element And, the third - to the horizontal generator, the fourth - to the clock, while the control electrode of the transmitting cathode ray tube is connected to the horizontal generator 5, the outputs of the counter are connected to the computing unit connected to the output unit and the data input unit, one of the inputs of which connected to a horizontal line generator, the other to a video signal conditioner.

The drawing shows a functional diagram of the device.

Transmitting cathode ray tube 1 with a deflecting system 2 connected to line 3 and frame 4 generators connected to the sync generator 5. The video signal former b is connected to the electron beam tube 1. Pulse generator 7 is connected to the And 8 element, the second input of which is connected to horizontal scan generator 3, counter 9, one of the inputs is connected to the shaper of video signals. 6. The second input of the counter is connected to the output of the element and 8, the third input with the horizontal generator 3, the fourth with the clock 5. Computing unit 10 is connected to the outputs of the counter 9, to the data output unit 11 and the data input unit 12. One of the inputs of the block data input 12 is connected to the horizontal generator 3, the second to the video shaper 6.

The device operates as follows. 40

In the initial state, in accordance with the data of the initial plan, the operator enters the coordinates in ascending order using the data input unit 12. Sync generator 5 is in standby mode, element And 8 is closed. An image of the original plan is projected onto the target. When the sync generator 5 is started, the scan generators 3 and 4 begin to function, and the potential relief on the target of the cathode ray tube is read. At the moment when the electron beam crosses the potential relief at the entrance

The shaper b produces pulses, 55 arriving at the counter 9. The pulses from the pulse generator 7 through the element And 8 are also sent to the input of the counter.

As a result, the number of pulses arriving at the fourth input of the first channel of the counter 9 from the output of the synchro generator 5 at the time the video signal arrives corresponds to the coordinate Y, and the number of pulses arriving through element And 8 to the third input of the second channel of the counter 9 - the X coordinate of the read point belonging to one of the contours of the original plan.

Each pulse arriving at the second input of the counter 9 causes the state of its channels to be transmitted to the computing unit 10. The second channel of the counter 9 is set to zero by a given edge of the backlight pulse, which ensures that the beginning of the count in this channel coincides with the beginning of each scan line. In addition, the backlight pulses 1, taken from the horizontal generator 3, and the video signals from the shaper b provide the input unit 12 selects the corresponding Z coordinate and enters it into the computing unit 10;

The computing unit 10 performs the mathematical operations in accordance with the expressions

Z ^d = Z cos H - Y sin4 Y ¹ = Ζ sin H + Υ cin H

where y And Ζ - coordinates of points Exodus- I no plan; γ ⁽ - the angle of inclination of the new projection plane to the horizon; And Ζ - coordinates of points in the educated plan, pre-

An output unit 11 provides data output in a predetermined form.

Claims (2)

The invention relates to the field of automation and computer technology and can be used in geology and mining to convert plans into a projection inclined plane. Graphic information reading devices are known that solve this problem 1, 2. One of the known devices includes a fixed guide rail and two displacements along its line, one of which carries a carriage with a dowel pin and the other is a dowel with a writing pin. at the same time, a line with a writing pin, mounted in guides parallel to its longitudinal axis, is connected to the bypass pin carriage by means of a flexible transmission and has three scales with a common reference point 1. The disadvantage of the known devices is low zvoditelnost, fast-fatigue emost operator, as a consequence of the mechanical principle of action of the device. The closest in technical solution to the present invention is a device comprising a transmission electron tube, a deflecting system connected to a horizontal and vertical scan generators, a pulse generator connected to an element AND, another input connected to a video driver, a counter, one input of which is connected to the element And, the other - to the data input unit, and the output to the computer or other computational. device 2. The disadvantage of this device is its complexity. The purpose of the invention is to simplify the device. The goal is achieved by the fact that in a device containing a transmitting cathode-ray tube, a deflecting system connected to generators of horizontal and vertical scans connected {with the synchro-generator, a video signal generator, a pulse generator connected to one of the inputs of the And element, the other input of which is connected to the line scan generator, a data input unit, a two-channel counter, a computation unit and a data output unit, one of the inputs of the psdac counter / pochno to the video driver, the second input is And, the third to the line sweep generator, the fourth to the synchro generator, while the control electrode is transmitted to the electron beam tube by the control line generator, the meter outputs are connected to the computing unit connected to the output unit and the unit data entry one of the inputs of which is connected to the generator of the first-frequency sweep, the other - to the video driver. The drawing shows the functional diagram of the device. The transmitting electron-beam tube 1 with the diverting system 2 connected to the horizontal 31 and frame 4 generators is connected to the synchro-generator 5, the video signal generator b is connected to the electron-beam: tube I. The pulse tfr 7 is connected to the element I8, the second input of which connected to line generator 3, counter 9, one of the inputs connected to video driver 6 Second counter input connected to the element and 8, the third input with line generator 3, the fourth from the sync generator m 5, the computing unit 10 is connected to B1 1 of the counter 9, to the data output unit 11 and the data input unit 12, One of the inputs of the data input unit 12 is connected to the horizontal scanning generator 3, the second to the video signals 6. The device works as follows . In the initial state, in accordance with the data of the initial plan, the operator, using the data input unit 12, enters the coordinates in order of age. Sihrogenerator 5 is in standby mode, the element And 8 is closed. An image of the original plan is projected onto the target. When the synchronizer 5 is started up, scan generators 3 and 4 begin to function, the potential relief on the target electron tube is read. At the moment of intersection of the potential relief by the electron beam, impulses are generated at the input of the former, arriving at the counter 9. The pulses from the pulse generator 7 through the And 8 element are also fed to the input of the counter. As a result, the number of pulses arriving at the fourth input of the first switch of the counter 9 from the output of the synchro-generator 5 at the moment of arrival of the video signal corresponds to the Y coordinate, and the number of pulses delivered through the AND 8 element to the third input of the second channel of the counter 9 to the X coordinate of the read point belonging to one from the isolines of the original plan. Each pulse arriving at the second input of the counter 9 causes the state of its channels to be transmitted to the computing unit 10. The second channel of the counter 9 is set to the zero state by a given edge of the backlight pulse, which ensures that the counting start in this channel coincides with the beginning of each scan line. In addition, the light pulses 1, removing the horizontal scanning generator 3, and the video signals from the imaging unit 6 enable the input unit to select the 12 corresponding coordinates of the Z coordinate and input it to the computational unit 10i. The computational unit 10 performs the glathematic operations in accordance with expressions 2 Z . cos H - Y sin4 Y ° Z sin H 4- Y cin H where Y and 2 M are the coordinates of the points of outcome of the EXO) plan; the angle of inclination of the novop projection plane to the horizon; YH z coordinates of points in the transformed plan. Output unit 11 provides output data in a given form. Apparatus of the Invention A device for reading graphic information comprising horizontal and vertical scanning generators connected to a deflecting, transmission electron tube system, the control electrode of which is connected to a horizontal scanning generator, a video driver, a pulse generator connected to one input of the And element, another input which is connected to a line scan generator, a counter, a computing unit, a data output unit, and a data input unit, characterized in that One of the meter inputs is connected to the video driver, the second meter input is connected to the output element I, the third is connected to the horizontal scanning generator, the fourth is connected to the synchronous generator, the meter outputs are connected to a computing unit connected to the data output unit and the data input unit of the inputs of which is connected to a line scan generator, the second one is connected to the Video Shaper .. Sources of information taken into account in the examination 1, USSR Author's Certificate V 171590, cl. In 43 N, 1970. 2. Television equipment. Scientific and Technical Sat under general ed; A.B. Gorokhovsky and M.I. Krivosheev. Moscow, Holy Hour, 1971, p. 439, fig. 2