SU813479A1 - Graphic information readout device - Google Patents

Description

The invention relates to automation and computer technology, in particular to devices for reading graphic information.

A device for reading graphic information containing a tablet, an information pickup element, a computing unit, counters, the inputs of which are connected to a pulse generator .θ, mirrors associated with the drive, a directional radiation source, and photosensors connected to the counters [1].

The disadvantage is the structural complexity of the device. fifteen

Closest to the proposed device is a device containing elements of the formation of a flat beam of light flux, optically coupled to sources of collimated radiation 20, with a coordinate stripper and with photoelectric conversion units, the outputs of which are connected to the corresponding polling units, coordinates, the first control unit, connected to the switches connected to the polling units, the outputs of which are connected to the respective interface units, the coordinate output unit connected to the counter 30

The disadvantage of this device is its low accuracy.

The purpose of the invention is to improve the accuracy of the device.

This goal is achieved by the fact that it contains a second control unit connected to the meter, AND elements connected to the first control unit and the corresponding interface units, control signal generation units, the inputs of which are connected to the first control unit and to the corresponding AND elements, and the outputs connected to the first and second control units, and an OR element connected to the outputs of the AND elements and to the counter input.

The drawing shows a block diagram of a device.

The device comprises a tablet 1, a coordinate remover 2, collimated radiation sources 3, for example laser light sources, elements of the formation of a flat beam of light flux 4, for example cylindrical lenses, photoelectric conversion units 5, for example, photodetector arrays, a first control unit 6, containing elements And 7 and 8, a control trigger 9, a pulse generator 10 and a channel switching trigger 11, polling units 12 made, for example, in the array of polling gate arrays, switches 13, interface units 14 for the decoupling of the outputs of blocks 12, elements And 15, blocks 16 _{ς the} formation of control signals, the second control unit 17, block 18 of the issuance of coordinates, counter 19 and the element OR 20.

The device operates as follows.

Simultaneously with the installation of a coordinate puller 2 made of opaque material, laser light sources 3 are turned on at a selected point on the information carrier mounted on the tablet 1 and a start signal from an external source is received at the input of block 6. The light from each of the laser light sources 3 - falls on the corresponding cylindrical lens 4, where the laser beam decomposes into flat light beams, the width of which corresponds to the size of the tablet. Thus, two mutually 25 perpendicular beams of light are created above the tablet. Laser sources are optically coupled to the corresponding photodetector arrays, which are mutually perpendicular to the tablet. 30 The number of photodetectors determines the sampling rate. When the coordinate pick-up 2 is placed at some point on the information carrier, one of the Photo ^ receivers of each of the matrices remains 35 unlit, i.e., there is no signal at the output of this photodetector, while signals from all the other Photodetectors of each matrix arrive at the corresponding inputs of the gates of the polling matrices 12. Signal. start comes from an external source to the pulse inputs of the control trigger 9 and the switch trigger channels 11, setting them in a single state. In this case, the signal from the single output 45 of the control trigger 9, arriving at the control input of the element And 8, opens it. Clock pulses from the pulse generator 10 through the open element And 8 are fed to the pulse 5Q inputs of the elements And 7. Since the trigger for switching channels 11 is in a single state, it is open, at the moment there is only one of the elements And 7, since its control 55 The input is connected to the single output of this trigger. Therefore, clock pulses pass through this AND element 7, and arrive at one polling switch 13, into one of the units 16 and to one of the AND elements 15. Reading X coordinates of the given point begins. The switch 13 is a shift register, the number of bits of which corresponds to the number of photodetectors. Logical 1, 65 recorded in the first bit of the switch, according to the signal, the start progresses at a speed equal to the clock frequency, alternately exciting the gates of the polling matrix 12. In this case, the signals from the output of the photodetectors pass through these gates, through block 14, through the And 15 element, through the OR element and and goes to the counting input of the counter 19. The counter reads the number of incoming pulses and gives indications to the coordinate output unit 18. When one of the photodetectors is shaded, there is no signal from its output, therefore, it is absent at the output of one of the polling gates of the matrix 12, at the output of block 14 and at the input of block 16, which is made according to the NAND circuit. In the absence of a signal at its control input, a signal appears at the output, which is fed to the input of block 17, which resets the counter 19. In addition, the same signal is sent to the control input of the channel switching trigger 11, turning it into a zero state. This opens another element And 7. The survey at the X coordinate is completed. Now the pulses from the pulse generator 10 pass through another element And 7 and enter the second switch 13 and into other blocks 16 and the element And 15. ¹

The operation of the device along the coordinate Υ occurs similarly. The signal from the output of block 16 is fed to the input of block 1 ^ which resets the counter 19, and switches the control trigger 9 to the zero state. In this case, the element And 8 is closed. Thus, the reading of the coordinates of this point is completed, the circuit returns to its original state. The reading of the coordinates of the next point will begin at the next start from an external source.

The introduction of new blocks and new structural connections significantly increases the accuracy of the device.

Claims (2)

1. Author's certificate CGCP № 514311, cl. G H 11/00, 1973. 2. US patent number 3673327, cl. 178-18, published. 1972 (prototype). ////