SU642737A1 - Graphic information readout device - Google Patents

Description

The invention relates to the field of automation and computer technology, in particular, to devices for reading graphic information and can be applied for semi-automatic measurement of line drawings and point coordinates. A device for reading graphic information is known, comprising a movable acoustic transducer associated with a control circuit, acoustic oscillation receivers located at a right angle to each other and connected via time-impulse transducers to the inputs of the corresponding coordinate counters, a pulse generator connected to one of the time-impulse transducer inputs, the other inputs of which are connected to an acoustic transducer, an additional acoustic transducer connected the auxiliary input of one of the time-pulse converters, a constant memory block, a decoder, serially connected code reading unit, an adder, and a voltage converter, the output of which is connected to the control input of the clock generator, and the output outputs of one of the coordinate counters and the outputs of the fixed memory unit are connected to the inputs of the code reading unit, the outputs of which are connected to the inputs of the adder and through the decoder to the control circuit 11). A disadvantage of this device is that it cannot operate in a wide range of variations in the parameters of a sound-conducting medium. The closest to this invention is a device containing sources of acoustic signals connected to a control unit and to one input of a coordinate conversion unit, the other inputs of which are connected to a control unit, to receivers of acoustic signals and a clock generator, and the outputs are connected to corresponding counters coordinates connected to the control unit, the pulse sequence correction unit and the register {2. The disadvantage of this device is constructive complexity. The purpose of the invention is to simplify the device. This is achieved by the fact that in the present device, the register is connected to the first coordinate counter, starting unit and to one of the inputs of the pulse sequence correction unit, the other input of which is connected to the clock generator, and the output is connected to the coordinate conversion units.

The drawing shows a block diagram of the proposed device.

Device B1 includes acoustic signal sources, 2, acoustic signal receivers 3, 4, made in the form of coordinate microphones, coordinate conversion units 5, b, control unit 7, first 8 and second 9 coordinate counters, clock generator and generator 10, register 11, the correction unit of the pulse sequences 12, the amplifier-driver 13, the trigger 4 and the element AND-LI 15.

The device works as follows.

To measure the coordinates, the source of acoustic signals 1 is aligned with the desired point. On a command from control unit 7, a number is written to the counter 8; which complements the reference number up to a certain value.

Then, ultrasound is excited at the source of acoustic signals 2. Synchronously with the start of ultrasound, control unit 7 permits the arrival of pulses into counter 8.

At the moment when the front of the sound wave reaches the microphone 3, block 6 closes the arrival of pulses D counter 9, in which a certain number will be recorded.

Before the start of the measurement cycle, this number is taken from the counter 9 according to the signal of the control unit 7 and rewritten into the register 11, in which it is stored until the end of the measurement of the coordinates.

The correction of the clock pulse sequence is performed by block 12. Then, ultrasound is excited at the source of acoustic signals I. Synchronously with the launch of ultrasound, block 7 is controlled and permits the arrival of pulses from the 12th block

counters 8 and 9. At that moment, when the front of the ultrasonic wave reaches the coordinate microphones, blocks 5 and b close the flow of pulses to the coordinate counters, in which the true

the coordinates of the measured accuracy |.

The introduction of new constructive links has significantly simplified the block diagram of the device.

Claims (2)

1. USSR author's certificate number 488231, cl. G About K P / 00, 1973. 2. US patent number 3857022, cl. 235-151, 1974.