SU807351A1 - Device for reading-out graphic information - Google Patents

Description

54) DEVICE FOR READING GRAPHIC INFORMATION

one

The invention relates to automation and computer technology, in particular, to acoustic information input devices in a computer using air as a sound-conducting medium, and can be used to semi-automatically measure the coordinates of points in a drawing.

Graphic information reading devices are known that contain an electroacoustic transducer acoustically connected to linear coordinates by microphones connected to conversion channels, each of which consists of a matching amplifier with a control gear ratio, connected in series to the discriminator, a logic element And, and a coordinate counter , a clock generator connected to one of the inputs of logic gates And, a control unit, a correction unit and an exponential generator shnogo. tensions}.

A disadvantage of the known device is low noise immunity.

The closest in technical essence to the present invention is a device comprising a first electroacoustic converter connected to one of the outputs of a measuring cycle generator and acoustically connected with linear coordinate microphones connected to the inputs of conversion channel amplifiers, each of which consists of a series-connected trigger, the logical element And the counter, the second electro-acoustic

0 a transducer acoustically connected to a correction microphone connected to a correction unit, the output of which is connected to one of the inputs of logic elements AND conversion channels, the output of the measurement cycle generator is connected to the setup inputs of the conversion trigger points 2.

The disadvantage of the device is

0 is incomplete in interference, since its operation is greatly affected by failures caused by fluctuations of the air environment and acoustic disturbances.

five

The purpose of the invention is to improve the noise immunity of the device.

This goal is achieved by the fact that the device contains four buffer registers, two remote switches, and an optional logical AND,

The main outputs of the counters, which are made reversible, are connected respectively to the information inputs of the first and second buffer registers of the decoders, the outputs of which are connected to the inputs of the additional logic element I, the output of which is connected to the control inputs of the measuring and deactivating cycle, ik. the control input of the third, and the fourth. In addition, the buffer registers whose information® inputs are connected to the outputs of the first and second buffer registers, the control inputs of which are connected to the output of the measuring cycle generator.

The drawing shows a block diagram of the device.

The device contains electroacoustic transducers 1 and 2, linear receivers - microphones 3-5, a measuring cycle generator b, correction block 7, two identical conversion channels 8 and 9, which include amplifiers 10 and 11, triggers 12 and 13, logic gates And 14 and 15, reversible counters 16 and 17, buffer registers 18-21, decoders 22 and 23 and the logical element And 24.

Electro-acoustic transducers 1 and 2 form short-term sound pulses.

Microphones 3-5 serve to convert the front of a sonic wave into electric pulses.

The measuring cycle generator 6 serves to synchronize the operation of the reader device and the supply of electrical pulses to the electrodes of the electroacoustic transducers and operates in a continuous mode. With the contact open, placed on the puller coordinates. (converter -1), the correction channel is turned on, when closed - conversion channels. .

The correction unit 7 generates counting pulses, the frequency of which varies in accordance with the change in the speed of sound propagation from the electro-acoustic transducer 2 to the microphone 5.

Amplifiers-shapers 10 and 11 amplify the electrical impulses from the microphones, provide analysis of the latter and form the stop impulses of the counters.

The triggers 12 and 13 form rectangular pulses. The duration is equal to the time. Transition, by the sound of the distance from the electroacoustic transducer 1 to the corresponding microphone.

Logic elements AND 14 and 15 serve to pass addition pulses to the inputs of counters 16 and 17, respectively.

The reversible counters 16 and 17 register the number of filling pulses placed in a time interval determined by the corresponding trigger.

The first and second buffer registers 18 and 19 serve to memorize the result of counting reversible counters when they are working on addition.

The third and fourth buffer registers 20 and 21 provide information to the output of the device.

Decoders 22 and 23 are used to analyze the result of counting.reverse counters 16 and 17.

The logic element AND 24 serves to form control signals to the output registers and to the generator of the measuring cycle.

The graphic information reader operates in the following manner.

At the moment the power is turned on, the generator 6 of the measuring cycle starts to work, including the correction unit 7 and exciting the electroacoustic converter 2. The repetition pulse of the excitation pulses is chosen to be far greater than the maximum time the sound wave travels from the sound source of the converter 2 to the receiver 5.

Correction unit 7 changes its output frequency until it is set to such that the code measured by the reference distance correction unit 7 corresponds to the true value of the measured reference distance. Further, with any changes in the parameters of the air environment, this frequency also automatically changes so that the result of the measurement of the reference distance is always true.

The operator combines the pointing electroacoustic transducer (coordinate remover) 1 with the image point, the coordinates of which need to be determined, and presses a button (closes the contact) on the body of the coordinate remover 1. The generator 6 forms a signal at the electroacoustic coder 1 and the trigger outputs 12 and 13. The electro-acoustic transducer 1 emits a sound pulse, and the reversible counters 16 and 17 start counting the filling pulses, the addition operation. At the moment when the sound wave reaches the sensitive planes of microphones 3 and 4, signals are generated at the outputs of the amplifiers 10 and 11, which stop the arrival of pulses in the counters 16 and 17. At the end of the cycle, i.e. the time interval exceeding the maximum time of the sound wave, the distance from the sound source to the receiver, the results of the counting of the reverse meters 16 and 17

Claims (1)

Claim