SU922506A1 - Ultrasonic thickness meter - Google Patents

Description

(5) ULTRASOUND THICKNESS MEASURES

one

The invention relates to non-destructive ultrasound tests and can be used to measure the thickness of products. I

Known ultrasonic thickness gauge, containing a synchronizer, a generator of probe pulses, transducer, amplifier, detector, video amplifier, trigger and standby multivibrator 111..

The disadvantage of the known thickness gauge is low accuracy and noise immunity;

The closest to the invention in technical essence and the achieved result is an ultrasonic thickness gauge containing serially connected synchronizer, probe pulse generator, transducer, selector and amplifier, three flip-flops, one-shot and indicator 12.

A disadvantage of the known thickness gauge is the low measurement accuracy.

Since the measuring trigger is switched on by the falling edge of the waiting multivibrator, which leads to a false trigger of the measuring trigger.

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

The goal is achieved by the fact that the ultrasonic thickness gauge is equipped with the first AND circuit, included, between the synchronizer and the first trigger.

to and connected to the output of the amplifier are serially connected by the second circuit And, the first input of which is connected to the output of the one-shot, and the second input - to the output of the amplifier, the second

Claims (2)

IS trigger, the third circuit And and the third trigger, the output of which is connected to the input of the indicator, the second input - with the output of the synchronizer, and the third input - with the output of the second circuit And, the output of the first circuit And connected to the second inputs of the second trigger and the third circuit And, the second the input of the first trigger is to the synchronizer output, and the output 392 to the second input of the selector, the third input of the first AND circuit, and the input of the one-shot. The drawing shows the block diagram of the thickness gauge. Ultrasonic thickness gauge contains synchronizer 1 connected in series, probe pulse generator 2, converter 3, selector k and amplifier 5. Between synchronizer 1 and the first trigger 6, the first AND 7 circuit is connected which is connected to the output of amplifier 5. In addition, the ultrasonic thickness contains the second connected circuit AND 8, the first input of which is connected to the output of the one-shot 9, and the second input - with the output of amplification l 5, the second trigger 10, the third circuit 11 and the third trigger 12, the output to which is connected to the input and indicator 13, the second input - with the output of the synchronizer 1, and the third input - with the output of the second circuit And 8. The output of the first circuit And 7 is connected to the second inputs of the second trigger 10 and the third circuit And 11. The second input of the first trigger 6 is connected to the output of the synchronizer 1, and the output to the second input of the selector, the third input of the first circuit And 7 and the input of the one-shot 9. Ultrasonic thickness gauge works as follows. Synchronizer 1, which has paraphase outputs, controls the operation of the entire thickness gauge. Sync pulses from the first output of synchronizer 1 start the generator 2 probe pulses. The pulses of the generator 2 of the probe pulses excite in the transducer 3 ultrasonic pulses, which are introduced into the controlled product. Ultrasonic pulses reflected from the front and back surfaces of the product and delayed by a delay line (not shown) are taken by the same transducer 3 and converted into electrical ones. Electrical pulses from the converter 3 are fed to the first input of the selector. The selector 4 transmits pulses whose amplitude exceeds the level of the village. The amplifier 5 of the selected pulses generates pulses with normalized fronts and amplitude, which arrive at the second inputs of the And 7 and 8 circuits. The sync pulse from the second output of the synchronizer 1 goes to the first inputs of the And 7 circuit and trigger 12 and the second trigger input 6. Duration the zero state of the sync pulse from the second input of the synchronizer 1 is set longer than the time of the electric pickup of the generator 2 at the time of start, i.e. At the time of generator 2, the circuit 7 is closed at the first input. At time t, this clock sets the inverse output of trigger 6 to state 1. The voltage of the inverse output of trigger 6 goes to the second input of selector i. The transition of the sync pulse from O to 1 opens the AND 7 circuit, through which the pulse reflected from the front-to the first input of trigger 6 arrives. the surface of the product, and the trailing edge of the inverted output of the trigger 6, sets the state 0. The AND 7 circuit closes. The output pulse of the one-shot 9 opens the circuit And 8 and through it passes a pulse reflected from the back surface of the product. The pulse reflected from the front surface of the product and appearing in each probe cycle at the output of the AND 7 circuit establishes at the inverse output of the trigger 10 a state O for locking the AND 11 circuit. The circuit 11 and the trigger 10 allow measuring the thickness only after the pulse reflected from the back surface of the product, i.e. the state of the trigger 10 determines whether the pulse reflected from the front surface of the product passes through the AND circuit 11 to the trigger T2 — the beginning of the measurement. The impulse reflected from the back surface of the product from the output of AND 8 sets the inverse output of the trigger 10 to state 1 and confirms the state O to the direct output of the trigger 12. The impulse reflected from the front surface in the next probing cycle passes through the circuit 11 in the second input of trigger 12 and sets state 1 on its direct output. Return of trigger 12 to state O is produced by a pulse reflected from the back surface of the product in the same probe cycle. Thus, at the direct output of trigger 12 mpuls whose duration is proportional to the measured thickness. This pulse is applied to the indicator 13 for counting the thickness. The proposed thickness gauge makes it possible to measure the thickness of products with precision. The invention claims an ultrasonic thickness gauge, containing we and and the series-connected synchronizer, probe pulse generator, transducer, selector and amplifier, three flip-flops, one-shot and one indicator, differing from 25 u and in order to catch higher Sources of information taken into account in the examination 1. Flaw detection, 1977, N 5, p. 125 2. Defectoscopy, 1977, No. 2, p. 18 prototype. 6 measurement accuracy, it is equipped with the first AND circuit connected between the synchronizer and the first trigger and connected to the amplifier output, connected in series by the second, the AND circuit, the first input of which is connected to the one-shot output, and the second input - to the amplifier output, second trigger, and the third And the third trigger, the output of which is connected to the input of the indicator, the second input - to the synchronizer output, and the third input - to the output of the second And circuit, the output of the first And circuit is connected to the second inputs of the second trigger and the third And circuit, The first input of the first trigger is connected to the synchronizer output, and the output to the second input of the selector, the third input to the first one-shot circuit.