SU1594414A1 - Ultrasonic flaw detector - Google Patents

Abstract

The invention relates to a non-destructive testing technique and can be used in ultrasonic devices and quality control installations of materials and products. The purpose of the invention is to increase the monitoring performance by automating the measurement of the amplitude ratio of the signals. In a device, the attenuator readings in the receive path are digitized and added to the readings of the signal amplitude ratio meter. The total signal is fed to the digital display unit of control results. 1 il.

Description

The invention relates to a non-destructive testing technique and can be used in ultrasonic devices and quality control installations of materials and products.

The aim of the invention is to increase the productivity of monitoring by automating the measurement of the amplitude ratio.

The drawing shows the block diagram of the ultrasonic flaw detector.

The flaw detector contains a synchronizer 1 connected in series, an excitation pulse generator 2, a piezoelectric transducer 3, an attenuator 4, a receiving / amplifying unit 5 and an amplitude ratio meter 6 connected in series to a sweep unit 7, an input connected to the output of the synchronizer 1, and an electronic unit 8 beam indicator, the second input connected to the second output of the receiving and amplifying unit 5, serially connected converter code 9, the first input connected to the second output of the attenuator 4, and W eye input - to the output of one synchronizer, an adder 10 and a digital indicator 11, a first input connected to the output of the synchronizer 1.

The flaw detector works in the following 1M way.

The synchronizer 1 starts a sweep unit 7 and an excitation pulse generator 2, which generates probe pulses for driving the converter 3.

The pulses from the converter 3 reflected from defects are attenuated by an attenuator 4, with which the sensitivity of the flaw detector is adjusted.

4 4

and amplified by the receiving-amplifying unit 5, in which the signal detection and its cut-off are also performed. Allocated signals enter block 8 of the electron-beam indicator.

The detected signal from the output of bAoca 5 is fed to the meter 6 about the carrying amplitudes of the input signals, from the output of which the signal is in a numeric form, proportional to (Amplitude ratio, goes to one of the inputs of the adder 10. To its other input, a signal is received in digital form Attenuator 4, formed: n |) by the generator 9 code. The total signal from the output of the adder 10 to the digital in | hey form is fed to the block 11 of the digital indication of the control results.

The invention provides improved monitoring performance by automating the measurement of the ratio of signal iplits.

Claims (1)

The invention of the ultrasonic flaw detector, contains; beggar in series synchronizer, excitation pulse generator, piezoelectric transducer, attenuator, receiving and amplifying unit and amplitude sense meter, digital indicator and sequentially connected scanner and electron beam indicator unit, the second input of which is connected to the second output of the receiving amplifier unit, the synchronizer output connected with the first input of the digital indicator and with the input of the scanner, characterized in that, for the purpose of increasing productivity, it is provided with successively connected the code converter and the adder, the second input connected to the output of the amplitude ratio meter, and the output to the second input of the digital indicator, the first and second inputs of the code converter are connected respectively to the second output of the attenuator and the sync output. nizator ..