SU1179216A1 - Ultrasonic flaw detector - Google Patents

Abstract

ULTRASONIC DEFECTOSCOPE containing serially connected synchronizer and strobe pulse generator and two identical swings, each of which consists of probe pulses, an amplifier and a first time selector, a transducer connected to the generator output of the probe pulses and a second time selector, the first the input of which is connected to the output of the amplifier, the second input of the first time selector is connected to the output of the strobe pulse generator, the output of the synchronizer It is connected by the fusion generator of probing pulses of each channel, characterized in that, in order to simplify the flaw detector and control the reliability and performance, it is equipped in each channel connected in series and connected to the output of the first selector by a shaper, a first restraint circuit, a single vibrator and a second inhibit circuit, the output of which is connected to the second input of the second time selector, the second input of the second inhibit circuit is connected to the output of the first inhibit circuit, the second inputs of the first initiator circuit This one channel is connected to the first inputs of the first, the prohibition schemes of another channel. ff Smnnf rei / insurance Kvloku reeigtrotsii

Description

The invention relates to non-destructive testing and can be used for ultrasonic testing of sheets, plates, blanks.

The purpose of the invention is to simplify the flaw detector and increase the reliability and control productivity.

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

The ultrasonic flaw detector contains a synchronizer 1 connected in series and a strobe pulse generator 2 and an identical channel deza, each of which consists of 3 (4) .ui zones connected in series by a generator; and;:; iiMuyjibCOB, amplifier 5 (6) and m - ,; ((: g: g) selector switch 7 (8), transferring l. 9 (10) connected to the output of the generator 3 (4) probe pulses, and BTopoio temporal collector 11 (12), the first input of which is connected to the output of the amplifier 5 (6), the second input of the first time selector 7 (8) is connected to the output of the strobe-pulse generator 2, the output of the synchronizer 1 is connected to the input of: 3 generators and 4 probe pulses. Ultrasonic defect-detection is also provided in each channel connected in series and connected to the output of the first selector. The distributor 13 (14), the first prohibiting circuit 15 (16), the one-vibrator 7 (18) and the second prohibiting circuit J9 (20), the output of which is connected with the second input of the second time selector 11 (12), the second input of the second prohibition circuit 19 (20) connected to the output of the first circuit 15 (16) of the prohibition, the second inputs of the first circuits 15 and 16 of the prohibition of one are connected to the first inputs of the first circuits 15 and 16. The other channels are connected (if necessary) to the outputs of the second circuits 19 and 20 of the prohibition and 22.

The ultrasonic flaw detector works in the following way.

No-1 pulses of synchronizer 1 simultaneously excite a generator of 2 cTpq6 pulses and a generator of 3 and 4 probe pulses. The transducers 9 and 10 simultaneously emit acoustic oscillations in the controlled article 23 (sheet). The echo signals reflected from defects 24 and 25 and the opposite surface, as well as possible interference signals, are amplified by amplifiers 5 and 6 and fall on

first time selectors 7 and 8, respectively. The other input of the first time selectors 7 and 8 is supplied with a strobe pulse of the strobe pulse generator 2, which is delayed relative to the sync pulse for a time longer than the duration of the probe pulse and has a duration that allows the bottom signal 7 and 8 to pass through the first time selectors. The signals from the output of the first time selectors 7 and 8 are fed to the formers 13 and 14, made, for example, in the form of a trigger and: 1 dt or a cascade of limiting the pulses to the minimum and maximum. At the output of the formers 13 and 14, pulses of the same amplitude are obtained, the duration of these pulses is proportional to the duration of the pulses acting on the output amplifiers 5 and 6. Because the input of acoustic oscillations into the controlled product 23 by transducers 9 and 10 occurs simultaneously, and the thickness of the sheet under a number of located transducers 9 and 10

The bottom signals will also come at the same time. With the same electron-acoustic paths and sensitivity, the control signals (and in the case of immersion control, the signals reflected from the near surface of the controlled product 23) will have equal or very close amplitudes and durations. Therefore, the corresponding singing echoes signals from the near and bottom surfaces will not pass. The echo signals from defect 24 will not come to converters 9 and 10 at the same time, so they will pass to the output of the first prohibition schemes 15 and 16 and

logged as signals of defect I.

Defect 25 can only be detected by converter 9 and fixed at the output of the first prohibition circuit 15. In cases where it is not possible in the process of control to ensure that the bottom signals are completely identical due to the difference in their amplitudes, the duration of the bottom signals will be different and, at the output of one of the first prohibition schemes 15 and 16, a differential impulse can be incorrectly recorded as defect. To exclude rejection of controlled products 23 for this reason, additional information was added311

Only one-shot 17 and 18 and the second schemes 19 and 20 of the ban. The single vibrators 17 and 18 are triggered by the leading edges of differential pulses and generate pulses of a certain (adjustable) duration. These pulses lock the second prohibition circuit 19 (20) and do not allow differential pulses of short duration to its output. At the same time, impulses from defects will pass to the output of the second prohibition circuits 19 and 20 and register with the corresponding blocks (not shown). The capacitors 21 and 22 are connected to the outputs of the second inhibitor circuits 19 and 20 in cases where there is a divergence of the leading edges of the difference pulses, which will allow the recorders to avoid detecting these discrepancies. In cases where nec92164

It is necessary to measure the amplitude of the echo signals from defects (for example, to estimate the size of the defect), the second temporary separators 11 5 and 12 are inserted into the flaw detector, to which pulses from the output of the second prohibition circuits 19 and 20 are supplied as the selection pulse defects supplied from amplifiers 5 and 6.

Thus, the proposed device makes it possible to increase the monitoring performance by eliminating the need to adjust the duration of the strobe pulse when the thickness of the monitored product changes, and to reduce the effect of electrical noise and bottom signals due to their mutual subtraction in two identical channels.

Claims (1)

ULTRASONIC DEFECTOSCOPE, comprising a synchronizer and a strobe pulse generator connected in series and two identical channels, each of which consists of a probe pulse generator, an amplifier and a first time selector, a converter connected to the output of the probe pulse generator and a second time selector, the first input of which is connected with the output of the amplifier, the second input of the first temporary selector is connected to the output of the strobe generator, the output of the synchronizer with it is single with the inputs of the probes pulse generators of each channel, characterized in that, in order to simplify the flaw detector and increase the reliability and performance of the control, it is equipped in each channel with a shaper connected in series and connected to the output of the first selector, the first prohibition circuit, one-shot and the second the inhibit circuit, the output of which is connected to the second input of the second temporary selector, the second input of the second inhibit circuit is connected to the output of the first inhibit circuit, the second inputs of the first inhibit circuits a channel coupled to a first input of the first _hour, barring other channel circuits.