SU418792A1 - - Google Patents

Description

(54) ULTRASONIC PULSE DETECTOR

The invention relates to the field of non-destructive testing and can be used for ultrasonic flaw detection.

Ultrasonic flaw detectors containing a synchronizer, a probe pulse generator with acoustic searchers, an amplifier and a time selection channel with a peak detector at the output are known.

A significant disadvantage of the known devices is the low accuracy as a result of the variation of the radiation at the peak detector depending on the frequency of the synchronization pulses.

The constant voltage at the peak detector, which is normal to the voltage of the signal, is obtained in the known device due to the fact that the detector time is chosen to exceed the period of sending the probe pulses.

With this choice of time constant for signals arriving in each period, the voltage at the peak detector will be proportional to the amplitude of the signal only for signals with increasing amplitude.

For a signal with a decreasing amplitude, the voltage on the peak detector will not be proportional to the amplitude of the signal due to the large time constant of the peak detector, since there will not be a peak detector by the arrival of the next signal.

have time to discharge and the voltage on the peak detector will be greater than the amplitude of the signal.

A reduction in the bare time will lead to the fact that the voltage on the peak detector will not be constant at all.

An even more complicated way to shape the peak detector is when the frequency of the clock pulse changes.

These drawbacks are eliminated by the fact that the flaw detector is equipped with a delay and pulse generation unit connected between the synchronizer and the probe pulse generator and a key circuit whose input is

Connect the output of the delay and pulse shaping unit, and the output to the second input of the peak detector.

Pa figs. 1 shows a block diagram of a flaw detector, and pa FIG. 2 - time diagram.

The device consists of synchronizer 1 connected in series, block 2 of delay n formation -; pulses. generator 3 probe pulses, tmp. 4. channel 6 time selection, peak detector 7 and

acoustic finders 4. The output of the delay block n forming the pulses 2 is connected to the reset key 7, which is connected to the detector 8.

Pa figs. 2 introduced the following notation:

a - sync pulses; b - detained siihroimpulsy; c - formed rectangular impulse; g - probe pulse; d - impulse impulse; e is the pulse at the peak detector. The device works as follows. The sync pulses from synchronizer 1 arrive at the delay block and formation unit 2, where they generate a delayed pa time sync pulse and a rectangular pulse with a duration t. The delayed sync pulse starts the probe pulse generator 3 with acoustic searchers 8. Sounding pulses and pulses from defects with an acoustic searcher the amplifier 4 enters the time selection channel, which selects the impulse of the defect and supplies it to the peak detector 6 with the reset key 7. The peak detector is reset by impulse, sf In addition, in the proposed device, the pulse duration / on the peak detector 6 automatically changes with the tracking frequency and almost always differs significantly from the tracking period T, since the peak detector is reset, regardless of the tracking frequency, t / m before the next sync pulse, i.e., t +, where is the value from fractions to tinypox microseconds. The subject of the invention is an ultrasonic pulse flaw detector containing a synchronizer connected in series, a probe pulse generator, a high frequency amplifier, a time selection channel, a peak detector and acoustic finders, characterized in that, in order to improve the control accuracy, it is equipped with a pulse formation delay unit connected between the synchronizer and probe pulse generator, and a key circuit, the input of which is connected to the output of the delay and pulse shaping unit, and the output to the second input detector.

a 5

about b

m