SU938137A1 - First half-wave extraction unit for ultrasonic flaw detector - Google Patents

Description

The invention relates to non-destructive testing and can be used to measure the amplitude of a signal from a defect in products.

A device is known containing pic—; The limiter of ⁵ even half waves, two linear delay transmitters and a single vibrator, as well as a delay line, a trigger, and a peak voltmeter tl] are reconnoitered. ₁₀

A disadvantage of the known device is the low accuracy of determining the time of propagation of ultrasound in the frequency sweep> ultrasonic vibrations associated with constancy vre- ₁₅ menioy delay signala'Vo second delay line that is configured in advance at a single frequency.

The closest in technical essence and the achieved result of go is the unit for extracting the first half-wave to the ultrasonic flaw detector, containing a pulse limiter connected in series, the input of which is designed to connect to the output of the flaw detector amplifier, and a selector, a strobe-pulse shaper, the output of which is connected to the second input of the selector, and the input is intended for connection to the t2j flaw detector synchronizer. A disadvantage of the known unit is the low accuracy of measuring the propagation time of ultrasound when swapping the ultrasound frequency, since the shutter of the strobe pulse is switched off by generating a reset pulse at a certain threshold level. At the same time, an error associated with the frequency sweep and associated, in addition, with the instability of the input- amplitude is added to the estimate of the propagation time of the ultrasound. signal.

The purpose of the device is to increase the accuracy of control.

This goal is achieved in that the unit is equipped with series-connected and connected to the output

938137 4 selectors with an amplitude converter, the time, the output of which is connected to the second input of the strobe-impulse driver, and a time-amplitude converter, the output of which is intended for connecting to the measuring unit of the flaw detector.

In FIG. 1 shows a diagram of the proposed block; on fig "2 - temporary _: diagrams of the operation of the device. 10

The unit for extracting the first half-wave to the ultrasonic flaw detector contains serially connected pulse limiter 1, the input of which is designed to connect to the output of the flaw detector amplifier, and selector 2, the strobe pulse generator 3, the output of which is connected to the second input of the selector, 2, and the input is intended for connection to the synchronizer flaw, and ₂ 0 also connected in series and connected to the output of the selector 2 converter 4 amplitude-time, the output of which is connected to the second input of the item 3 ob pulse 25 and pre-forming 5-amplitude time, the output of which is intended for connection to the measuring unit flaw.

The block selection of the first half-wave works as follows. _thirty

From the output of the flaw detector synchronizer (to hell, not shown) to the first input of the strobe pulse generator 3, a start pulse 6 is delayed, delayed relative to the probe pulse by: deadband time * t at the Strobe pulse generator ³⁵ 3 can be executed, for example, in the form of a one-shot, setting the duration of the control zone and the trigger, the output of which is the output of the shaper 3 of the strobe pulse. The triggering pulse writes * 1 * to the trigger and, thereby, triggers the strobe pulse generator 3, at the output of which a strobe 7 appears, opening the selector 2. When a useful signal appears in zone ⁴⁵ , the radio pulses from the output of the flaw detector amplifier (to hell, not shown) pass through a pulse limiter 1, in which the oscillations of one of the polarity, for example, negative ⁵⁰ , are limited, and a series of half-waves passes through an open selector 2 to the input of the amplitude-time converter 4.

The latter has a storage capacitor ⁵⁵ (to hell, not shown), which is charged to the amplitude value of the first half-wave. At a point in time.

slightly delayed with respect to this maximum, due to the termination of the capacitor’s charge, the amplitude-time converter 4 begins to generate a rectangular pulse 9 normalized in amplitude, the duration of which is proportional to the amplitude of the first half-wave, with this pulse being fed further to the time-amplitude converter 5 for inverse conversion to a new time scale in the amplitude of 10 pulses and for measurement in the measuring unit of the flaw detector, and also enters the second input of the shaper 3 st rob-pulse.

The leading edge of the pulse 9 resets the trigger of the driver 9 to '0 *. This leads to the locking of the selector 2 and the passage of only the first half-wave through it. In the absence of a useful signal in the strobe, the one-shot of the driver 3 also resets this trigger to * 0 *.

Turning off the selector The 2nd beginning of pulse 9 is obtained associated with the maximum time of the first half-wave of the useful signal. In the case of fluctuations in the amplitude of this signal or the sweep of the frequency of ultrasonic vibrations, the response time will always be constant, corresponding to the maximum of the first half-wave.

The input signal for the measuring unit of the flaw detector in this case does not contain an error caused by the instability of the amplitude or period of the radio pulses of the useful signal. Therefore, the proposed unit provides a significant increase in the accuracy of control. ''

Claims (2)

The invention relates to non-destructive testing and can be used to measure the amplitude of a signal from a defect in products. A device is known that contains successively coupled limiter of even half-waves, two linear delay transmitters and a one-shot, as well as a linsher delay, a trigger, and a peak volt meter tl. A disadvantage of the known device is the low accuracy of determining the propagation time to ultrasound when the ultrasound frequency oscillates, which is associated with the constant time delay of the signal of the second delayed research institute, which is pre-tuned to one frequency. The closest in technical, essence and the achieved result is the first half-pho to the ultrasonic flaw detector, ct holding a series-connected imput limiter, the input of which is intended to connect the flaw detector to the output of the amplifier, and selectf. The worldwave of the 5-pulse, the output of which is connected to the second input of the torch, and the input is intended to connect to the flaw detector's synchronization {.2. A disadvantage of the known unit is low measurement accuracy and time distribution of the ultrasound of the ultrasound frequency sweep as it turns off. ; -the impulse is actually due to f (h mtzyuvanv at a certain 1pc level of the reset impulse. At an atom, the error associated with the frequency sweep and the associated one, In addition, with an amplitude instability of the signal, the purpose of the device is to increase the accuracy of the control. The goal is achieved by fading freshly sequentially connected and connected to the output of the selector by an inverter converter, the output of which is connected to the second input of the strobe-voltage converter, and the transducer has a time of 4plus, the output of which is indicated for the connection to the measuring unit of the flaw detector. 1 shows the scheme of the preA block; on fwg. 2 - timing charts of the device. The selection unit of the first half-wave to the ultrasonic flaw detector contains a series-connected pulse limiter 1, the input of which is intended to be connected to the output of the defectoscope amplifier, and a selector 2, a gate 3 forming the gate, the output of which is connected to the second selector input 2, and the input Flaw detector synchronizer, as well as transducer 4 amplitude-time connected in series with and connected to the output of selector 2, the output of which is connected to the second input of the gateway 3 strobe The pulse, and the device 5 is the time-amplitude, the output of which is intended to be connected to the metering unit of the instrument. The block selection of the first half-wave works as follows. From the output of the flaw detector's synchronizer (to the devil, not shown), the first input of the gate driver 3 supplies a trigger pulse 6, delayed relative to the sound pulse for the dead zone time t j. The strobe pulse shaper 3 can be implemented, for example, in the form of a one-shot that specifies the duration of the control and trigger zones, the output of which is the output of the strobe-V pulse generator 3. The triggering pulse writes 1 into the trigger k, thereby triggers the strobe pulse shaper 3, at the output of which a strobe 7 appears, which opens the selector 2. When appearing in the control zone of the useful signal, the radio pulses from the output of the flaw detector amplifier do not shown) passes through the pulse suppressor 1, in which the bath shaft is out of polarity, for example, from a ripple one, is limited, in a series of 8 half-waves passes through the open selector 2 to the input of the converter 4 of amplitude-jerm. In the latter, there is a storage capacitor (on the hell, not shown), which is charged up to the amplitude value of the first half-wave. At the moment slightly delayed relative to the maximum of the capacitor, due to the termination of the charge of the capacitor, the converter 4 amplitude-time begins to form at its output a rectangular impulse 9 normalized to the amplitude, the duration of which is proportional to the amplitude of the first Half Wave, which impulse is fed further to the converter 5 time-amplitude for the inverse transformation in the new time scale into the amplitude of the U pulse and for the measurement of the flaw detector in the measuring unit, and also for the second input of the transducer Waddle 3 strobe pulse. The front (| 1 (pulse 9) resets the trigger of the driver 9 to O. This leads to locking the selector 2 and only the first rollow pass through it. If there is no useful signal in the strobe, the one-shot of the driver 3 also resets this trigger to О. Turning off the selector 2 and beginning impulse 9 is obtained related to the maximum time of the first half-wave of the useful signal.In the case of the fluctuation of the amplitude of this signal or the frequency sweep, the ultrasound (of the oscillations, the response time will always be constant, corresponding to The maximum of the first half-wave. In this case, the input slot for the flaw detector measuring unit does not contain the error caused by the instability of the amplitude or period of the radio pulse of the useful signal. Consequently, the proposed block ensures a substantial increase in accuracy in the control of the first half-wave to the ultrasonic flaw detector. pulses, the input of which is intended to be connected to the output of the amplifier of the defstoscope, and the selector, forn The strobe pulse impulse, the output of which is connected to the second input of the selector and the input is intended to connect to the flaw detector synchronizer, characterized in that, in order to improve accuracy, it is equipped with an amplitude amplitude connected to the selector output connected to the selector. A rem, the output of which is connected to the second input of the 5938137 gate driver, is a gate in the transducer of time & m -4MY1V1 of the vessel, the output of which is precursor to be connected to the vzmevrettely block of dvfektoskopa. Source information, taken into account prk examination 1.Korsiyev M.V. in others. Ultrasound. flaw welding for checking weld welds, - - Flaw Detector, 1969, No. 3, p. 133. 2. The author's certificate number 721744, cl. G 01Ы 29/04, 1 & 80 (prototype). KuiMftmtf HfMy luMjT tt eenveKene / Lluh five 2