RU2117271C1 - Device for leakage detection - Google Patents

Abstract

FIELD: non-destructive flaw detection using acoustic methods. SUBSTANCE: device has serial circuit of microphone 1, amplifier 2, band-pass filter unit 3, threshold gate 9 and indicator 10. Goal of invention is achieved by introduced serial circuit of minimal-amplitude clipper 4 with controlled clipping unit, pulse duration selector 7 and frequency- pulse detector 8 which are inserted between output of band-pass filter unit 3 and input of threshold gate. In addition device has amplitude detector 6 and low-pass filter 5. Input of amplitude 6 is connected to output of band-pass filter unit 3. Output of amplitude detector 6 is connected to input of low-pass filter 5, which output is connected to control input of amplitude clipper 4. EFFECT: increased functional capabilities. 1 dwg

Description

 The invention relates to the field of non-destructive testing by acoustic methods and can be used to detect leaks on the surface of the controlled product.

 The prior art device for detecting leaks containing a microphone, amplifier, filter, detector, power amplifier, indicator [1].

 The device operates as follows.

 The acoustic signal from the leak is converted by the microphone into an electric one, amplified, an envelope signal is extracted from it with the help of the detector, which is amplified and compared with the threshold. Exceeding the threshold corresponds to the operation of the indicator.

 A leak detection device is also known, comprising a microphone, an amplifier, a detector, three threshold devices, one of which is connected to the detector output through an integration unit, a logic unit, and an indicator device [2].

 The device operates as follows.

 The acoustic signal from the leak is converted to direct current, supplied to the first and second threshold devices and through the integration unit to the third threshold device. The indicator device is triggered by the results of a logical analysis of the output signals of threshold devices.

 A disadvantage of the known devices is the lack of sensitivity in detecting leaks, the outflow of gas from which occurs without the formation of turbulence or is accompanied by weak turbulence. This is due to the fact that the known solutions analyze the envelope of the signal as a whole or its low-frequency part, containing a large amount of interference, due to turbulence.

 The objective of the invention is to increase the sensitivity for a given probability of leak detection errors.

 The problem is solved in that a leak detection device containing a microphone, an amplifier, a bandpass filter unit, a threshold device and an indicator is supplemented by a sequentially connected bottom limiter with an adjustable threshold, a pulse selector in duration and a pulse-frequency detector connected between the block output bandpass filters and the input of the threshold device, as well as an amplitude detector and a low-pass filter, and the input of the amplitude detector is connected to Odom bandpass filters block the amplitude detector output - to an input of a low pass filter and the output of the latter - a limiter control input bottom with an adjustable threshold.

 The proposed solution makes it possible to isolate the rapidly oscillating part of the signal envelope and, after its corresponding processing, to compare with the threshold. This increases the sensitivity when leaks are detected for a given error probability, since not only leaks accompanied by the appearance of strong turbulences are recorded, but also leaks with weak turbulence or even in the absence thereof. To the greatest extent, the advantages of the invention are realized with a large bandwidth of the path to the limiter, for example, with a band of 25-60 kHz. With such a band, the envelope contains not only slowly varying components, which are caused by turbulence, but also rapidly oscillating components, which are caused by gas friction against the walls of the hole and a number of other reasons.

 In the proposed device for detecting leaks, known elements are combined, however, their relationship allows you to get a new unexpected effect.

 The device, made on the basis of the proposed solution, has high sensitivity for detecting leaks with a given error due to the fact that the rapidly oscillating part of the signal envelope is analyzed.

 The drawing shows a functional diagram of a device for detecting leaks.

 The device includes a microphone 1, an amplifier 2, a block of band-pass filters 3, a lower limiter with an adjustable threshold 4, a low-pass filter 5, an amplitude detector 6, a pulse selector for duration 7, a pulse-frequency detector 8, a threshold device 9, and an indicator 10.

 The device operates as follows.

 The acoustic signal with the help of a microphone 1 is converted into an electric signal, amplified and subjected to frequency selection in the block of band-pass filters 3. Blocks 4 - 6 together limit the signal from below with a tracking threshold. The voltage of the tracking threshold is generated by an amplitude detector 6 and a low-pass filter 5 and is fed to the control input of the limiter 4. The threshold thus represents a slowly changing part of the envelope of the signal. The lower limit with a similar threshold makes it possible to isolate the rapidly oscillating part from the envelope of the signal and simultaneously sift pulses with a small amplitude.

 At the output of the limiter, a sequence of pulses with different amplitudes and durations is observed. A pulse selector of duration 7 eliminates short pulses from it. The resulting sequence of a pulse-frequency detector 8 turns into a constant voltage proportional to the pulse repetition rate. If this voltage in the threshold device 9 exceeds a predetermined threshold, the indicator 10 is activated.

 Based on the proposed device, several modifications (1CH-201) of leak detectors have been developed, which have a high sensitivity compared to analogs for given detection errors, and their serial production has begun. The devices are designed to detect small air leaks in the brake line of railway trains, gas leaks in gas lines and freon leaks in refrigeration units. The sensitivity of one of them (1CH-201), ceteris paribus, was several times higher in comparison with the leak detector LDE-10 of the Swedish company SPM.

Claims (1)

 A device for detecting a leak, containing a microphone, amplifier, threshold element and indicator in series, characterized in that it is equipped with a bandpass filter unit connected between the amplifier output and the threshold element input, series-connected with an amplitude limiter to a minimum with an adjustable level of restriction, a pulse selector for duration and frequency-pulse detector connected between the output of the bandpass filter block and the input of the threshold element, as well as the amplitude detector m and a low-pass filter, and the input of the amplitude detector is connected to the output of the bandpass filter block, the output of the amplitude detector is connected to the output of the low-pass filter, and the output of the latter is connected to the control output of the amplitude limiter to a minimum.