SU911318A1 - Multi-channel device for inspection of articles by acoustic emission method - Google Patents

Description

The invention relates to non-destructive testing and can be used to control developing defects in products.

A multichannel device for the x-control of products by the method of acoustic emission, which in each channel has a sequence of connected transmitters, an amplifier, and an amplifier-limiting device, is known. scheme And and the processing unit 1.

The disadvantage of this device is the lack of protection against reverberation noise.

The closest to the technical essence of the invention is a multichannel device for monitoring products using the acoustic transmission method, which contains in each channel series-connected converter, amplifier, amplifier-limiter and AND circuit connected to the outputs of the AND circuit in parallel: the information processing unit and the control zone driver and follow- the shaper of the permissible reverberation zone, which is connected to it, and the transceiver of the information processing unit, is connected to the second input of the AND circuit of each channel 2.

A disadvantage of the known device is the low reliability of the control, due to the fact that acoustic emission signals having a small amplitude cause the same time delay as large amplitude signals.

The purpose of the invention is to increase the outward control.

This goal is achieved due to the fact that the device is equipped with connected to the output

10 shaper zone control in series-connected shaper reverberation zone, the output of which is connected to the third input of the circuit AND each kiaala, shaper reverberation time, trigger and

15, a voltage divider, the output of which is connected to the second inputs of the amplifiers-limiters of each channel, by a coincidence circuit, the first input, which is connected to the second input of the shaper of the reverb zone,

Claims (2)

20 second input - with the output of the shaper of the allowable reverberation zone, and the output with the second input of the trster, and the OR circuit, whose inputs are connected to the outputs of the limiters of each channel, and the output with the second inputs of the shapers of the reverberation zone and reverberation time. The drawing shows the block diagram of the proposed device. The device contains several channels, each of which consists of a series-connected converter 1, amplifier 2, amplifier-limiter 3 and circuit 4I, connected to the outputs of circuits I 4 in parallel with the information processing unit 5 and the imager 6 of the control zone, connected to its output in parallel shaper V of the allowable reverberation zone and shaper 8 of the reyberbeam zone, connected in series with the coincidence circuit 9, trigger 10 and voltage divider 11, the output of which is connected to the input of the amplifier - gr Animatite 3 of each channel, a Former 12 times the reverberation, the input of which is connected to the output of the form 8 reverb zone, and the output is connected to the second input of the trigger 10, the circuit OR 13, the inputs of which are connected to the outputs of the limiters of each channel, and the output - with the second inputs of the former 6 of the reverb zone and the former 12 of the reverberation time. i The device operates as follows. Each of the transducers 1, having received into the AE signal, converts it into an electrical signal. Then these signals, amplified by amplifiers 2, are fed to the corresponding amplifier-limiter 3 with a cut-off. When they exceed the set cutoff level, they are amplified to the restriction for input to the AND 4 schemes of the corresponding channel and through the OR 13 1 circuit additional inputs of the shaper 8 of the reverberation zone and the shaper 12 of the reverberation time. With the circuit: we AND 4 pulses are supplied to the corresponding inputs of the information processing unit 5 and the imaging unit 6 of the control zone. Upon receipt of pulses from all channels to the information processing block, the latter, using a computer, determines the location of the source of received AE signals, amplitude, intensity, and other significance parameters of developing defects. From the moment of arrival of signals from all channels to information processing unit 5 until receiving EMU information from information processing unit 5 to circuits AND 4 of each channel, a prohibiting impulse is intimidated, precluding the possible change / reception of information during its processing. When the first of the AE signals received is received by the control zone driver 6, made in the form of an odovibrator, a pulse of the strobe end of the control zone is applied to the driver 7 of the allowable reverberation zone to the driver 8 of the reverberation zone, the length of the control zone strobe is set to no less than the maximum possible time difference the arrival of signals on the transducer 1, installed on the control object. The shaper 7 of the allowable reverberation zone is made in the form of a one-shot, the pulse duration of which is set no less than the maximum possible reverberation time with a strong AE signal on the controlled object by this multi-channel device. From the shaper 7 of the allowable reverberation zone, a pulse arrives at one of the inputs of the matching circuit 9. The shaper 8 of the reverberation zone is made in the form of a prolonged one-shot vibrator, the capacity of which has a forced reset through the resistance and a key by the presence of impulses of events arriving at the additional inputs of the shaper. The impulse of the end of the control zone starts the one-shot (at the same time the one-shot of the driver 7 of the allowable reverberation zone). At a low frequency of AE events (the minimum time between events is longer than the installation time of the one-vibrator of the former 8 zones of the reverberation), the end of the reverberation zone is determined by the charging time of the one-vibrator capacitance. In this case, the signals arriving at the additional input do not affect the operation of this one-shot. At a high intensity of events A3, the signals are sent to the additional input earlier than the capacity of the odorovibrator is charged, and are forced to discharge it through the key. Thus, the pulse duration of the one-shot is prolonged until there is a pause between the impulses of the AE events themselves, the longer the installation time of the one-shot of the driver of the reverberation zone 8. Therefore, the duration of the reverb zone is automatically set depending on the intensity of the AE signals received. Since, for a given object, the duration of the reverbered ringing is uniquely dependent on the intensity of the received AE signals, this cxenjia provides the optimal duration of the reverberation zone. From one output of the imaging unit 8 of the reverb zone, the pulse (logical unit) of the one-vibrator arrives at the second input of circuit 9, and from the other output (alternation), the pulse is fed to the third input of the And 4 circuits of all channels, prohibiting the passage of signals through the And 4 circuits in the presence of a zone impulse reverberation, and on the shaper 12 time reverberbrady, run it at the end of the pulse of the reverb zone. The reverb time generator 12 is designed to automatically return the cutoff level of the limiting amplifiers 3 to its formerly lower value (if the cutoff level of the latter is set to a higher value), if during the time determined by the reverb time shaper 12, no signals were received at the input of the limiting amplifiers 3 exceeding the highest cutoff level. The shaper 12 of the reverberation time can be made in the form of a prolonged one-shot oscillator (similar to the one-shot shaper of the reverberation zone 8), the duration of which is set without dependence on the object of control and the controlling system. When a large amplitude arrives at AE signal converters, the duration of the reverberation ringing increases dramatically and, by virtue of this, the pulse width from the driver of the 8th reverberation zone. When the pulse duration from the imager 8 of the reverberation zone exceeds the pulse duration from the imager 7 of the allowable reverberation zone, a pulse appears at the output of the coincidence circuit 9, which sets the trigger 10 to the position providing the highest cut-off level of the amplifiers 3. This correspondingly reduces the number of pulses at the outputs of limiting amplifiers 3 with cut-off, therefore the duration of the pulse at the output of the former of the verbation zone is reduced. If at the end of the reverberation zone during a shaper pulse — 12 reverberation times — the input of the limiter amplifiers 3c cut-off does not receive signals exceeding the highest cut-off level set by trigger 10 through voltage divider 11, then at the end of this pulse, trigger 10 switches to another the state corresponding to the lowest cutoff level at the inputs of the limiting amplifiers. 3.. Thus, the multichannel device is capable of receiving signals from the AE of a small area. If during the impulse from the shaper 12 of the reverb time the signals to the input of amplifiers of grenade 3 with amplitude exceeding the higher cutoff level continue to be received, then the pulses at the additional input of the shaper 12 of the reverberation time discharge its capacitance, extending the duration of its pulse. The trigger 10 maintains its previous state,. in which the divider And carries a high cut-off level. Consequently, with large amplitude AE signals, the device operates at a high cutoff level, and with amplitude AE signals with a low cutoff level, the cutoff level at which the parameters of the AE signals are currently recorded is recorded to take into account the scale of the AE parameters during subsequent processing. Thus, in the proposed multichannel device, the cutoff level and time delayed from reverberation noise are optimal and automatically vary, and when the amplitude of the AE signals changes. This increases reliability at a given monitoring performance, as the protection time for reverberation noise becomes optimal in the whole dynamic range of incoming AE signals, arising in the control object. An inventive multichannel device for controlling products by the method of acoustic emission, containing in each channel series-connected transducer, amplifier, safety pin and circuit And connected to the outputs of the circuit And parallel-connected information processing unit and shaper of the control zone, connected in series with the Thermal Heat Exchanger permissible reverberation zones, and the output of the information processing unit is connected to the second input of the AND circuit of each channel, characterized in that, in order to increase the the accuracy of the control, it is equipped with connected to the output of the control zone of the control zone, serially connected by the shaper of the reverberation zone, the output of which is connected to the third input of the circuit AND of each channel, the shaper of the reverberation, trigger and voltage divider, the output of which is connected to the second inputs of the limiting amplifiers of the channel, a coincidence circuit, the first input of which is connected to the second input of the reverb zone shaper, the main input - with the shaper output of the permissible reverberation zone And an output - with an input trigger vtorp and OR circuit, whose inputs are connected to the outputs of limiting amplifiers each channel, and output - with the second inputs formers reverberation and reverberation time zone. Sources of information taken into account during the examination 1. USSR author's certificate No. 684440, cl. G 01 N 29/04, 1978. 2. Pasternak V. B. Investigation and development of a stationary installation for monitoring energy objects by the method of acoustic emission. Search-AF-33, report 11-77, VNIIMK, Kiishnev, 1979., p. 95-104 (prototype).