SU1087881A1 - Device for measuring energy of acoustic emission signals - Google Patents

Abstract

A DEVICE FOR MEASURING THE ENERGY OF THE ACOUSTIC SIGNALS {t emissions, which contain a connected electrical conversion and an amplifier, connected in series with the counter into the recorder, in T p Vf-. In order to improve the reliability of the control, it is equipped with an absolute value converter, connected to the output of the amplifier, with an OR logic element connected to the input of the counter, n channels, each of which contains an amplitude discriminator connected in series, the time interval converter is in the number of pulses and the frequency divider, the amplitude discriminator inputs are connected to the absolute value converter output, and the frequency divider outputs are connected to the corresponding inputs logical element OR, the division factors of the frequency of the pulses of each is chosen from the ratio i i to-- h-1 Ui - and (Л л1-1 where Ui is the discrimination level of the discriminator of the -th channel, and U U2 ... U.

Description

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The invention relates to acoustics of emission hoiggropus and can be used for destructive testing of objects in the mechanical, metallurgical and other industries. . . A device for measuring the number of pulses of acoustic emission is known, sotsialnye connectors consistently transducer, amplifier, pulse counter and recorder. The non-balance of the device is poor control accuracy, due to the fact that the measured parameter of the acoustic emission signals does not estimate the energy of the signals emitted by the object during deformation, according to which the strength of the object's properties is determined. The closest to the technical essence of the invention is a device for measuring the energy of the US acoustic emission emission, which contains a serially connected anectroacoustic transducer and an amplifier, connected in series by a counter and a G2: 1 recorder. A disadvantage of the known device is the low reliability of the control, due to the fact that the anergy of only low-frequency components of the signal is measured. The purpose of the invention is to increase the reliability of monitoring the measurement of the energy of acoustic emission signals. The goal is achieved by the fact that a device for measuring the energy of acoustic emission signals, comprising a series-connected electric transducer and an amplifier, connected in series by a counter and a recorder, is provided with an absolute value transducer,. connected to the output of the amplifier, logical elements OR, connected to the input of the counter, g channels, each of which contains connected sequences. Targetly amplitude discriminator, transformer of time intervals into a number of pulses and a frequency divider; frequency dividers - with the corresponding inputs of the OR gate; the division factors for the frequency of the pulses of each channel are chosen as: -1 1 88J2 where Uj is the level discrimination amshshtudnogo discriminator i-th channel, and U The drawing shows a device measuring energy days acoustic emission signals. The device will interface a successively connected electrical converter and amplifier 2, successively connected counter 3 and register 4, as well as an absolute value converter 5 connected to the output of amplifier 2, logic element 6 OR connected to the input of counter 3, n channels, each contains connected in series amplitude discriminator 7-10, the Converter 11-14 time intervals in the number of pulses and the divider 15-18 frequency. The inputs of the amplitude sensors 7-10 are connected to the output of an absolute value converter 5, and the outputs of frequency dividers 15-18 are connected to the corresponding inputs of an OR 6 logic unit. A device for measuring the energy of acoustic emission signals works as follows. I Acoustic emission signals are received by an electro-acoustic converter 1, amplified by amplifier 2 and fed to the input of an absolute value converter 5, which converts a variable signal voltage into a positive voltage alternating voltage Rnness. From the output of the absolute value converter 5, the transformed signal is fed in parallel to the inputs of amplitude discriminators 7-1О, the discrimination levels and amplitude discriminators 7-10 are selected different and such as to ensure the measurement of the energy of acoustic emission signals in the required dynamic range. At the inputs of amplitude discriminators 7-10, pulses are formed with a duration equal to the time intervals during which the output signal of the absolute value converter 5 exceeds the discrimination level of amplitude discriminators 7-10. In converters 11–14 time intervals in the number of pulses, the output pulses of amplitude discriminators are filled with 7–10 quantizing pulses of the same follow-up period, much shorter than the duration of the pulses from the outputs of amplitude discriminators 7–10. Quantized pulses are fed to the inputs of frequency dividers 15-18. At the outputs of each detgel 15-18

3 1О878814

Frequencies are pulses that are multiples of the pordionally eururgy of signals to acoustically determined coefficients of the delimited voltage. pulse frequency. Output pulses

Deutv 15-15-18 frequencies are combined. Thus, the invention is described below.

the logical element OR 6 and the projection j to increase the information content of the control over

south and counter 3, where counts are calculated for the introduction of blocks that measure energy, are recorded by the recorder 4, the signals of signals in a wide range of time. The total number of pulses received is pro-that.

Claims (1)

DEVICE FOR MEASURING THE ENERGY OF ACOUSTIC EMISSION SIGNALS, containing connected; in series, an electric converter and an amplifier, connected in series with a counter and a recorder, different; the fact that, in order to increase the reliability of control, it is equipped with an absolute value converter connected to the amplifier output, an OR logic element connected to the counter input, η channels, each of which contains an amplitude discriminator connected in series, a converter of time intervals to the number of pulses and a divider frequencies, the inputs of the amplitude discriminators are connected to the output of the absolute value converter, and the outputs of the frequency dividers are connected to the corresponding inputs of the OR logic element, ffitsienty dividing each pulse frequency channel is selected from the relation and - ⁿ ί 1-4 wherein Uj - discrimination level amplitude discriminator i-ro channel, a U. <<U ₂ ^<- * - ^<U h ·