SU1084666A1 - Device for inspecting ferromagnetic articles by barkhausen effect technique - Google Patents

Abstract

DEVICE FOR THE CONTROL OF FERROMAGNETIC PRODUCTS BY Barkhausen effect, comprising a series-connected low-frequency generator, power amplifier, magnetic induction transducer, a notch filter, an amplifier, a detector and a unit measuring the parameters of the Barkhausen noise of t lichayuschees in that, in order to increase reliability of control, it is provided serially connected with the Barkhausen noise emf average value meter, the first threshold 3 element, the first analog key, the complete resistivity measurement unit the second threshold element, and the second analog switch / connected between the input of the power amplifier and the second detector output, the second input of the second analog switch is connected to the low frequency output of the generator, and the second input of the first analog switch magnetic induction converter. 00 4i О Л

Description

The invention relates to instrumentation technology and can be used for not inspecting the control of parameters of product layers after surface plastic deformation, grinding, and chemical heat treatment. A Barkhausen noise control device (BSS) is known, which contains a series-connected generator, a magnetic induction converter, an amplifier, an amplitude selector, a terminal unit and a spectrum analyzer connected in series, a detector, an integrator and a voltage divider 1. A disadvantage of the known devices is large non-generation costs electrical energy, due to the operation of the generator and the magnetic induction converter at the time when the change of the controlled product is being made. I The closest in technical essence to the present invention is a Barkhausen effect control device for ferromagnetic products, comprising a series-connected low-frequency generator power amplifier, magnetic induction converter, notch filter, amplifier, detector, and Barkhausen noise parameter measuring unit. The control of the structure of the material is carried out according to the results of the measurement of the parameters of the EMF of SB 2. The disadvantage of this device is the significant loss of electrical energy that occurs when changing the controlled product. In addition, the operation of the magnetic induction converter during unproductive periods leads to the heating of its magnetic circuit, a change in its characteristics and a decrease in the reliability of the entire device. The purpose of the invention is to increase the reliability of the control. This goal is achieved by the fact that the device for controlling ferromagnetic products by the Barkhausen method, containing a series-connected low-frequency generator, a power amplifier, a power-amplification converter, a notch filter, an amplifier, a child, and a Barkhausen noise parameter measuring unit, are equipped with a series measuring device Its Barkhausen noise EMF value is the first threshold element, the first analog key, the impedance measurement unit, the second threshold element ohms and a second analog switch connected between the input of the power amplifier and a second detector output, a second input of the second traction anal key connected to the output low-frequency oscillator and the second input of the first analog switch with the second output of the inductive transducer. The drawing shows the block diagram of the device. The device contains a series-connected low-frequency generator 1, a second analog switch 2, a power amplifier 3, a magnetic induction converter J, a notch filter 5, an amplifier 6, a detector 7, and a Barkhausen noise parameter measuring unit 8. The output of the magnetic induction converter is connected through the first analog switch 9 connected in series, the impedance measurement unit 10 and the second threshold element 11 are connected to the control input of the second analog switch. The detector output through the meter 12 of the average emf of Barkhausen noise and the first threshold element 13 is electrically connected with the control input of the first analog switch 9. The device works as follows. . In the absence of a monitored product, the impedance measuring unit 10 is using a threshold element 11 and an analog switch 2 to disconnect the low-frequency generator 1 and the power amplifier 3. In this case, the magnetic induction transducer 4 does not create a powerful magnetic reversal on the entire floor and there are no overhead costs of electrical energy. When the converter contacts the ferromagnetic product (not shown), the impedance of the converter changes, which is registered by the impedance measurement unit. Triggering the threshold element 11 using an analog switch 2 causes the voltage from the low-frequency generator to be applied to the power amplifier. Converter 4 creates an alternating, magnetic field, which leads to the appearance of Barkhausen noise in the ferromagnet and EMF pulses from the SB in the measuring coil of the converter. The EMF signal from the SD is through a notch filter 5 (The frequency-selective amplifier 6 and the detector 7 is fed to the Barkhausen noise parameter measuring unit 8, according to which the control result is measured. In addition, the average value of the electromotive force of the electromotive force during the period of the magnetization reversal is measured by the meter 12. .If the average value of the EMF of the SD is relatively zero, the threshold element 13 is triggered, which switches off the impedance measurement unit 10 from the converter 4 with an analog switch 9. In this case, the impedance measurement unit 10 The exposure does not distort the magnetic field created by the transducer 4 and does not affect the result of the control.

In the absence of contact of the controlled product with the EMF converter from the SB does not occur. Since the average emf value from the SB in this case is zero, the threshold element 13 via KJjro4 9 connects the impedance measurement unit 10 to the converter 4. The impedance measurement unit detects the absence of contact. And with the help of the threshold element 11 and the analog switch 2 it disconnects 1 low frequency generator and 3 power amplifier.

The frequency of the notch filter is chosen to be equal to the frequency of operation of the impedance meter.

The frequency of operation of the meter, the impedance is chosen not exceeding 20 f, where f is the frequency of the low-frequency generator.

The device allows to significantly reduce the energy costs of monitoring and exclude the converter heating, since during the preparatory operations (removing and installing the monitored product) the low-frequency generator is disconnected from the power amplifier.

Claims (1)

DEVICE FOR MONITORING FERROMAGNETIC PRODUCTS BY THE BARKHAUSEN EFFECT METHOD, comprising a series-connected low-frequency generator, power amplifier, magnetic induction converter, notch filter, amplifier, detector, and Barkhausen noise parameter measurement unit, which is controlled in order to increase reliability in order to increase reliability it is equipped with a Barkhausen noise emf average value meter connected in series, a first threshold element, a first analog key, and an impedance measuring unit by a second threshold element and a second analog key connected between the input of the power amplifier and the second output of the detector, the second input of the second analog key is connected to the generator output from a low frequency, and the second input of the first analog key is connected to the second output magnetic induction converter V. f