SU1022041A1 - Non-ferromagnetic object conductivity measuring method - Google Patents

Description

The invention relates to ne; collapsing control and can be used to measure the conductivity of weakly conductive non-ferromagnetic volumes.

A method of measuring electrical conductivity is known. It is concluded that working and compensating electromagnetic transducers are supplied with alternating current, they compare the output signals of these transducers, change the frequency of the supply current, fix the frequency corresponding to the moment of equality of the amplitudes of the compared signals, and determine conductivity object ft}.

The disadvantage of this method is the impossibility of measuring the electrical conductivity of non-ferromagnetic objects.

The closest to the invention according to the technical essence is a method for measuring the electrical conductivity of non-ferromagnetic objects, which consists in the fact that in a controlled object a eddy current is excited by means of a surface-mounted electromagnetic transducer, which determine the ratios of the active and reactive components of the electromagnetic converter at two values x gap, changeable by a fixed amount, using a dielectric strip, transform each of the obtained values of the ratio Using a logarithmic converter, one obtains the difference of the converted values, normalizes the last by the value of the fixed change of the gap to the thickness of the dielectric strip and determines the measured electrical conductivity of the object fz J. from the last result.

However, this method does not provide the necessary accuracy of measuring conductivity, which is associated with an error due to the discreteness of the scale corresponding to the measured conductivity and the signal at the output of the device. .

The purpose of the invention is to improve the measurement accuracy.

This goal is achieved by the fact that, according to the method of measuring the conductivity of non-ferromagnetic objects, which consists in the fact that the controlled object excites eddy currents using an electromagnet transducer, determine the ratios of the active and reactive components of the electromagnetic signal of the transducer at two values of the gap "variable on a fixed value, each of the obtained values of the ratio is transformed using a logarithmic converter; the difference between developed values and norm (the last by the value of the fixed gap change is given, the reference voltage is set, the normalized difference of the transformed values is compared with it, the frequency of the excited eddy currents is changed, the frequency and difference of the converted values corresponding to the moment of coincidence of the compared voltages are converted, the difference is converted with the help of a quadrant they normalize the converted value by the fixed frequency value and the measured conductivity is determined by this value The object is.

The method is implemented as follows.

Identical overhead electromagnetics transducers are installed over a controlled section with a fixed difference in the gaps between the surface of the object being monitored and the ends of the transducer. In order to eliminate the mutual influence of converters, their implementation in the form of U-shaped and orthogonal placement is recommended. In a controlled object, eddy currents are excited and the ratio of the active and reactive components of the signal of electromagnetic transducers is determined, thereby obtaining the ratios for two values of the gap, which is changed by a fixed value. The initiation of eddy currents is recommended, and the measurement of the aforementioned relations is carried out with the aid of oscillator circuits, in which oscillatory circuits are included, electromagnetic transducers.

Using the electronic modules performed in a known manner, converting each of the obtained ratios using a logarithmic converter, the difference of the transformed values is obtained, the latter is normalized to the value of a fixed gap change, the reference voltage is set, the normalized difference of the transformed values is compared with it, the excitation frequency is changed

. .3g; T02204l4, eddy currents, by varying the frequency of the electrical conductivity of the volume: you .autogenerator, fix the frequency of the spectrum. And the difference between the converted values, the measurement results do not depend

the values of the gap between the transforms, corresponding to the moment being compared, are transformed by the device and the object under control,

quadratic difference, nor-that allows for example, with high

measure the converted value by flux; measure the conductivity

the fixed frequency of the samples of non-ferrous metal ores without

determined by this value from pretreatment.

Claims (1)

METHOD OF MEASURING ELECTRIC CONDUCTIVITY OF NON-FERROMAGNETIC OBJECTS, consisting in tm, that eddy currents are excited in the controlled object using an applied electromagnetic transducer, determine the ratio of the active and reactive components of the signal of the electromagnetic transducer at two values of the gap, changed by a fixed value, each transform using a logarithmic converter, get the difference of the converted quantities and normalize the latter But the value a fixed change in the gap, which is subject to that, in order to increase the accuracy of measurements, the reference voltage is set, the normalized difference of the converted quantities is compared with it, the frequency of the excited eddy currents is changed, the frequency and difference of the converted values corresponding to the moment of comparison of the compared voltages are recorded, the difference obtained is converted using a quadrator, normalized converted “value from the fixed value” of the frequency and determine the measured electrical conductivity of the object from this value. ^. SU w 1022041