SU1033851A1 - Method and device for measuring non-magnetic object electrical conductivity - Google Patents

Abstract

1. The method and method of uninterrupted electrical conductivity of objects, which is activated in that the electromagnetic transducer includes a circuit, oscillates it normal to the instability of the object being monitored, fixes the maximum value of the voltage amplitude of this circuit and determine the fixed value of the electrical conductivity of the test object, characterized in that, in order to increase the sensitivity of the control, the modulus of the oscillating circuit voltage by changing the voltage su- resistance of one of its elements rai lonicheskomu law at a frequency an integer times the frequency of voltage to N1tura, and the resulting modulation depth:; tanavpivayut 1fnticheskoy less. . 2. A device for measuring the specific electrical conductivity of non-magnetic objects, containing successively alternating-current circuits, a resonant circuit including an electromagnetor 1 device, a signal processing unit and a recorder, as well as a drive for displacement normal to the surface of the object under test distinguished by so that it is equipped with a varicap included in the oscillatory circuit and through a frequency multiplier connected to an ac current factor.

Description

4 j

f The invention is non-intrusive control and can be used to measure the electrical conductivity of non-magnetic objects. The known method iamere1t. specific electrical conductivity, which consists in registering signals of electromagnetic transducers connected in a differential circuit and minimizing the output signal of the circuit in the process of moving the transducer normal relative to the monitored object Cl 1. The disadvantage of the method is in its sensitivity to control, which is necessary for minimizing the output signal. Closest to the invention in its technical essence is a method for measuring the specific electrical conductivity of non-magnetic objects, in that it is electromagnetic. the transducer is included in the oscillatory circuit, mixed along the normal to the surface of the object under test, the maximum amplitude value of the voltage of this circuit is recorded, and the electrical conductivity of the object under test is determined by the fixed value. A device for measuring the electrical conductivity of non-magnetic objects, containing — alternately an alternator, a resonant circuit — includes an electromagnetic transducer, a signal processing unit and a register, and a drive for moving the transducer along the normal to the surface of the object being monitored. 2 for its implementation it consists in the insufficient sensitivity of controlling the low Q-quality of the resonant circuit. The purpose of the invention is to increase the sensitivity of the control. The goal is achieved by the method of measuring the specific electrical conductivity of non-magnetic objects, which implies that the electromagnetic transducer is inserted into an oscillating circuit, moving it along the normal to the surface of the object being monitored, fixing the maximum amplitude value of the voltage of this circuit and determining it by the fixed value the specific electrical conduction of this object, modulate the oscillation circuit voltage measurement by measuring the reactance of one of its elements according to the harmonic law / frequency, an integer number of times greater. the voltage voltage is cat-cheers, and the depth of the modulation obtained is set less than the critical one. A device for measuring the specific electrical conductivity of non-magnetic objects, containing a series-connected alternator, a resonant circuit including an electromagnetic converter, a signal processing unit and a recorder, as well as a drive for moving the converter along the normal to the surface of the controlled object, is equipped with a varicap included in the oscillatory circuit and through a frequency multiplier connected to an alternator. The drawing shows a string diagram of a device implementing a method for measuring the electrical conductivity of non-ferromagnetic objects. The device contains a series-connected alternating current generator 1, a resonant circuit 2, an electromagnetic transducer 3 and a varicap 4 connected via a frequency multiplier 5 to the alternating current generator 1, a signal processing unit 6 and a recorder 7, and also a drive 8 for moving the converter 3 along the normal to the surface of the controlled object. The device works as follows. By varying the amplitude of the output voltage of the frequency multiplier 5, the modulation depth of the varicap 4 capacitance is set below the critical, i.e. one in which the resistance of the resonant circuit 2 becomes zero and the generation of electrical oscillations occurs in the circuit. Measurement of the specific electrical conductivity is carried out during a single movement of the electromagnetic transducer 3, to the surface of the KOHTW of the replicable object. - Due to the movement of the electromagnetic transducer l 3, the amplitude of the voltage of the resonant circuit 2 varies according to the extremal law. The magnitude of the amplitude maximum determining the value of the measured specific electrical conductivity of the monitored object: is recorded by the memory element of the signal processing unit 6 due to the modulation of the energy-intensive circuit with frequency In a 1-Pt black layer, times the frequency of the supply voltage, energy is pumped to this circuit. This leads to a decrease in the active resistance of the resonant Circuit 2, which causes an increase in the quality of the circuit ir the amplitude of the voltage across it. As a result of this boe, the amplitude sensitivity to the specific electric dryness will melt. Moreover, the signal-to-noise ratio is not 1 {changes, since the increase in sensitivity occurs without the use of amplifiers that have their own. noises. In addition, due to the increase in the quality factor of the circuit, its electoral efficiency is improved by ceoiiCTBia. It is more accurate to fix maxi. The maximum values of a ligase for a resonant circuit, i.e. increase seledtivnost control. Thus, the sensitivity of the control is increased, which makes it possible to measure small changes in the specific electrical conductivity as well due to the pumping of energy into the circuit with the EPR from the high-frequency generator with the help of the multiplier in the varicap increases the sensitivity to the measured parameter and improves the selectivity of the controller.

Claims (2)

. 1. The method of measuring _{specific Λ} electrical conductivity of non-magnetic. | objects, namely, that the electromagnetic transducer is included in the oscillatory circuit, it is mixed normal to the surface of the controlled object, the maximum voltage amplitude of this circuit is fixed and the specific electrical conductivity of the controlled object is determined from the fixed value, characterized in that, in order to increase sensitivity control, modulate the voltage of the oscillatory circuit by changing the reactance of one of its elements according to the harmonic law at a frequency an integer times the frequency of the voltage circuit, and the resulting modulation depth is set smaller than the critical. 2. A device for measuring the electrical conductivity of non-magnetic objects, comprising an alternating current generator connected in series, a resonant circuit including an electromagnetic transducer, a signal processing unit and a recorder, as well as a drive for moving the transducer along the normal to the surface of the controlled object, characterized in that ? it is equipped with a varicap connected to the oscillating circuit and connected to an alternator through a frequency multiplier.