SU1670368A1 - Eddy-current thickness meter - Google Patents

Abstract

The invention relates to non-destructive testing and can be used for non-destructive measurement of the thickness of non-magnetic electrically conductive products using the eddy current method. The purpose of the invention is to improve accuracy by eliminating the error due to changes in the specific electrical conductivity over a considerable range. The measurement of the thickness of the product being monitored is conducted by an eddy current transducer 9, the secondary EMF of which is compensated, amplified, detected and recorded by the indicator 15. The control of specific electrical conductivity is conducted by the eddy current transducer 2, the secondary EMF of which is compensated, amplified, detected and fed to the comparison circuit 17. The second input of the comparison circuit receives the voltage from the frequency converter 16 to the voltage connected to the high frequency generator 8. When the conductivity value changes, the first and second outputs of the comparison circuit 17 appear signals arriving at the control elements 18 and 19. The first control element controls the frequency value of the generator 8, and the second controls the turning on of the indicator. Thus, the indications of indicator 15 slightly depend on the change in the specific electrical conductivity of the product being monitored, but depend on the change in its thickness. 1 il.

Description

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The invention relates to non-destructive testing of products and can be used to measure the thickness of non-magnetic electrically conductive products, such as rolled steel sheets.

The purpose of the invention is to improve accuracy by eliminating the error due to changes in the specific electrical conductivity over a considerable range.

The drawing shows a structural diagram of an eddy current thickness gauge.

The thickness gauge contains two channels: measurements of electrical conductivity, thickness measurements, control and display units. The conductivity measurement channel contains a high-frequency generator 1, an eddy current transducer 2, an alternating voltage compensator 3, an alternating voltage amplifier 4, a phaeo-sensitive detector 5, a direct current amplifier 6, and a phasor regulator 7. The thickness measurement channel contains control Low frequency generator 8, eddy current transducer 9, alternating voltage compensator 10, alternating voltage amplifier 11, phase-sensitive detector 12, direct current amplifier 13, phase regulator 14.

The control and display unit consists of an indicator 15, a frequency to voltage converter 16, a comparison circuit 17, two control elements 18 and 19, and a key element (without a position).

Eddy current thickness gauge works as follows.

Eddy current transducers 2 and 9 are excited by high-frequency and low-frequency voltages from generators 1 and 8, respectively. The frequency of the voltage supplied from generator 1 to converter 2 is selected based on the minimum sensitivity of the output signal of the converter 2 to the thickness of the product being monitored, and the frequency of voltage supplied from generator 8 to converter 9, initially selected from condition (1):

JLff.-3.f- 3

R °

(M,

where T is the thickness of the sheet product;

 general parameter equal to /

-R V2ttf / 0f7

R is the radius of the measuring coil of the converter;

f is the frequency of the exciting current;

AO magnetic constant;

g; - specific electrical conductivity.

The signals from the outputs of the converters 2 and 9 through the compensators 3 and 10 are fed to

amplifiers 4 and 11. The amplified signals are detected by phase-sensitive detectors 5 and 12, the reference voltages of which are received respectively from generators 1 and 8 through phase controllers 7 and 14.

0 A constant voltage from the output of the detector 5, proportional to the specific electrical conductivity of the products, is amplified by the amplifier 6 and is fed to the input of the comparison circuit 17. From the output of the detector 12, a constant voltage, proportional to the thickness of the monitored product, is amplified by the amplifier 13 and is applied to the indicator 15, according to the indications which judge the results of the control.

0 When the specific value deviates

electrical conductivity from the nominal output of the comparison circuit 17, a signal arrives at the inputs of the control elements 18 and 19. The control element 18 changes the frequency of the voltage of the generator 8 until the voltage coming from the converter 16 - T The voltages in the second input of the comparison circuit 17 do not compensate

0, the voltage from the amplifier 6 ne is the first input of the comparison circuit 17, i.e., until the condition / -) RF Au-ray element 19 turns on the indicator 15 only for the measurement time, thereby eliminating the change in the electrical conductivity ne thickness measurement results.

Claims (1)

DETAILED DESCRIPTION OF THE INVENTION An eddy current gauge comprising a high frequency generator, an input connected to it a first eddy current converter, a first AC voltage compensator connected in series, an input connected to the output of a first eddy current converter, a first voltage amplifier, a first photoelectric sensitive detector and a first amplifier direct current, first phase regulator whose input is connected to the generator output 0 high frequency, control element, low frequency generator, input connected to it second eddy current transducer in series connected second alternator of alternating voltage, input of connection 5, with the output of the second converter, the second amplifier of the alternating voltage, the second phase-sensitive detector and the second amplifier of the direct current, the second phase regulator, whose input is connected to the output a low frequency generator, and an indicator, characterized in that. In order to increase accuracy, it is equipped with a comparison circuit, the input of which is connected to the output of the first DC amplifier, and the output - to the input of the control element, frequency to voltage converter, the input of which is connected to the second output of the low-frequency generator, and the output - with the second input of the comparison circuit, the key element and the second control element a volume connected to the second output of the comparison circuit, and a low frequency oscillator made frequency controlled. the output of the first control element is connected to the control input of the low-frequency generator, the outputs of the phase regulators are connected to the second inputs of the respective phase-sensitive detectors, and the outputs of the second control element and the DC amplifier are connected to the indicator through a key element.