SU1216637A1 - Thickness gauge of dielectric coatings - Google Patents

Abstract

The invention relates to measurement instrumentation and can be used to measure the distance to electrically conductive products, the thickness of dielectric coatings, and the amplitude of vibration. The thickness gauge of dielectric coatings contains an auto-generator, a successively connected eddy current transducer (VTP), a phase-sensitive detector, the output of which is connected to the aBTO camera generator through a phase shifter, an amplitude detector, an adder, the second input of which with an ETP through an amplitude detector in the second. connecting the second VTP, the second phase-sensitive detector, the second amplitude detector, the second phase shifter, and the second adder, the division unit through which the adders connect us with individual control; nkaTorom. As a result of Sigal processing, the output signal of the adders are distance functions and are almost independent of the variation within the electromagnetic limits of the base of the product. The measurement results remain constant even in the case of changes in the output signals of the transducers due to variations in ambient conditions, power mode, etc. 1 il. u od a 00

Description

The invention relates to measurement instrumentation and can be used to measure the distance to electrically conductive products, the thickness of dielectric coatings, the amplitude of vibrations, and is an improvement to the thickness gauge described in ed.

 905620.

The aim of the invention is to improve the accuracy of measurements by reducing the effect of variations in interfering factors, such as the power mode of the device, ambient conditions, etc.

The drawing shows a structural diagram of a dielectric coatings mass band,

The dielectric coating thickness gauge consists of an auto-oscillator 1, connected in series by an overlap eddy-current transducer 2, the input of which is connected to the output of the auto-generator 1, a phase-sensitive detector 3, which is supplied to the reference voltage from the auto-oscillator 1 through phase shifter 4 the output of the transducer 2 through the amplitude detector 6. The thickness gauge contains the second set of, similarly connected to the second superimposed eddy current transducer 7, the second fazochuv-st detector 8 and the second amplitude detector 9, the second phase shifter 10 and the second adder 11, as well as the block 12 division, through which the adders 6 and 11 are connected to the indicator 13.. .

The thickness gauge works as follows.

The oscillator 1 provides power to the converters 2 and 7 with a sinusoidal current. Moreover, transducer 2 is removed from the product at a distance t, equal to the dielectric coating thickness required, and transducer 7 is located at a distance where to is the set tj t, + tg, and the distance is fixed in the process. Injected on, strand converters 2 and 7 are functions of the electromagnetic parameters O and / and the base of the product and, accordingly, the distances t and tj. These voltages are applied respectively to the detector inputs.

five

0

five

pits 3, 6 and 8, 9. The reference voltages of the phase-sensitive detectors 3 and 8 are set in phase with the drive current of the converters using phase shifters 4 and 10, respectively. Constant voltages from the outputs of the detectors 3 and 6 are fed to the inputs of the adder 5, and from the outputs of the detectors 8 and 9 to the inputs of the adder 11. The output voltages of the adders 5 and 11 are fed to the inputs of the dividing unit 12, the output of which is fed to the indicator 13 .

The output signals of adders 5 and 11 are functions of, respectively, the distances t | and tj and practically do not depend on variations over a wide range of electromagnetic parameters of the product base. Since in the process control tj, -. con.st and changes only the thickness of the dielectric coating C, the output voltages of dividing unit 2 and, consequently, the indications of the indicator t3 correspond to the measured thickness of the dielectric coating and do not depend on variations of the electromagnetic properties of the product. The measurement results will remain constant even in the case of changes in the output signals of the converters 2 and 7 (and / or the output signals of the adders 5 and 11) caused by va-. environmental conditions, dietary regimes, etc. The calculated data show that a change in the amplitude of the excitation current of the eddy current transducer by 1.1 times compared with its nominal value does not affect the measurement results of the thickness of the coating.

Claims (1)

Invention Formula Thickness gauge of electrical coatings on auth.St. No. 905620, which is due to the fact that, in order to improve the measurement accuracy 0 by reducing the influence of variations of interfering factors, it is equipped with a dividing unit and a second identical channel connected to the oscillator, including the second invoice 5 eddy current transducer, connected to it a second phase-sensitive detector and a second amplitude detector connected to you five 0 S by the moves of the latter, the second adder and the second phase shifter,. itushey between the oscillator and the sensitive detector, the gains the first and second adders are connected to the inputs of the division unit, the output of which is connected to the indicator.