SU1281871A1 - Device for checking eddy current thickness gauges for non-metallic coatings - Google Patents

Abstract

This invention relates to a measurement technique. The purpose of the invention is to expand the field of application, as well as to increase the accuracy of the calibration of thickness gauges, the transducers of which have a flat rectangular exciting winding. The transducer 5 of the gaugeable thickness gauge 9 through the adapter sleeve 13 and the rotation mechanism 4 is fixed to the bracket 2. An additional winding 6 is fed to the measuring rod of the exemplary device 8, moving in the direction of the measuring axis, powered via an inverting voltage follower 10, phase shifter 11, attenuator 12. By changing the air gap between the transducer 5 and the additional winding 6 using the mechanism 7, the gap is measured using an exemplary device 8. Before thickness checking mers effected alignment II phase shifter and attenuator 12 using the model measures the coating thickness, certified not only by the coating tolETsIne but zlektro- and magnetic properties of the base material. By giving a signal of the corresponding amplitude and phase to the additional winding 6 with the help of a phase shifter 11 and an attenuator 12 and the indication of the sample instrument 8, it is possible to calibrate the gauge thickness gauge 9. 1 Il. i (L

Description

The invention relates to a measuring technique and may find application in the calibration of eddy current thickness gauges of non-metallic coatings on flat and cylindrical products in any branch of engineering.

The aim of the invention is to expand the field of application, as well as to increase the accuracy of calibration of thickness gauges whose transducers have a flat rectangular exciting winding, due to the possibility of using adjustable thickness gauges to control products whose substrate has different electrical conductivity.

The drawing shows a device for calibration of eddy current thickness gauges of non-metallic coatings.

An apparatus for checking eddy current thickness gauges nonmetallic coating comprises a tripod 1 pervsh and ytoroy brackets 2 and 3, the mechanism 4 for rotation of the transducer, the transducer 5 with a flat rectangular exciting coil power metal emogo gauge, dopolnitelnuyuobmotku 6 identical to the excitation winding of the transducer 5 pover emogo gauge mechanism 7 displacement, an exemplary instrument 8, a rotatable thickness gauge 9, an inverting voltage follower 10, a phase shifter 11, an attenuator 12, and also an adapter sleeve 13. On the tripod 1 closed First and second bracket brackets 2 and 3. On the second bracket 2 through the mechanism

4 turns secured converter

5 of the gauge thickness gauge 9. The additional winding 6 is fixed on the measuring rod of the exemplary device 8 with the mechanism 7 for its movement. An exemplary device 8, mounted on a common measuring axis with a converter 5, is fixed to bracket 3. The output of an inverting voltage follower 10, the input of which is connected in parallel to the converter 5, is connected to the input of the phase shifter 11. The output of the phase shifter 11 is connected to the input of the attenuator 12, the output of which is connected with additional winding 6.

The verification process of eddy current thickness gauges of non-metallic coatings is carried out as follows.

Converter 5 verified thickness gauge 9 through adapter sleeve

13 and the rotation mechanism 4 are fixed on the second bracket 2. On the measuring rod of the exemplary device 8, moving in the direction of the measuring axis, the additional winding 6 is powered, which is powered through the inverting voltage follower 10, the phase shifter I1 and the attenuator 12 .

Having made the change in the air gap between the transducer 5 and the auxiliary winding 6 using the movement mechanism 7, the gap is measured using an exemplary device

5 8. Before calibrating thickness gauges, adjust the phase shifter - 11 and attenuator I2 using standard measures of the thickness of coatings certified not only by thickness

0 coating, but also on the electromagnetic properties of the base material. By giving a signal of the corresponding amplitude and phase to the additional winding 6 using a phase shifter 11 and an attenuator 12 and the indications of the exemplary device 8, you can check the calibrated thickness gauge 9. The position of the converter 5 relative to the additional winding 6 can be determined How does the reading of the gauge thickness gauge 9 affect the deviation of the transducer 5 from perpendicular to the monitored surface?

Claims (1)

Formula of Invention A device for calibrating eddy thickness gauges of nonmetallic coatings, containing a tripod with two brackets, is attached to the first bracket an exemplary instrument, and the second one has a transmitter with a 45 calibrated thickness gauge mounted on a common measuring axis with a sample instrument that differs from in order to expand the field of application, and also to increase the Q or the accuracy of the thickness gauges, the transducers of which have a flat rectangular exciting winding, it is equipped with a transducer turning mechanism, fixed Lenny on the second - with a bracket, an additional winding, identical to the excitation winding of the transducer of the gaugeable thickness gauge, mounted on the measuring rod of an exemplary device with a pneumatic device With the possibility of moving relative to the rotating voltage follower, the rod connected to the output is a phase shifter and an attenuator, the output of a former of a detectable thickness which is connected to the additional connected in series with an i-coil.