SU1320728A1 - Eddy current device for checking articles with limited acess to check zone - Google Patents

Abstract

The device is intended to control gaps, coating thicknesses and dynamic characteristics of hard-to-reach products by an eddy current probe. The aim of the invention is to improve the accuracy of control due to the periodic calibration of the converter, which does not depend on the temperature of the control environment and the aging processes of the converter. Eddy current coil 1 in the housing 4 in the form of a dielectric glass is installed in the technological hole 5 of the product. Between the coil 1 and the controlled part of the product 2 install the element 6 correction in the form of a spiral 7. Close the key 9 and make the spiral 7 like an electrically conductive screen. At this moment, the converter is calibrated by the signal of block 3. The electrical conductivity of the helix circuit is measured by meter 11 and is kept constant when the temperature is changed by means of a resistor 10. In control mode, switch 9 is open. I il. to SG)

Description

The invention relates to instrumentation and measurement techniques and can be used to control clearances, thicknesses of non-conductive coatings and movements of hard-to-reach products using the eddy method.

The aim of the invention is to increase the accuracy of control due to detuning from the affecting factors affecting the device, (temperature change, vibrations, etc.) by periodically testing and subsequent correction of eddy current transducer parameters.

The drawing shows the design of the device.

The device contains an eddy current transducer with an inductance coil 1 placed above the monitored product 2, a signal processing unit 3 with a transducer connected to it, a dielectric transducer housing 4 in the form of a glass located inside the technological opening 5 of the fixed part of the product 2, the test element 6 mounted on a dielectric the substrate 7, and the block 8 correction. Testing element 6 is placed at a fixed distance from the working end of inductance coil 1 between the transducer and the controlled part of product 2. Correction unit 8 contains switch 9, adjustable resistor 10, conductivity measuring unit 11.

The device works as follows.

The excitation signal of the eddy current coil 1 is supplied from block 3. Correction unit 8 is turned off, the resistance of test element 6 for eddy currents is high and its presence does not affect the density of eddy currents excited in the controlled part of product 2, the signal from coil 1 is processed in block 3 and a controlled parameter, for example, the gap between the coil 1 and the product 2, or the blanket coating of the product 2, is fixed on the recording device of the unit 3. When testing parameters of the vortex converter, which is carried out periodically, correction unit 8 include. In this case, the electrical conductivity of the test element 6 is multiplied several times, and its effect becomes similar to the effect of a hypothetical continuous non-magnetic metal layer deposited on the substrate 7, and, as a result, the converter is shielded from the controlled part of the product 2.

In the absence of eddy currents in the controlled part of the product 2, the signal of the inductor 1 is measured and compared with the processing unit 3 with the assigned value during calibration. According to the comparison results in the processing unit 3, the parameters of the converter are corrected. Thus, implementing

five

0

five

0

five

0

five

0

five

Periodic testing of the converter for any configuration and dynamics of the controlled part of the product, and, if necessary, correction of its parameters.

The testing element can be made in the form of coaxially with the converter of a spiral coil of non-magnetic material. For a patch converter it is a flat spiral, for a pass-through converter it is a cylindrical one. Block 8 correction is made in the form of a switch connected to the ends of the spiral coil.

The resistance of the spiral when the switch is open for eddy currents is large, its presence has practically no effect on the output signal of the coil 1. The spiral is wound tightly, with almost no gap between the turns, its shape should be close to the shape of currents induced in the flat metal. Due to this, when the corrector is turned on, the controlled part of the product 2 is shielded from the coil 1.

The testing element can also be performed as a layer of photoresist. In this case, the correction unit 8 comprises a switch and a light source (not shown) optically coupled to the photoresist layer. When the corrector is turned off, the electrical conductivity of the photoresist is extremely low, the presence of test element 6 does not affect the signal of the slider 1. When the correction block 8 is turned on, i.e. the switch closes and the light source is turned on, the conductivity of the photoresist layer increases many times and it shields the controlled part of the product 2 from the roller 1.

In order to change the influencing factors, such as temperature, aging, does not affect the properties of the test element, when it is a spiral, the switch is designed as a switch 9 connected in series with an adjustable resistor 10 and a conductivity measuring unit 11 connected in parallel switch 9.

If the electrical conductivity of the helix has changed, then the resistor 10 sets the former (previously known) resistance of the helix circuit.

Thus, the converter during operation is periodically tested and, if necessary, adjusted, and its operation does not depend on the temperature control mode; Testing and correction are carried out without removing the converter from the technological aperture 5, which eliminates the influence on the result of control of the installation parameters of the converter.

Claims (4)

1. Eddy current device for testing products with restricted access to the area A control comprising an eddy current transducer with an inductance coil and a housing in the form of a glass and a signal processing unit of the converter, characterized in that, in order to improve the control accuracy, it is equipped with a correction unit and a testing element associated with it installed on a dielectric substrate at a fixed distance from the working end of the inductor. 2. The device according to claim 1, characterized in that the test element is designed as a spiral coil of non-magnetic material coaxial with the transducer, and the correction unit is designed as a switch. Editor I. Slobod nickname Order 2654/48 VNIIPI USSR State Committee for Inventions and Discoveries 113035, Moskna, Zh-35, Raushsk nab., 4/5 Production and printing printing, Uzhgorod, ul. Design. four connected to the ends of the inductor. 3. The device according to claim 2, wherein that the switch is made in the form of a switch, an adjustable resistor connected in series with it and an electrical conductivity measuring unit connected in parallel to the switch. 4. The device according to claim 1, wherein the test element is made in the form of a photoresist layer on a dielectric substrate, and the correction unit is made in the form of a switch and a light source connected to it, optically associated with the photoresist layer. Compiled by V. Filinov Tehred I. Veres Corrector L. Ilyin Circulation 776 Subscription