SU587386A1 - Surface-applied eddy-current transducer - Google Patents

Description

one

The invention relates to the non-breaking tests of electrical products with the eddy current method © and can be used to control spheroidal parts, for example, sharoe.

Known transducers containing aerodynamic support and inductors, located at the end of the aerodynamic support i.lj.

The disadvantage of such devices is the low accuracy of control of the electrical characteristics of spheroidal parts, for example, electrical conductivity, caused by the dependence of the output signal of the eddy current transducer on the spherical radius

surface of the controlled product.

Also known is an eddy-current transducer containing a non-magnetic, non-conductive casing, an aerodynamic support with an axially movable nozzle, on the top of which the exciting and receiving inductors 2 are placed on the side of the monitored product.

However, such a device does not provide sufficient accuracy of control.

The purpose of the invention is to increase the accuracy. control of spheroid products.

For this eddy-current converter provided additionally aerodinamvchesks loroy coaxial movable nozzle, electrically conductive and / or magnetic member rigidly fixed onto the free end of the movable coraia, additional excitation and receiver coils arranged on the housing near the conductive and / or magnetic element and connected respectively to the first the excitation inductance coil is in phase, and with the first receiving coil - inversely.

The drawing shows the design of the eddy current converter.

Current Converter contains sub-looper. nozzle 1 placed in chamber 2 connected to a source {not shown; compressed air through the nozzle 3, exciting 4 and receiving 5 of the inductor, located on the end 6 of the movable nozzle 1, electrically conductive and / or magnetic element 7, located on the end 8 of the movable

nozzles 1, aerodynamic support 9, coaxial with movable nozzle 1, connected to a source of compressed air through choke 1O and additional exciting 11 - and receiving 12 inductance coils located near the electrically conductive and / or magnetic element 1 - Section 13 of the outer surface of the moving nozzle 1 made spherical. The excitation coils 4 and 11 and the receive coils 5 and 12 are connected respectively 10 respectively in phase and phase to each other and are the input and output of the converter. The Converter operates as follows. The excitation coils 4 and 11 are connected to an alternating current source, and the receiving coils 5 and 12 are connected to a voltage meter. Sphe | The test part 14 is installed on the aerodynamic support 9. Compressed air is supplied to the aerodynamic support 9 through fitting 10. In this case, the spheroid on the part 14 is suspended by the pressure of the air flow exiting between the part and the aerodynamic support 9. In addition, the compressed air is supplied to the chamber 2. The movable nozzle 1 rises to the surface of the spheres and the two parts 14 by the pressure of air in the chambers 2 and is balanced by the pressure of the air leaving the movable nozzle 1. As a result of pressure balancing, the movable nozzle 1 is installed relative to the surface of the part with a gap, and the electrically conductive and / or magnetic element 7 is in the zone of influence of the exciting coil 11. Equal and opposite in phase to the signals from the receiving inductance coils is performed by selecting the number of turns and diameters of the inductors and the electrical conductivity of the material of the element 7. The change in the conductivity of the spheroidal part 14 | changes the voltage on the receiving coil 5, respectively, at the output of the converter.

Claims (2)

By increasing (decreasing) the radius of the spheroidal part 14, the gap between the moving nozzle 1 and the surface of the part increases (decreases), as a result of which the voltage on the inductance coil 5 increases (decreases) and the moving nozzle 1 itself rises (lowers). As a result of the increase (decrease) in the voltage on the receiving coil 12, the output voltage of the converter remains unchanged. The proposed vortex-slip converter can significantly improve the accuracy of control of electrically conductive spheroidal parts. Claims of the Invoice Edge Converter, comprising a non-magnetic non-conductive housing, an aerodynamic support with an axially movable nozzle, on the end of which the exciting and receiving inductance coils are placed on the side of the controlled product, it is equipped with an additional aerodynamic support, coaxial rolling nozzle, electrically conductive and / or magnetic element rigidly mounted on the free end of the rolling with pla, and additional exciting and receiving coils arranged on the housing near the conductive and / or magnetic element and connected respectively to the first-phase exciting katuschkoy inductance and a receiving coil Purves - antiphase. Sources of information taken into account in the examination} 1. Author's certificate of the USSR Mg 407223, cl. Q 01 N 27/86, 1966. 2. USSR author's certificate f 756410, cl. O1 N 27/86, 1972