SU1610421A1 - Eddy current transducer having aerostatic bearing - Google Patents

Abstract

The invention relates to instrumentation engineering and can be used to measure the parameters of electrically conductive products using an eddy current method. The purpose of the invention is to increase the sensitivity by increasing the locality of control and reducing the working gap. The eddy current transducer with aerostatic support consists of a cylindrical support 1, having a fitting 2 for connecting compressed air, and a tip 3 with a spherical shank 4 installed in the cavity of the support 1 with the possibility of axial and angular movements. At the working end of the tip 3, an annular cap 5 is fixed, in the central hole of which the transducer element 6 is fixed. In the plug there is a nozzle in the form of three holes 7 located along a circumference, concentric axis of the cap. On the outer surface of the plug, there is a central groove 8, and in the plug there are radial through channels 9 connecting the groove cavity with the atmosphere. To prevent the tip from falling out, the support 1 has a tip stroke limiter 13. The terminals 10 of the element 6 are connected by wires 11 to the terminals 12 of the tip. The nozzle tip stop can be made in the form of a cap nut or in the form of a collet. 6 Il.

Description

The invention relates to instrumentation engineering and can be used to measure the parameters of electrically conductive products by the eddy current method.

The aim of the invention is to increase the sensitivity by increasing the locality of control and reducing the working gap.

Figure 1 presents the eddy current transducer, General view; Figure 2 shows the limiter of the tip travel; in fig. 3 - the same, the embodiment; in fig. 4 - converter with a plug; in fig. 5 is a section aa in FIG. 4; in fig. 6 - section BB in fi 4.

The eddy current transducer with aerostatic support consists of cylindrical support 1, has 1 fitting 2 for supplying compressed air, and tip 3, having a spherical shank 4, which is installed in the cavity of the cylindrical support with the possibility of axial and angular movements. On the working end of the tip is fixed ring cap 5, in the Central hole of which

4 N9

The transducer element 6 is fastened. In the plug there is a nozzle in the form of three holes 7 located along a circle, concentric with the axis of the plug. On the outer surface of the plug there is a central groove 8, and in the plug there are radial through channels 9, connecting the cavity of the groove to the atmosphere. The terminals 10 of the converter element 6 are connected by wires 1 to the terminals 12 of the tip. To prevent the tip from falling out, the cylindrical support is provided with a limiter 13 of the tip stroke. -The limiter can be made in the form of a cap nut 14 (FIG. 2) and in the form of a collet 15 (FIG. 3), which makes it possible to replace the conversion element together with the tip.

The eddy current transducer works as follows.

Compressed air through the nozzle 2 is fed into the cylindrical support 1 and then through the spherical shank 4 into the tip 3. From the tip through the nozzle holes 7, air enters the space between the outer end of the plug 5 and the controlled product 16 and creates an airborne airbag in it providing non-contact control . Air from the central region of the air cushion through the groove 8 and the radial through channels 9 is vented to the atmosphere. This provides a reduction in the gap between the transducer and the product by reducing the repulsive force acting from the air flow to the central part of the cap. The distribution of the air flow flowing from one nozzle hole in the gap between the transducer and the product is shown in figure 4 by arrows.

Distribution of flows from other ot-. Versions nozzle similarly.

one

Part of the air supplied to the cylindrical support 1 enters the gap between the spherical shank 4 and the wall of the support, creating a gas lubricant that ensures the non-contact movement of the spherical shank in the support and eliminates its mechanical wear.

A model of eddy current transducer is manufactured and tested in laboratory conditions. The transducer nozzle is made in the form of three holes with a diameter of 0.5 mm. They are located along the concentric axis of the plug of a circle with a diameter of 12 mm. The outer diameter of the stub is 20 mm; diameter and depth ;.

center grooves b and 4 mm respectively, spherical shank diameter 5 mm, cylindrical support 5.2 mm. In the plug there are three radial through channels with a diameter

5 1.5 mm. The arrangement of the nozzle holes 7 and the radial channels in the plug is shown in FIG. 5 and 6.

With the specified parameters of the structural elements of the eddy current generator, a stable aerostatic airbag of 30 µm was obtained. For a known transducer, this value is at least 100 microns,

5 The invention allows the use of localized converting elements, including those with a winding diameter of less than 1 mm, as well as multi-coil converting elements with a misaligned winding arrangement.

Claims (1)

Invention Formula Eddy current transducer with aerostatic support, containing a cylindrical support, a tip with a nozzle, having a spherical shank mounted in the cavity of a cylindrical support with the possibility of axial and angular displacements, and a transducer element fixed on the tip, characterized in that by increasing the locality of control and decreasing the working gap, it is equipped with an annular cap fixed to the working end of the tip with a central groove on the outer the transducer element is fixed in the central hole of the plug, the nozzle is made in the plug in the form of at least three holes, circumference, concentric axis of the plug, and in the plug there are radial through channels connecting the groove cavity with the atmosphere. 50 55 FIG 2 1 Fig.Z FIG. five Editor L. Veselovska Theb.6 Compiled by IsKeso n Techred M Dndyk Order 3736 Circulation 513 INPISHES of the State Committee for Inventions and Discoveries under the State Committee on Science and Technology of the USSR 113035, Moscow, 1-35, 4/5 Raushsk nab / 6 Fy Bb Proofreader M.Sharoshi Subscription