SU1370541A1 - Eddy-current converter - Google Patents

Abstract

The invention relates to instrumentation engineering and can be used to detect and measure the depth of the electrically conducting objects in dielectric and weakly conducting media. The purpose of the invention is to increase the sensitivity of the control by eliminating the influence of the initial voltage of the eddy current transducer on the results of the control. The converter is compensated by moving the movable bar 4 with the measuring winding 2 relative to the drive winding 1 of the converter until the output voltage of the converter is minimized. The distance L from the point of attachment of the strip 4 to the center of the winding 1 is chosen equal to 0.5d 1 - - O, O Id 2, and the diameters of the windings 1 and 2 are related by the ratio lOdj d 6l5dj ,. 1 il. (L o ate

Description

113

The invention relates to instrumentation technology and can be used in non-destructive testing of products and for detecting and measuring the depth of electrically conductive objects located in various non-conductive or weakly conductive environments.

The purpose of the invention is to increase the sensitivity of monitoring by eliminating the influence on the results of monitoring the error signal.

The drawing schematically shows an eddy current transducer.

The eddy current transducer contains exciting 1 and measuring 2 windings), the winding planes of which are parallel, while measuring winding 2 is installed with the possibility of rotation in the plane of its turns around axis 3 lying L 0,5d + 1 - 0,01dj where d, d are the diameters of the windings 1 and 2, respectively; 1 - distance from axis 3 to center of measuring winding 2, and diameters of windings 1 and 2 are selected from the ratio lOd d, 15d Turning measurement winding 2 can be performed, for example, by means of a strip 4 pivotally fixed at a point on axis 3.

The Converter operates as follows.

Before starting the measurements in the absence of the test object, the measuring winding 2 is set with respect to the exciting winding 1 with the help of the movable bar 4 so that the initial voltage of the converter has a minimum value. Thus, for these control conditions, the optimum value of the angle "6 of inclination of the strip 4 relative to the line connecting the axis 3 m to the center of the winding 1 is set. When placed in the control zone of the transducer of the product (not shown), the applied voltage depending on the value of the controlled parameter of the product.

The measuring winding 2 is mounted on the movable plate 4 so that when this bar is located on the line connecting its attachment point to the center of the winding 1,

5 o

0

five

five

12

the distance between the center of the measuring winding 2 and the center of the winding 1 was 0.5d - t. The compensation of the applied voltage of the measuring winding 2 is carried out by moving it relative to the winding 1 at the location of the circuit of this winding. The maximum possible removal of the center of the measuring winding

2 of the contour of the winding 1 is very small and equal to 0.01d2. This value is determined experimentally. When it is exceeded, the amount of decomposition of the eddy converter is dramatically increased. In order to accurately compensate for the initial voltage of the measuring winding 2, it is necessary to smoothly change the position of this winding relative to the circuit of winding 1 in the range from O

to T, since a small change in its spatial position leads to a significant change in the applied voltage. Moreover, the value of C is determined by both the size of the measuring winding 2 and the ratio between the diameters d and d.

It is advisable to choose the first position of the measuring winding 2 so that the angle L of inclination of the strip 4 relative to the line connecting the axis 3 and the center of the winding 1 corresponds to the expression

f + (d./2- -l-rf- (d, / 2)

21 (-T) Using the strip 4, its angular displacement is converted to the displacement of the measuring winding 2 relative to the exciting winding 1, and a significant angular displacement of the strip 4 leads to small radial displacements of the measuring winding 2. The optimal ratio between the dimensions. and d the exciting and measuring windings are determined experimentally.

The use of a converter allows one to determine the optimal value of the C parameter in relation to varying control conditions, as well as to effectively compensate the initial voltage of the converter.

Claims (1)

Invention Formula Eddy current transducer containing the exciter and meter L arccos 31370541. windings, the plane of the turns of the coil and the distance from its center parallel, the distinguishing distance L 0.5d 1 is 0.01d, Since, for the purpose of investigation, where d, d are the diameters of the corresponding sensitivity of the control, the measuring and exciting winding and measuring winding are installed with a possible coil, 1 is the distance from the axis to The rotation in the plane of its vit-center of the measuring winding, and the deacons around an axis lying in diameter-windings are chosen from the ratio aral plane of the exciting about-lOd A. ISd.