SU1670639A1 - Device for measuring magnetic characteristics of ferromagnetic closed samples - Google Patents

Abstract

This invention relates to magnetic measurements and can be used to monitor electrical steel. The aim of the invention is to improve the measurement accuracy. The device comprises a magnetic core 1, made in the form of a ferromagnetic rectangular rod consisting of parallel plates with air gaps between them, magnetizing 2 and measuring 3 windings. On both sides of the windings at the ends of the magnetic circuit 1, there are direct clamping devices 4 and 5. The device also contains a compensation winding 6 in the form of a frame located under the magnetic core 1 parallel to its plates at one of its ends, and an annular plate 7 of the sample. 1 il.

Description

The invention relates to the field of magnetic measurements and can be used to control electrical steel.

The purpose of the invention is to increase the measurement accuracy.

The drawing shows the structure of the device.

The device contains a magnetic core 1 in the form of a ferromagnetic rod of rectangular cross section, made of parallel plates with air gaps between them, a magnetizing winding 2 and a measuring winding 3, on both sides of which at the ends of the magnetic conduit 1 are clamping devices 4 and 5, compensatory the winding 6 in the form of a frame located under the magnetic core 1 parallel to its plates at one of its ends.

The device works as follows.

In the initial position (without magnet line 1 and plates of sample 7), the clamping devices 4 and 5 are set aside. The first plate of the magnetic flux 1 is inserted into the magnetizing winding 2. The annular plate of the sample 7 is superimposed on it. The second plate of the magnetic conductor 1 is inserted parallel to it and the second circular plate of the sample 7 is superimposed on it. the space of the magnetizing winding 2, the clamping devices 4 and 5 occupy a position at the ends of the magnetic circuit 1 and press the plates of the magnetic circuit 1 to the plates of the sample 7. As a result, a reliable magnetic contact is created between Do magnetic circuit 1 and sample 7, which contributes to improving the measurement accuracy.

The magnetizing winding 2 is connected via an ammeter to an alternating current source. Measuring winding 3 and compensating winding 6. connected

in series and counter, are connected to the average voltmeter. When measuring magnetic losses with a wattmeter, its current circuit is connected in series with an ammeter, and the voltage circuit is parallel to the voltmeter. The number of turns of the compensation winding 6 has been pre-kicked so that in the absence of the sample. 7, the voltage across the voltmeter was minimal. The location of the compensation winding 6 under the magnetic core 1 at one of its ends, where the magnetic flux is dispersed, makes it possible to obtain, in the operating mode (in the presence of sample 7), the best compensation for the uninformative component of the voltmeter voltage. The use of a large mass sample 7 (of p plates) makes it possible to increase the useful signal of a voltmeter.

Thus, the design of the magnetic circuit 1, made of n parallel plates with air gaps between them, and the introduction of a compensation winding 6 in the form of a frame located under the magnetic core 1 at one of its ends, allows to increase the accuracy of measurements of magnetic characteristics.

Claims (1)

Apparatus of the Invention A device for measuring the magnetic characteristics of ferromagnetic closed specimens, comprising a magnetic core in the form of a ferromagnetic rectangular rod, on which magnetizing and measuring windings are placed, on either side of which there are clamping devices at the ends of the ferromagnetic rod, characterized in that increase the accuracy of measurements, it is equipped with a compensation winding in the form of a frame, the ferromagnetic rod is made of n parallel plates with air terribly therebetween, wherein the frame is located under the ferromagnetic core, parallel to one of its ends.