SU847239A1 - Magnetic flux measuring device - Google Patents

Description

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The invention relates to a measurement technique and can be applied to measure the integral magnetic flux of permanent magnets made in the form of transversely magnetized plates.

Apparatus for measuring the magnetic flux is known, in which galvanomagnetic transducers are used, which are located in an outboard. probes whose signals are measured by ij electronic circuits applied directly to the surface of the plus. These design features of the known devices lead to the fact that the measurement results do not correspond to the reality of M.

Closest to the proposed technical entity is a device for measuring magnetic flux, which allows to measure an unknown magnetic flux by the angle of rotation of the frame through which a current of a certain force flows. This device contains a magnetic circuit with two gaps, in one of which a movable frame included in the DC source circuit is placed, and a measurable sample is placed in the other gap. Two electric windings are applied to the magnetic circuit to compensate for the residual magnetization of the magnetic circuit.

The disadvantage of this device is low reliability when measuring the magnetic flux of permanent magnets due to the high mobility of the frame, as under conditions of a constant value of the magnetic flux of any, including random, switching current in the frame leads to its failure (breakage).

The purpose of the invention is to increase reliability.

This goal is achieved by the fact that a device for measuring magnetic flux containing a magnetic core with two compensation windings with two gaps, one of which houses a measuring moving frame connected to the source

direct current, equipped with aperiodic link included in the circuit of the above frame.

The drawing shows the diagram of the device

The device contains a magnetic circuit 1 with two gaps. In one of the gaps, a measuring movable frame 2 is inserted into the circuit of a source of 3-constant current through key 4. The measuring magnet 5 is placed in the other gap. . In the δ-given embodiment of the scheme, the aperiodic. Link is a T-shaped RC element.

A device for measuring the magnetic flux works as follows.

The measuring magnet 5 is introduced into the magnetic core 1 and, using a key 4, supplies current to the circuit of the measuring frame 2. Judging by the angle of rotation of the measuring frame 2, the magnetic flux of the measured magnet 5 is judged.

When choosing the elements of the aperiodic link 8, it is necessary to take into account that its time constant is significantly longer than the period of natural mechanical oscillations of the measuring frame 2. This is necessary so that its speed of rotation is fully determined by the parameters of the aperiodic link 8.

The L-shaped aperiodic link protects the measuring frame 2 from sharp mechanical shocks when the current is turned on and off with key 4. To protect the measuring frame 2 from shocks caused by sudden changes in the magnetic field of the system when

when introducing and removing the measured magnet 5 from the gap, it is necessary to supplement the L-shaped aperiodic link with another resistor, i.e. apply a T-shaped aperiodic star.

The proposed device allows to measure the total magnetic fluxes of permanent magnets in the form of transversely magnetized plates having

The non-uniform external field, simply in operation, does not have complex electronic devices, its readings do not depend on the ambient temperature and are constant in time, which makes it possible to use it to measure the time instability of magnets.

Claims (2)

1. Rsshiyomerizitelny devices. t Catalog-prospect, NIIEIR, M., 1976. 2. Chernyshev E.T. , Chernysheva N.G.Chechurina E.N. Magnetic measurements on constant and alternating current. Standartgiz, M., 1962, p.86 (prototype).