SU423197A1 - GALVANOMETRIC RELAY WITH MOVABLE MAGNETS - Google Patents

Description

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According to the main author. St. No. 350071 is known a galvanometric relay with immovable magnets, astatically located on a common axis in a zero of coils flown around the control current, and magnetic contacts arranged parallel to the axis of the moving part.

The invention under consideration is a further improvement of the device according to the author. St. NO 350071 differs from it, in order to eliminate the influence of an external magnetic field on the operation of the relay on the axis of the moving part, an element ferromagnetic in the form of a disk or ring is additionally installed that can move along the axis.

FIG. 1 shows a movable system of the proposed galvanometric relay with a movable magnet; in fig. Figure 2 shows the polarity of a ferromagnetic element in a field of permanent magnets.

The system contains flat magnets 1 and 2 fixed on axis 3 so that their poles of the same name are directed in opposite directions. The opposing moment is created by stretching 4.

New in the galvanometer relay with a movable magnet is a ferromagnetic element 5, locked on axis 3 and having the ability to move, for example, on

thread along this axis. The ferromagnetic element 5 in the permanent magnet field (Fig. 2) is magnetized and behaves like a magnet. The polarity that it acquires in this case depends on the direction of the magnetic field in the place of the ferromagnetic element, and the intensity of magnetization on the intensity of this field.

In position A, for example, the distance of ferromagnetic element 5 to magnet 1 is less than that of magnet 2 and the effect of magnet 1 is predominant. In position B, when ferromagnetic element 5 is much closer to magnet 2, magnet 2 is predominant.

Accordingly, when changing from one position to another, the polarity of the ferromagnetic element 5 also changes.

When an external magnetic field is applied to the relay, three torques are created: between the field and the magnet 1; between the field and the magnet 2; between zero and a magnetized ferromagnetic element 5.

The first two conflicting moments are directed, as was indicated, towards each other.

The third point can vary both in magnitude and direction depending on

from the position of the ferromagnetic element 5

By moving the latter one can achieve that the difference of the first two moments is compensated by the third one.

Under production conditions, the installation of the ferromagnetic element in the desired position is as follows.

A de-energized relay is placed in the space between two flat coils creating a magnetic field of the required strength (Helmholtz coils). Periodically, a current is applied to the coils and the ferromagnetic element is moved until the relay is deactivated.

In order for the adjustment to be smooth and continuous, the element must necessarily have

the shape of a disk or ring, as well as the possibility of moving it along an axis, for example, along threads.

Subject invention

Galvanometer relay with movable magnets but author. St. No. 350071, characterized in that, in order to eliminate the influence of an external magnetic field on the operation of a relay, an element ferromagnetic in the form of a disk or ring is additionally mounted on the axis of the movable part, having the ability to move along the axis.

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