SU131836A1 - Electromagnetic Reverse Current Relay - Google Patents

Description

The proposed electromagnetic relay is a known type of reverse current relay with two windings on a closed magnetic circuit, in which the core is caused by the redistribution of magnetic fluxes generated by both windings when the current direction changes in one of them.

The features of the proposed relay, which exclude its false triggering, are supplying its core with a shank bent at an angle greater than 90 °, and the presence of a groove in the magnet core, causing a scattering flow that interacts with the specified core shank and keeps the latter in a bent position. FIG. 1 and 2 show the proposed relay in two positions. The magnetic circuit of the relay is formed by centering, the core and two cores, on which the working winding 2 and polarizing winding 3 are located. The working current flowing through the working winding 2 in the forward direction creates a magnetic flux F and the polarizing winding creates a magnetic flux F. Both The flow is directed to one side and closed along a common magnetic circuit.

When changing the direction of the current in the working winding 2, the magnetic flux F changes its direction, which entails the redistribution of the fluxes. At the same time through the measles 4 relays passes a magnetic flux equal to

and the relay is triggered.

In the magnetic core between the working and polarizing windings there is a groove above which the shank of 5 core 4 is located. The cross-section of the well in the groove area and the dimensions of the groove are chosen so that the saturation of the magnetic core in this place occurs at lower operating currents; However, the saturation of the rest of the magnetic circuit should not occur at the highest expected value of the current in the forward direction.

Ф Ф1 + Ф2,

No. 131836-2. As a result of such a magnetic core design, a scattering flux F occurs, which, passing through the shank of 5 core, keeps the latter in a tightened (initial) position at both nominal and high current values in the working winding. The arising force ensures the absence of false positives of the relay during shocks and vibrations.

Non-magnetic: the gap b between the shank of the core and the magnetic core provides a sufficiently high magnetic resistance for the magnetic flux until the magnetic core is saturated in the slot.

The reverse current in the working winding creates a magnetic flux directed towards the current created by the polarizing winding, i.e. there will be a flow in the place of the groove

Therefore, the saturation of the magnetic circuit at the slot occurs at high current values. In addition, the relay is triggered at the reverse current, in its magnitude much smaller than the forward current, i.e., until the magnetic core is saturated at the slot. In this case, the flow is very small and the relay is not blocked.

Subject matter

Electromagnetic reverse current relay with a magpit line consisting of a base, a hub, two cores on which windings are laid, and a branch through which the air gap formed by the core undergoes a slight magnetic sweat in the normal mode, and when the current direction changes in one the total magnetic flux created by both windings and causing a crust to pass from the windings is characterized in that, in order to prevent the relay from malfunctioning, the measles are provided with a shank bent at an angle of more than 90 ° and There is a section with a smaller cross section (for example, a groove), which causes the appearance of a scattering flux interacting with said core shank.

f f, -02.