SU24921A1 - High Speed Circuit Breaker - Google Patents

Description

The present invention relates to "fast-acting circuit breakers designed to switch off the maximum or reverse current in the DC circuits and provided with two windings-holding, powered from the source, tri-voltage and demagnetized, connected to the controlled circuit. .

The invention consists in. that, in order to prevent the machine from malfunctioning when it operates as a high-speed reverse or maximum current switch, the magnetic circuit of the switch in the part on which the holding coil is mounted is made of solid ferromagnetic material, and in the rest of the sheet, as usual gland.

In FIG. 1 and 2 schematically depict the already known designs of high-speed circuit breakers, in which part of the magnetic circuit shaded in the drawing is complete, according to the invention, from a continuous ferromagnetic material.

The machine according to FIG. 1 has an W-shaped core, on one branch 3 of which a holding coil 5 is located, and on another branch there is a 2 demagnetizing coil 4. Anchor 1 is under the action of a spring 7 and is connected to a deactivating device, not shown in the drawing. In the on position, the magnetic flux of the coil 5 is closed mainly through the measles 1 and branch 3 and b core.

In case of operation of the automaton as a reverse current switch, the magnetic flux of the coil 4 at normal mode is directed in branch 3 against the flow of coil 5, and in branch b coincides in direction with the flow of coil 5. With increasing current in the controlled circuit, branch 3 may be demagnetized, which creates the possibility of a false shutdown, whereas with direct current, the reverse circuit breaker should not operate before the maximum switches. On the other hand, in the event of a reverse current in a controlled circuit, the action of the automaton is slowed down by the fact that part of the magnetic flux of coil 4 is closed through branch 3 and does not participate in the demagnetization of branch 6.

After this, it is obvious that, in the case of an automaton operating as an overcurrent switch, when in normal mode the flow both demagnetizes branch b and magnetises branch 3, branching into part 3 when a sudden increase in current occurs

Coil 4 does not participate in the operation of the magnetisation of branch 6 and thereby reduces the speed of action of the automaton.

The automatic machine shown in FIG. 2, in which, also, due to the branching of the flow of the coil 4 in the core 3 of the holding coil 5, the phenomena described above are observed.

According to the invention, it is proposed to make the core 3 of a high-speed automatic machine not of sheet metal, like the rest of the magnetic circuit, but of a continuous ferromagnetic material (the outline in the drawing is outlined by a hatch line). With this magnetic circuit, it turns out that if the coil 4 increases in magnetic flux when the machine operates as a maximum switch or if the current changes in the direction of the automaton as a reverse current switch, the branch of the changing coil 4 in flux 3 will be Foucault currents arising in the mass of this branch. Thus, the variable flux of coil 4 will be forced to close through branch b to a greater extent than if the core of coil 5 were made, like the rest of the magnetic circuit, from electrical sheet iron.

If the core 3 of the retaining coil 5 is made of steel, then a similar effect of countering the magnetic flux branch of the coil 4 in the core 3 will be achieved due to the magnetic saturation of the core 3 at high currents and increasing, therefore, the magnetic resistance of the branch of the stream. The direction relative to the greater part of the magnetic flux of the coil 4 in the branch 6 creates conditions, as already described above, for a more correct and fast action of the automaton.

The subject matter of the invention.

A fast-acting circuit breaker used to turn off the reverse or maximum current, having a magnetic circuit made of electrical sheet iron, and provided with two windings; holding a current source with an approximately constant voltage and demagnetizing it included in a controlled circuit, characterized in that, in order to prevent a significant branch of the increasing magnetic flux of the demagnetizing coil into the core of the holding coil, the said core is made of solid ferromagnetic material .