SU763989A1 - Arc extinguishing device - Google Patents

Description

one

The invention relates to electrical engineering, in particular, to arcing devices, providing arc-free switching of contacts.

An arc-suppressing device is known, in which a package of steel plates 1 is put on to the electrical power supply section to reduce the erosion of the main contacts.

A disadvantage of this device is the design complexity.

An arcing device is known, which contains parallel-connected main and arcing contacts and an arcing coil wound on a magnetic circuit between the poles and connected in series to the circuit of arcing contacts. In this device, the same demagnetizing coil, connected through anti-parallel contacts 2 through additional contacts, is installed to reduce the inductance of the arcing coil next to it.

A disadvantage of this device is the heavy switching mode of the additional contacts B of the demagnetizing branch.

The purpose of the invention is to increase the reliability of the arc-suppressing device.

The goal is achieved by the fact that the conductor of the main contacts is located between the poles of the magnetic circuit in the area of the arcing coil, forming one turn.

5The drawing shows the principle

scheme of a magnetic blowing system.

The arcing device contains the main 1 and 2 arcing contacts, an arcing coil 3 connected in series with the arcing contacts 2 and located between the poles of the magnetic circuit 4. The conductor 5 of the main contacts 1 is located between the poles of the magnetic circuit 4 in the area of the arcing coil 3 and forms one coil. The number of turns of coil 3 is selected from the condition of reliable extinguishing of the arc when the lowest current is switched off. The full load current flows in the arcing vanes only when the main contacts are open, i.e. at the moments of switching on and off, therefore

20 permissible current density in the arc branch can be more than a hundred times greater than the current density in the main branch. Since the length of the conductor arc coil is much more than the main.

then the resistance of this branch is relatively large.

When the main contacts 1 are opened due to an increase in the resistance of this branch, the current li decreases. At this time, the electromagnetic energy coming from the branch to be disconnected and stored in the main branch is transmitted to the parallel branch of the coil 3 of the magnetic blow, and not released in the main contacts as heat. As a result of the decrease in flux in the coil 3, an emf is induced, which compensates for the voltage drop and the emf of self-induction in the arcing branch. Since the current 12 at this moment contributes to the demagnetization of the magnetic core 4, the speed of the fluxes1 decreases, increasing the emf and the current la. An increase in the current Ta causes an increase in the magnetic flux in the magnetic core 4 and an emf of self-induction of the coil 3. Thus, after the main contacts are opened, the current

in the circuit it decreases, making it easier to open the arcing contacts.

Claims (2)

1. US Patent No. 2970196, cl. 200-147, 972. 2. USSR author's certificate number 495720, cl. H 01 H 9/30, 1974. M