SU604118A1 - Arrangement for extinguishing magnetic field in electric apparatus - Google Patents

Description

(54) CONSTITUTION FOR THE EXTINGUISHMENT OF THE MAGNETIC FIELD IN ELECTRIC APPARATUS

The connecting electrode is connected to another inductive load terminal, while the parallel resistor is placed in such a way that provides for ionization of the gap between the contacts of the arc-suppressing grid.

The drawing shows a circuit diagram of the pre-burned device.

The device consists of a parallel-connected inductive load 1 of a series-connected limiting resistor 2 and an arcing grill with contacts 3, in parallel of which a series-connected capacitor 4 and a diode 5 are connected, and a series-connected thyristor 6 and a discharge resistor 7 are connected in parallel to the capacitor 4 through the counter-on diode 8 is connected to the end of the inductive load 1, which has a higher potential, and the control electrode of the thyristor 6 through the limiting ezistor 9 connected to the other end of the inductive load 1. inductance load 1 is connected in series with a key 10 and is connected to a source of DC voltage zhegash.

The device works as follows.

When the key 10 is closed, the current flows through the inductive load 1. At this time, the capacitor 4 is charged through the resistor 2 and the diode 5, which prevents the oscillatory process. When the switch 10 is opened, an emf of self-induction arises in the inductive load, and a current begins to flow through the circuit consisting of a resistor 9, a control junction of the thyristor 6 and a diode 8. As a result, the thyristor 6 is opened and the capacitor 4 is discharged along the circuit consisting of the thyristor 6 and the discharge resistor 7. A surface discharge occurs on the surface of the discharge resistor 7, ionizing the space between the contacts of the arresting grid 3, and a self-induction voltage is applied to it. Due to this, an electric arc dissipating the energy of a magnetic field on the arcing grid arises between the contacts of the arc-suppressing grid 3.

The proposed device has a small time for quenching the magnetic field energy, ensures the absence of a generation current, makes it possible to reject the moving contact system and thereby significantly increase the reliability of the device, as well as reduce its weight and dimensions. The use of this device allows to increase KDD, energy and frequency of shocks in electromagnetic impact machines, and to reduce the cost of isolating power electromagnets.

Claims (2)

Invention Formula A device for damping the magnetic field in electric devices, which is an inductive load, contains parallel-connected loads and are interconnected in series with a resistor and an arcing suppressor with contacts, characterized in that, in order to increase the reliability of the device in operation and simplify it, it is additionally equipped a diode, a discharge resistor, a capacitor and a thyristor, the contacts of the arc-suppression grating are filled with fixed and shunted by a series-connected diode and terminal A discharge resistor and a thyristor are connected in series with a capacitor in parallel, the cathode of the indicated thyristor is connected to one of the inductive loads through an oppositely connected diode, and the discharge resistor is placed in such a way that the gap between the contacts of the arcing array is ionized. 2. Device POP.1, characterized in that the discharge resistor is made in the form of a sleeve of semiconductor material. Sources of information taken into account in the examination: 1. A.Malov, T., P. Shentsev, P. P., et al. Methods for damping the magnetic field of electromagnetic impact machines. Coll. scientific papers IGD SO Academy of Sciences of the USSR Electric linear motors Novosibirsk, 1972. 2. Bron O, B, Electric arc in control devices, Moscow, GEI, 1954.