RU2001119117A - Method and device for disconnecting direct current - Google Patents

Claims (4)

1. The method of disconnecting direct current by a contact electromechanical device, in which they store electric energy by charging an electric capacitor from an auxiliary power source and supply this energy to the power contacts of the device at the moment of opening, characterized in that, in order to increase reliability and reduce the time of switching off small constants inductive currents, electric energy is supplied to the power contacts of the device at the moment of their opening in the form of a current pulse, which coincides in direction with the constant nym switchable current. 2. The device for providing a method of disconnecting small constant inductive currents according to claim 1, comprising first and second power contacts, first and second normally open auxiliary contacts, a pre-charged switching capacitor, a switching inductor, first and second thyristors in each pole, the first contact pairs of power contacts and the first contact of a pair of normally open auxiliary contacts are interconnected and connected to the pole of the supply network, and the second contact of the pair of power contacts is connected n with load, while the second terminal of the first thyristor is connected to the first terminal of the inductor, the second terminal of which is connected to the first terminal of the pre-charged capacitor, the second terminal of which is connected to the first terminal of the second thyristor, characterized in that the first terminal of the first thyristor is connected to the second contact of the pair normally open auxiliary contacts, and the second terminal of the second thyristor is connected to the second contact of the pair of power contacts so that the discharge current of the switching capacitor when wounds of the first and second thyristors at the moment of opening the power contacts flowed in the same direction as the direct current that they disconnected, while the polarity of the charge voltage of the switching capacitor is chosen so that the discharge current of the switching capacitor at the moment of opening of the power contacts flows through the first and second thyristors in forward direction. 3. The device according to claims 1 and 2, characterized in that the first, second and third varistors, first, second and third resistors are introduced, the first varistor connected in series with the first resistor, and the resulting circuit connected in parallel with the first thyristor, the second varistor connected in series with the second resistor, and the resulting circuit is connected in parallel with the second thyristor, the third varistor is connected in series with the third resistor, and the resulting circuit is connected in parallel with the switching capacitor. 4. The device according to claims 1 to 3, characterized in that, in order to increase reliability and reduce the shutdown time of small constant inductive currents when changing the polarity of the supply voltage, an additional third and fourth thyristor, fourth and fifth varistors, fourth and fifth resistors are introduced, moreover the first terminal of the third thyristor is connected to the second terminal of the second thyristor, and the second terminal of the third thyristor is connected to the second terminal of the first thyristor, the first terminal of the fourth thyristor is connected to the first terminal of the second thyristor, and in the second terminal of the fourth thyristor is connected to the first terminal of the first thyristor, while the fourth varistor is connected in series with the fourth resistor, and the resulting circuit is connected in parallel with the third thyristor, and the fifth varistor is connected in series with the fifth resistor, and the resulting circuit is connected in parallel with the fourth thyristor.