RU2003134605A - METHOD FOR AUTOMATIC SWITCHING OF DC AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Claims (7)

1. A method of automatically switching off direct current by means of an electromechanical circuit breaker with a magnetizing demagnetizing coil and a magnetically opposing demagnetizing coil and an arcing chamber with an arcing coil, in which the state of the load supply circuit is monitored and, in the event of an emergency condition, the contacts of the electromechanical circuit breaker are first opened by discharge pre-charged first capacitor through the first controllable electronic key to the circuit pa magnetization-reversing coil, whereupon after a preset period of time sufficient for the formation of an arc between the contacts, extend and tearing formed in the arc chamber by arc discharge previously charged second capacitor via a second controlled electronic switch in the circuit interrupter coil. 2. The method of automatically turning off the direct current according to claim 1, in which the emergency state of the load circuit is determined by its overload, breakdown and leakage of insulation or short circuit in it. 3. Device for automatically turning off the direct current, containing a command body, to the inputs of which are connected sensors of emergency conditions of the load circuit, an electromechanical circuit breaker with NC contacts, holding and demagnetizing coils located on a common magnetic circuit and an arcing chamber with an arcing coil, the first capacitor and two controlled electronic key, and the power circuit of the electromechanical circuit breaker is connected between the clamp for connecting It is connected to one of the busbars of the power source and the clamp with the same polarity terminal for connecting the load circuit, and is made in the form of serially connected indicated disconnecting contacts, of which the movable is fixed to a lever of an electromechanical circuit breaker, arc extinguishing and demagnetizing coils, the last of which included magnetically in the opposite direction with the holding coil connected to the holding current source through a control key connected to the control input by the first output ohm of the command organ, the second capacitor connected to the charging source is connected through a choke with the outputs of the opening contact and the arcing coil connected to each other, and through the diode - with the other output of the same coil and one of the terminals of the first capacitor connected through the second controlled electronic the key to another terminal of the second capacitor connected through a resistor to another terminal of the first capacitor connected to another terminal of the demagnetizing coil through the first controlled electronically the second key, the control input of which is connected to the second output of the command organ, the third output connected to the control input of the second controlled electronic key, while the controlled electronic keys are connected in a direction that ensures that when they open, the discharge of each capacitor through the corresponding controlled electronic key, the diode is connected in the direction , ensuring the flow of the current of the arcing coil after the complete discharge of the second capacitor, and the command body is made with the possibility of Igna at its third output a second time delay relative to the signal at its second output. 4. The device for automatically turning off the direct current according to claim 3, in which the sensors of emergency conditions of the load circuit are configured to recognize overloads, breakdowns and insulation leaks or short circuits in the load circuit. 5. The device for automatically turning off the direct current according to claim 3 or 4, in which the current sensor and the differential current sensor with output comparators are used as sensors for emergency conditions of the load circuit, the power terminals of which are connected in series with the load circuit, as well as a voltage sensor with output a comparator connected by its input parallel to the load. 6. A device for automatically turning off direct current according to one of claims 3 to 5, in which the pole zones of the magnetically conductive armature of the electromechanical circuit breaker are entwined with closed conductors. 7. Device for automatically turning off direct current according to one of claims 3 to 6, in which the charging source is made in the form of a controlled current source with a voltage feedback circuit.