RU2001123682A - SWITCH - Google Patents

Claims (10)

1. A switch for use in a power supply / load circuit, comprising: a three-phase AC power source; and a load connected to the power via three energized power lines, such a switch includes one tipping circuit comprising normally open switches that are connected in series by respective lines to the power source; a transformer comprising at least three balanced primary windings connected in series through respective supply lines and to a secondary winding; also a voltage comparator associated with the secondary winding for comparing the voltage induced in the transformer with the reference voltage and configured to, in the event of a current leakage to the ground in the power / load circuit, provide a tipping signal for tipping the circuit, and opening switches with the possibility of disconnecting the load from power supply, and a circuit line that contains a combined voltage sensor / comparator and extends to opposite sides, and outside the transformer to determine and compare I am connected to each other of two phase-to-phase voltages on the power lines and made with the possibility, in the event of a malfunction, when there is no voltage balance in the power / load circuit to simulate the leakage condition caused by damage, for a transformer with the ability to determine and a voltage comparator to provide the above signal tipping over. 2. The switch according to claim 1, in which the combined voltage sensor / comparator is installed so as to determine phase-to-phase voltage of the first and second power lines relative to the third power line on one side of the transformer for comparison with the possibility of providing an output connected to the opposite side of the transformer. 3. The switch according to claim 2, in which the output of the combined voltage sensor / comparator is connected to a third power line on the opposite side of the transformer. 4. The switch according to claim 2, in which one side of the transformer is facing the power source and the opposite side of the transformer is facing the load. 5. The switch according to claim 1, in which the combined voltage sensor / comparator comprises first and second voltage comparators having respective pairs of inputs that are cross-connected with power supply lines so that the first voltage comparator is capable of comparing one specific phase-to voltage phase with another specific phase-to-phase voltage, and so that the second voltage comparator is configured to compare another phase-to-phase voltage with the aforementioned single phase-to-phase voltage. 6. The switch according to claim 5, in which each of the first and second voltage comparators is equipped with an output of a voltage divider, so that the first voltage comparator has the ability to compare one specific phase-to-phase voltage with a percentage of another specific phase-to-phase voltage and with the possibility comparing the second voltage comparator of another phase-to-phase voltage with a percentage of the above one phase-to-phase voltage. 7. The switch according to claim 6, in which the first and second percent are the same. 8. The switch according to claim 5, in which the combined voltage sensor / comparator comprises an element connected in series to the circuit line to simulate a defective condition for current leakage, the element having a control terminal connected to the combined output of the first and second voltage comparators. 9. The switch of claim 8, in which the element is provided with one silicon controlled rectifier. 10. The switch according to claim 1, containing a second transformer, at least having three unbalanced primary windings connected in series with respective power lines and with a secondary winding; a corresponding voltage comparator associated with the secondary winding with the possibility of comparing the induced voltage in the transformer with the reference voltage and providing a tipping signal to drive the tipping circuit to open the switches and disconnect the load from the power source in the event of a failure caused by overcurrent in the load power circuit.