SU652643A1 - Device for protection of electric plant from voltage failure of any phase - Google Patents

Description

(54) DEVICE FOR PROTECTING ELECTRICAL INSTALLATION FROM VOLTAGE DETECTION IN ONE OF PHASES The disadvantage of this device is also insufficient strength. The purpose of the invention is to increase the reliability of the device in operation. This goal is achieved by the fact that a device for protecting an electrical installation from loss of voltage of one of the phases, contains current transformers installed in each phase, the secondary windings of which the diodes are connected to voltage dividers made on resistors and capacitors connected to capacitors and a power source, thyristors and a logic element are additionally introduced, the thyristors being switched on phase by phase with voltage dividers connected between the controlled phase and zero p The wires of the thyristor control circuits are connected by the secondary windings of current transformers through diodes, the logic element is connected between the middle points of the voltage divider and the actuator, and the power supply unit is connected to the same middle points and zero wire. Introduction to the proposed design of the mentioned nodes and diets is the ability to discretely assess the presence or absence of phase voltage on the load using the phase reversal factor of the current 180 ° with a phase break on the load having an inductive character. 3TOt The principle is reliable, since it allows to obtain a discrete result in monitoring the presence of phase voltage, using directly derived values from the controlled ones, and does not require special levels for the formation and processing of signals. The principle is universal, since with a resistive load that does not restore the voltage in the circuit of a broken phase, there will be no current in this circuit, and the proposed one will give the same discrete signal about oTcyfCf of the network load of the controlled phase on the load. The device diagram is shown in FIG. one; in fig. 2 shows the diagrams of currents and voltages. The device contains current transformers 1,2, 3, the secondary windings of which are connected to the control circuits of thyristors 4, 5, 6 through diodes 7, 8, 9. Thyristors 4, 5, 6 are connected in series with voltage dividers made on resistors 10 , 11, 12, and capacitors 13, 14, 15, which are connected between controlled phases 16, 17, 18 and a bullet wire 19. Resistors 20, 21, 22 are connected in parallel to capacitors 13, 14, 15. OR 23 connect to execute. An element 24, made on a transistor 25 and an output K), is a role 26. Power supply device 27 is connected between the middle points of the voltage divider and the neutral wire. The device works as follows. Suppose that in Phase 1 (Fig. 1) there is a network voltage Ue (Fig. 2) and it flows through the phase circuit. In this case, the secondary winding of the current transformer 1 induces a voltage Utr, which is out of phase with the voltage of the phase Utf and, rectified by the diode 7, is converted to. The voltage is applied to the control circuit of the thyristor 4 and opens it for a while, while the negative potential of the negative half cycle Ts is maintained at its cathode. During the open state of the thyristor 4, the resistor 10 flows through it. which the capacitor 13 is charged to the voltage U, the amplitude of which is determined by the instantaneous value of the phase voltage and the divider consisting of resistors Yu and 20. During the closed state of the thyristor 4, the voltage U .. on the capacitor 13 decreases due to its discharge through the resistor 20, but in the presence of a phase voltage Uc, the absolute value never becomes less than the supply voltage E. A voltage equal to the difference U and,., Locks the corresponding diode of the logic circuit OR 23 and the transistor 25 is in the closed state. When the voltage of a controlled phase on a load of inductive nature disappears, the phase of current 3 ((Fig. 2) changes by 180 °, and the EMF of restoration E in the dangling phase of the circuit is in time at the same place as the missing phase voltage A 180 ° change in the phase of the current leads to a 180 ° change in the phase of the voltage induced in the secondary winding of the transformer 1. At the same time, the positive voltages & voltage of the voltage are applied to the control terminal of the thyristor 4 at the time when The cathode has a positive potential for a positive, semi of the period E (a.). The mode created in such a way maintains thyristor 4 in the closed state. The corresponding OR 23 diode is opened by the potential of the source of service voltage Е ,, у: ж, applied to it in the forward direction. the advantage of which is through the resistor 20 and the corresponding diode opens the transistor 25, THAT causes the output relay to be triggered 26. When the load is active, there is no voltage recovery in the open circuit, the transformer 1 is de-energized, the thyristor 4 is closed and otherwise the device operates the same Ano higher. The proposed invention makes it possible to realize the discrete determination of the absence of mains voltage at a controlled phase of a three-phase load, regardless of the presence of a voltage recovery factor in the phase circuit at which the supply voltage has disappeared.

Claims (2)

1. Authors certificate of the USSR. No. 354363, cl. G 01 R 25/04, 1972. 2. USSR author's certificate number 163252, cl. H 02 H 3/08, 1964.