SU1647755A1 - Method for compensating faulty phase potential - Google Patents

Abstract

The invention of oTf osits to protect electrical networks from earth fault, & Particularly for earth fault current compensation devices, and can be used primarily to compensate for grounding and the potential of the damaged phase relative to the earth in cable cable networks, the operating specifics of which require increased reliability and safety. network operation. This is achieved by the fact that, in the method of compensation of the potential of the damaged, phase of the network relative to the earth, by introducing a compensating voltage The network and the ground control the potential of the damaged network phase and, after reaching its minimum, the compensating voltage is disconnected. After reaching the new steady-state potential of the damaged network, monitoring of the earth fault in the network is carried out. If the earth fault has not been eliminated, then a compensating voltage of 1 s (L

Description

The invention relates to the field of protection of electrical networks against earth faults, in particular to methods for compensating earth fault currents, and can be used primarily to compensate for earth fault currents and the potential of a damaged phase relative to earth in mine electrical cable networks, operation specifics which require increased reliability and safety of work, in addition, can be widely used both in industry and in urban or rural networks, and can also be used to in a high-voltage and low-voltage networks.

The purpose of the invention is to increase the reliability of the protected network.

The drawing shows a block diagram of the device that implements the method.

The primary winding 1 of the connecting transformer 2, connected according to a star with a zero point, is connected to the network 3 by its phase ends, and by its left point to one end of the primary winding 4 of the compensating transformer 5. the other end of which is grounded. The secondary winding 8 of the transformer 2, connected in a triangle pattern, is connected to three groups of single-phase switches 7-9. At the output of these switches, two additional transformers 10 and 11 are connected, the secondary windings of which are connected in series with the secondary winding 12 of the compensating transformac.

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5. The control unit 13 connected to the network 3 through the voltage transformer 14 acts on three groups of single-phase switches 7-9. In the secondary winding 12, a current transformer 15 is connected, connected to the control circuits of the unit 13.

The method of compensating for the potential of the damaged network phase is as follows.

When a single-phase ground fault occurs, for example, in phase A, the control unit 13 closes three single-phase switches 7, then the transformers 10 and 11 are adjusted until the current at the ground fault is reduced to a minimum. After reaching the steady-state compensation mode, the compensating voltages are disconnected by means of the switches 7, which are blocked, and after the transition of the compensating transformer is completed, the blocking from the switches 7 is removed, and if the ground fault remains, then the compensating voltages are again introduced into the network, turning on circuit breaker 7, and if the ground fault is cleared, the compensating voltages are not introduced into the network, since the switches 7 are not turned on. If, with the compensation device turned on, i.e., with the switch 7 turned on, a second short-circuit to earth occurs, the current in the secondary winding of the transformer 12 increases dramatically.

This is fixed by the current transformer 15, which supplies a signal to the control unit 13. As a result, the switches 7 are turned off and locked, and after the transient is completed, the switching off of the compensating transformer 5 is blocked from the switches 7. If one of the ground faults has been eliminated, then the current transformer 15 removes the signal from the control unit 13, and the switches 7 are turned on, i.e., compensating voltages are again input from the transformers 10 and 11. If the double earth fault persists, then the transformer 15 the current does not remove the inhibit signal from the block 13 and the switches 7 are again switched off and locked for the duration of the transition

the process of disconnecting the compensating transformer 5. After the transient process is completed, the lock is released from the switches 7 and everything repeats until

until one of the double earth faults has been eliminated.

The necessity of blocking the switches 7 after disconnecting the compensating transformer 5 is explained by the fact that the transition process is delayed for 4-5 periods and is accompanied by insignificant overvoltages. During this period, there may be false alarms of the block 13 for selecting the damaged phase. Therefore, for the period of the transient, the phase selection unit 13 blocks and blocks the switches 7 from being tripped. After the completion of the transient process, the lock is released. Thus, in the invention, an increase in the reliability of the network operation is provided by a new order of operations that must be carried out under certain conditions. This allows you to restore the normal network mode when

the disappearance of the earth fault, as well as to protect the potential compensation device from double earth faults. As a result, the main drawback of the known device is eliminated - the impossibility of restoring the normal operation of the network when the ground fault disappears.

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Claims (1)

Invention Formula The method of compensating the potential of the damaged phase of the network relative to the earth by introducing a compensating voltage between the zero point of the network and the ground, is characterized in that, in order to increase the reliability of the protected network, the potential of the damaged phase of the network is monitored and after reaching its minimum, the compensating voltage but after reaching a new steady-state value of the potential of the damaged phase of the network, monitoring of the earth fault in the network and. if the earth fault is not cleared, then the compensating voltage is reintroduced.