RU2502175C1 - Control method of trip of network station switch of automatic load transfer at restoration of normal electric power supply circuit of ring network - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: from the moment of occurrence of operating current surge with a value determined with load of a tripped section of the line of the main power source, time reckoning is started, which is equal to delay time of switch-on of a sectional switch of the same line, and if operating current in the line of the main power source is increased by the value determined with load of the standby section, and decreased in the line of the standby power source by the same value from the end moment of reckoning of the same time to the moment of trip of the automatic load transfer network station switch, a conclusion is made on trip of the automatic load transfer network station switch and restoration of normal electric power supply circuit of the ring network. When applying the proposed method, information can be received on trip of automatic load transfer network station switch at restoration of normal electric power supply circuit of the ring network.

EFFECT: enlarging functional capabilities.

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Description

The invention relates to the automation of electrical networks and is intended to control the shutdown of the circuit breaker of the network point automatic turn-on reserve (ATS) when restoring the normal power supply circuit of the ring network.

There is a method of monitoring the failure of disconnecting an ABP point when its circuit breaker is turned on for a stable short circuit in a ring network powered by different buses of a two-transformer substation, consisting in the fact that from the moment of the inrush of a short circuit, the time equal to the response time of the operation of the ABP network point plus the response time is counted protect it off. At the same time, the occurrence of a fault inrush current on the tires of the backup power supply is controlled, and if it appears after turning on the switch of the ATS point, and at the end of the countdown of the total time, the inrush of a short-circuit current does not turn off, then the fact of failure to turn off the ATS point when its breaker is turned off is set to stable KZ in the ring network [patent RU No. 2304339, class H02J 13/00 publ. 08/10/2007, bull. No. 22].

The disadvantage of this method is the impossibility of using it to control the shutdown of the circuit breaker of the ABP network item when restoring the normal power supply circuit in the ring network.

The objective of the invention is to expand the functionality of the method by obtaining information about turning off the circuit breaker of the network item ABP when restoring the normal power supply circuit in the ring network.

According to the proposed method, from the moment of the inrush of the operating current by the value determined by the load of the disconnected section of the line of the main power supply, a countdown starts equal to the holding time of the sectioning switch of this line and, if from the end of the countdown, the time until the switch of the switch of the network item ABP is working the current in the line of the main power supply increased by a value determined by the load of the reserved section, and in the line of the backup power supply decreased to the same value, it is concluded that the circuit breaker of the ABP network item is turned off and the normal power supply circuit of the ring network is restored.

The essence of the invention is illustrated by drawings, where: in Fig.1 - presents a structural diagram containing elements for implementing the method;

figure 2 - diagrams of the signals at the outputs of the elements shown in figure 1 with short circuit at point 3 (see figure 2).

The circuit (see Fig. 1) contains: a power transformer of the main power source 1, a main circuit breaker of the main power supply line 2, a short circuit point 3, a sectionalizing switch of the main power supply line 4, a circuit breaker of the AVR 5 station, a sectioning circuit breaker of the backup power supply line 6 , the main switch of the backup power supply line 7, the bus switch ABP 8, the power transformer of the backup power supply 9, the current transformer (CT) 10, the operating current sensor 11, the MEMORY element 12, the DELAY element 13, the element t SINGLE VIBRATOR 14, sensor for increasing working current (ДВРТ) 15, ТТ 16, sensor for decreasing working current (ДУРТ) 17, element И 18, recording device (RU) 19. Signal diagrams at the outputs of the elements shown in figure 1 with a fault at 3 (see figure 1), have the form (see figure 2): 20 - at the output of element 10, 21 - at the output of element 11, 22 - at the output of element 12, 23 - at the output of element 13, 24 - the output of element 14, 25 - at the output of element 15, 26 - at the output of element 16, 27 - at the output of element 17, 28 - at the output of element 18, 29 - in RU 19. Figure 2 also shows: t ₁ - time head inclusions yklyuchatelya 2, t ₂ - point in time inclusion partitioned switch 4, t ₃ - point in time the circuit breaker Network ATS 5 points.

The method is as follows.

In normal operation of the ring network, switches 2, 4, 6, and 7 are turned on, and switches 5 and 8 are turned off. When a stable short circuit occurs, for example, at point 3, switch 2 will turn off under the action of its protection, and switch 4 will be turned off by undervoltage protection. This will lead to the disappearance of the voltage at the ABP network point from the side of the main power supply of the transformer 1, therefore, the switch 5 of the ATS point will turn on and supply voltage to the section of the line adjacent to the ATS point.

After eliminating the short circuit at point 3, the head switch 2 will be turned on. In this case, at the output of TT 1 there will appear a surge in operating current (Fig. 2, diagram 20, time t ₁ ), due to the inclusion of the load connected to the section of the line adjacent to the head switch 2. Surge of the operating current will ensure the operation of the DRT 11 and the appearance of its output signal (figure 2, diagr.21). This signal will go to the input of the MEMORY 12 element, it will be remembered by it (Fig. 2, Diagram 22) and will go to the input of the DELAY element 13. From the output of this element, the signal will appear after the shutter speed of the sectioning switch 4 (Fig. 2, Diagram 23) . The output signal of this element will go to the input of the SINGLE-VIBRATOR element 14, it will make one oscillation (Fig. 2, Diagram 24) and with its signal “reset” MEMORY from the element 12 (Fig. 2, Diagram 22) and will go to the first input of the And element 18. At this point in time, the sectionalizing switch 4 will turn on (FIG. 2, time t ₂ ), and the switch 5 of the ABP network point will turn off (FIG. 2, time t ₃ ). This will result in the transfer of power from the backup transformer T9 to the main transformer T1. In this case, in the line of the main power source, the operating current will increase by a value determined by the load of the section of the line adjacent to the ABP point, and in the line of the backup power source, the working current will decrease by the same value. This will ensure the appearance of the output signals from DVRT 15 and DURT 17 (figure 2, diag. 25 and 27, respectively). They will go to the second and third inputs of the And 18 element, while its output signal will appear (Fig. 2, Diagram 28). The signal of this element will go to RU 19 and there will appear information about the disconnection of the circuit breaker of the ABP network item (Fig. 2, Diagram 29).

Thus, the proposed method allows to obtain information about the shutdown of the circuit breaker of the ABP network item when restoring the normal power supply circuit in the ring network.

Claims (1)

A method for controlling the disconnection of a circuit breaker of a network point for automatically switching on a reserve (ATS) when restoring a normal power supply circuit of a ring network powered by different buses of a two-transformer substation, which consists in fixing the inrush currents and in measuring the time between them, characterized in that from the moment of the inrush of the operating current value determined by the load of the disconnected section of the line of the main power source, a countdown starts equal to the holding time of the sectioning switch of this line and, if from the end of the countdown of this time to the moment the circuit breaker of the ABP network item is turned off, the working current in the line of the main power supply increased by a value determined by the load of the reserved section, and in the line of the backup power supply it decreased by the same value, then we conclude disconnecting the circuit breaker of the ABP network point and restoring the normal power supply circuit of the ring network.

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