RU2453024C1 - Monitoring method of false deactivation of circuit breaker of network station of automatic reclosure at operation of ring network in power supply mode of reserved section of line - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: when short circuit current surge appears in line of the main power supply (PS), count of total time equal to protection actuation holding time of sectionalising circuit breaker of the main PS line and holding time of activation of circuit breaker of automatic load transfer network station is started. When the count ends, sounding impulse is supplied to the beginning of reserve PS line, and the time during which it will reach reflection point and return is measured. Distance to reflection point is calculated and compared to distance to installation place of circuit breaker of network station of automatic load transfer, and if that distance is shorter than the calculated one, the conclusion is made on activation of circuit breaker of automatic loaf transfer network station, and monitoring of operating current variation is performed, and if reduction of operating current is fixed before recovery of normal scheme of electric power supply in line of reserve PS by the value determined with reserved load, then sounding impulse is again supplied to the beginning of that line, and time within which it will reach reflection point and return is measured. Distance to reflection point is calculated and compared to distance to installation place of circuit breaker of automatic load transfer network station, and if that distance is equal to the calculated one, then the conclusion is made on false deactivation of circuit breaker of automatic load transfer network station.

EFFECT: enlarging functional capabilities.

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Description

The invention relates to the automation of electrical networks and is intended to control the false disconnection of the circuit breaker of the network point automatic shutdown of the reserve (ATS) when the ring network is in power mode of the reserved section of the line.

There is a method of controlling the false tripping of a sectionalizing circuit breaker in a ring network line powered by different buses of a two-transformer substation, which consists in fixing the surges of short-circuit currents (SC) and in measuring the time between them. To do this, at the moment of fixing the drop in the operating current at the beginning of the main power supply line to a value determined by the load of the line connected after the sectioning switch and the absence of short-circuit current inrush, a time equal to the holding time of the circuit breaker of the automatic transfer switch point is started. At the end of the countdown of this time, the appearance of a current surge at the beginning of the backup power supply line is controlled, and if a current surge occurs with a value determined by the disconnected load of the main power supply line, then the fact of a false disconnection of the sectioning switch in the ring network line is established [RF patent No. 2378754, publ. . 10/10/2010, bull. No. 1].

A disadvantage of the known method is the impossibility of using it to control false tripping of the circuit breaker of the ABP network item during the operation of the ring network in the power mode of the reserved section of the line.

The objective of the invention is to expand the functionality of the method by obtaining information about the false disconnection of the circuit breaker of the network item ABP during the operation of the ring network in the power mode of the reserved section of the line.

According to the proposed method, in the line of the backup power supply, a decrease in the operating current is controlled by a value determined by the load of the reserved section of the line, for which, from the moment of the inrush current in the main power supply line, the total time equal to the response time of the protection of the sectioning switch of the main power supply line and the exposure time of the circuit breaker of the ABP network item switch. After the countdown of the total time, a probe pulse is sent to the beginning of the backup power supply line. Measure the time for which it reaches the reflection point and returns back, calculates the distance to the reflection point and compares it with the distance to the installation location of the switch of the ABP network point and, if this distance is less than calculated, make a conclusion about turning on the switch of the ABP network point and control over the change in operating current. And if in the period before the restoration of the normal power supply circuit, a decrease in the operating current in the line of the backup power source is fixed by a value determined by the reserved load, then a probing pulse is sent to the beginning of this line again. The time it takes for it to reach the reflection point and return is measured, the distance to the reflection point is calculated and compared with the distance to the installation location of the switch for the ATS network point switch, and if this distance is equal to the calculated one, the fact of the false disconnection of the switch of the ATS network point switch is established.

The essence of the invention is illustrated by drawings, where:

figure 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 1).

The circuit (see Fig. 1) contains: a power transformer 1, a head switch of the main power supply line 2, a short circuit point 3, a section switch 4 of the main power supply line, a circuit breaker 5 of the ABP network point, a section switch 6 of the backup power supply line, a head switch 7 lines of redundant power supply, busbar section switch 8, power transformer 9, short-circuit current sensor (DTK3) 10, MEMORY element 11, DELAY element 12, SINGLE VIBRATOR 13, current transformer (TT) 14, decrease sensor its current (Dourthe) 15, a receiver probe pulses (CID) 16, a sounding pulse generator (SPG) 17, the information processing unit (BOI) 18, recording unit (RU) 19.

The signal diagrams at the outputs of the elements shown in figure 1 with a short circuit at point 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 - at 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.

In addition to the diagrams of the output signals, Fig. 2 also shows: t ₁ - the time point of the occurrence of short circuit at point 3, t ₂ - the time point of switching off the short circuit current, t ₃ - the time point of turning on the circuit breaker of the network item ATS, t ₄ - the time point of false shutdown circuit breaker ABP.

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. There is no signal at the DTKZ 10 output, there is no output signal at the DURT, therefore, the circuit is in control mode.

If there is a stable short circuit on the adjacent main switch 2 lines of the main power source, for example, at point 3, a signal will appear at the output of DTKZ 10 (Fig. 2, Diagram 20). This signal will go to the input of the MEMORY 11 element, it will be remembered by it (Fig. 2, Diagram 21) and will go to the input of the DELAY element 12. From the output of this element, the signal will appear after the total time equal to the response time of the protection of the sectioning switch 4 of the main power supply line and the holding time of the switch 5 of the network item ABP. After this time, the signal leaves the DELAY 12 element (Fig. 2, Diagram 22) and goes to the input of the SINGLE-SELECTOR 13. It will produce one oscillation (Fig. 2, Diagram 23) and its signal will “clear” the memory from Element 11 and will enter the first input of BOI 18. At this point in time, the head switch 2 will turn off, the sectionalizing switch 4 of the main power supply line will be turned off, and the switch 5 of the ABP network point will turn on. And the ring network begins to work in the power mode of the reserved section of the line. With the arrival of the signal at the first input of the BOI 18, it sends its signal to the GZI 17 (Fig. 2, Diagram 29), and a probe pulse will go from its output to the beginning of the backup power supply line (Fig. 2, Diagram 27). This impulse will reach the reflection point and, returning back, will go to FDI 16, where it will be received and sent to BOI 18 (Fig. 2, Diagram 26). BOI 18 will determine the transit time of the probe pulse to the reflection point and vice versa, calculate the distance to the reflection point and compare this distance with the distance to the installation location of switch 5 of the ABP network point and, if this distance is less than the calculated distance, a signal will appear at the output of BOI 18 ( phage 2, diag. 28), which will go to RU 19, and there will appear information on the inclusion of switch 5 of the network item ABP.

In the process of this mode of operation until the restoration of the normal power supply circuit as a result of any malfunction, a false shutdown of the circuit breaker 5 of the ABP network point may occur. Such a trip of the switch 5, for example, at time t ₄ (see figure 2) will lead to the fact that the operating current in the line of the backup power source will decrease by a value determined by the load of the reserved section of the line of the main power source, so the signal at the output of the TT14 will decrease (figure 2, diag. 24) and at the output of the DURT 15 a signal will appear (figure 2, diag. 25), which, having entered BOI 18, will ensure the appearance of its output signal (phage 2, diag. 28). This signal will go to the GZI 17, so from its output to the beginning of the line will again find a probe pulse (figure 2, diag. 27). This impulse, reaching the reflection point, will return back and go to FDI 16 and from its output (Fig. 2, Diagram 26) will go to FIGHTS 18. FIGHTS 18 will determine the pulse transit time, calculate the distance to the reflection point and compare it with the distance to the installation location of the switch 5 of the network item ABP and, if this distance is equal to the calculated, then at the output of the BOI 18 a signal appears (figure 2, diagram 28). This signal will go to RU 19 and there will appear information about the false disconnection of the switch 5 of the network item ABP (figure 2, diagr.29).

Thus, the proposed method allows to obtain information about the false tripping of the circuit breaker of the ABP network item during the operation of the ring network in the power mode of the reserved section of the line.

Claims (1)

A method for monitoring the false opening of a circuit breaker of a network automatic switching point (ATS) during the operation of the ring network in the power mode of the reserved section of the line, which consists in fixing the inrush currents and in measuring the time between them, characterized in that in the line of the backup power source they control the decrease in the operating current by determined by the load of the reserved section of the line, for which, from the moment of the appearance of the inrush current of short circuit (short circuit) in the line of the main power source, the countdown of the total time and, equal to the response time of the protection of the sectioning circuit breaker of the main power supply line and the exposure time of the circuit breaker of the ABP network item switch, after the end of the countdown of the total time, a probe pulse is sent to the beginning of the backup power supply line, the time is taken for it to reach the reflection point and return , calculate the distance to the reflection point and compare it with the distance to the installation location of the circuit breaker of the ABP network item, and if this distance is less than the calculated, then They make a conclusion about turning on the circuit breaker of the ABP network item and monitor the change in the operating current, and if in the period before the restoration of the normal power supply circuit, a decrease in the operating current in the line of the backup power source is fixed by a value determined by the reserved load, then a probe pulse is sent to the beginning of this line , measure the time for which it reaches the reflection point and returns, calculate the distance to the reflection point and compare it with the distance to the installation location of the network switch kta ATS, and if this distance is equal to the calculated, then establish the fact of a false shutdown of the switch of the network point ATS.

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