RU2463696C1 - Method for control of false actuation of circuit breaker of automatic load transfer network station during ring network operation as per normal power supply scheme - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: method consists in registration of operational current rushes determined by loads of tripped and connected sections of lines and in measurement of the time between such rushes, one carrying out constant control of the condition of the circuit breaker of the automatic load transfer network station; for this purpose a probing pulse is sent with a specific periodicity to the backup power supply line beginning, one measuring the time of such pulse passage from the reflection point and backwards, calculating the distance from the reflection point and comparing it to the distance from the spot of installation of the circuit breaker of the automatic load transfer network station, the distances equal to each other in case of the normal power supply scheme; if the calculated distance exceeds the distance from the spot of installation of the circuit breaker of the automatic load transfer network station, a false actuation is concluded.

EFFECT: enlarging functional capabilities of the method.

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Description

The invention relates to the automation of electrical networks and is intended to control the false switching of a circuit breaker of a network point for automatically switching on a reserve (ATS) when the ring network operates according to the normal power supply scheme and is powered by a two-transformer substation from different buses.

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 inrush currents and in measuring the time between them. For this, at the time 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 a short circuit inrush, a countdown starts equal to the holding time of the circuit breaker of the ATS item. 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 monitored and, if a current surge occurs with a value determined by the disconnected load of the main power supply line, the fact of a false disconnection of the sectioning switch in the ring network line is established [patent RU No. 2378754, publ. . 10/10/2010, bull. No. 1].

The disadvantage of this method is the impossibility of using it to obtain information about the false inclusion of the circuit breaker of the network item ABP during operation of the ring network according to the normal power supply scheme.

The objective of the invention is to expand the functionality of the method by obtaining information about the false inclusion of the circuit breaker of the network item ABP during the operation of the ring network according to the normal power supply scheme.

According to the proposed method, the state of the circuit breaker of the ABP network point is constantly monitored, for which a probe pulse is sent to the beginning of the backup power supply line with a certain frequency, the transit time of this pulse to the reflection point and vice versa is measured, the distance to the reflection point is calculated and compared with the distance to installation locations of the circuit breaker of the ABP network item, which are equal to each other in the normal power supply circuit and if the calculated distance becomes greater than the distance e to the place of installation of the switch of the network point ABP, then conclude that it is falsely turned on.

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.

The circuit (see Fig. 1) contains: a power transformer 1, a head switch 2 of the main power supply line, a sectioning switch 3 of the main power supply line, an ABP network switch 4, a sectionalizing switch 5 of the backup power supply line, a head switch 6 of the backup power line power supply, section busbar switch for substation 7, power transformer 8, probe pulse generator (PZI) 9, probe pulse generator (GZI) 10, information processing unit (BOI) 11, recording device (RU) 12.

The signal diagrams at the outputs of the elements shown in Fig. 1, with a normal power supply circuit and false switching on of a circuit breaker 4 of an ABP network point of a ring network, have the form (see Fig. 2): 13 - at the output of element 9, 14 - at the output of element 10, 15 - at the output of element 11, 16 - in the switchgear 12. In addition to the output signals of the elements of the structural diagram, figure 2 also shows the time t ₁ when the switch on the circuit breaker of the network station ATS falsely occurred.

The method is as follows.

In normal operation of the ring network, switches 2, 3, 5, and 6 are turned on, and switches 4 and 7 are turned off. The consumers of the main source line are connected to the power transformer 1, and the consumers of the backup source line are connected to the power transformer 8. During operation of the ABP network points, as a result of any malfunctions, the switches of these points can turn on during normal operation of the ring network and such inclusion will be false. At the same time, the K3 current does not appear in the lines of the main and backup power sources, and also, depending on the ratio of the lengths of these lines and the total power supplied, the surge current may not exist at all or it will be small. However, information on the change in the state of the circuit breaker of the ATS network point must be obtained for the timely detection and elimination of malfunctions. Therefore, it is necessary to constantly monitor the status of the circuit breaker of the ABP network point. Such control can be carried out using the structural diagram depicted in figure 1.

During the period of operation of the ring network according to the normal power supply scheme, BOI 11 sends a signal (FIG. 2, Diagram 15) to GZI 10 with a certain frequency, which, when this signal arrives, sends a probe pulse to the beginning of the backup power supply line (Fig. 2, Diagram. fourteen). He, reaching the point of reflection and returning, will go to FDI 9, where it will be recorded and sent to BOI 11 (figure 2, diag. 13). BOI 11 will determine the time during which the probe pulse reaches the reflection point and returns, calculates the distance to the reflection point and compares it with the distance to the installation location of switch 4 of the ABP network point and, if this distance is equal to the calculated distance, then from the output of BOI 11 to RU 12 will receive a signal (figure 2, diagram 16), which will maintain in it information about the disconnected position of the switch 4 of the network item ABP.

In the event of a situation, for example, at time t ₁ , when the distance to the installation location of the switch 4 of the ABP network point becomes less than the calculated distance, then from the output of the BOI 11 to the RU 12 a signal will arrive (Fig. 2, diagram 15), which will ensure the disappearance of information about the disconnected position of the switch 4 and the appearance in it of information about the false inclusion of the switch 4 of the network item ABP.

Thus, the proposed method allows to obtain information about the false inclusion of the circuit breaker of the network item ABP during the operation of the ring network according to the normal power supply scheme.

Claims (1)

A method for controlling the false switching of a circuit breaker of a network point for automatically switching on a reserve (ATS) during the operation of a ring network according to a normal power supply scheme, which consists in fixing the surges of operating currents determined by the loads of disconnected and connected sections of lines and in measuring the time between them, characterized in that there is constant monitoring above the state of the circuit breaker of the ABP network item, for which purpose a probing pulse is sent to the beginning of the backup power supply line at a certain frequency, the time Name of the passage of this pulse to the reflection point and vice versa, 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, which are equal to each other in the normal power supply circuit and if the calculated distance becomes greater than the distance to the installation location of the switch network point ABP, then conclude about its false inclusion.

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