RU2446544C1 - Method to monitor main switch disconnection fault in case of stable short circuit at adjacent section of circular network line - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: monitoring method consists in fixation of current surges and in measurement of time between them. From the moment of a short-circuit current surge appearance in the beginning of the line connected to one of two sections of buses of a double-transformer substation, time is counted equal to the delay time of actuation of the main switch protection in this line. Simultaneously with the start of this count the delay time is counted for actuation of protection of an input breaker of buses, to which a damaged line is connected, at the same time disconnection of the short circuit current surge is monitored. And if at the end of main switch protection actuation delay time count the short-circuit current surge disconnection does not happen, and upon expiry of bus input switch protection actuation delay time the short-circuit current disconnection happens, the failure of the circular network line main switch disconnection is established.

EFFECT: expansion of functional capabilities by the method of obtaining information on a failure of main switch disconnection in case of a stable short circuit at the adjacent section of the circular network line.

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Description

The invention relates to the automation of electrical networks and is intended to control the failure of tripping the head switch in case of a stable short circuit (short circuit) on an adjacent section of the ring network line powered by different buses of a two-transformer substation.

There is a method of monitoring the failure of turning off the point of automatically turning on the reserve when it is turned on for a stable short circuit in the ring network powered by the buses of a two-transformer substation, which consists in fixing the surges of short-circuit currents and in measuring the time between them. To do this, on the transformer tires of the main power source, from the moment of the inrush of the short circuit current, the time equal to the response time of the network operation point of the automatic reserve restart (ATS) plus the response time of the protection of its circuit breaker is counted. 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 occur, then the fact of failure to turn off the ATS point when its breaker is turned on is stable KZ in the ring network [RF patent No. 2304339, cl. H02J 13/00, publ. 2007, bull. No. 22].

The disadvantage of this method is the impossibility of using it to control the failure of tripping the head switch with a stable short circuit on an adjacent section of the ring network line.

The objective of the invention is to expand the functionality of the method by obtaining information about the failure to turn off the head switch with a stable short circuit on an adjacent section of the ring network line powered by different buses of a two-transformer substation.

According to the proposed method, from the moment of the appearance of a short-circuit current surge at the beginning of a line connected to one of two bus sections of a two-transformer substation, a time equal to the response time of the protection of the head switch of this line is counted, and simultaneously, the response time of the protection of the input bus switch is counted to which the damaged line is connected, at the same time they control the short circuit of the inrush current, and if, at the end of the countdown time, the trip protection switch does not throw off short-circuit current, and after a time delay protection operation input switch tires going off short-circuit current, the failure to establish the facts of the head off the line switch ring.

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 20 (see figure 1).

The circuit (see Fig. 1) contains a current transformer (CT) 1, a short-circuit current sensor (DTKZ) 2, a MEMORY element 3, a DELAY element 4, a SINGLE-VIBRATOR 5, an AND 6 element, a NOT 6 element, a NOT 8 element, a MEMORY element 9, element DELAY 10, SINGLE VIBRATOR 11, element And 12, recording device 13, power transformer of the first section of tires 14, input switch of the first section of tires 15, head switch of the first line of the ring network 16, sectional switch of the first line of the ring network 17, switch of the ABP point 18, sectionalizing switch of the second line annular with Network 19, short circuit point 20, the head switch of the second line of the ring network 21, the section switch of the tires 22, the input switch of the second section of the tires 23, the power transformer of the second section of the tires 24.

The signal diagrams at the outputs of the elements shown in figure 1 with a short circuit at point 20 (see figure 1) have the form (see figure 2): 25 - at the output of element 1; 26 - at the output of element 2; 27 - at the output of element 3; 28 - at the output of element 4; 29 - at the output of element 5; 30 - at the output of element 6; 31 - at the output of element 7; 32 - at the output of element 8; 33 - at the output of element 9; 34 - at the output of element 10; 35 - at the output of element 11; 36 - at the output of element 12; 37 - the availability of information in the recording device 13; t ₁ - time point of occurrence of short circuit; t ₂ - the moment of the end of the protection time of the head switch 21; t ₃ - the moment of the end of the protection time of the input bus switch 23.

The method is as follows. In normal mode, the head switch 21 is turned on, and the switch point ABP 18 and the bus section switch 22 are turned off. At the output of current transformer 1 there is a certain value of the output signal (Fig. 2, diagrams 25), due to operating currents, but not sufficient for tripping of DTKZ 2, therefore, the presence of output signals from element HE 7 and 8 at the two inputs of circuit element 12 is not enough its triggering. The circuit does not start.

When short circuit at point 20 (see figure 1), the value of the output signal TT 1 (figure 2, diagram 25) is sufficient for triggering DTKZ 2, so the signal will appear at its output (figure 2, diagram 26). The signal is remembered by the element MEMORY 3 and the element MEMORY 9 (figure 2, diagrams 27 and 33). From the output of the MEMORY 3 element, the signal will go to the input of the DELAY 4. This element will delay the signal for a time equal to the exposure time of the protection of the head switch 21 (Fig. 2, diagram 28). After this time, the signal will go to SINGLE-VIBRATOR 5. It will make one oscillation (figure 2, diagram 29), "reset" the element MEMORY 3 (figure 2, diagram 27), and the signal will go to the second input of the element And 6. In this moment of time (figure 2, time t ₂ ), the head switch 21 should turn off and turn off the short circuit current. However, for some reason the fault does not occur and the short-circuit current continues to flow. The signal that existed up to this point in time at the first input of the And 6 element will continue to exist, therefore a signal will also appear at its output (Fig. 2, diagram 30), this signal will go to the input of the element NOT 7 and its previous output signal from the third the input of the element And 12 will disappear for the duration of one oscillation of the ONE-VIBRATOR 5, and after it will appear again and will be present at the third input of the element And 12 (Fig. 2, diagram 31).

The signal from the output of the element MEMORY 9 will go to the input of the element DELAY 10, will be delayed in it for a time equal to the exposure time of the protection of the input bus switch 23 (Fig. 2, diagram 34). This delay time is longer than the delay time of the DELAY 4 element; therefore, it will appear at the input of the ONE-SIZE 11 element at time t ₃ (Fig. 2, diagram 34). When a signal arrives at the input of the SINGLE-VIBRATOR element 11, it will make one oscillation (Fig. 2, diagram 35), "reset" the MEMORY element 9 (Fig. 2, diagram 33) and go to the first input of the And element 12. At this point in time, the input switch bus 23 will turn off and turn off the short circuit current (Fig.2, diagram 25). The signal from the element NOT 8 that existed at the second input of the And 12 element at the time t ₁ will disappear, and at the time t ₃ it will reappear (Fig. 2, diagram 32), therefore there will also be a signal at the second input of the And 12 element.

The presence of all three input signals on the element And 12 will lead to the appearance of its output signal (figure 2, chart 36). He will go to RU 13 and will provide information there (Fig. 2, diagram 37) that a failure has occurred in disconnecting the head circuit breaker of the ring network line.

Thus, the proposed method allows you to receive timely information about the failure of the shutdown of the head switch with a stable short circuit on an adjacent section of the ring network line.

Claims (1)

A method for monitoring the failure of tripping the main switch with a stable short circuit (short circuit) on an adjacent section of the ring network line, which consists in fixing the inrush currents and in measuring the time between them, characterized in that from the moment the inrush currents appear at the beginning of the line connected to of one of the two busbar sections of the two-transformer substation, the time equal to the response time of the protection circuit breaker of the head switch of this line is counted out and, simultaneously with the start of this reference, the response time of the trip The protection of the bus input circuit breaker to which the damaged line is connected, in this case, control the short circuit of the inrush current, and if at the end of the countdown of the protection time of the protection of the line circuit breaker, the short circuit of the short circuit current does not occur, and after the time of the operation of the protection of the bus circuit breaker if the short-circuit current is disconnected, then the fact of failure to disconnect the head circuit breaker of the ring network line is established.

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