JP5726995B2 - Protective relay device - Google Patents

Description

  The present invention relates to a protective relay device for a power transmission line in which a continuous current interrupting arc horn is installed.

  Generally, a power transmission line protection relay device obtains information on the amount of electricity in a power system from an instrument transformer, detects a transmission line accident, outputs a trip command to a circuit breaker, and removes the accident. . In power transmission line accidents, lightning damage accidents occupy a large weight, and as a countermeasure against lightning damage accidents, a continuity interrupting arc horn has been developed, and a continuity interrupting arc horn has been installed in the transmission line. ing.

  The continuity interrupted arc horn is configured so that accidents can be removed in a short time of about half a cycle. If this is expected, when it operates, it is required not to send a trip command from the protective relay device of the transmission line unnecessarily.

  As the one that prevents trip commands from being sent unnecessarily from the power line protection relay device, the operation delay by the timer, the amount of electricity previously taken in the power line protection relay device, There is one in which the operation of the continuous current interrupting type arc horn is detected from the combined electric quantity so that the protective relay device for the transmission line is not controlled unnecessarily (for example, see Patent Document 1).

JP 2004-274840 A

  However, in the thing of patent document 1, the operation | movement detection circuit of a continuity interruption | blocking arc horn is essential, and it is faster than the main relay of the protection relay device of a power transmission line as an operation detection circuit of a continuity interruption | blocking arc horn. A change detection relay and an instantaneous value comparison relay must be used.

  An object of the present invention is to provide a protective relay device that can detect the operation of a continuous current interrupting arc horn without providing an operation detection circuit for the continuous current interrupting arc horn, and can prevent unnecessary trip commands from being sent out at that time. Is to provide.

The protective relay device of the present invention is a protective relay device for a transmission line equipped with a continuity interruption type arc horn, and inputs the amount of electricity of the transmission line and obtains the amount of electricity and the combined amount of electricity necessary for the protection relay calculation. An input unit, a current level detection unit for detecting that an absolute value of a current of the electric quantity of the transmission line obtained by the input unit is a predetermined value or more, and an electric quantity obtained by the input unit, a main relay for detecting an accident of the power transmission line based on the composite electric quantity, a counter for counting the number of times it is detected that the absolute value of the current of the current level detection unit by the power transmission line is the predetermined value or more, And an output unit that outputs a trip command when the number of times of the counter is equal to or greater than a predetermined number and the main relay detects a power transmission line accident.

  According to the present invention, it is possible to detect the operation of the continuity interruption type arc horn without providing the operation detection circuit of the continuity interruption type arc horn, and to prevent unnecessary trip commands from being sent out at that time.

The block diagram of an example of the protection relay apparatus concerning embodiment of this invention. The block diagram of another example of the protection relay apparatus concerning embodiment of this invention. The block diagram of another another example of the protective relay apparatus concerning embodiment of this invention.

  Embodiments of the present invention will be described below. FIG. 1 is a configuration diagram of an example of a protective relay device according to an embodiment of the present invention. In FIG. 1, the input unit 11 is supplied with the amount of electricity of a transmission line, for example, voltage or current, which is a protection target of the power system, via a power transformer for power system which is not shown in the figure. Necessary amount of electricity or synthetic electricity is required. For example, level conversion of electric quantity or conversion into digital quantity is performed, and an electric quantity combining process is performed. For example, in the synthesis process, a differential current in the protection section is required. The main relay 12 detects a power transmission line accident based on the amount of electricity or the amount of combined electricity obtained at the input unit 11, and outputs a failure detection signal to the output unit 13 when an accident is detected. For example, a current differential calculation is performed as a protection relay calculation, and a circuit breaker trip signal is output to the output unit 13 in the event of a power transmission line fault.

  The current level detection unit 24 detects that the absolute value of the current in the electric quantity of the transmission line obtained at the input unit is greater than or equal to a predetermined value, and the counter 25 uses the current level detection unit 24 to detect the current of the transmission line. The number of times that the absolute value is detected to be greater than or equal to a predetermined value is counted. As described above, the accident continuation is determined by the current level detection unit 24 that determines that the absolute value of the current exceeds a certain level and the counter 25 that detects a plurality of times of excess. That is, the counter 25 counts the number of times that the current level detection unit 24 detects that the absolute value of the current of the transmission line is equal to or greater than a predetermined value, and the output unit 13 counts the number of times of the counter 25 at a predetermined number or more. When the main relay 12 detects a power transmission line accident, it outputs a trip command.

  The current level detection unit 24 receives a current amount or a combined current amount (for example, a differential current) from the input unit 11. In order not to misdetermine whether the accident continues or not by shifting the absolute values of positive and negative waves when there is a transient DC component superimposed on the AC current at the time of an accident or when the input part 11 always has an offset. The current level detection unit 24 may include a DC component removal filter that removes a DC component from the current amount or the combined current amount.

  In the embodiment configured as described above, when the output signal is transmitted from the current level detection unit 24 up to the number of times set by the counter 25, the output signal of the accident continuation determination is transmitted, and the output unit 13 receives the main signal. When the output signal of the relay 12 is transmitted, a trip signal is transmitted from the protective relay device. On the contrary, when the excess of the number of times set by the counter 25 is not detected, the accident detection signal of the main relay 12 is suppressed and the trip command is not output from the protective relay device. For example, when the counter 25 is exceeded once, the accident continuation determination is detected earlier, and when the counter 25 is exceeded twice, the accident continuation determination is detected late.

  If the current level detector 24 does not detect an excess of the number of times set by the counter 25, the operation output of the main relay 12 is suppressed, so that no trip command is finally output. Therefore, unnecessary operation of the protective relay device can be prevented. In addition, since the current level detection unit 24 detects a case where the absolute value of the current exceeds a predetermined level, it can cope with a shift of the current waveform due to a direct current component.

  For example, when the accident is removed by the continuous current interruption type arc horn, the main relay 12 immediately determines the operation upon occurrence of the accident, but at the same time, the current level detection unit 24 determines whether the accident is continued. If the accident is removed by the continuous current interrupt type arc horn and the excess of the number of times set by the counter 25 is not detected, it is not determined that the accident is continued, and the protective relay device does not operate. Therefore, the circuit breaker connected to the power transmission line is not unnecessarily tripped, and the power transmission line can immediately recover the power transmission capacity after the accident is removed by the continuous current interrupting arc horn.

  On the other hand, when the accident is not removed by the continuous current interrupting arc horn, the accident state continues, and the current level detection unit 24 detects the excess of the number of times set by the counter 25. As a result, the output signal of the accident continuation determination is sent from the counter 25. When the main relay 12 detects an accident, the output unit 13 can immediately remove the power line breaker to remove the accident.

  FIG. 2 is a configuration diagram of another example of the protective relay device according to the embodiment of the present invention. This example is different from the example shown in FIG. 1 in that the voltage level detection unit 18 detects that the voltage of the electric quantity of the transmission line obtained at the input unit 11 is within a predetermined value range from the healthy voltage. The voltage level detection unit 18 increases the predetermined value of the current level detection unit 24 when the voltage of the transmission line is within a predetermined range of predetermined values from the healthy voltage. That is, a predetermined value that is the detection level of the current level detection unit 24 is linked to the voltage value. The same elements as those in FIG.

  In another example of the embodiment configured as described above, the accident continuation determination can be controlled according to the level of the voltage value detected by the voltage level detection unit 18. For example, the voltage drop when the continuity interrupted arc horn operates is smaller than when the accident does not occur. By utilizing this phenomenon, as the voltage drop after the accident before the accident becomes smaller, the predetermined value that is the detection level of the current level detection unit 24 is increased, and the absolute value of the current is less likely to exceed the predetermined value. For this reason, it is possible to prevent detection of an accident current that flows for about a half cycle when the continuous current interrupting arc horn operates. That is, the voltage level detector 18 does not detect an accidental current that flows for about a half cycle when the continuity interrupted arc horn operates, so that the protective relay device is more reliable than the example of the embodiment shown in FIG. Unnecessary operation can be prevented.

  For example, when the accident is removed by the continuity interruption type arc horn, the main relay 12 determines the operation immediately after the occurrence of the accident, but at the same time, the current level detection unit 24 determines the continuation of the accident. In this case, the accident is removed by the continuous current interrupted arc horn, but an accident current of about a half cycle flows. However, since the voltage drop during this period is small, the detection level of the current level detection unit 24 is raised by the voltage level detection unit 18. Therefore, the absolute value of the accident current does not exceed the detection level, and the protective relay device does not operate. Therefore, the circuit breaker connected to the power transmission line is not unnecessarily tripped, and the power transmission line can immediately recover the power transmission capacity after the accident is removed by the continuous current interrupting arc horn.

  On the other hand, when the accident is not removed by the continuous current interrupting type arc horn, the accident state continues, and when the absolute value of the current value exceeds a predetermined level, the output signal of the accident continuation determination is output from the current level detection unit 24 to the output unit. 13 is sent out. When the main relay 12 detects an accident, the output unit 13 can immediately remove the power line breaker to remove the accident.

  FIG. 3 is a configuration diagram of another example of the protective relay device according to the embodiment of the present invention. This example includes a level excess period detection unit 19 that detects that the current level detection unit 24 detects that the absolute value of the current is equal to or greater than a predetermined value, as compared with the example illustrated in FIG. When the period in which the absolute value of the current is detected to be equal to or greater than the predetermined value is longer than the predetermined period, the level excess period detection unit 19 adjusts the predetermined value according to the period. That is, the detection level of the current level detection unit 24 is linked to the level excess period. The same elements as those in FIG.

  In another example of the embodiment configured as described above, the accident continuation determination can be controlled according to the period detected by the level excess period detection unit 19. For example, when considering a system with a long DC component decay time constant, the current waveform is shifted by the DC component, and the absolute value of the current tends to exceed a predetermined level in the current level detector 24. At this time, by adjusting the determination level of the current level detection unit 24 by the level excess period detection unit 19, it is possible to nullify the influence of the current waveform shifted by the direct current component. Therefore, it is possible to deal with a system having a long DC component decay time constant. As a result, the level excess period detector 19 can cope with a system having a long DC component decay time constant. Therefore, the unnecessary operation of the protective relay device can be prevented more accurately than the example of the embodiment shown in FIG.

  In the following, in a system with a long DC decay time constant, a case where an accident is removed by a continuous current interrupted arc horn and a case where the accident is not removed are considered. When the accident is removed by the continuous current interrupt type arc horn, the main relay 12 immediately determines the operation upon occurrence of the accident, but at the same time, the current level detector 24 determines whether the accident is continued. Since the accident is removed by the continuous current interrupt type arc horn, the absolute value of the current value does not exceed the predetermined level in the current level detection unit 24, and the protective relay device does not operate. Therefore, the circuit breaker connected to the power transmission line is not unnecessarily tripped, and the power transmission line can immediately recover the power transmission capacity after the accident is removed by the continuous current interrupting arc horn.

  On the other hand, when the accident is not removed by the continuous current interrupting arc horn, the accident state continues. However, because the system has a long DC decay time constant, the current waveform may shift and the current level detection unit 24 may increase the detection period. In other words, when it is determined that the accident is continued after a plurality of times, the determination takes time. Here, the determination level of the current level detection unit 24 is adjusted by the level excess period detection unit 19 so that an excess of the absolute value of the current can be detected as usual. Thereby, the output signal of the accident continuation determination can be sent out from the current level detection unit 24 at an early stage. When the main relay 12 detects an accident, it is possible to immediately remove the power line breaker and remove the accident.

According to the embodiment of the present invention, it is determined whether or not the accident has continued after the occurrence of the grid fault. If the accident does not continue, it is protected that the accident has been removed by the continuous current interrupting arc horn. Prevent unnecessary operation of the relay device. Therefore, the operation detection circuit of the continuity interruption type arc horn is unnecessary, and a simpler structure can be achieved. When the continuous current interrupting type arc horn fails to extinguish, it is determined that the accident continues and the protective relay device can be operated immediately.
DESCRIPTION OF SYMBOLS 11 ... Input part, 12 ... Main relay, 13 ... Output part, 18 ... Voltage level detection part, 19 ... Level excess period detection part, 21 ... Current level determination part, 22 ... Switch, 23 ... Switch, 24 ... Current level Detection unit, 25 ... counter

Claims (3)

In a protective relay device for a transmission line equipped with a continuity interruption type arc horn, an input unit for inputting the amount of electricity of the transmission line and calculating the amount of electricity necessary for the protection relay calculation and the combined amount of electricity, and obtained by the input unit A current level detection unit that detects that the absolute value of the current of the electricity amount of the transmission line is greater than or equal to a predetermined value, and the transmission line based on the amount of electricity or the combined amount of electricity obtained at the input unit a main relay for detecting an accident, a counter for counting the number of times it is detected that the absolute value of the current of the current level detection unit by the power transmission line is the predetermined value or more, the number of times the count of the counter is preset A protective relay device comprising: an output unit that outputs a trip command when the main relay detects a power transmission line accident. A voltage level detection unit for detecting that the voltage of the electric quantity of the power transmission line obtained at the input unit is within a predetermined value range from a healthy voltage; and the voltage level detection unit when the voltage of the wires in a predetermined value range, wherein the predetermined from healthy during voltage protective relay device according to claim 1, wherein increasing the predetermined value of the current level detection unit. With period for detecting the level excess period detecting unit that detects a longer than a predetermined period of time that the absolute value of the current by the current level detector is the predetermined value or more, the level excess period detection unit, the absolute current the period which the value is detected to be the equal to or greater than the predetermined value is longer than the predetermined period of time, protective relay device according to claim 1, wherein the adjusting said predetermined value in accordance with that period.

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