JP6874620B2 - Protective relay - Google Patents

Description

The present invention relates to a protective relay, and more particularly to a protective relay including an operation indicator that indicates that an operation command for operating a circuit breaker has been output.

A protective relay is a device that protects the power system and various electric devices by detecting an abnormality in the power system from the amount of current input from the power system, operating a circuit breaker, and disconnecting the abnormal section from the power system. Further, the protective relay is provided with an operation indicator that displays that an operation command for operating the circuit breaker has been output (hereinafter referred to as an operation display). With this operation indicator, the maintenance / operator confirms the output status of the operation command.

In the conventional protective relay of this type, when the maintenance / operator confirms that the abnormality in the power system has been removed, the operation display is manually canceled and the return operation is performed.

Japanese Unexamined Patent Publication No. 60-26413

With the above-mentioned protected relay, if the maintenance / operator forgets to perform the recovery operation, the operation display is maintained even though the abnormality in the power system has been removed. Therefore, when the operation is displayed, there is a problem that it cannot be determined whether the operation display is correct due to the protective relay outputting the operation command or the incorrect operation display due to the maintenance / operator forgetting the return operation.

The present invention has been made to solve the above-mentioned problems, and determines whether the operation display is correct due to the output of an operation command or the incorrect operation display due to the maintenance / operator forgetting the return operation. It obtains a protective relay that can be discriminated.

The protective relay according to the present invention has an operation indicator that displays that an operation command for operating a circuit breaker provided in the power system has been output when an abnormality occurs in the power system, and an elapsed time since the operation command is output. It is equipped with a time indicator to display.

The protective relay configured as described above is equipped with a time indicator that displays information about the time when the operation command was output, so the correct operation display due to the output of the operation command or an error due to forgetting the return operation. It is possible to determine whether the operation display is correct.

It is a block diagram of the protective relay which shows Embodiment 1. It is a perspective view of the protective relay which shows Embodiment 1. FIG. It is a display example of the operation indicator which shows Embodiment 1. It is a display example of the time indicator which shows Embodiment 1. This is a display example of an operation indicator and a time indicator in a series of operations of the protective relay according to the first embodiment. It is a perspective view of the protective relay which shows the modification of Embodiment 1. FIG. It is a block diagram of the protective relay which shows Embodiment 2. It is a block diagram of the protective relay which shows Embodiment 3. FIG. It is a block diagram of the protective relay which shows Embodiment 4.

(Embodiment 1)
Hereinafter, a schematic configuration of the protective relay 100A, which is one embodiment, will be described with reference to FIGS. 1 and 2.

(Approximate configuration of protective relay 100A)
FIG. 1 is a block diagram showing a schematic configuration of the protective relay 100A according to the first embodiment. The protective relay 100A performs arithmetic processing based on the voltage and current information input from the power system, detects that an abnormality such as an accident has occurred in the power system, and operates an operation command for operating the circuit breaker. Is output. As a result, the abnormal section is separated from the power system, and the power system and various electric devices are protected. When only one of the current and the voltage is used for the calculation process, the protective relay 100A may be configured to collect either the current or the voltage required for the calculation.

Specifically, the protective relay 100A is composed of an input unit 102, a calculation unit 104, an output unit 106, an operation display 110A, and a time display 120A. The input unit 102 converts an analog signal of voltage and current in the power system input from a transformer (not shown) into a digital signal. The calculation unit 104 performs various calculation processes using the digital signal from the input unit 102, detects that an abnormality such as an accident has occurred in the power system, and determines whether or not to operate a circuit breaker (not shown). Hereinafter, operation determination) is performed. When it is determined that the circuit breaker needs to be operated as a result of the operation determination, the calculation unit 104 outputs a first operation signal for activating the output unit 106 to the output unit 106. The output unit 106 is activated by receiving the first operation signal, and outputs a second operation signal for operating the circuit breaker to the circuit breaker. In this specification, the first operation signal and the second operation signal are collectively referred to as an operation command. The operation display 110A receives the first operation signal and displays the operation. The time display 120A displays the elapsed time since the calculation unit 104 outputs the first operation signal as information regarding the time when the calculation unit 104 outputs the first operation signal. The details of the time display 120A will be described later.

FIG. 2 is a perspective view showing the appearance of the protective relay 100A. The protective relay 100A includes a housing 130 and an operation panel 132.

The housing 130 is a cylindrical container, and a substrate (not shown) on which circuits such as a calculation unit necessary for operating the protective relay 100A are mounted is housed inside.

The operation panel 132 has a plate shape and is attached to the housing 130. On the surface of the operation panel 132, a numerical value display unit 134, an operation unit 136, an operation display 110A, and a time display 120A are provided. A return button 138 is provided at the bottom of the operation panel 132. The numerical value display unit 134 is composed of, for example, a 7-segment LED or the like, and displays various numerical values such as measured values. The operation unit 136 is composed of knobs and buttons, and selects a numerical value to be displayed and makes various settings. The number of operation units 136 is provided as many as necessary for operation, and for example, three are provided.

The operation display 110A is, for example, a magnetic reversal type display, and is a display provided for performing an operation display. The operation display 110A has display boards colored in different colors on both sides, and the operation display is performed by reversing the display plate by a magnetic force. Further, the operation panel 132 is provided with an operation display confirmation window which is an opening, and the operation display 110A is provided so that the display board can be recognized from the operation display confirmation window. A display example of the operation display 110A is shown in FIG. When the operation display is canceled, as shown in FIG. 3A, the surface of the display board of the operation display 110A colored in the same color as the operation panel 132 (for example, black) can be recognized from the operation display confirmation window. It is being held. On the other hand, when the operation is displayed, as shown in FIG. 3B, the display plate of the operation display 110A is inverted by the magnetic force, and the surface colored in a color different from that of the operation panel 132 (for example, yellow) is the operation display. It is held recognizable through the confirmation window. The number of motion indicators 110A is provided as many as necessary for the motion display, and for example, one is provided.

Returning to FIG. 2, the time display 120A is provided below the operation display 110A and is composed of a 7-segment LED or the like. A display example of the time display 120A will be described later. The number of time indicators 120A is provided as many as necessary for display, and for example, one is provided. The return button 138 is a button for canceling (resetting) the operation display of the operation display 110A and the display of the time display 120A at the time of the return operation. By pushing up the return button 138, the operation display is canceled and the display of the time indicator 120A is reset.

(Configuration of time indicator 120A)
The configuration of the time display 120A will be described with reference to FIG.

As described above, the time display 120A displays the elapsed time since the calculation unit outputs the first operation signal as function information at the time when the calculation unit outputs the first operation signal. The elapsed time is displayed, for example, in hours and minutes. As shown in FIG. 4A, when 1 hour and 5 minutes have passed since the calculation unit output the first operation signal, the time display 120A displays “01:05”. Further, the maximum value of the time that the time display 120A can display is larger than the time from the time when the calculation unit outputs the first operation signal to the time when the maintenance / operator confirms various displays of the protective relay (for example, 2). time). If the elapsed time since the calculation unit outputs the first operation signal exceeds the maximum value of the time that can be displayed by the time display 120A, or if the return operation is performed, the display of the time display 120A is reset. Will be done. As shown in FIG. 4B, when the display of the time display 120A is reset, the time display 120A displays "00:00".

(Operation of protective relay 100A)
A series of operations of the protective relay from a state in which no abnormality has occurred in the power system (hereinafter referred to as a steady state) to a state in which the abnormality is removed and the state in which the abnormality is returned to the steady state will be described with reference to FIG. .. FIG. 5 is a diagram showing a display example of the operation indicator 110A and the time indicator 120A in the operation of the series of protective relays.

First, a case where the return operation of the operation display 110A is performed correctly will be described. In the steady state, as shown in FIG. 5A, the operation display of the operation display 110A is canceled, and the time display 120A is in the reset state.

When an abnormality occurs in the power system, the arithmetic unit detects the abnormality and outputs a first operation signal. The operation display 110A receives the first operation signal and displays the operation. Further, the time display 120A starts displaying the elapsed time since the calculation unit outputs the first operation signal. When the maintenance / operator confirms that the protective relay has output an operation command with a remote monitoring device or the like, the maintenance / operator goes to the place where the protective relay is installed and checks various displays of the protective relay. FIG. 5B shows an example of display of the operation indicator 110A and the time indicator 120A when the maintenance / operator confirms various displays of the protective relay. As shown in FIG. 5B, the operation display 110A indicates the operation, and the time display 120A indicates that 35 minutes have passed since the calculation unit outputs the first operation signal at “00:35”. Is displayed. From these displays, the maintenance / operator can see that the arithmetic unit of the protective relay output the first operation signal 35 minutes ago.

After that, when the maintenance / operator confirms that the abnormality of the power system has been removed and returned to the steady state, the maintenance / operator pushes up the return button to cancel the display of the operation indicator 110A and the time indicator 120A ( Reset. A display example of the operation display 110A and the time display 120A at this time is shown in FIG. 5 (c). As shown in FIG. 5C, the operation display of the operation display 110A is canceled and the display of the time display 120A is reset. That is, the display returns to the same as in FIG. 5 (a).

Subsequently, the operation of the protective relay when the maintenance / operator forgets to return the operation indicator 110A will be described. In the steady state, as shown in FIG. 5A as described above, the operation display of the operation display 110A is canceled and the time display 120A is in the reset state.

When an abnormality occurs in the power system, the operation display 110A receives the first operation signal and displays the operation in the same manner as described above, and the time display 120A after the calculation unit outputs the first operation signal. Start displaying the elapsed time. When the maintenance / operator confirms various displays of the protective relay, the operation display 110A is displayed as shown in FIG. 5B, and the time display 120A has the first operation signal of the calculation unit. Is displayed, which indicates that 35 minutes have passed since the output of.

After that, the maintenance / operator confirmed that the abnormality of the power system was removed and returned to the steady state, but if the return operation with the return button was forgotten, the operation indicator 110A holds the operation display and the time indicator. 120A continues to display the elapsed time.

When a further time elapses after the maintenance / operator forgets the return operation and the maximum value of the time that can be displayed by the time indicator 120A is exceeded, the display of the time indicator 120A is reset. Display examples of the operation display 110A and time display 120A when the maintenance / operator confirms various displays of the protective relay, for example, by periodic inspection once a month after the display of the time display 120A is reset. It is shown in FIG. 5 (d). As shown in FIG. 5D, the operation display 110A is operating, but the time display 120A is reset. From these displays, the maintenance / operator can see that the first operation signal is output before the maximum value of the time that the time display 120A can display (for example, 2 hours).

(effect)
As described above, in the protective relay 100A shown in the present embodiment, since the time display 120A for displaying the information regarding the time when the calculation unit 104 outputs the first operation signal is provided, the first It is possible to determine whether the correct operation display is due to the output of the operation signal of or the wrong operation display due to forgetting the return operation. Conventional protective relays are provided only with an operation indicator that indicates the presence or absence of an operation display. On the other hand, in the protective relay 100A of this embodiment, in addition to the conventional operation indicator 110A, a time indicator 120A for displaying the elapsed time since the first operation signal is output is provided. As a result, the maintenance / operator can know when the first operation signal is output. Normally, the maintenance / operator confirms various displays of the protective relay within 2 hours at the latest after an abnormality occurs in the power system (after the arithmetic unit 104 outputs the first operation signal). Therefore, if the display of the time display 120A is confirmed and the first operation signal is output earlier than the above time, it is a correct operation display and the first operation signal is output before the above time. If it is, it can be seen that the operation display is incorrect due to forgetting the return operation. That is, by providing the time display 120A, it is possible to determine whether the correct operation display is due to the output of the first operation signal or the erroneous operation display due to forgetting the return operation.

Further, in the case of the magnetic reversal type operation display 110A, the operation display is held by the residual magnetism of the iron core provided in the operation display 110A. Therefore, if the magnetic pole of the iron core changes due to electromagnetic noise or the like, the display board may be inverted even though the operation command is not output, and an erroneous operation display may be performed. In the protective relay 100A of this embodiment, the time display 120A remains reset unless the calculation unit 104 outputs the first operation signal, so that the operation display 110A displays an erroneous operation due to electromagnetic noise. Even in this case, it is possible to determine whether the correct operation display or the incorrect operation display due to the output of the first operation signal is the same as described above.

(Modification example)
The time display 120B of the protective relay 100B of the modified example of this embodiment displays the time when the calculation unit outputs the first operation signal. In the time display 120A of the first embodiment described above, an example of displaying the elapsed time since the arithmetic unit outputs the first operation signal is shown, but in the time display 120B of the modification of this embodiment, the time display 120B is shown. , The time when the calculation unit outputs the first operation signal is displayed as information regarding the time when the first operation signal is output. As shown in FIG. 6, the time display 120B displays the time when the calculation unit outputs the first operation signal as a date and time, and displays the date in the upper row and the time in the lower row. As shown in FIG. 6, when the calculation unit outputs the first operation signal at 1:05 pm on April 25, the time display 120B displays "04/25" in the upper row and "13:" in the lower row. 05 "is displayed.

In this way, even when the time display 120B displays the time when the first operation signal is output, the time when the first operation signal is output can be known as in the case of the protective relay 100A of the first embodiment. It has the same effect as that of Form 1.

Further, in the protective relay 100B of the modified example of this embodiment, the time display 120B displays the time when the calculation unit 104 outputs the first operation signal, so when the first operation signal is output. Regardless of this, the time when the first operation signal is output can be confirmed more specifically. In the time indicator 120A of the first embodiment described above, when a further time elapses after the maintenance / operator forgets the reset operation and the maximum value of the time that the time indicator 120A can display is exceeded, the time indicator 120A is concerned. Since the display of is reset, it can be confirmed that the first operation signal is output before the maximum value, but the specific output time cannot be confirmed. However, since the time display 120B of the modified example of this embodiment displays the time when the first operation signal is output, the first operation signal is displayed regardless of when the first operation signal is output. The output time can be confirmed more concretely.

Other configurations of the protective relay 100B of this embodiment are the same as those of the protective relay 100A of the first embodiment. Therefore, in the protective relay 100B, the description other than the matter related to the time indicator 120B displaying the time when the first operation signal is output is as described in the protective relay 100A of the first embodiment.

(Embodiment 2)
The schematic configuration of the protective relay 100C of the second embodiment will be described with reference to FIG. In FIG. 7, the same reference numerals as those in FIG. 1 indicate the same or corresponding portions. In the protective relay 100C of this embodiment, a capacitor is further provided as a power supply unit 140 for supplying power to the time display 120C with respect to the protective relay 100A of the first embodiment.

The protective relay 100C obtains the power of the control power supply of the protective relay 100C from the secondary side of a transformer (not shown). That is, the protective relay 100C obtains the power of the control power source from the power system. Therefore, when the circuit breaker operates and the protective relay 100C is disconnected from the power system, the protective relay 100C loses the control power supply.

Further, the protective relay 100C has a capacitor as a power supply unit 140 for supplying electric power to the time display 120C. The power supply unit 140 stores electrical energy by the control power supply of the protective relay 100C when the power system is in a steady state. When an abnormality occurs in the power system and the circuit breaker operates and the protective relay 100C is disconnected from the power system, the protective relay 100C loses the control power supply, but the power supply unit 140 uses the electric energy stored in the capacitor. It is supplied to the time display 120C. At this time, in order to control the time for supplying the electric energy stored in the capacitor to the time display 120C (the discharge time of the capacitor), an electric resistance or the like may be provided between the capacitor and the time display 120C. According to the above description, even when the control power supply is lost, the time display 120C is after the arithmetic unit outputs the first operation signal by the electric energy supplied from the capacitor which is the power supply unit 140. Continue to display the elapsed time.

Even in the protective relay 100C shown in the present embodiment configured in this way, since the time display 120C for displaying the information regarding the time when the calculation unit 104 outputs the first operation signal is provided, the first operation unit 104 is provided. It is possible to determine whether the correct operation display is due to the output of the operation signal of or the wrong operation display due to forgetting the return operation. Further, the protective relay 100C of this embodiment is further provided with a capacitor which is a power supply unit 140 for supplying electric energy to the time display 120C. As a result, even if an abnormality occurs in the power system and the control power supply of the protective relay 100C is lost, the time indicator 120C has the elapsed time since the arithmetic unit 140 outputs the first operation signal. Can be displayed. In other words, even with a protective relay 100C of the type that obtains the power supply for control from the power system, whether it is a correct operation display due to the output of the first operation signal or an erroneous operation display due to forgetting the return operation. It can be determined.

Other configurations of the protective relay 100C of this embodiment are the same as those of the protective relay 100A of the first embodiment. Therefore, the description other than the matter relating to the provision of the power supply unit 140 for supplying electric energy to the time display 120C in the protective relay 100C is as described in the protective relay 100A of the first embodiment.

(Embodiment 3)
The schematic configuration of the protective relay 100D according to the third embodiment will be described with reference to FIG. In FIG. 8, the same reference numerals as those in FIG. 1 indicate the same or corresponding portions. In the protective relay 100D of this embodiment, the time display 120D displays the elapsed time from the output of the second operation signal.

The protective relay 100D is composed of an input unit 102, a calculation unit 104, an output unit 106, an operation display 110D and a time display 120D, and the operation display 110D receives a second operation signal output by the output unit 106. Display the operation. The time display 120D displays the elapsed time since the output unit 106 outputs the second operation signal.

Even in the protective relay 100D shown in the present embodiment configured in this way, since the time indicator 120D for displaying the information regarding the time when the output unit 106 outputs the second operation signal is provided, the second operation signal is provided. It is possible to determine whether the correct operation display is due to the output of the operation signal of the above, or the incorrect operation display is due to forgetting the return operation. Further, in the protective relay 100D of the present embodiment, since the time display 120D displays the elapsed time from the output of the second operation signal, the reliability of the display of the time display 120D can be improved. For example, when a disconnection occurs between the calculation unit 104 and the output unit 106 and the calculation unit 104 outputs the first operation signal, but the output unit 106 cannot receive the first operation signal. Since the output unit 106 does not output the second operation signal, the circuit breaker does not operate as a result. Further, since the output unit 106 does not output the second operation signal, the operation display 110D does not display the operation, and the time display 120D does not display the elapsed time. That is, since the time display 120D displays only when the output unit 106 outputs the second operation signal, the reliability of the display of the time display 120D can be improved.

Other configurations of the protective relay 100D of this embodiment are the same as those of the protective relay 100A of the first embodiment. Therefore, the description other than the matter relating to the provision of the time display 120D for displaying the elapsed time since the output unit 106 outputs the second operation signal is as described in the protective relay 100A of the first embodiment. is there.

(Embodiment 4)
The schematic configuration of the protective relay 100E according to the fourth embodiment will be described with reference to FIG. In FIG. 9, the same reference numerals as those in FIG. 1 indicate the same or corresponding portions. In the protective relay 100E of this embodiment, the time display 120E displays the elapsed time since both the first operation signal and the second operation signal are output.

The protective relay 100E is composed of an input unit 102, a calculation unit 104, an output unit 106, an operation display 110E and a time display 120E, and the operation display 110E is a first operation signal and output unit output by the calculation unit 104. The operation display is performed only when both signals of the second operation signal output by 106 are output. Further, the time display 120E displays the elapsed time from the output of both the first operation signal output by the calculation unit 104 and the second operation signal output by the output unit 106. That is, the time display 120E does not start displaying the elapsed time only when the calculation unit 104 outputs the first operation signal. Further, even when the output unit 106 only outputs the second operation signal, the display of the elapsed time is not started.

Even in the protective relay 100E shown in the present embodiment configured in this way, both signals of the first operation signal output by the arithmetic unit 104 and the second operation signal output by the output unit 106 are output. Since the time indicator 120E for displaying the information about the set time is provided, the correct operation display by outputting the first operation signal and the second operation signal, or the incorrect operation display by forgetting the return operation. Can be determined. Further, in the protective relay 100E of the present embodiment, since the time display 120E displays the elapsed time after both the first operation signal and the second operation signal are output, the time display 120E is displayed. The reliability of the The output unit 106 is usually composed of a transistor or the like, and the transistor may malfunction due to aged deterioration. That is, the output unit 106 may output the second operation signal even though no abnormality such as an accident has occurred in the power system. In this case, since the second operation signal is output but the first operation signal is not output, the operation display 110E does not display the operation, and the time display 120E does not display the elapsed time. Therefore, since the time display 120E displays the elapsed time only when both the first operation signal and the second operation signal are output, the reliability of the display of the time display 120E is further improved. Can be done.

(Other embodiments)
The protective relay according to the present invention is not limited to the above-described embodiment and can be changed within the scope of the gist thereof. For example, the power supply unit shown in the above-described embodiment has been described with a capacitor, but the present invention is not limited to this, and a lithium ion battery or the like may be used. In addition, the configurations of the above-described embodiments may be combined as appropriate.

100A-100E protective relay, 104 arithmetic unit, 106 output unit,
110A to 110E operation indicator, 120A to 120E time indicator, 140 power supply unit.

Claims (6)

An operation indicator that displays that an operation command to operate the circuit breaker provided in the power system has been output when the power system is abnormal, and an operation indicator.
A time indicator that displays the elapsed time since the operation command was output, and
Protective relay with. The protective relay according to claim 1, further comprising a power supply unit for supplying electric power to the time indicator. The protective relay according to claim 2 , wherein the power supply unit is a capacitor. A calculation unit that outputs a first operation signal when the power system is abnormal is further provided.
The operation display indicates that the calculation unit has output the first operation signal.
The protective relay according to claim 1, wherein the time display displays the elapsed time since the calculation unit outputs the first operation signal. When the power system is abnormal, the arithmetic unit that outputs the first operation signal and
Upon receiving the first operation signal, the circuit breaker is further provided with an output unit that outputs a second operation signal for operating the circuit breaker.
The operation display indicates that the output unit has output the second operation signal.
The protective relay according to claim 1, wherein the time indicator displays the elapsed time since the output unit outputs the second operation signal. When the power system is abnormal, the arithmetic unit that outputs the first operation signal and
Upon receiving the first operation signal, the circuit breaker is further provided with an output unit that outputs a second operation signal for operating the circuit breaker.
The operation indicator displays that both the first operation signal and the second operation signal have been output.
Wherein the time indicator, the protection relay according to claim 1 in which both of the signal before Symbol first operation signal and the second operation signal to display the elapsed time from the output.

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