JP3942536B2 - Isolated operation prevention system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention provides a circuit breaker opened in a distribution substation.Etc.The present invention relates to an isolated operation prevention system for preventing an isolated operation of a power generator connected to a distribution system extending from the distribution substation.
[0002]
[Prior art]
  In a normal power supply system, power is supplied from a power plant owned by an electric power company to a load device of a consumer via a transmission line (transmission system), a substation, and a distribution line (distribution system). In addition, when the consumer owns the power generation device, not only the power generated by the power generation device is used by the customer itself, but also surplus power is sent to the distribution line (reverse power flow). There is also. Here, in order to connect the power generation device to the power system, it is necessary to provide a system for preventing independent operation regardless of whether or not reverse power flow is performed. Independent operation is when the circuit breaker of a substation is opened and the distribution system extending from the substation is disconnected from the transmission systemEtc.This is a state in which local power is supplied to the load device in the distribution system by the electric power sent from the power generation device connected to the distribution system. When isolated operation is performed, even if the above distribution system is disconnected from the power plant, there is a possibility that the maintenance staff of the distribution line may get an electric shock, or the circuit breaker is closed again, and the transmission system and distribution system Because there is a problem that asynchronous charging is performed when connecting the power generator, it is necessary to take measures such as detecting an isolated operation quickly and disconnecting the power generator.
[0003]
  In order to solve the above problems, a system for detecting and preventing isolated operation has been proposed. For example, a carrier parent device is provided on the distribution substation side, a carrier device is provided on the power generation device side, and a carrier wave is always sent from the carrier parent device using the distribution line, and this is always received by the carrier device. There is a system. In this case, when the carrier wave no longer reaches the carrier device, the circuit breaker of the distribution substation is opened and it is detected that the power generator is in the single operation state (for example, Patent Literature 1).
[0004]
[Patent Document 1]
Japanese Patent Laid-Open No. 8-19183News
[0005]
[Problems to be solved by the invention]
  However, in the isolated operation prevention system as described in Patent Document 1, since the carrier wave is always transmitted to the power distribution system, adverse effects such as noise occur on other devices connected to the power distribution system. There are concerns.
[0006]
  The present invention has been made in view of the above problems, and an object thereof is to provide an isolated operation prevention system for preventing an isolated operation of a power generation device while avoiding an adverse effect on devices connected to a distribution system. There is in point to do.
[0007]
[Means for Solving the Problems]
  The characteristic configuration of the isolated operation prevention system according to the present invention for solving the above problems is as follows., ArrangementAn isolated operation prevention system for preventing isolated operation of one or a plurality of power generators connected to a distribution system extending from an electrical substation,In the distribution substationMonitoring means for monitoring the operating state of the substation circuit breaker, and when the monitoring means determines that the substation circuit breaker is in an open stateOr when any one or more of information on a serious failure of the distribution substation, a ground fault in the distribution system, a planned power failure, and a change in the configuration of the distribution system is inputA disconnection command signal for disconnecting or shutting down the power generation device.Downstream of the transformer circuit breakerInject into the distribution systemFirstWhen the signal injection unit, the signal reception unit that receives the disconnection command signal, and the signal reception unit receives the disconnection command signal, the power generation device is disconnected from the distribution system or stopped. And a control means.
[0008]
  When the circuit breaker for a substation is opened due to the above characteristic configuration,Or, when any one or more of information on a serious failure of the distribution substation, a ground fault in the distribution system, a planned power failure, and a change in configuration of the distribution system is input,The substation circuit breaker was openedSuchA disconnection command signal that representsDownstream of the transformer circuit breakerInjecting into the distribution system and receiving the disconnection command signal as a trigger, the control means disconnects the generator from the distribution system or stops the operation of the generator to reliably prevent the generator from operating independently can do. Also, when the substation circuit breaker is openedOr when any one or more of information on a serious failure of the distribution substation, a ground fault in the distribution system, a planned power failure, and a change in the configuration of the distribution system is inputOnlyDownstream of the transformer circuit breakerSince the disconnection command signal is injected into the power distribution system, it is possible to eliminate adverse effects such as noise on electric devices connected to the power distribution system.
[0009]
  Another characteristic configuration of the isolated operation prevention system according to the present invention for solving the above-described problem is that the signal injection means disconnects a specific power generation device from the one or more power generation devices or stops operation. When the signal receiving unit receives the individual disconnection command signal, the control unit is configured to distribute only the specific power generation device according to the individual disconnection command signal. The point is to disconnect from the system or to stop the operation.
[0010]
  By using the individual disconnection command signal that can specify the power generator to be disconnected or stopped by the above characteristic configuration, only a specific power generator among a plurality of power generators is selectively disconnected or stopped. Can do. As its application,For example,Even if the substation circuit breaker is opened, depending on the case, it is possible to continue the operation of a specific power generation device and to continue supplying power to the distribution system by limiting the area.
[0011]
  Still another characteristic configuration of the isolated operation prevention system according to the present invention for solving the above-described problem further includes bypass means capable of transmitting the disconnection command signal by bypassing an insulating portion provided on the distribution system. In the point.
[0012]
  With the above characteristic configuration, the disconnection command signal is transmitted on the power distribution system by bypassing an insulating part constituted by a transformer or a switch provided on the power distribution system. Transmission of the signal is not stopped, and it is reliably received by the signal receiving means. As a result, it is possible to reliably prevent a single operation of the power generator.
[0013]
  Still another characteristic configuration of the isolated operation prevention system according to the present invention for solving the above-described problem is that the bypass means is transmitted from the wireless transmission means, the wireless transmission means capable of wirelessly transmitting the disconnection command signal, and the wireless transmission means. And a signal receiving means capable of receiving the disconnection command signal.
[0014]
  According to the above characteristic configuration, the disconnection command signal is transmitted to the signal receiving means by bypassing an insulating portion configured by a transformer, a switch, or the like provided on the distribution system by wireless communication. Therefore, the transmission of the disconnection command signal is not stopped and is reliably received by the signal receiving means. As a result, it is possible to reliably prevent a single operation of the power generator.
[0015]
  Still another characteristic configuration of the isolated operation prevention system according to the present invention for solving the above-described problem is that in a switch provided on the power distribution system, a switch monitoring means for monitoring an operating state of the switch, When the switch monitoring means determines that the switch is openOr when any one or more of information on a serious failure of the distribution substation, a ground fault in the distribution system, a planned power failure, and a change in the configuration of the distribution system is inputAnd a second signal injection means for injecting the same signal as the disconnection command signal into the distribution system downstream of the switch.
[0016]
  When a switch is provided on the power distribution system due to the above characteristic configuration, and the switch is openedOr when any one or more of information on a serious failure of the distribution substation, a ground fault in the distribution system, a planned power failure, and a change in the configuration of the distribution system is inputThat the switch was openedSuchThe same signal as the disconnection command signal indicating the above is injected into the distribution system downstream of the switch, and the control means disconnects the generator from the distribution system or stops the operation of the generator using the signal as a trigger Can be made. As a result, when either a substation breaker or switch is openedOr when any one or more of information on a serious failure of the distribution substation, a ground fault in the distribution system, a planned power failure, and a change in the configuration of the distribution system is inputEven so, it is possible to reliably prevent a single operation of the power generator. In particular, if the switch is opened instead of disconnecting all the power generation devices connected to the distribution system downstream of the distribution substation at once,Or a major fault in the distribution substation, If any one or more of ground faults, planned power outages, and information on the configuration change of the distribution system is input,This is preferable in that it is possible to take local isolated operation prevention measures such as disconnecting only the power generation apparatus linked to the power distribution system downstream of the switch or stopping the operation of the power generation apparatus.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
  In the isolated operation prevention system according to the present invention, when the circuit breaker of the substation (distribution substation) is opened in the power supply system from the power plant to the customerOr when any one or more of information on a serious failure of the distribution substation, a ground fault in the distribution system, a planned power failure, and a change in the configuration of the distribution system is inputIn addition, this is a system for preventing the power generator provided in the power distribution system downstream from the substation from operating independently. Below, the structure of the electric power supply system from a power station to a consumer is demonstrated with reference to FIG.
[0018]
  Illustrated in FIG. 1 is a schematic diagram of a power supply system from a power plant to a consumer. First, the electric power sent from the power plant 1 to the power transmission system 2 is adjusted in voltage at the substation (distribution substation) 3 and then sent to the power distribution system 4 to be supplied to the consumers 5 and 6. . The power supply system from the power plant 1 to the consumers 5 and 6 may be provided with a plurality of substations for converting the voltage over a plurality of stages. FIG. 1 shows a distribution system among these substations. Only the distribution substation that performs voltage adjustment to supply power to 4 is shown.
[0019]
  The substation 3 includes a transformer 7 for adjusting the voltage and a substation circuit breaker 8a that is a switch for stopping the supply of power to the distribution system 4. Usually, the voltage is adjusted to 6600 volts. Power to the distribution system 4. Further, when an accident occurs in the distribution system 4, the substation circuit breaker 8 a is opened, and the connection between the distribution system 4 and the transmission system 2 on the downstream side of the substation 3 is released.
[0020]
  Consumers 5 and 6 are connected to the distribution system 4, and some of them have a power generation device 14 like the consumer 6. Accordingly, the consumer 6 receives power supplied from the distribution system 4 via the consumer circuit breaker 8b and consumes power in the load device 13 while generating power in the power generator 14. Note that both the load device 13 and the power generation device 14 are provided with a load device circuit breaker 8c and a power generation device circuit breaker 8d, respectively. By opening these circuit breakers, the load device 13 and the power generation device 14 are connected to the power distribution system. It is possible to disconnect from 4. In addition, it is also possible to stop the operation of the power generation device 14 by giving a stop command signal to the power generation device 14, and as a result, it is possible to prevent the power generation device 14 from operating alone.
[0021]
<First Embodiment>
  Next, the isolated operation prevention according to the first embodiment of the present invention that can prevent the isolated operation of the power generator 14 when the substation circuit breaker 8a is opened due to an accident occurring in the distribution system 4 or the like. The system configuration will be described with reference to FIG.
  The isolated operation prevention system illustrated in FIG. 1 has a monitoring unit 9 that monitors the operating state of the substation circuit breaker 8a, and the monitoring unit 9 determines that the substation circuit breaker 8a is in an open state.On the downstream side of the transformer circuit breaker 8aSignal injection means 10 for injecting a disconnection command signal into the power distribution system 4(First signal injection means 10, the same applies hereinafter)When the signal receiving unit 11 receives the disconnection command signal, and when the signal receiving unit 11 receives the disconnection command signal, the power generation circuit breaker 8d is opened to remove the power generation device 14 from the distribution system 4. And control means 12 for disconnecting. Although not shown in FIGS. 1 to 4, when the signal receiving unit 11 receives the disconnection command signal, the control unit 12 gives a stop command signal to the power generation device 14, so that the power generation device 14 It is also possible to stop the operation, and as a result, to prevent the power generator 14 from operating alone.
[0022]
  Here, when the substation circuit breaker 8a is opened, the monitoring means 9 for monitoring the operating state of the substation circuit breaker 8a detects the open state of the substation circuit breaker 8a and notifies the signal injection means 10 to the substation circuit breaker. Inform that the container 8a has been opened (shut off). Next, the signal injection means 10 generates a pulse signal (disconnection command signal) having a predetermined frequency that can be distinguished from the commercial power supply frequency,On the downstream side of the transformer circuit breaker 8aInject into distribution system 4. It should be noted that, after the monitoring means 9 is informed that the substation circuit breaker 8a has been opened, the signal injection means 10 does not immediately generate a disconnection command signal and inject it into the distribution system 4, but a predetermined time has elapsed. Then, the signal injection means 10 may generate the disconnection command signal and inject it into the distribution system 4.
[0023]
  Next, the disconnection command signal injected into the power distribution system 4 is received by the signal receiving means 11 of the consumer 6. When the signal receiving means 11 receives the disconnection command signal, the control means 12 opens the power generating circuit breaker 8d to disconnect the power generating apparatus 14 from the distribution system 4, or to the power generating apparatus 14. A stop command signal is given to stop the operation of the power generator 14. As a result, single operation of the power generation device 14 is prevented.
[0024]
Second Embodiment
  Next, the configuration of the isolated operation prevention system according to the second embodiment of the present invention will be described with reference to FIG.
  As illustrated in FIG. 2, the distribution system 4 is provided with a transformer 16 such as a section switch 15 or a pole transformer. The distribution system 4 on the upstream side of the transformer 16 is insulated from the distribution system on the downstream side, and the disconnection command signal injected into the distribution system 4 by the signal injection means 10 is greatly attenuated and downstream of the transformer 16. It will be transmitted to the side. Even when the section switch 15 is opened, the power distribution system 4 on the upstream side of the section switch 15 and the power distribution system 4 on the downstream side are insulated, so that the signal injection means 10 injects the power into the power distribution system 4. The released command signal may not be transmitted to the downstream side of the segment switch 15.
[0025]
  Therefore, in the isolated operation prevention system illustrated in FIG. 2, when the monitoring unit 9 that monitors the operating state of the substation circuit breaker 8a and the monitoring unit 9 determines that the substation circuit breaker 8a is in an open state,On the downstream side of the transformer circuit breaker 8aA signal injection means 10 for injecting a disconnection command signal into the distribution system 4, a signal receiving means 11 for receiving the disconnection command signal, and a circuit breaker for a power generator when the signal receiving means 11 receives the disconnection command signal In addition to the control means 12 that performs the opening operation of 8d to disconnect the power generation device 14 from the distribution system 4 or stops the operation of the power generation device 14, an insulating portion (transformer 16 or The bypass means 17 is configured to be capable of transmitting a disconnection command signal by bypassing a section switch 15 and the like that form a temporary insulation state. As a result, since the disconnection command signal is reliably transmitted to the customer 6 and received by the signal receiving means 11, the isolated operation of the power generation apparatus 14 can be reliably prevented. Here, examples of the bypass means 17 include a band-pass filter that can selectively pass the frequency of the disconnection command signal.
[0026]
<Third Embodiment>
  Next, the configuration of the isolated operation prevention system according to the third embodiment of the present invention will be described with reference to FIG.
[0027]
  In the isolated operation prevention system illustrated in FIG. 3, the bypass unit can receive the disconnection command signal and wirelessly transmit it, and can receive the disconnection command signal transmitted from the wireless transmission unit 18. It differs from the isolated operation prevention system illustrated in FIG. 2 in that it is constructed by a wireless transmission / reception system including the signal receiving means 19. In the isolated operation prevention system illustrated in FIG. 3, bypass means for bypassing the transformer 16 is constructed by the wireless transmission / reception system (wireless transmission means 18 and signal reception means 19).
[0028]
  For example, the disconnection command signal is generated by the signal injection means 10 of the distribution substation 3.Substation circuit breaker 8 on the downstream side of aWhen injected into the distribution system 4 and transmitted, the wireless transmission means 18 acquires the disconnection command signal upstream of the transformer 16 (distribution substation 3 side) and wirelessly transmits it to the customer 20. When the signal receiving means 19 receives the disconnection command signal, the control means 12 opens the power generating circuit breaker 8d to disconnect the power generating apparatus 14 from the distribution system 4, or to the power generating apparatus 14. A stop command signal is given to stop the operation of the power generator 14. As a result, single operation of the power generation device 14 is prevented.
[0029]
  As a more specific example, the transformer 16 is a pole transformer on the power distribution system 4. Since the pole transformer is often installed near each customer, the disconnection command signal is transmitted from the wireless transmitter 18 provided in the pole transformer to the signal receiver 19 provided in the consumer 20. There is an advantage that it may be performed by short-range wireless transmission.
[0030]
<Fourth embodiment>
  Next, the configuration of the isolated operation prevention system according to the fourth embodiment of the present invention will be described with reference to FIG.
[0031]
  In the isolated operation prevention system illustrated in FIG. 4, in the division switch 15 provided in the power distribution system 4, the switch monitoring means 21 for monitoring the operation state of the division switch 15, and the division switch 15 in the open state. If the switch monitoring means 21 determines that there is a signal injection means 22 (second signal injection means) for injecting the same signal as the disconnection command signal into the distribution system 4 on the downstream side of the division switch 15. It differs from the isolated operation prevention system illustrated in FIG. 2 in that it is constructed.
[0032]
  For example, in the isolated operation prevention system illustrated in FIG. 4, the segment switch 15 is provided with a switch monitoring unit 21 and a signal injection unit 22, and the operation status of the segment switch 15 is monitored by the switch monitoring unit 21. When the switch monitoring means 21 determines that the segment switch 15 is in the open state, the same signal as the disconnection command signal is injected into the power distribution system 4 on the downstream side of the segment switch 15. This is done by the signal injection means 22. And the signal inject | poured by the signal injection | pouring means 22 is received by the signal receiving means 11, and opening operation | movement of the circuit breaker 8d for generators is performed by the control means 12. FIG. Accordingly, there is provided an isolated operation prevention system that can reliably prevent the isolated operation of the power generator 14 regardless of whether the substation circuit breaker 8a or the section switch 15 is opened.
[0033]
  For example, in order to prevent isolated operation when the substation circuit breaker 8a is opened, the monitoring means 9 for monitoring the operating state of the substation circuit breaker 8a, and the monitoring means when the substation circuit breaker 8a is in the open state 9 is provided with signal injection means 10 for injecting a disconnection command signal into the distribution system 4 when determined by 9. However, due to the construction of the distribution system 4 and the like, the section switch 15 may be opened even though the substation circuit breaker 8a is not opened. The power generation device 14 provided on the downstream side is in a single operation state. However, as described above, by additionally providing the switch monitoring means 21 and the signal injection means 22, it is possible to reliably prevent an isolated operation state that may occur when the section switch 15 is opened. Can do.
[0034]
  In the above embodiment, the signal injection means 10 (or signal injection means 22) generates a disconnection command signal triggered by the monitoring means 9 determining that the substation circuit breaker 8a is in the open state, and the distribution system 4 In the case of injection of the disconnection command signal, the signal injection means 10MoreIt is configured to obtain information other than information related to the operation state of the substation circuit breaker 8a and determine whether to generate a disconnection command signal based on the information.To do.
[0035]
  Illustrated in FIG. 5 is a functional block diagram of the signal injection means 10, and includes an AND block 23, an OR block 24, and an injection signal generator 25. The configuration of the signal injection means 22 is the same as that of the signal injection means 10, and the description thereof is omitted.
  Input terminal A for AND block 23₁~ A_nInformation is input from the AND block 23 and the input terminal O to the OR block 24.₁~ O_nInformation is input from. For example, in the case of the first to fourth embodiments described above, the input terminal O of the OR block 24₁Only the output of the monitoring means 9 is connected. When the monitoring means 9 determines that the substation circuit breaker 8a is in an open state, the signal “1 (ON)” is sent from the monitoring means 9 to the input terminal O.₁Given to. As a result, a signal “1” is output from the OR block 24, and a disconnection command signal is generated in the injection signal generation unit 25.
[0036]
  MoreIn addition, the input terminal A of the AND block 23₁~ A_nWhen information such as a major fault in a substation and a specific condition related thereto is input to the input terminal O of the OR block 24₁~ O_nInformation such as whether or not a ground fault has occurred in the distribution system 4 or information such as planned power outage or configuration change of the distribution system 4 may be input. Decide whether to generateTo do.
[0037]
  FIG. 6 is a functional block diagram of the control means 12 and includes an AND block 26, an OR block 27, and a control signal generator 28. An input terminal A 'for the AND block 26₁~ A ’_nInformation is input from the input terminal O 'to the OR block 27.₁~ O ’_nInformation is input from.
[0038]
  For example, in the case of the first to fourth embodiments described above, the input terminal O ′ of the OR block 27.₁Only the output of the signal receiving means 11 (19) is connected thereto. When the signal receiving means 11 (19) receives the disconnection command signal, the signal “1 (ON)” is input from the signal receiving means 11 (19) to the input terminal O ′.₁Given to. As a result, a signal “1” is output from the OR block 27, and a control signal for causing the control signal generation unit 28 to open the power generation circuit breaker 8 d or for stopping the operation of the power generation apparatus 14. A stop command signal is generated. In addition, the input terminal A 'of the AND block 26 is also available.₁~ A ’_nWhen the operation state signal of the power generation device 14 or the open state signal of the customer circuit breaker 8b is input to the input terminal O ′ of the OR block 27.₁~ O ’_nIn addition to the input information from the signal receiving means 11 (19), information such as the operation signal of the protection device for grid connection may be input.
[0039]
  An input terminal A ′ of the AND block 26₁Is connected to the output of the signal receiving means 11 (19) and the input terminal A '.₂When the operation state of the power generation device 14 is input on / off, the signal receiving means 11 (19) receives the disconnection command signal (input terminal A ').₁Is provided with a signal “1 (ON)” and the power generator 14 is operating (input terminal A ′).₂Control signal for causing the control signal generator 28 to open the power generating circuit breaker 8d so that the power generating apparatus 14 is disconnected from the power distribution system 4 only when the signal "1 (ON)" is given to Is generated, or a stop command signal for stopping the operation of the power generator is generated in the control signal generator 28 in order to stop the operation of the power generator 14.
[0040]
  In the first to fourth embodiments described above, the case where one customer 6 having the power generation device 14, the signal receiving unit 11, and the control unit 12 is connected to the distribution system 4 has been described. A plurality of consumers 6 having the power generation device 14, the signal receiving means 11, and the control means 12 may be connected to the power distribution system 4. In that case, the signal receiving means 11 of each consumer 6 individually receives the disconnection command signal injected by the signal injecting means 10 of the substation 3, and each control means 12 correspondingly shuts off the power generator. Individual operation of all the power generators 14 connected to the power distribution system 4 by individually disconnecting the power generator 14 from the power distribution system 4 or by stopping the operation of the power generator 14 Is prevented.
[0041]
  Further, the signal injection means 10 is connected to the power distribution system 4 by generating and injecting an individual disconnection command signal for disconnecting or stopping the operation of a specific generator among the plurality of generators. Each control means 12 can be operated so as to selectively disconnect or stop only a specific power generation device among the plurality of power generation devices. As an application, even if the substation circuit breaker 8a is opened, the operation of the specific power generation device 14 may be intentionally continued depending on circumstances, and the power supply to the distribution system 4 may be continued by limiting the area. As the individual disconnection command signal, pulse signals of various frequencies that can be distinguished from the commercial power supply frequency can be used as in the first to fourth embodiments described above, and each power generator 14 is designated individually. In order to disconnect or stop the operation, various pulse signals having different frequencies are generated in the signal injection means 10 and injected into the distribution system 4. When a band-pass filter is used as the above-described bypass unit 17, it is necessary to use a filter that can selectively pass pulse signals of various frequencies generated in the signal injection unit 10.
[0042]
  For example, the signal injection means 10 generates an individual disconnection command signal for disconnecting or stopping a specific one of the plurality of power generation devices (hereinafter referred to as “target power generation device”). In the case of injection, the control means 12 provided together with the above-described target power generation device 14 identifies that the target power generation device 14 is a target of disconnection or shutdown, and controls the above-described target power generation device 14. Disconnect from the power distribution system 4 or stop the operation of the target power generation device 14. On the other hand, the control means 12 provided together with the non-target power generation device 14 that does not correspond to the target power generation device 14 does not disconnect or stop the non-target power generation device 14.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of an isolated operation prevention system according to a first embodiment of the present invention.
FIG. 2 is a configuration diagram of an isolated operation prevention system according to a second embodiment of the present invention.
FIG. 3 is a configuration diagram of an isolated operation prevention system according to a third embodiment of the present invention.
FIG. 4 is a configuration diagram of an isolated operation prevention system according to a fourth embodiment of the present invention.
FIG. 5 is a functional block diagram of signal injection means.
FIG. 6 is a functional block diagram of control means.
[Explanation of symbols]
  1 power plant
  2 Power transmission system
  3 Substation
  4 Power distribution system
  5 consumers
  6 consumers
  7 transformers
  8a Circuit breaker for substation
  8b Circuit breaker for customer
  8c Circuit breaker for load device
  8d Circuit breaker for power generator
  9 Monitoring means
  10 Signal injection means
  11 Signal receiving means
  12 Control means
  13 Load device
  14 Power generator
  15 division switch
  16 Transformer
  17 Bypass means
  18 Wireless transmission means
  19 Signal receiving means
  20 consumers
  21 Switch monitoring means
  22 Signal injection means
  23 AND block
  24 OR block
  25 Injection signal generator
  26 AND block
  27 OR block
  28 Control signal generator

Claims (5)

A islanding prevention system for preventing islanding of one or more power generators are connected to a power distribution system that extends from the electrical distribution substation,
Monitoring means for monitoring the operating state of the circuit breaker in the distribution substation ;
Among the information on the case where it is determined by the monitoring means that the circuit breaker for the substation is in an open state , or a serious fault in the distribution substation, a ground fault in the distribution system, a planned power failure, and a change in the configuration of the distribution system of when any one or more is input, a first injecting a disconnection instruction signal for causing the power generation apparatus or is shut down to Kairetsu to the distribution system downstream of the substation breaker Signal injection means;
Signal receiving means for receiving the disconnection command signal;
An isolated operation prevention system comprising: control means for disconnecting the power generation apparatus from the distribution system or stopping operation when the signal receiving means receives the disconnection command signal. The signal injection means injects an individual disconnection command signal for disconnecting or shutting down a specific power generation device of the one or more power generation devices;
When the signal receiving unit receives the individual disconnection command signal, the control unit disconnects only the specific power generator from the distribution system or stops the operation according to the individual disconnection command signal. The isolated operation prevention system according to 1.   The isolated operation prevention system according to claim 1 or 2, further comprising bypass means capable of transmitting the disconnection command signal by bypassing an insulating portion provided on the power distribution system.   The bypass means includes a wireless transmission means capable of acquiring and transmitting the disconnection command signal and the signal receiving means capable of receiving the disconnection command signal transmitted from the wireless transmission means. The isolated operation prevention system according to claim 3, which is a wireless transmission / reception system. In the switch provided on the power distribution system, when the switch monitoring means for monitoring an operating state of the switch and the switch monitoring means determines that the switch is in an open state , or for the power distribution When any one or more of information on a major fault of a substation, a ground fault in the distribution system, a planned power failure, and a configuration change of the distribution system is input, the distribution system on the downstream side of the switch The isolated operation prevention system according to any one of claims 1 to 4, further comprising a second signal injection unit that injects the same signal as the disconnection command signal.

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