JP5450215B2 - Power system monitoring control system and power system monitoring control method - Google Patents

Description

  The present invention relates to a power system monitoring control system and a power system monitoring control method for controlling a power system facility arranged in a power system.

  A plurality of power system facilities arranged in a facility in the power system, such as a substation or a power plant, is monitored and controlled by a power system monitoring control system. The power system monitoring control system includes a client device to which a control signal is input by an operator, a monitoring control server capable of communicating with the client device, and a remote monitoring control device capable of communicating with the monitoring control server via a wide area network. (Hereinafter referred to as a TC device).

  At least one TC device is arranged in each facility in the power system, and is a device for monitoring and controlling each power system facility arranged in the facility. The monitoring control server is configured to be able to transmit a control signal input to the client device to the TC device via the wide area network.

  The client device includes a monitor that allows an operator to check the state of each power system facility, and a plurality of operation switches that allow an operator to input control signals for controlling each power system facility.

  Such a power system monitoring and control system may control power system equipment capable of adjusting the process amount in order to adjust the process amount managed in the power system to a predetermined amount. In such a control process, for example, the power system equipment continues to perform a predetermined control operation while the operation switch is continuously pressed, and the control operation is completed when the pressed state is released. There is something. At this time, the operator operates (presses and releases) the operation switch while confirming the state of the power system facility and the measured value of the process amount on the monitor.

  In such control for adjusting the process amount (hereinafter referred to as adjustment control), the time during which the operator continues to press the operation switch is the time for requesting the control operation (control request operation time). The control operation is terminated when the operator stops pressing the operation switch at a predetermined timing while checking the process amount on the monitor.

  Usually, in the power system monitoring and control system as described above, a transmission delay occurs between the client device and the power system equipment to be controlled. For example, when the adjustment control as described above is performed, there is a time delay between when the operator presses the operation switch and when the TC device transmits a signal for starting the control operation to the power system facility. One of the causes of the time delay is that a control signal is transmitted via a wide area network or the like.

  This time delay (transmission delay) varies (fluctuates) depending on the state of the load acting on the TC device and the wide area network. Such fluctuations in transmission delay may reduce the accuracy of adjustment control.

  As a method for correcting such a time lag, for example, as disclosed in Patent Document 1, a storage area for recording an adjustment control target value in the TC device and until the power system facility reaches the target value. It is known that a function for executing control is provided to improve the accuracy of adjustment control by reducing the dependence on the operator's operation.

  Moreover, as disclosed in Patent Document 2, the accuracy of adjustment control is improved by eliminating the influence of transmission delay by repeating control suspension and control restart for a specified time while the operator operation continues. Things are known.

Japanese Patent Laid-Open No. 3-106294 JP-A-9-190214

  As described above, in the power system monitoring control system, transmission delays inevitably occur, and the transmission delays fluctuate according to the load conditions of the devices and networks in the system. For this reason, the control request operation time by the operator, that is, the time during which the operation switch is kept depressed, and the control signal transmission time for transmitting the control signal corresponding to the control request operation time from the TC device to the power system equipment are made equal. That can be difficult. Specifically, when the operation switch is pressed, when the TC device transmits a signal for controlling the power system facility to the power system facility according to this operation, when the operation switch is released, and when this operation is performed Accordingly, when the TC device transmits a signal for controlling the power system equipment to the power system equipment, a transmission delay occurs. If there is a difference in the amount of delay between these transmission delays, that is, fluctuation occurs, the control request operation time and the control signal transmission time may be different.

  In particular, when the operator performs adjustment control that finely adjusts a predetermined process amount, the control request operation time may be extremely short. In such a short control request operation time, if a fluctuation in transmission delay occurs, there is a possibility that a difference occurs between the operator's operation feeling and the actual control result. As described above, when the control request operation time is short, when the divergence increases, it may be difficult to perform high-precision adjustment.

  The present invention has been made to solve the above-described problems, and an object of the present invention is to control power system equipment arranged in the power system with high accuracy from a distance.

  In order to achieve the above object, a power system monitoring control system according to the present invention receives command information for controlling a plurality of power system facilities arranged in the power system, and transmits the input command information. A client device capable of receiving state information indicating a state in which the power system facility is controlled based on the command information; a monitoring control server capable of transmitting and receiving the command information and state information to and from the client device; An operation switch arranged in the client device and configured to continue transmission of the command information to the monitoring control server while being operated, and the command information and status information to the monitoring control server A gateway device capable of transmitting and receiving each other, and each of the gateway and the command information and status information via a wide area network A plurality of remote monitoring control devices configured to be capable of transmitting and receiving to / from each other, transmitting the command information to the power system equipment, and receiving the state information of the power system equipment. The operation state of the operation switch is released when the switch operation time during which the operation switch is continuously operated to make the power system equipment continue the predetermined control operation is shorter than the predetermined time. Later, the monitoring control server configured to transmit control command information including switch operation time information in which the length of the switch operation time is measured to the monitoring control server, and the monitoring control server that has received the control command information Command information and control start request information for starting a control operation based on the control command information; And the gateway device is configured to transmit to the power system facility based on the received control command information and control start request information. The control operation is configured to continue for the switch operation time.

  The power system monitoring and control method according to the present invention is a power system monitoring and control method in which a predetermined control operation is continued while operating an operation switch on power system equipment arranged in the power system. A switch operation step for operating the operation switch, an operation release step for releasing the operation state of the operation switch after the switch operation step, and a switch operation time for continuing to operate the operation switch after the switch operation step is shorter than a predetermined time When the switch operation time is determined to be shorter than the predetermined time in the operation time determination step and the operation time determination step, a time length of the switch operation time after the operation release step And a control step of continuing the control operation of the power system facility.

  ADVANTAGE OF THE INVENTION According to this invention, it becomes possible to control the electric power system installation arrange | positioned in an electric power system with high precision from a distant place.

It is a block diagram which shows the structure of the electric power system monitoring control system of 1st Embodiment which concerns on this invention. It is a flowchart when performing adjustment control of the electric power system installation of FIG. It is a time chart which shows the state of each apparatus when adjustment control is carried out with the electric power system monitoring control system of FIG. It is a time chart which shows the state of each apparatus when carrying out adjustment control with the electric power system supervisory control system of 2nd Embodiment which concerns on this invention, (a) is each when adjustment control is carried out with the control method of embodiment of FIG. In the state of the device, (b) shows the state of each device when the adjustment control is performed by the control method of the second embodiment. It is a block diagram which shows the structure of the electric power system monitoring control system of 3rd Embodiment which concerns on this invention.

  Embodiments of a power system monitoring control system according to the present invention will be described below with reference to the drawings.

[First Embodiment]
A first embodiment according to the present invention will be described with reference to FIGS. FIG. 1 is a block diagram showing the configuration of the power system monitoring control system of the present embodiment. FIG. 2 is a flowchart when adjustment control of the power system facility 60 of FIG. 1 is performed. FIG. 3 is a time chart showing the state of each device when adjustment control is performed by the power system monitoring control system of FIG.

  First, the configuration of the power system monitoring control system of this embodiment will be described with reference to FIG.

  This power system monitoring control system is for monitoring and controlling a plurality of power system equipment 60 arranged in a facility in the power system from a distance. The power system monitoring control system includes a client device 10, a monitoring control server 20 that can communicate with the client device 10, a gateway (GW) device 30 that can communicate with the monitoring control server 20, and the GW device 30. And a plurality of remote monitoring control (TC) devices 40 that can communicate with each other via a wide area network (wide area information transmission network) 50.

  The client device 10 receives command information for controlling a plurality of power system facilities 60 arranged in the power system. Further, the client device is configured to be able to transmit the input command information and to receive state information indicating a state in which the power system facility 60 is controlled based on the command information. The client device 10 includes an operation switch 12, a control method switching unit 15, a control command unit 13, a control designated time command unit 16, an equipment state display unit 14, and a monitor 11.

  The operation switch 12 is operated by an operator, and is a switch for performing a control operation of the power system facility 60 to be controlled. For example, when the operation switch 12 is pressed, the power system facility 60 is configured to continue a predetermined control operation.

  The control method switching unit 15 selects one of the control command unit 13 and the control designated time command unit 16 as the control information transmitted from the operation switch 12 based on the time during which the control method is continuously pressed, and selects the control information. Configured to send. Selection criteria and the like will be described later.

  The control command unit 13 includes control information including control start command information generated when the operator presses the operation switch 12 and control end command information generated when the pressed state of the operation switch 12 is released. Is received from the operation switch 12 via the control method switching unit 15 and the control information is transmitted to the monitoring control server 20.

  The control designation time command unit 16 includes time information including a time when the operation switch 12 is continuously pressed, that is, a time when the operator requests the power system facility 60 to be controlled to continue the control operation (control request operation time). Is received from the operation switch 12 via the control method switching unit 15 and the information is transmitted to the monitoring control server 20.

  The equipment status display unit 14 receives status information of the power system equipment 60 being controlled from the monitoring control server 20 via the wide area information transmission network 50, the GW device 30 and the TC device 40, and receives the status information. Is converted to displayable information. The monitor 11 is a device that allows the operator to visually confirm the state information converted to be displayable by the equipment state display unit 14.

  The monitoring control server 20 is configured to be able to transmit / receive command information, status information, and the like to / from the client device 10, and includes a control start request notification unit 21, a control end request notification unit 23, and a control designated time start notification unit 24. And an equipment state notification unit 22.

  The control start request notification unit 21 receives control start command information including starting control from the control command unit 13 of the client device 10, and transmits this control start command information to the GW device 30. The control end request notification unit 23 receives control end command information including that the control is to be ended from the control command unit 13 of the client device 10, and transmits this control end command information to the GW device 30. The control designated time start notifying unit 24 receives time information from the control designated time command unit 16 of the client device 10 and transmits this time information to the GW device 30.

  The equipment state notification unit 22 receives the state information of the power system equipment 60 being controlled from the TC device 40 via the wide area information transmission network 50 and the GW device 30 and receives the state information of the client device 10. It transmits to the equipment state display unit 14.

  The GW apparatus 30 includes an adjustment control information transmission unit 31, an adjustment control designated time information transmission unit 33, and a facility information transmission unit 32.

  The adjustment control information transmission unit 31 receives the control start command information and the control end command information transmitted from the control start request notification unit 21 and the control end request notification unit 23 of the monitoring control server 20, respectively. Based on this, the power system facility 60 is controlled. Information related to the control at this time is transmitted from the adjustment control information transmission unit 31 to the power system facility 60 to be controlled via the wide area information transmission network 50 and the TC device 40. Thereby, the power system facility 60 is controlled.

  The adjustment control designated time information transmitting unit 33 receives the time information transmitted from the control designated time start notifying unit 24 of the monitoring control server 20, and controls the power system facility 60 based on the time information. Information relating to the control at this time is transmitted from the adjustment control designation time information transmission unit 33 to the power system facility 60 to be controlled via the wide area information transmission network 50 and the TC device 40. Thereby, the power system facility 60 is controlled.

  The facility information transmission unit 32 receives the state information of the power system facility 60 to be controlled from the TC device 40 via the wide area information transmission network 50, and the state information is transmitted to the facility state notification unit of the monitoring control server 20. To 22.

  Each of the plurality of TC devices 40 can receive the information related to the control described above from each part of the GW device 30 via the wide area information transmission network 50 and can transmit the information to the power system facility 60. Each TC device 40 can receive state information indicating the state of the power system facility 60 and is configured to be able to transmit this state information to the GW device 30.

  Each of these TC devices 40 includes an operation information transmission unit 41 and an equipment state monitoring unit 42.

  The operation information transmission unit 41 receives information for controlling the power system facility 60 based on the control start command information from the adjustment control information transmission unit 31 of the GW apparatus 30 via the wide area information transmission network 50, and It has a function to transmit to the power system facility 60. The power system facility 60 is configured to start the control operation based on this information when the information is received.

  Further, the operation information transmission unit 41 receives information for controlling the power system facility 60 based on the control end command information from the adjustment control information transmission unit 31 of the GW apparatus 30 via the wide area information transmission network 50. And has a function of transmitting to the power system facility 60. When the information is received, the power system facility 60 is configured to end the control operation based on this information.

  Further, the operation information transmission unit 41 receives information for controlling the power system facility 60 based on the time information from the adjustment control designation time information transmission unit 33 of the GW device 30 and transmits the information to the power system facility 60. It has the function to do. When the power system facility 60 receives the information, the time of the control operation is controlled based on the information.

  Each of the client device 10, the monitoring control server 20, and the GW device 30 according to the present embodiment is installed at a location close to each other. In the example of FIG. 1, these are arranged in the same building (control station). Each TC device 40 is arranged at a location far from the control station. The control center and each TC device 40 can communicate with each other via the wide area information transmission network 50.

  The wide-area information transmission network 50 is an independent network dedicated to the power system that is configured to be able to communicate with each other in the power system and has a dedicated line.

  Next, a method for controlling the power system facility 60 with the power system monitoring control system of the present embodiment will be described with reference to FIGS. 2 and 3.

  As shown in FIG. 2, first, the operation switch 12 is pressed by the operator to cause the power system facility 60 to perform a predetermined control operation (step S10). When pressed, the operation switch 12 transmits control operation start command information to the control method switching unit 15.

  Upon receiving the control operation start command signal, the control method switching unit 15 sets the control request operation time (T2 in FIG. 3) to zero (step S11), that is, initializes and starts updating (counting up) (step S12). ). When counting up, it is determined whether or not the counted time length has exceeded a predetermined time (minutely defined time, T1 in FIG. 3) (step S13).

  Here, the minute definition time T1 is a unique time possessed by each of the plurality of power system facilities 60 to be controlled, and is a relatively short time of several seconds or less. The adjustment control of the present embodiment is a time such as a threshold at which the control method is determined by whether or not the control request operation time T2 exceeds the minute definition time T1.

  When it is determined that the control request operation time T2 has exceeded the minute definition time T1, the control method switching unit 15 sends control operation start command information to the control command unit 13. The control command unit 13 that has received the control operation start command information transmits the control operation start command information to the control start request notification unit 21 of the monitoring control server 20.

  The control start request notifying unit 21 that has received the information sends the information to the adjustment control information transmitting unit 31 of the GW apparatus 30. The adjustment control information transmission unit 31 transmits the information to the operation information transmission unit 41 of the TC device 40 that controls the power system facility 60 to be controlled via the wide area information transmission network 50. The operation information transmission unit 41 that has received the information starts the control operation of the power system facility 60 to be controlled.

  The control method switching unit 15 determines whether the control request operation time T2 exceeds the minute definition time T1 and sends the control operation start command information to the control command unit 13, and then whether or not the pressed state of the operation switch 12 is released. Is determined (step S15). Here, when it is determined not to be released, that is, it is determined that the pressed state continues, the state when the control operation start command information is transmitted is maintained (step S17). That is, the control operation performed by the power system facility 60 to be controlled is continued.

  When it is determined that the pressed state is released, the control operation end command information is transmitted to the control end request notifying unit 23 of the monitoring control server 20 (step S16).

  The control end request notifying unit 23 transmits the received control operation end command information to the GW device 30 and is sent to the TC device 40 through the same route as described above to end the control operation of the power system facility 60.

  On the other hand, when the control method switching unit 15 is counting up the control request operation time T2, when it is determined that the counted time length is within the minute definition time T1, the operation switch is thereafter It is determined whether or not the pressed state of 12 has been released (step S14).

  When it is determined that the control request operation time T2 is within the minute definition time T1 and the pressed state is not released, the count-up is continued (step S12).

  When it is determined that the control request operation time T2 is within the minute definition time T1 and the pressed state is released, the control method switching unit 15 controls the time information of the time length of the counted control request operation time T2. The data is sent to the designated time command unit 16 (step S18).

  Thereafter, as shown in FIG. 3, the control designated time command unit 16 of the client device 10 transmits time information of the length of the control request operation time T <b> 2 to the control designated time start notifying unit 24 of the monitoring control server 20. .

  The control specified time start notifying unit 24 that has received the time information transmits the time information to the adjustment control specified time information transmitting unit 33 of the GW device 30. The adjustment control designation time information transmission unit 33 transmits information for controlling the power system facility 60 for the same time as the received control request operation time T2 via the wide area information transmission network 50 and the operation information transmission unit 41 of the TC device 40. To the power system facility 60 to be controlled. The power system facility 60 is controlled based on the information.

  As described above, by performing the adjustment control, even when the transmission delay in the power system monitoring control system fluctuates, if the control request operation time T2 is shorter than the minute definition time T1, the control request operation time T2 and It is possible to control so that the difference from the actual control operation time becomes smaller.

  Although not shown in the drawings, the control method can be used when controlling the power generation output by controlling the governor of the hydroelectric generator disposed in the hydroelectric power generation facility. This governor controls the power generation output of the hydroelectric generator by adjusting the opening degree of the guide vane provided at the water intake port to the water turbine. Further, the power system equipment 60 to be controlled in the power system monitoring control system is governed, the process amount to be adjusted and controlled is the power generation output, and the control operation is the guide vane opening / closing operation.

  Using the power system monitoring and control system of the present embodiment, the operator adjusts the opening and closing of the guide vane while confirming the change in the power generation output with the monitor 11. When finely adjusting the power generation output, the pressing time of the operation switch 12 (control request operation time T2) may be short.

  When performing such adjustment control, if there is no control method switching unit 15 as described above, control start request information is transmitted when the operation switch 12 is pressed, and the pressed state is released. In a system that transmits control end request information, the time during which the operator continues to press the operation switch 12, that is, the control request operation time T2, and the time during which the guide vane opening is actually adjusted may differ. This is due to fluctuations in transmission delay of the system.

  If the transmission delay fluctuates, a transmission delay time when the control start request information is transmitted from the operation switch 12 to the guide vane and a transmission delay time when the control end request information is transmitted from the operation switch 12 to the guide vane are: May be different. In such a case, the control request operation time T2 may differ from the time for actually adjusting the opening of the guide vane.

  On the other hand, in the power system monitoring control system of the present embodiment, when the control request operation time T2 is shorter than the minute definition time T1, the time when the operator actually keeps pressing the operation switch 12, that is, the control request. It becomes possible to control the difference between the operation time T2 and the time during which the TC device 40 controls the power system facility 60 to be controlled to be smaller. Thereby, the difference between the control request operation time T2 and the control operation time of the power system facility 60 can be reduced. Further, even when there is fluctuation in the transmission delay at this time, it is possible to perform control so that the difference between the control request operation time T2 and the actual control operation time becomes smaller.

  As can be seen from the above description, according to the present embodiment, it is possible to control the power system equipment 60 arranged in the power system from a distance with high accuracy even when fluctuations in transmission delay occur.

[Second Embodiment]
A second embodiment of the power system monitoring control system according to the present invention will be described with reference to FIGS. 1 and 4. FIG. 4 is a time chart showing a state of each device when the adjustment control is performed by the power system monitoring control system of the present embodiment. FIG. 4A is a diagram of each device when the adjustment control is performed by the control method of the first embodiment. In the state, (b) shows the state of each device when the adjustment control is performed by the control method of the present embodiment. The power system monitoring control system of this embodiment is the same as the configuration of the power system monitoring control system in FIG.

  In addition, this embodiment is a modification of 1st Embodiment, Comprising: The same code | symbol is attached | subjected to the same part or similar part as 1st Embodiment, and duplication description is abbreviate | omitted.

  In the first embodiment, when it is determined that the control request operation time T2 exceeds the minute definition time T1, the control operation start command information is sent to the control command unit 13, and the control command unit 13 It is sent to the control start request notification unit 21 of the control server 20. Hereinafter, as described above, the information is sent to the TC device 40 that controls the power system facility 60 to be controlled.

  In this control method, the control request operation time T2 exceeds the minute definition time T1, but the time length of operation (excess operation time, T3 in FIG. 4) exceeding the minute definition time T1 is extremely short. For example, even when the excess operation time T3 is shorter than the minute definition time T1, the same control is performed.

  At the end of the excess operation time T3, that is, at the end of the control request operation time T2, and when the operation switch 12 is released, the control method switching unit 15 transmits the control operation end command information to the control command unit. 13, the information is sent to the TC device 40 as described above.

  When the fluctuation of the transmission delay is small, as shown in FIG. 4B, the time for the TC device 40 to control the power system equipment 60 to be controlled is performed for substantially the same time as the excess operation time T3. In particular, when the excess operation time T3 is shorter than the minute definition time T1, the difference between the control request operation time T2 and the time during which the TC device 40 controls the power system facility 60 to perform the control operation. However, it can be large.

  On the other hand, the control command unit 13 of the client device 10 according to the present embodiment determines that the control request operation time T2 has exceeded the minute definition time T1 and further releases the pressed state of the operation switch 12. Then, the time information of the time length of the minute definition time T1 is transmitted together with the control end command information.

  That is, the control end command information created when the pressed state of the operation switch 12 is released is released at a timing delayed by the minute definition time T1 from the timing at which the pressed state is actually released. It is corrected as follows.

  The corrected control end command information (corrected control end command information) is sent to the control end notification unit of the monitoring control server 20. The TC device 40 that has received the corrected control end command information ends the control operation of the power system facility 60 based on the uncorrected control end command information, and delays it by the time length of the minute definition time T1 compared to the timing. Control is performed to end the control operation.

  Thereby, even if the excess operation time T3 is a short time, for example, shorter than the minute definition time T1, the control request operation time T2 and the TC device 40 cause the power system facility 60 to perform the control operation. Thus, it can control so that the difference with the time to control becomes smaller. Further, even when the control request operation time T2 is sufficiently longer than the minute definition time T1, the difference between the control request operation time T2 and the time during which the TC device 40 controls the power system facility 60 to perform the control operation. Can be reduced.

  As can be seen from the above description, according to the present embodiment, even when the minute definition time T1 is exceeded, the power system equipment 60 arranged in the power system can be controlled with high accuracy from a distance. .

[Third Embodiment]
A third embodiment of the power system monitoring control system according to the present invention will be described with reference to FIG. FIG. 5 is a block diagram showing the configuration of the power system monitoring control system of the present embodiment. In addition, this embodiment is a modification of 1st Embodiment, Comprising: The same code | symbol is attached | subjected to the same part or similar part as 1st Embodiment, and duplication description is abbreviate | omitted.

  The power system monitoring and control system of the present embodiment includes a maintenance server 70 and a minute definition time database (DB) provided in the monitoring control server 20 in addition to the configurations of the first and second embodiments (FIG. 1). 26.

  The minute definition time DB 26 stores information on minute definition times of the plurality of power system facilities 60. The control method switching unit 15 of the client apparatus 10 in FIG. 5 is configured to be able to communicate with the minute definition time DB 26 and extract the minute definition time corresponding to the power system facility 60 to be controlled from the minute definition time DB 26. Yes. After acquiring the minute definition time, adjustment control is performed as in the first embodiment.

  Further, the minute definition time DB 26 can communicate with the control end request notification unit 23 of the monitoring control server 20. When the control request operation time exceeds the minute definition time, the control end request notification unit 23 acquires the minute definition time corresponding to the power system facility 60 to be controlled from the minute definition time DB 26. Thereby, it can control similarly to 2nd Embodiment.

  The maintenance server 70 includes a DB maintenance unit 71 that can maintain information in the minute definition time DB 26. The DB maintenance unit 71 is configured to be able to communicate with the minute definition time DB 26 and is configured to be able to rewrite information on the minute definition time stored in the minute definition time DB 26. That is, the operator can perform the minute definition time of each power system facility 60 using the DB maintenance unit 71.

  As can be seen from the above description, according to the present embodiment, it is possible to define a minute definition time according to each of the plurality of power system facilities 60. Further, since the minute definition time defined for each power system facility 60 can be changed in accordance with a change in the situation in the power system, the control can be performed more efficiently and with high accuracy.

[Other Embodiments]
The description of the above embodiment is an example for explaining the present invention, and does not limit the invention described in the claims. Moreover, each part structure of this invention is not restricted to the said embodiment, A various deformation | transformation is possible within the technical scope as described in a claim.

  In the first to third embodiments, the client device 10, the monitoring control server 20, and the GW device 30 are shown as separate bodies, but this is not a limitation. These may be integrally formed. The TC device 40 may be configured to be communicably connected to a plurality of power system facilities 60.

DESCRIPTION OF SYMBOLS 10 ... Client apparatus, 11 ... Monitor, 12 ... Operation switch, 13 ... Control command part, 14 ... Equipment state display part, 15 ... Control method switching part, 16 ... Control designation | designated time command part, 20 ... Monitoring control server, 21 ... Control start request notification unit, 22 ... Equipment state notification unit, 23 ... Control end request notification unit, 24 ... Control specified time start notification unit, 26 ... Minute defined time database (DB), 30 ... Gateway (GW) device, 31 ... Adjustment control information transmission unit, 32 ... equipment information transmission unit, 33 ... adjustment control designation time information transmission unit, 40 ... remote monitoring control (TC) device, 41 ... operation information transmission unit, 42 ... equipment state monitoring unit, 50 ... wide area Information transmission network 60 ... Power system facility 70 ... Maintenance server 71 ... DB maintenance unit

Claims (5)

Command information for controlling a plurality of power system equipment arranged in the power system is inputted, the inputted command information can be transmitted, and the power system equipment is controlled based on the command information A client device capable of receiving status information indicating
A monitoring control server capable of transmitting and receiving the command information and status information to and from the client device;
An operation switch arranged in the client device and configured to continue transmission of the command information to the monitoring control server while being operated.
A gateway device capable of transmitting and receiving the command information and status information to and from the monitoring control server;
Each can transmit / receive the command information and status information to / from the gateway device via a wide area network, transmit the command information to the power system facility, and receive the status information of the power system facility A plurality of remote monitoring and control devices,
In a power system monitoring and control system having
The client device is
When the switch operation time during which the operation switch continues to be operated in order to allow the power system equipment to continue the predetermined control operation is shorter than the predetermined time, after the operation state of the operation switch is released, the switch operation time The control command information including the switch operation time information in which the time length is measured is configured to be transmitted to the monitoring control server,
The monitoring control server that has received the control command information,
The control command information and control start request information for starting a control operation based on the control command information are configured to be transmitted to the remote monitoring control device via the gateway device and a wide area network,
The gateway device is
Based on the received control command information and control start request information, the power system equipment is configured to continue the control operation for the switch operation time,
A power system monitoring and control system. The monitoring control server
When the switch operation time is longer than the predetermined time, control end request information for receiving operation release information from the client device after the operation state of the operation switch is released and ending the control operation And extended control command information for extending the control operation by the predetermined time, and configured to transmit to the remote monitoring control device via the gateway device and a wide area network,
The gateway device is
The power system equipment is configured to delay the end of the control operation for the predetermined time,
The power system monitoring and control system according to claim 1. The monitoring control server has a time information storage unit in which the predetermined time of each of the plurality of power system facilities is stored,
The client device is configured to be able to extract the predetermined time of the power system facility to be controlled from the time information storage unit,
The power system monitoring control system according to claim 1 or 2, wherein   The power system monitoring and control system according to claim 3, further comprising a maintenance server that can rewrite the predetermined time stored in the time information storage unit. In the power system monitoring and control method for continuing the predetermined control operation while operating the operation switch, the power system equipment arranged in the power system,
A switch operation process for operating the operation switch;
After the switch operation step, an operation release step of releasing the operation state of the operation switch,
After the switch operation step, an operation time determination step of determining whether or not a switch operation time for continuing to operate the operation switch is shorter than a predetermined time;
When it is determined in the operation time determination step that the switch operation time is shorter than the predetermined time,
After the operation release step, a control step of continuing the control operation of the power system equipment for the length of the switch operation time;
A power system monitoring and control method comprising:

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