JP6286935B2 - Accident recovery support device - Google Patents

Description

  The present invention relates to an accident recovery support apparatus that performs recovery support when an accident occurs.

Conventionally, when an accident occurs in an overhead power transmission line due to a natural disaster or the like, it is required to promptly recover the accident. In particular, an accident caused by snow damage in winter may result in multiple accidents in which accidents occur simultaneously on a plurality of overhead transmission lines. In this case, it becomes difficult for the recovery personnel to move to the location where the accident occurred due to snow accumulation, so that the time required for recovery tends to be prolonged.
As a technique for supporting recovery from such an accident, Patent Document 1 describes a technique for evaluating the degree of urgency of an abnormal system state by comparing system state data captured from an electric power system with facility data and operation data. Has been. According to the technique described in Patent Document 1, since a procedure for eliminating an abnormal state or a procedure for eliminating a supply trouble is created according to the degree of urgency, a recovery procedure according to the system state can be created.

JP-A-5-191926

However, in the technique described in Patent Document 1, the urgency level of the system abnormal state is determined, and it is determined which of the response to the system abnormal state and the response to the supply failure is prioritized. It is difficult to provide appropriate recovery support for multiple accidents.
In other words, in the case of multiple accidents in an overhead power transmission line due to snow damage, etc., consider the importance of the power transmission system and factors such as facilities that cross the power transmission line (transverse objects under the line) at multiple locations where the accident has occurred. However, in the technique described in Patent Document 1, such factors are not taken into consideration, although it is necessary to determine the priority of the investigation and recovery work.
As described above, in the conventional technology, it is difficult to appropriately support the recovery from the multiple accidents in the overhead power transmission line.

  The present invention has been made in view of such problems, and an object thereof is to more appropriately support the recovery from multiple accidents in an overhead power transmission line.

The present invention relates to information acquisition means for acquiring an accident occurrence system information for specifying a transmission system in which an accident has occurred, and whether or not multiple accidents have occurred in the transmission system based on the accident occurrence system information. Multiple accident determination means for performing, and when it is determined by the multiple accident determination means that a multiple accident has occurred, referring to the system importance database in which the transmission system and its importance are associated, A system priority setting means for setting a system priority indicating a priority order related to an accident investigation for each of the transmission systems specified by the accident occurrence system information, a line crossing object of the transmission system and its social influence Referring to the social impact database that is associated with each of the power transmission systems in which the accident has been investigated, a restoration priority that sets a restoration priority indicating a priority for restoration of the accident is set. And priority setting means, according to the height of the system priority, said the investigative work assisting means for providing information to assist the investigation of the grid, wherein the investigative work assisting means, the investigation is completed The present invention relates to an accident recovery support apparatus that sequentially assigns investigation personnel to a power transmission system having a high system importance level while excluding the transmitted power transmission system from the investigation target .

  Moreover, it is desirable to further include a recovery work support means for providing information for supporting the recovery work of the power transmission system according to the high recovery priority.

Further, it is desirable that the restoration work support means sequentially assigns the restoration work personnel to the transmission system having a higher restoration priority while excluding the transmission system for which the restoration work has been completed from the restoration work target .

  ADVANTAGE OF THE INVENTION According to this invention, the recovery | restoration of the multiple accident in an overhead power transmission line can be supported more appropriately.

It is a block diagram which shows the function structure of an accident recovery assistance system. It is a figure showing a power transmission system database. It is a figure showing a system | strain importance database. It is a figure showing a social influence database. It is a flowchart which shows the flow of the accident recovery assistance process which an accident recovery assistance apparatus performs.

Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 is a block diagram showing a functional configuration of an accident recovery support system 1 according to the present invention.
In FIG. 1, an accident recovery support system 1 is configured to include an accident recovery support device 2 and a power system 3, and the accident recovery support device 2 and the power system 3 are connected via a communication network.

The accident recovery support apparatus 2 includes an information processing apparatus such as a PC (Personal Computer), and includes an input unit 11, a control unit 12, a storage unit 13, a communication unit 14, and an output unit 15. .
The input unit 11 is configured by an input device such as a keyboard, a mouse, or a touch panel, and inputs various types of information according to the operation of the operator.
The control unit 12 controls the entire accident recovery support apparatus 2 and includes an arithmetic processing unit such as a CPU (Central Processing Unit). The control unit 12 executes various processes in the accident recovery support apparatus 2 by reading and executing a program stored in the storage unit 13 or the like. For example, the control unit 12 reads an accident recovery support processing program stored in the storage unit 13 and executes an accident recovery support process described later.

The control unit 12 further includes an information acquisition unit 121, a multiple accident determination unit 122, a system priority setting unit 123, an investigation work support unit 124, a recovery priority setting unit 125, and a recovery work support unit 126. Consists of including.
The information acquisition unit 121 acquires information input from the operator via the input unit 11 and information input from the power system 3 via the communication unit 14, and outputs the acquired information to the multiple accident determination unit 122. . For example, the information acquisition unit 121 acquires information (hereinafter referred to as “accident occurrence system information”) that identifies a power transmission system in which an accident has occurred in an overhead power transmission line.

  The multiple accident determination unit 122 determines whether multiple accidents have occurred in the overhead power transmission line based on the accident occurrence system information input from the information acquisition unit 121. When the multiple accident determination unit 122 determines that multiple accidents have occurred, the multiple accident determination unit 122 outputs, to the system priority setting unit 123, the fault occurrence system information of the transmission system related to the multiple accidents. Further, when the multiple accident determination unit 122 determines that a multiple accident has not occurred (that is, when it is determined that the accident is a single accident), the multiple accident determination unit 122 investigates the accident occurrence system information of the transmission system in which the accident has occurred. The data is output to the work support unit 124 and the recovery work support unit 126.

  The system priority setting unit 123 refers to a system importance database (described later) stored in the storage unit 13, and each transmission system indicated by the accident occurrence system information input from the multiple accident determination unit 122 has a priority order for investigation ( Hereinafter, this is referred to as “system priority”). Specifically, the system priority setting unit 123 identifies the system type with reference to the transmission system database for each transmission system indicated by the accident occurrence system information, and refers to the system importance database for the transmission system. To set the system priority. Then, the system priority setting unit 123 outputs the set system priority to the investigation work support unit 124.

  The investigation work support unit 124 compares the number of investigation personnel input in advance with the number of investigation personnel required for the transmission system in which multiple accidents occur, and assigns the investigation personnel to the transmission system to be investigated. assign. Specifically, the investigation work support unit 124 assigns investigation personnel from a transmission system having a high system priority among the transmission systems in which multiple accidents occur, and transmits power with a system priority that can assign the investigation personnel. The system is subject to investigation. In addition, the investigation work support unit 124, while excluding the transmission system for which the investigation has been completed (specifically, the transmission system to which the investigation result is input) from the investigation target, sequentially investigates the transmission system to the transmission system having a higher system importance. Assign.

In addition, the investigation work support unit 124 obtains data of an investigation manual related to the transmission system targeted for the investigation and provides it to the investigation personnel who investigate the transmission system (output to the output unit 15, transmission via the communication unit 14, etc.) ) As for the data of the investigation manual, it is possible to obtain and provide data stored on the power system 3 side, or to store it in the storage unit 13 in advance.
Then, the investigation work support unit 124 outputs, to the recovery priority setting unit 125, the accident occurrence system information indicating the power transmission system that is the subject of the investigation.

  In the case of multiple accidents, it is important as a precondition for carrying out appropriate recovery work to prioritize which of the transmission systems where the accident has occurred. By doing so, an appropriate investigation can be performed.

  The investigation personnel are assigned by the investigation work support unit 124, and the investigation personnel patrol the power transmission system to which the data of the investigation manual is provided, and the accident occurs in a specific accident location (for example, in any section (ie, between any towers)) And the accident situation (for example, the type of accident such as disconnection). The investigation work support unit 124 receives an input of an investigation result (information on an accident location and an accident situation) related to the transmission system that is the subject of the investigation, and outputs it to the output unit 15.

  The restoration priority setting unit 125 refers to a social influence database (described later) stored in the storage unit 13 and, based on the investigation result relating to the transmission system targeted for investigation, priorities regarding restoration to those transmission systems. (Hereinafter referred to as “recovery priority”). Specifically, the restoration priority setting unit 125 identifies an underlined object in the section of the accident location identified by the investigation result, and restores the transmission system with reference to the social influence database. Set the priority. About the crossing under the line for each section of each transmission system, it is possible to specify with reference to the transmission system database (described later), and it is also possible to input the result of inspection and inspection by the investigators. . Then, the recovery priority setting unit 125 outputs the set recovery priority to the recovery work support unit 126.

  Based on the restoration priority input from the restoration priority setting unit 125, the restoration work support unit 126 is required for restoration work of the number of restoration workers input in advance and the transmission system in which multiple accidents have occurred. Compare the number of people and assign recovery workers to the power transmission system to be restored. Specifically, the restoration work support unit 126 assigns restoration work personnel from a transmission system having a high restoration priority among the transmission systems in which multiple accidents have occurred, and a restoration priority that can assign the restoration work personnel. Up to the power transmission system is the target of restoration work. The restoration work support unit 126 sequentially sets restoration priorities while excluding the transmission system for which restoration work has been completed (specifically, the transmission system to which the completion report of restoration work has been input) from the restoration work target. Allocate recovery personnel to higher transmission systems.

Further, the recovery work support unit 126 acquires data of a recovery work manual related to the power transmission system targeted for the recovery work, and provides the data to a recovery work person who performs the recovery work of the power transmission system. As for the data of the recovery work manual, it is possible to acquire and provide data stored on the power system 3 side, or to store it in the storage unit 13 in advance.
Then, the recovery work support unit 126 outputs the accident occurrence system information indicating the power transmission system targeted for the recovery work to the output unit 15. At this time, the recovery work support unit 126 outputs the section that specifies the accident location and the line crossing under the section in the accident occurrence system information.

  Recovery work personnel are assigned by the recovery work support unit 126, and the recovery work staff recovers the power transmission system provided with the data of the recovery work manual, and the power transmission system accident is resolved. The recovery work support unit 126 receives an input of a recovery result (whether the recovery is completed) regarding the power transmission system where the recovery has been performed, and outputs the input to the output unit 15.

  The storage unit 13 includes a semiconductor memory such as a hard disk or a DRAM (Dynamic Random Access Memory), and stores a program (accident recovery support processing program or the like) used in the accident recovery support apparatus 2 and various data. For example, the storage unit 13 stores a power transmission system database, a system importance database, and a social influence database. The contents of the power transmission system database, the system importance database, and the social influence database are set in advance by the operating entity of the accident recovery support system 1 and stored in the storage unit 13.

FIG. 2 is a diagram illustrating a power transmission system database.
As shown in FIG. 2, in the power transmission system database, for each power transmission system, the type of the power transmission system and the crossing object under the line for each section (between towers) are associated. For example, in the power transmission system database, the types of power transmission systems are “distribution (transformer substation) supply lines that cannot be reversely transmitted”, “supply lines for customers with high power outages”, “supply for customers with low power outages” Lines, “transmission lines that are important in the system”, “supply lines that can be handled by dividing jumper lines”, and “others” are associated with each transmission system. In the transmission system database, the types of crossing under the line are “crossing points of railways, main roads, etc.”, “crossing points of buildings such as residences”, “crossing points of other structures”, “general "(No crossing)" is associated with each section of each transmission system.

FIG. 3 is a diagram illustrating a system importance database.
As shown in FIG. 3, in the system importance database, the type of power transmission system and the importance thereof are associated with each other. For example, for the types of power transmission systems, “distribution (distribution substation) supply lines that cannot be reversely transmitted”, “supply lines for customers with high power outage effects”, “supply lines for customers with low power outage effects”, “on the system Importance is set from 1st to 6th in the order of “important power transmission line”, “supply line that can be handled by separating jumper lines”, and “others”.

FIG. 4 is a diagram showing a social influence database.
As shown in FIG. 4, in the social impact database, the type of the underlined crossing object is associated with the magnitude of the social impact (social impact). For example, for the types of crossing under the line, “crossing points of railways, main roads, etc.”, “crossing points of buildings such as residences”, “crossing points of other structures”, “general points (no crossings) ) ”, The social impact is set from 1st to 4th.

The communication unit 14 controls communication performed with the power system 3 via the communication network.
The output unit 15 includes a display, a speaker, and the like, and outputs various screens and sounds.
The power system 3 is a power supply system that generates and transmits power, and has a function of monitoring and controlling the system.
In the electric power system 3, a part of the overhead power transmission line such as an overhead power transmission line between steel towers is referred to as a power transmission system.

Next, the operation will be described.
FIG. 5 is a flowchart showing the flow of the accident recovery support process executed by the accident recovery support device 2.
The accident recovery support process is started when the operator gives an instruction to start the accident recovery support process.
When the accident recovery support process is started, the information acquisition unit 121 acquires the accident occurrence system information input via the input unit 11 and the communication unit 14 in step S1.

In step S <b> 2, the multiple accident determination unit 122 determines whether multiple accidents have occurred in the overhead power transmission line based on the accident occurrence system information acquired by the information acquisition unit 121.
If multiple accidents have occurred in the overhead power transmission line, YES is determined in step S2, and the process proceeds to step S3.
On the other hand, when the multiple accident has not occurred in the overhead power transmission line, it is determined as NO in Step S2, and the process proceeds to Step S10.

In step S3, the system priority setting unit 123 refers to the system importance database and sets the system priority of the power transmission system to which the accident occurrence system information is input.
For example, regarding the transmission systems A to F to which the accident occurrence system information is input, the transmission system type is “supply line for customers with a small power outage effect” for the transmission system A, and “supply for customers with a large power outage effect” for the power transmission system B. Line ", transmission system C is" system critical transmission line ", transmission system D is" distribution (distribution substation) supply line that cannot be reversed ", transmission system E is" other ", and transmission system F is" Suppose that it is a supply line that can be handled by separating jumper lines. At this time, the system priority setting unit 123 refers to the system importance database, the power transmission system D has the first system priority, the power transmission system B has the second system priority, the power transmission system A has the third system priority, the power transmission System C is set to 4th system priority, power transmission system F is set to 5th system priority, and power transmission system E is set to 6th system priority.

In step S4, the investigation work support unit 124 assigns investigation personnel to the power transmission system to be investigated.
In step S <b> 5, the investigation work support unit 124 provides the investigation personnel with the data of the investigation manual relating to the transmission system that is the subject of the investigation.
In step S <b> 6, the investigation work support unit 124 receives an input of an investigation result (information on an accident location and an accident situation) related to the power transmission system that is the subject of the investigation.

In step S <b> 7, the recovery priority setting unit 125 refers to the social influence database, and sets the recovery priority for the power transmission system targeted for investigation.
For example, for the transmission systems a to d in which the investigation results are input, the accident part of the transmission system a corresponds to the “crossing part of the railway, main road, etc.”, the accident part of the transmission system b is “other work piece The section corresponding to the “crossing point”, the accident point of the transmission system c is the section corresponding to the “crossing point of the building such as a residence”, and the accident point of the transmission system d is “general point (no crossing)” To do. At this time, the recovery priority setting unit 125 refers to the social impact database, and the power transmission system a is the first recovery priority, the power transmission system c is the second recovery priority, the power transmission system b is the third recovery priority, The power transmission system d is set to the fourth highest recovery priority.

In step S <b> 8, the recovery work support unit 126 assigns recovery work personnel to the power transmission system targeted for the recovery work.
In step S <b> 9, the recovery work support unit 126 provides the recovery work personnel with data of the recovery work manual related to the power transmission system that is the target of the recovery work.

In step S <b> 10, the recovery work support unit 126 receives an input of a recovery result related to the power transmission system that has been recovered.
In step S11, the investigation work support unit 124 assigns investigation personnel to the power transmission system to be investigated.
In step S12, the investigation manual data relating to the transmission system to be investigated is provided to the investigation personnel.
In step S <b> 13, the investigation work support unit 124 receives an input of an investigation result relating to the power transmission system that is the subject of the investigation.

In step S <b> 14, the recovery work support unit 126 assigns recovery work personnel to the power transmission system targeted for the recovery work.
In step S <b> 15, the recovery work support unit 126 provides the recovery work personnel with data of a recovery work manual related to the power transmission system that is the target of the recovery work.
In step S <b> 16, the recovery work support unit 126 receives an input of a recovery result related to the power transmission system that has been recovered.
After step S10 and step S16, the accident recovery support process ends.

As described above, the accident recovery support apparatus 2 of the accident recovery support system 1 according to the present embodiment includes the information acquisition unit 121, the multiple accident determination unit 122, the system priority setting unit 123, and the recovery priority setting unit 125. And.
The information acquisition unit 121 acquires accident occurrence system information that identifies a power transmission system in which an accident has occurred.
The multiple accident determination unit 122 determines whether multiple accidents have occurred in the power transmission system based on the accident occurrence system information.
The system priority setting unit 123 refers to the system importance database when the multiple accident determination unit 122 determines that multiple accidents have occurred, and sets the system priority to each power transmission system specified by the accident system information. Set the priority.
The recovery priority setting unit 125 sets a recovery priority for each power transmission system in which an accident has been investigated with reference to the social impact database.

Therefore, when multiple accidents occur in the transmission system, the system priority according to the system importance of each transmission system can be set.
Therefore, a scientific and effective accident investigation system can be quickly established for the occurrence of multiple accidents, and early detection of accident locations can be realized.
In addition, the restoration priority of each transmission system can be set based on the accident investigation results.
Therefore, it is possible to quickly establish a scientific and effective accident recovery system for the occurrence of multiple accidents, and to realize early recovery of the accident location.
Moreover, the power failure influence can be minimized by the response based on the system importance of the power transmission system.
In addition, the social impact can be minimized by taking action based on the social impact of the crossing under the transmission system.
In addition, it is possible to easily make a determination that conventionally requires experience and knowledge of the power transmission system.
Moreover, even when a large-scale multiple accident occurs due to snow damage, a typhoon, an earthquake, etc., it is possible to promptly take appropriate measures.
In addition, the present invention can be applied to multiple accidents in a large-scale plant such as a distribution line, a substation, and a power plant, and an appropriate response can be promptly performed.
That is, according to the accident recovery support apparatus 2 to which the present invention is applied, it is possible to more appropriately support the recovery from multiple accidents in the overhead power transmission line.

In addition, the accident recovery support device 2 includes an investigation work support unit 124 that provides information for supporting the investigation of the transmission system according to the high system priority.
Therefore, since the investigation of the transmission system is supported for the transmission system with higher importance, it is possible to quickly grasp the situation of the transmission system with higher importance of restoration.

In addition, the investigation work support unit 124 assigns investigation personnel for investigating the power transmission system according to the high system priority.
Therefore, the investigator can be more appropriately assigned to the investigation of the transmission system.

In addition, the accident recovery support apparatus 2 further includes a recovery work support unit 126 that provides information for supporting the recovery work of the power transmission system according to the high recovery priority.
Therefore, the power transmission system restoration work is supported for a power transmission system having a higher social impact level, and therefore it is possible to quickly carry out the restoration work for a power transmission system having a greater social impact of the restoration.

In addition, the recovery work support unit 126 assigns recovery work personnel for performing the power recovery system recovery work according to the high recovery priority.
Therefore, it is possible to more appropriately assign the restoration work personnel to the restoration work of the transmission system.
Note that, in this embodiment, when the system importance is the same for the transmission system, the system priority can be set with the higher power usage total being the higher order. Similarly, when the social influence level is the same for the transmission system, the restoration priority can be set with the higher power usage total being the higher rank. Further, the system importance and the social influence may be uniquely ranked for all power transmission systems, and the system priority and the recovery priority may be set based on the ranking.
In the present embodiment, at least one of the power transmission system database, the system importance database, and the social impact database is stored in another device, and the accident recovery support device 2 stores these databases via the network. It may be referred to.
As mentioned above, although embodiment of this invention was described, this invention is not restricted to embodiment mentioned above. The effects described in the embodiments of the present invention are only the most preferable effects resulting from the present invention, and the effects of the present invention are limited to those described in the embodiments of the present invention. is not.
In addition, a program for causing a computer to execute each step of the accident recovery support process of FIG. 5 in the present embodiment is stored in a storage medium, and this program is installed in a general computer, whereby the accident according to the present embodiment is performed. The recovery support device 2 can be realized.

DESCRIPTION OF SYMBOLS 1 Accident recovery support system 11 Input part 12 Control part 121 Information acquisition part 122 Multiple accident determination part 123 System priority setting part 124 Investigation work support part 125 Recovery priority setting part 126 Recovery work support part 13 Storage part 14 Communication part 15 Output Part 2 Accident recovery support device 3 Power system

Claims (3)

Information acquisition means for acquiring accident occurrence system information for identifying a power transmission system in which an accident has occurred;
Based on the accident occurrence system information, multiple accident determination means for determining whether multiple accidents have occurred in the transmission system,
When it is determined by the multiple accident determination means that a multiple accident has occurred, it is identified by the accident occurrence system information with reference to a system importance database in which the transmission system and its importance are associated with each other. System priority setting means for setting a system priority representing a priority order related to an accident investigation for each of the transmission systems,
Referring to the social impact database in which the crossing under the line of the transmission system and the social impact level thereof are associated with each other, the priority order related to the restoration of the accident is determined for each of the transmission systems in which the investigation of the accident is performed. Recovery priority setting means for setting a recovery priority representing
Investigation work support means for providing information for supporting investigation of the transmission system according to the high system priority,
Equipped with a,
The investigation work support means is an accident recovery support device that sequentially assigns investigation personnel to a power transmission system having a high system importance level while excluding a power transmission system for which investigation has been completed from the object of investigation . The recovery priority according to the height, accident recovery support system according to claim 1, further Ru comprising a recovery work assistance means for providing information to assist the recovery operations of the power transmission system. The accident recovery support device according to claim 2 , wherein the recovery work support means sequentially allocates recovery work personnel to a power transmission system having a high recovery priority while excluding the power transmission system for which the recovery work has been completed from the target of the recovery work.

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