JP5642752B2 - Disaster recovery management system - Google Patents

Description

  The present invention relates to a disaster recovery management system that manages the recovery status of a disaster caused by a typhoon or the like.

  Even when damage such as disconnection of distribution lines occurs due to disasters such as typhoons, electric power companies need to proceed with early recovery in order to stably supply electricity to customers. For this purpose, electric power companies have introduced disaster recovery team formation support systems (see, for example, Patent Document 1), disaster recovery integrated systems, and the like to take measures against disasters.

  The disaster recovery team formation support system forms a recovery team that performs recovery work in response to individual damage based on the work status of workers and disaster information.

  The disaster recovery system uses a mobile phone owned by a person inspecting the site and receives the damage status of power distribution facilities. The system records the received damage status data and supports disaster recovery. In other words, the disaster recovery integrated system is a system whose main purpose is to promote early recovery of individual damage (temporary recovery / main recovery).

JP 2006-215831 A

  However, the two systems described above have the following problems. In other words, the disaster recovery team formation support system forms a recovery team, and the disaster recovery integrated system promotes early recovery of damage. However, both systems cannot calculate the total number of damages, manage the work after provisional restoration, calculate the restoration time required by the design personnel and this restoration worker, etc., and cannot indicate the situation until this restoration. . In addition, both systems cannot calculate the amount of work required for restoration, and cannot indicate the status up to this restoration.

  An object of the present invention is to provide a disaster recovery management system capable of solving the above-described problems and showing the situation up to the main recovery in a disaster.

In order to solve the above-mentioned problems, the invention of claim 1 is data stored in a disaster recovery integrated system that supports disaster recovery , and is based on a field survey table created by a person in charge of visiting a disaster site. a data generated based, and a disaster recovery management system utilizing the data indicating the status of the restoration work together with the status of damage equipment and a logging generated in damage and accidents of the power distribution installation according to disasters that includes a utility pole Based on the data of the disaster recovery integrated system, the disaster recovery management represents the distribution facility damage status indicating all the damaged distribution facilities and the logging location status indicating all the logging locations that occurred in the disaster includes a disaster recovery management apparatus for generating a table, the disaster recovery management system, based on the disaster recovery management table generated, its a logging generated in power distribution equipment and disaster affected The total number of damages is counted, and the restoration or temporary restoration of the damaged power distribution facilities and the logging that occurred in the disaster is counted as the number of restorations. It is a disaster recovery management system characterized by calculating the number of unsupported damages and formulating a disaster recovery plan based on the calculated results .

The disaster recovery management system according to the invention of claim 1 is generated on the basis of a field survey table created by a person in charge of visiting the disaster site, as well as data stored in the disaster recovery integrated system that supports disaster recovery. It was is the data, and, to use the data that show the status of the damage equipment including the felling that occurred at the power distribution facilities and disaster, including a telephone pole. The disaster recovery management system of the disaster recovery management system represents the disaster recovery management status that represents all the power distribution equipment damage status due to the disaster and all the logging locations that occurred in the disaster based on the previous data. And a disaster recovery plan based on the disaster recovery management table .

According to a second aspect of the invention, the disaster recovery management system according to claim 1, wherein the disaster recovery management system, based on the disaster recovery management table, aggregates the power distribution equipment damaged as each number damage, damage The distribution facilities that have undergone this restoration are counted as restoration restoration locations, and from this number of damages and the restoration restoration locations, the restoration required locations that require work by the work team performing the restoration are collected. It is characterized by calculating each and calculating this recovery plan.

A third aspect of the present invention, the disaster recovery management system according to claim 2, wherein the disaster recovery management apparatus, wherein the present recovery plan, records the data including the construction amount with saved in work database Based on the construction data, the damage amount of each damaged facility is totaled as the total damage amount, the damage amount after the completion of the restoration is counted as the restoration completion damage amount, and the total damage amount and the book It is characterized in that the amount of damage that needs to be dealt with is calculated as the amount of damage that needs to be dealt with from the amount of damage that has been completed for restoration.

According to the first aspect of the present invention, a disaster recovery management table showing all damages caused by a disaster can be generated from the field survey table, and it is possible to grasp the overall damage situation due to the disaster. Further, according to the invention of claim 1, it is possible to formulate a disaster recovery plan for dealing with disasters in the event of a disaster based on the disaster recovery management table. It is possible.

According to the invention of claim 2 , it is possible to formulate a main recovery plan for responding to the main recovery based on the disaster recovery management table.

According to the third aspect of the present invention, it is possible to indicate the amount of damage necessary for the main recovery based on the main recovery plan table, thereby enabling the main recovery response by the design personnel who develop the main recovery plan.

It is a block diagram which shows the disaster recovery management system by one embodiment of this invention. It is a figure which shows an example of construction data. It is a figure which shows an example of damage equipment and restoration data. 4A is a diagram showing construction setting data, FIG. 4A is a diagram showing restoration man-hour setting data, FIG. 4B is a diagram showing design annual construction amount setting data, and FIG. 4C is equipment damage cost data; FIG. It is a figure which shows an example of a field survey table. It is a flowchart which shows an example of a disaster recovery management process. It is a figure which shows an example of a disaster recovery management table | surface. It is a figure which shows an example of the recovery plan at the time of disaster occurrence, and early recovery required days data. It is a figure which shows an example of this recovery plan for workers. It is a figure which shows an example of this recovery plan for design personnel.

  Next, embodiments of the present invention will be described in detail with reference to the drawings. A disaster recovery management system according to this embodiment is shown in FIG. The disaster recovery management system of FIG. 1 includes a disaster recovery management device 10, a disaster recovery integrated system 20, and a construction database 30. The disaster recovery management device 10, the disaster recovery integrated system 20, and the construction database 30 are in a state where data can be transmitted and received through the communication network NW.

  The disaster recovery management system construction database 30 records various construction works such as rebuilding utility poles as construction data, and accumulates construction data. Such construction data is shown in FIG. The construction data in Fig. 2 includes the utility pole number, the construction company that performed the construction, the construction reason that is the reason for the construction, the construction content that is the construction content, the construction date, the construction cost, and the construction amount The construction amount is recorded.

  The disaster recovery comprehensive system 20 of the disaster recovery management system uses a mobile phone possessed by a person in charge of visiting the site and receives the damage status of power distribution facilities and the like due to the disaster. The disaster recovery integrated system 20 records the received damage status data, and supports the recovery of each damaged portion such as a collapsed utility pole. For this purpose, the disaster recovery integrated system 20 stores damaged equipment data and recovery data (hereinafter referred to as “damaged equipment / recovery data”). An example of damaged equipment / recovery data is shown in FIG. In the damaged equipment / recovery data of FIG. 3, the recovery work is recorded as recovery data, and the damaged equipment is recorded as damaged equipment data. Damaged facilities include damaged facilities such as utility poles and logging caused by disasters.

  Specifically, damaged facilities / restoration data records damaged offices, substations, distribution lines, and utility pole numbers. In addition, in the damaged equipment / recovery data, the estimated time required for the recovery work, the scheduled start time of the work, the recovery classification indicating the recovery status, and the like are recorded as the recovery work. In addition, the damaged facilities / recovery data records the facilities such as damaged utility poles and the number of cases where breakage occurred as specific details.

  Such damaged equipment / recovery data is input by an operator or the like based on a field survey described later.

  The disaster recovery management device 10 generates a disaster recovery management table and the like used by the person in charge when the person in charge of the electric power company grasps the entire disaster that has occurred. For this purpose, the disaster recovery management device 10 includes a communication unit 11, an input unit 12, a storage unit 13, a processing unit 14, a display unit 15, and an output unit 16.

  The communication unit 11 of the disaster recovery management apparatus 10 enables transmission / reception of data via the communication network NW between the disaster recovery integrated system 20, the construction database 30, and the processing unit 14. The input unit 12 is an input device for inputting data, such as a keyboard and a mouse. The display unit 15 is a display device such as an LCD (Liquid Crystal Display) that displays data related to disaster recovery. The output unit 16 is a device that outputs data related to disaster recovery by printing or the like. The storage unit 13 is a storage device that stores various data. The storage unit 13 stores a program necessary for the processing unit 14 in advance.

  The processing unit 14 executes a program stored in the storage unit 13. Specifically, the processing unit 14 periodically executes a setting processing program. When starting the setting process, the processing unit 14 reads the construction data (FIG. 2) from the construction database 30. Thereafter, based on the read construction data, the processing unit 14 restores man-hour setting data shown in FIG. 4A, design annual construction amount setting data shown in FIG. 4B, and FIG. Update the equipment damage cost data shown. For example, the processing unit 14 periodically updates the restoration man-hour setting data based on the construction reason recorded in the construction data, the construction content of the construction data, the construction date, and the like. In the restoration man-hour setting data, the working hours of the building pillar group, the outside line group and the logging group for the construction are recorded. Further, the processing unit 14 updates design annual construction amount setting data representing the design annual construction amount of one designer (designing person) based on the construction amount by the construction company recorded in the construction data. Further, the processing unit 14 updates the unit price of the damage cost of each facility device such as a utility pole or an electric wire based on the construction amount of the construction data.

  The program executed by the processing unit 14 includes a data input process. When a data input instruction is given to the input unit 12 by an operator or the like, the processing unit 14 performs a data input process and stores the input data in the storage unit 13. Usually, an operator or the like operates the input unit 12 and inputs the contents of the field survey table.

Necessary items including the following items are filled in the field survey table by the person in charge of the site inspection.
a. Survey date b. Telephone pole number c. Damage category indicating low or high pressure category d. Work category indicating low-voltage power failure or high-voltage power failure e. The repair deadline indicating the repair within one month or the repair within six months. These items are input to the input unit 12 by the operator or the like in the data input process. These items are also input to the disaster recovery integrated system 20.

  In addition, for example, as shown in FIG. 5, the field survey table includes data for the disaster recovery integrated system input to the disaster recovery integrated system 20 and the disaster recovery management table input to the disaster recovery management device 10. Data. In the data for disaster recovery integrated system, for example, if the damage is a transmission line, the distinction between high voltage and low voltage and the possibility of power transmission are recorded, and if the damage is a utility pole, it is broken, spilled, collapsed, inclined Is recorded, and the number of utility poles where the damage occurred is recorded. In the same way, the investigation contents corresponding to the damage situation are recorded.

  This disaster recovery integrated system data is input to the disaster recovery integrated system 20 by an operator or the like as described above.

  The data for disaster recovery management table in the field survey table is created corresponding to the data for the previous disaster recovery integrated system. In the data for disaster recovery management table, specific contents of equipment damage and specific contents of logging damage are recorded.

  In the case of equipment damage, if the equipment is, for example, a utility pole, the contents of the damage are recorded in the disaster recovery management table data as collapsed, inclined, and broken, and the number of damaged utility poles is the disaster recovery management table data. To be recorded. Note that the breakage and outflow of the utility pole of the data for the disaster recovery integrated system are recorded as breakage in the disaster recovery management table. Similarly, in the disaster recovery management table data, the equipment damage investigation contents representing the damage of each equipment are recorded.

  In the case of logging damage, the magnitude of the damage, the location where the damage occurred, and the quantity of the damage are recorded in the data for the disaster recovery management table.

  Such data for disaster recovery management table of the field survey table is input to the input unit 12 by data input processing by an operator or the like. The processing unit 14 stores the disaster recovery management table data of the field survey table input to the input unit 12 in the storage unit 13 in the data input process.

  When an instruction for disaster recovery management is input to the input unit 12, the processing unit 14 executes a program for disaster recovery management processing. An example of this disaster recovery management process is shown in FIG. When starting the disaster recovery management process, the processing unit 14 reflects the disaster recovery management table data stored in the storage unit 13 in the disaster recovery management table also stored in the storage unit 13 (step S1). That is, in step S1, the processing unit 14 generates a disaster recovery management table corresponding to the current disaster. An example of the disaster recovery management table used in step S1 is shown in FIG. In the disaster recovery management table of FIG. 7, in addition to the basic items such as the date and district where the disaster occurred, the distribution facility damage status, logging location status, Designers etc. are recorded. Distribution equipment damage status includes the urgency of restoration work for damaged equipment, the distinction between high and low voltage that represents the voltage used in the equipment, the outline of the damage, the state of the power pole when the damage is a power pole, Temporary recovery / main recovery information indicating the recovery status is recorded. In the logging site status, large / medium / small distinction indicating the scale of logging and date of logging are recorded. In the designer (design personnel), the business operator who designs (forms) this recovery plan is recorded.

When step S2 ends, the processing unit 14 displays the generated disaster recovery management table on the display unit 15 and outputs it from the output unit 16 (step S2). When step S2 is completed, the processing unit 14 checks the operation of the button displayed on the display unit 15 (step S3), and determines the presence or absence of the button operation (step S4). The buttons displayed on the display unit 15 include
There are various types such as sales office setting, track name rearrangement, series No rearrangement, peripheral damage extraction, map display, etc., and the processing unit 14 is operated when an operated button, for example, a sales office setting button is operated. Change the currently set sales office. Also, the button for extracting damage from surroundings is used as follows. When a series of No representing each damage and a radius centered on the damage location corresponding to this No are designated and the peripheral damage extraction button is operated, the processing unit 14 occurs within the designated radius. Extract damage, ie, surrounding damage. In this case, for the situation around the damaged location, the latitude / longitude information is used to extract the surrounding damaged location, and the Internet site is used to display the damaged location on the map information.

Furthermore, the buttons displayed on the display unit 15 include
・ There is data upload. When the data upload button is operated, the processing unit 14 reads out the damaged facility / recovery data from the disaster recovery integrated system 20 and adds the damaged facility / restored data to the disaster recovery management table data stored in the storage unit 13. reflect. As a result, the disaster recovery management table data is updated with the damaged facility / recovery data.

  When there is a button operation in step S4, the processing unit 14 performs a process corresponding to the operated button as described above (step S5).

  When step S5 ends, the processing unit 14 checks the operation of another button (step S6) and determines whether or not the button is operated (step S7). If there is another button operation in Step S7, processing part 14 will return processing to Step S5. If there is no other button operation in step S7, or if there is no button operation in step S4, the processing unit 14 formulates a recovery plan when a disaster occurs (step S8). The disaster recovery plan prepared in step S8 is a plan for dealing with all damages, and is a plan for the main recovery or temporary recovery.

In step S8, the processing unit 14 formulates a disaster recovery plan based on the disaster recovery management table (FIG. 7) stored in the storage unit 13. At this time, the processing unit 14 tabulates each facility recorded in the distribution facility damage status and the felling site status corresponding to “series No” in the disaster recovery management table, for example, as shown in FIG. As a result, if the damaged equipment is, for example, a utility pole, the processing unit 14 calculates the following formula a1-b1 from the number of damages a1 and the number b1 of main restoration and temporary restoration.
Calculate the number of unsupported damage to handle the entire damage and record it.

  Further, in step S8, the processing unit 14 makes an early recovery in the event of a disaster based on the generated disaster recovery plan and the recovery man-hour setting data (FIG. 4A) stored in the storage unit 13. For this purpose, the hour meter and the number of days required for the pillar group, the outside line group and the logging group are calculated. The restoration man-hour setting data records the time required for the pole pole and external line teams to perform power pole construction and external line construction, so the processing unit 14 refers to the restoration man-hour setting data to From the recovery plan at the time of occurrence, calculate and record the time meter and the number of days required for early recovery by group.

When the preparation of the disaster recovery plan in step S8 is completed, the processing unit 14 displays the prepared disaster recovery plan on the display unit 15 and outputs it from the output unit 16 (step S9). When step S9 ends, the processing unit 14 formulates a main recovery plan (step S10). The main restoration plan formulated in step S10 is a plan for the working group corresponding to all the damages and a plan for the main restoration. In step S10, the processing unit 14 formulates a main recovery plan for a working group that performs recovery work and a main recovery plan for design personnel. For this purpose, the processing unit 14 edits the disaster recovery management table (FIG. 7) stored in the storage unit 13. At this time, the processing unit 14 determines, for example, the main recovery plan shown in FIG. 9 from the temporary recovery / main recovery status recorded in the temporary recovery / main recovery information of the power distribution equipment damage status in the disaster recovery management table. Formulate. That is, the processing unit 14 calculates the following expression a2-b2 from the number of damages a2 and the main recovery corresponding part b2.
In order to cope with the damaged part that has not been restored, the part that needs to be restored is calculated and recorded. In addition, felling is not included in this restoration plan because the restoration ends when the felling ends.

  Further, in step S10, the processing unit 14 is necessary for the building pillar group and the outside line group for the main recovery based on the generated main recovery plan and the recovery man-hour setting data stored in the storage unit 13. Calculate the correct hour meter and required days. The restoration man-hour setting data records the time required for the pole and outer line teams to perform the utility pole work and the outside line work. Therefore, the processing unit 14 refers to the restoration man-hour setting data and starts from this restoration plan. , Calculate and record the hour meter and the number of days required for this recovery point by group.

Further, in step S10, the processing unit 14 formulates a main recovery plan for design personnel based on the main recovery plan generated for the work team and the equipment damage cost data (FIG. 4C). Since the damage cost of each equipment is recorded in the equipment damage cost data, the processing unit 14 calculates the damage cost of the individual equipment recorded in the recovery plan generated for the work team. Further, each damage cost is totaled, and a main restoration plan for design personnel shown in FIG. 10, for example, is formulated. Then, the processing unit 14 calculates the following formula a3-b3 from the total damage amount a3 and the main restoration completion damage amount b3.
The amount of damage required for handling the entire damage is calculated and recorded by calculation using.

  Thereafter, the processing unit 14 calculates and records the hour meter and the required number of days required for one design person based on the main restoration plan for the design person.

  When step S10 ends, the processing unit 14 displays the formulated main recovery plan on the display unit 15 and outputs it from the output unit 16 (step S11). When step S11 ends, the processing unit 14 ends the disaster recovery management process.

  Next, the operation of the disaster recovery management system according to this embodiment will be described. The disaster recovery management device 10 of the disaster recovery management system reads the construction data from the construction database 30 in accordance with the instruction input to the input unit 12 and periodically, and restores the man-hour setting data (FIG. 4A), The design annual construction amount setting data (FIG. 4B) and the equipment damage cost data (FIG. 4C) are updated.

  Under these conditions, if a disaster occurs and the power distribution facilities are damaged, the person in charge of the inspection of the site creates a field survey. Thereafter, an operator or the like operates the input unit 12 of the disaster recovery management apparatus 10 to input the disaster recovery management table data in the field survey table. The processing unit 14 stores the input disaster recovery management table data in the storage unit 13 by data input processing.

  Thereafter, the disaster recovery management device 10 performs a disaster recovery process, and reflects the field survey table in the disaster recovery management table data stored in the storage unit 13. Also, the disaster recovery management table data is updated based on the damaged facility / recovery data stored by the disaster recovery comprehensive system 20 by a button operation. Thereafter, the disaster recovery management device 10 generates a disaster recovery management table from the data for disaster recovery management table, and displays and outputs it. Then, the disaster recovery management device 10 formulates, displays and outputs a disaster recovery plan based on the generated disaster recovery management table. After this, for example, when the response at the time of disaster occurrence is completed, the disaster recovery management device 10 formulates and displays and outputs this recovery plan based on the disaster recovery management table.

Thus, according to this embodiment, it is possible to generate a disaster recovery management table that represents all the damage that has occurred in a disaster. Further, based on the disaster recovery management table, a disaster recovery plan for dealing with damage in the event of a disaster and a main recovery plan for performing this recovery can be formulated. This
a. Development of design personnel b. Development of on-site dispatch materials c. Development of work personnel d. Establishing recovery prospects e. Distribution budget management f. The construction process can be easily managed. In addition, it will be possible to respond to disaster recovery by the disaster recovery plan, and this recovery plan will make it possible to respond to this recovery.

  In addition, according to this embodiment, the present recovery plan for automatically uploading data from the disaster recovery integrated system 20, automatically calculating the recovery plan / damage amount for temporary recovery locations and simple equipment damage locations, and construction management Can be created. Further, according to this embodiment, the damage location can be confirmed by using latitude / longitude information to extract the surrounding damage location and map information using the Internet site.

  In this embodiment, the disaster recovery management table, the disaster recovery plan, and the main recovery plan are mainly developed. However, the following processing is also possible. For example, the latitude / longitude information of the place where the customer's promise matters are registered in the disaster recovery management table in advance. Thereafter, when there is equipment damage in the vicinity, it is possible to extract the promised items of the customer as the peripheral information. As a result, the person in charge can take into account the customer's promises during disaster recovery.

DESCRIPTION OF SYMBOLS 10 Disaster recovery management apparatus 11 Communication part 12 Input part 13 Memory | storage part 14 Processing part 15 Display part 16 Output part 20 Disaster recovery integrated system 30 Construction database

Claims (3)

A data disaster recovery comprehensive system to support disaster recovery has been saved, a data has been generated based on the field survey table that was created by the person in charge to patrol the local disaster, and, by the disaster, including a telephone pole a disaster recovery management system to use the data that show the status of the restoration work along with the situation of damage equipment, including a logging generated by the damage and the disaster of power distribution equipment,
Based on the data of the disaster recovery integrated system , a disaster recovery management table showing the distribution facility damage status indicating all the damaged distribution facilities and the logging location status indicating all the logging locations caused by the disaster Equipped with a disaster recovery management device to generate ,
Based on the generated disaster recovery management table, the disaster recovery management device tabulates the number of damaged power distribution facilities and felling caused by the disaster as the number of damages, respectively, and occurred in the damaged power distribution facilities and disaster The number of trees that have been restored or temporarily restored during logging is counted as the number of restorations. The number of damages that are not supported when a disaster occurs is calculated from the number of damages and the number of restorations. Develop a recovery plan,
Disaster recovery management system characterized by that. The disaster recovery management device counts the damaged distribution facilities as the number of damages based on the disaster recovery management table, and totals the damaged distribution facilities that have been restored as the recovery-supported locations. Then, based on the number of damages and the location corresponding to the main recovery, calculate the main points required for recovery by the work team that performs the main recovery, and formulate the main recovery plan.
The disaster recovery management system according to claim 1 . The disaster recovery management device calculates the total damage amount of each damaged facility based on the recovery plan and the construction data stored in the construction database and recording the data including the construction amount. Total amount of damage, total damage amount after completion of this restoration, total amount of damage after completion of this restoration, and the amount of damage that needs to be dealt with from the above total damage amount and this restoration completion damage amount Calculate as amount
The disaster recovery management system according to claim 2 .

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