JP2009064149A - Distributed monitoring and control system for power grid - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a distributed monitoring and control system for power grid capable of quickly reflecting a maintenance database generated by a monitoring and control system on a backup system, with no intervention of an external storage device. <P>SOLUTION: A maintenance calculator 12 of a monitoring and control system 1 generates a maintenance database 121 of a new generation by using a maintenance database generating means 122 when a facility is changed. A transmission data file 141 in which the maintenance database 122 and an operating database 111 are made into a single file is generated by a transmission data file generating means 124. After testing, it is transmitted to a backup system 2. A maintenance calculator 22 on the backup system 2 side restores it using a restoring means 223, for switching a database. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to an electric power system distributed monitoring and control system for sharing a maintenance database created by each maintenance computer of a monitoring control system and its backup system.

In some cases, a power system distributed monitoring and control system such as a central power supply command station or a main power supply command station may construct a backup system in order to improve system reliability.
The power system distributed monitoring control system and its backup system each have an independent maintenance computer and individually manage and create a maintenance database. For this reason, if data maintenance occurs due to a change in power system equipment, a maintenance database is created by the maintenance computer of the power system distributed monitoring and control system, and the data is stored in an external storage device (DAT tape, etc.) The work of reflecting the maintenance database in the backup system was carried out by a human system, and this work could not be performed using the function of the maintenance computer.

JP 2000-259473 A (pages 11 to 19, FIG. 1)

In the prior art, when the maintenance database of the power system distributed monitoring and control system is reflected on the backup system, since it is performed using an external storage device or the like, there is a problem that it takes time and the correction data cannot be reflected immediately.
In addition, since management / replacement of the maintenance database is performed by a human system, there is a problem that a work error may occur.
Patent Document 1 has synchronization means for synchronizing two databases A and B. This synchronization means additionally registers an entry that exists in the database A but does not exist in the database B in the database B. And database B are interchanged so that the same processing is performed and two databases are updated with consistency.
However, Patent Document 1 shows a general management method, in which two databases are synchronized by registering entries, and the peculiarity of the power system distributed monitoring and control system is taken into consideration. The maintenance database as described above was not reflected in the backup system.

  The present invention has been made to solve the above-described problems, and is a power system distribution that can immediately reflect a maintenance database created by a monitoring control system to a backup system without using an external storage device. The goal is to obtain a supervisory control system.

In the power system distributed monitoring and control system according to the present invention, in the power system distributed monitoring and control system configured by a first system that monitors and controls the power system and a second system that backs up the first system,
The first and second systems are respectively a main computer having an operating database that records data on the facilities that make up the power system, and a maintenance computer formed to maintain the operating database when the facilities are changed. A maintenance computer having a database,
The operating database and the maintenance database each have generation information, and the maintenance computers of the first and second systems are connected to each other via a network,
The maintenance computer of the first system includes a maintenance database creation means for creating a new generation maintenance database when the equipment is changed, and a transmission data file including generation information of the operating database and a new generation maintenance database. A transmission data file creation means for creating the transmission data file created by the transmission data file creation means, and a transmission means for sending the transmission data file to the maintenance computer of the second system,
The maintenance computer of the second system includes a receiving unit that receives the transmission data file transmitted from the maintenance computer of the first system, and the first system included in the transmission data file received by the receiving unit. When the generation information of the operating database matches the generation information of the operating database of the second system, there is a restoring means for restoring the maintenance database created by the maintenance computer of the first system from the transmission data file. Is.

As described above, the present invention provides a power system distributed monitoring and control system including a first system that monitors and controls a power system and a second system that backs up the first system.
The first and second systems are respectively a main computer having an operating database that records data on the facilities that make up the power system, and a maintenance computer formed to maintain the operating database when the facilities are changed. A maintenance computer having a database,
The operating database and the maintenance database each have generation information, and the maintenance computers of the first and second systems are connected to each other via a network,
The maintenance computer of the first system includes a maintenance database creation means for creating a new generation maintenance database when the equipment is changed, and a transmission data file including generation information of the operating database and a new generation maintenance database. A transmission data file creation means for creating the transmission data file created by the transmission data file creation means, and a transmission means for sending the transmission data file to the maintenance computer of the second system,
The maintenance computer of the second system includes a receiving unit that receives the transmission data file transmitted from the maintenance computer of the first system, and the first system included in the transmission data file received by the receiving unit. When the generation information of the operating database matches the generation information of the operating database of the second system, there is a restoring means for restoring the maintenance database created by the maintenance computer of the first system from the transmission data file. Therefore, since the maintenance database is transmitted to the backup system without using an external storage device, the correction data can be reflected immediately.

Embodiment 1 FIG.
Embodiments of the present invention will be described below with reference to FIGS.
FIG. 1 is a configuration diagram showing a power system distributed monitoring control system according to Embodiment 1 of the present invention.
In FIG. 1, a supervisory control system 1 (first system) has an operating database 111 that stores equipment data of facilities that constitute an electric power system, a main computer 11 that monitors and controls the electric power system, and an electric power system. When data maintenance occurs in accordance with a change in the equipment to be configured, a maintenance computer 12 having a maintenance database 121 created to maintain the operating database 111 is connected via the LAN 13.
The backup system 2 (second system) is arranged to back up the supervisory control system 1, and the main computer 21 having the operating database 211 and the maintenance computer 22 having the maintenance database 221 are connected via the LAN 23. It is connected.
The maintenance computer 12 and the maintenance computer 22 are connected by a network 3.

The maintenance computer 12 includes a maintenance database creation unit 122 that creates a new generation maintenance database when the equipment is changed, and one maintenance database and an operating database 111 created by the maintenance database creation unit 122. The transmission data file creation means 124 for creating the transmission data file thus prepared, the transmission means 124 for sending the transmission data file created by the transmission data file creation means 124 to the maintenance computer 22, and the new generation maintenance Database switching means 125 for replacing the database for use with the old generation maintenance database 121.
The maintenance computer 22 receives the transmission data file transmitted from the maintenance computer 12, the generation information of the operating database 111 of the transmission data file received by the reception unit 222, and the backup system 2 side. When the generation information in the operating database 211 matches, the restoration means 223 for restoring the maintenance database 121 created by the maintenance computer 12 from the transmission data file and the restored maintenance database 121 are used for the maintenance of the old generation And database switching means 224 that replaces the database 221.

FIG. 2 is a flowchart showing data maintenance processing on the monitoring control system side of the power system distributed monitoring control system according to Embodiment 1 of the present invention.

FIG. 3 is an explanatory diagram showing creation of a data file for transmission in the power system distributed monitoring control system according to Embodiment 1 of the present invention.
In FIG. 3, reference numerals 1, 111 and 121 are the same as those in FIG. The maintenance computer 12 of the monitoring control system creates a transmission data file 141 in which the operating database 111 and the maintenance database 121 are made into one file, and transmits it to the backup system.

  FIG. 4 is a flowchart showing data maintenance processing on the backup system side of the power system distributed monitoring control system according to Embodiment 1 of the present invention.

FIG. 5 is an explanatory diagram showing maintenance database replacement on the backup system side of the power system distributed monitoring control system according to Embodiment 1 of the present invention.
In FIG. 5, the maintenance computer 22 of the backup system updates the operating database 211 and the maintenance database 221 based on the received transmission data file 141. The operating database 111a and the maintenance database 121a are obtained by expanding the transmission data file 141 in a temporary area.

Next, the operation will be described.
Data maintenance on the monitoring control system 1 side of the power system distributed monitoring control system is performed according to the flowchart of FIG. 2, creating the maintenance database 121 of the system and transmitting the transmission data file 141 including the maintenance database 121 to the backup system 2. The active database 111 is switched.
As shown in FIG. 3, the maintenance computer 12 manages each of the operating database 111 and the maintenance database 121 of the monitoring control system 1 with generation numbers, and transmits the transmission data file 141 to the backup system 2. In this case, both the operating database 111 and the maintenance database 121 of the monitoring control system 1 are consolidated into one file, and the data file 141 for transmission to the backup system 2 is obtained.

Next, processing in the maintenance computer 12 will be described in detail with reference to FIG.
First, in step S1, when data maintenance occurs due to a change in equipment constituting the power system, a new generation maintenance database 121 is created. Next, in step S2, the created maintenance database 121 is tested to determine whether the result is OK. If it is not OK, the process returns to step S1, and if it is OK, it is determined in step S3 whether or not connection with the maintenance computer 22 of the backup system 2 is possible.
If connection is possible in step S3, the transmission data file 141 is created in step S4 by consolidating both the operating database 111 and the new generation maintenance database 121 into one file. Next, in step S5, the created transmission data file 141 is transmitted to the maintenance computer 22 of the backup system 2.
In step S 6, the maintenance database 121 and the operating database 111 are switched based on the new generation maintenance database 121.

On the other hand, the maintenance computer 22 on the backup system 2 side switches the maintenance database of the backup system 2 as shown in FIG. 5 according to the processing flow shown in FIG.
Next, a data maintenance process of the maintenance computer 22 on the backup system 2 side will be described with reference to FIG.
First, in step S11, it is determined whether or not the transmission data file 141 from the monitoring control system 1 exists.
If it exists, in step S12, the transmission data file 141 is expanded to a temporary area, and in step S13, the generation number of the operating database 111a included in the transmission data file 141 and the operating database of the backup system 2 are displayed. It is determined whether or not the generation numbers 211 match, and only when they match, it is determined in step S14 that the maintenance database 121a included in the transmission data file 141 is valid, and a new transmission data file 141 is extracted from the expanded transmission data file 141. The generation maintenance database 121 is restored.

In step S12, the transmission data file 141 is expanded into a temporary area, and if the generation number of the operating database 111a included in the transmission data file 141 does not match the generation number of the operating database 211 of the backup system 2, The maintenance database 221 held in the maintenance computer 22 is not replaced in order to prevent the consistency of the database between the systems from being lost.
In step S15, the restored maintenance database 121 is tested on the backup system 2 side. If the test result is good, the maintenance database 221 is created based on the new generation maintenance database 121 in step S17. And switching the operating database 211.
If the test result in the maintenance database 221 is bad in step S15, the new generation maintenance database 121 is corrected in step S16, and the process returns to step S15 and retest is performed until the test result is good. After the execution, switching between the maintenance database 221 and the operating database 211 is performed.

  When there are a plurality of transmission data files 141, the data is expanded in a temporary area from the oldest transmission time in time series, and the test and maintenance database and the operating database are repeatedly switched.

In the above description, the transmission data file 141 is transmitted from the monitoring control system 1 side. However, the transmission data file may be transmitted from the backup system 2 side.
At this time, maintenance database creation means, transmission data file creation means, and transmission means are provided on the backup system 2 side, and reception means and restoration means are provided on the monitoring control system 1 side.

In the monitoring control system 1 and the backup system 2, in order to prevent the maintenance database from being created for the operating database with the same generation number, maintenance is performed only when the transmission data file does not exist in any system. It is possible to create a database.
If the transmission data file exists, the maintenance database creation function of one system is suppressed.

According to the first embodiment, since the maintenance database is transmitted to the backup system without using an external storage device, the correction data can be reflected immediately.
In addition, since management / operation by human systems can be reduced, it is possible to reduce work errors when replacing the maintenance database on the backup system side.

BRIEF DESCRIPTION OF THE DRAWINGS It is a block diagram which shows the electric power system dispersion | distribution monitoring control system by Embodiment 1 of this invention. It is a flowchart which shows the data maintenance process by the side of the monitoring control system of the electric power system dispersion | distribution monitoring control system by Embodiment 1 of this invention. It is explanatory drawing which shows creation of the data file for transmission of the electric power system dispersion | distribution monitoring control system by Embodiment 1 of this invention. It is a flowchart which shows the data maintenance process by the side of the backup system of the electric power system dispersion | distribution monitoring control system by Embodiment 1 of this invention. It is explanatory drawing which shows database replacement for the maintenance by the side of the backup system of the electric power system dispersion | distribution monitoring control system by Embodiment 1 of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Monitoring control system 11 Main computer 111 Operation database 12 Maintenance computer 121 Maintenance database 122 Maintenance database creation means 123 Transmission data file creation means 124 Transmission means 125 Database switching means 13 LAN
141 Transmission data file 2 Backup system 21 Main computer 211 In-operation database 22 Maintenance computer 221 Maintenance database 222 Receiving means 223 Restoring means 224 Database switching means 23 LAN
3 network

Claims (4)

In a power system distributed monitoring and control system configured by a first system that monitors and controls the power system and a second system that backs up the first system,
Each of the first and second systems is formed to maintain a main computer having an operating database in which data of facilities constituting the power system are recorded, and to maintain the operating database when the facilities are changed. A maintenance computer having a maintained maintenance database,
The operating database and the maintenance database each have generation information, and the maintenance computers of the first and second systems are connected to each other via a network,
The maintenance computer of the first system includes maintenance database creation means for creating a new generation of the maintenance database when the equipment is changed, generation information on the operating database, and the new generation maintenance database. Including a transmission data file creation means for creating a transmission data file including, and a transmission means for sending the transmission data file created by the transmission data file creation means to the maintenance computer of the second system,
The maintenance computer of the second system includes a reception unit that receives the transmission data file transmitted from the maintenance computer of the first system, and the transmission data file that is received by the reception unit. When the generation information of the operating database of the first system matches the generation information of the operating database of the second system, the maintenance data created by the maintenance computer of the first system from the transmission data file A power system distributed monitoring control system comprising: a restoring means for restoring a database. When there are a plurality of transmission data files transmitted from the maintenance computer of the first system, the maintenance computer of the second system uses the restoration means in order from the transmission data file with the oldest time. The power database distributed monitoring and control system according to claim 1, wherein the database is restored. The maintenance computer of the second system includes the maintenance database creation means, the transmission data file creation means, and the transmission data file created by the transmission data file creation means. And a transmission means for transmitting to the computer,
The maintenance computer of the first system includes a reception unit that receives the transmission data file transmitted from the maintenance computer of the second system, and the transmission data file that is received by the reception unit. When the generation information of the operating database of the second system matches the generation information of the operating database of the first system, the maintenance data created by the maintenance computer of the second system from the transmission data file The power system distributed monitoring and control system according to claim 1, further comprising a restoring unit that restores the database. The maintenance database creation means of the maintenance computers of the first and second systems creates the maintenance database only when there is no unrestored transmission data file. The power system distributed monitoring control system according to claim 3.

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