JP2006014492A - Electric power system monitoring/controlling system, and information managing method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To facilitate information management as a system on the whole and maintenance to easily synchronize field equipment in a subordinate station with a control/monitor system in a superordinate station, in an electric power system monitoring/controlling system. <P>SOLUTION: An information code 70 and number information 80 are managed as pair between the monitor/control system 10 and respective electric power substations 33 to realizing the unitary management of the transmission position. Practically, fixed information comprising the information code 70 and the number information 80 are allocated to the corresponding equipment or devices in the electric power substations 33, allowing the information 83 indicating the state of the equipment or devices (in operation or stop state) corresponding to the fixed information to be exchanged between the monitor/control system 10 and the respective electric power substations 33. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a power system monitoring and control system and an information management method, and more particularly to a power system monitoring and control system for centrally managing various equipment in a substation facility and a substation, and an information management method for centralized management.

  In recent years, power system monitoring and control systems are operated by inputting detailed data into a computer for more accurate control. As a result, the introduction of computer systems has progressed, and the system scale has become larger and more complex. Yes.

  For example, in the power system monitoring and control system, for example, the power system is divided into a plurality of blocks and hierarchized, such as a central power station, a system power station, a power supply control station, an electric station (substation), A system that monitors equipment or equipment arranged in any block for each block is employed, and a computer system constructed for each block individually manages equipment / equipment data. For this reason, when information is linked between systems, a code for recognizing electric power stations, facilities, and equipment in the power system, such as so-called transmission positions (channels, words, bits), etc., is used in common between systems. Yes. All the facilities and devices in the power system can be specified by the combination of channels, words, and bits that constitute this transmission position.

  A configuration example of a conventional power system monitoring control system is shown in FIG. The example shown in FIG. 5 includes a monitoring control system (for example, a power supply control station) 110 that centrally monitors and controls a plurality of substations (power systems) in an IP network 100 in which information transmission is performed using the IP protocol. The substation 130 and the substation 150 are connected.

  The monitoring control system 110 includes, for example, various servers such as an information input / output server 115, a maintenance server 116, a monitoring control server 117, a system control server 118, a peripheral device information server 120, and command console PC servers 119a and 119b. Each server is connected to the online information LAN 113 and / or the offline information LAN 114. An information input / output server 115 and a maintenance server 116 are connected to the monitoring control router 111 via the input / output information LAN 112, and are connected to the IP network 100 via the monitoring control router 111. The peripheral device information server 120 is connected to the system monitoring board 122 and the printer 123 via the peripheral device information LAN 121.

  In the substation 130, a substation information LAN 132 is laid, and IP-TC (Internet Protocol-Tele-Control; so-called IP telecon device) slave stations 133 and 143 are connected to the substation information LAN 132. The IP-TCs 133 and 143 are devices for managing the facility data of the system constructed for each block, and are connected to the substation router 131 via the substation information LAN 132 and configured to be communicable with the IP network 100. Yes.

  The contact input / output device 134 is a device that performs predetermined contact input / output between the IP-TC 133 and the control panel / protection panel 135a, 135b. The IP-TC 133 transmits the information of the control panel / protection panels 135a and 135b and the substation equipment 136a input to the contact input / output device 143 to the monitoring control system 110 via the IP network 100, and the monitoring control system. The substation equipment 136a, 136b is controlled via the control panel / protection panel 135a, 135b according to the control command transmitted from 110.

  The IP-TC 143 is connected to the control PCs 145a and 145b including personal computers via the LAN interface 144. The control PCs 145a and 145b control the in-substation equipment 147a and 147b directly or via the relays 146a and 146b. Is done. The substation 150 is also formed with the same configuration.

  As shown in FIG. 5, in the conventional power system monitoring and control system, a computer (server) that grasps the state and a computer (server) that performs device control are separated (separated as a TC master station for the purpose of controlling device control). ) Installed. As a result, information in a plurality of substations is collectively managed, and conversion is performed to link the information to the host computer system. As described above, the management of the database of the TC master station and the host computer system is performed separately for each system, and position management based on a management table is performed by a human system.

  Using the above code for one facility / equipment constituting the power system, both the transmission side system (monitoring control system 110) and the reception side system (substations 130, 150) are connected to one facility in the same power system. It recognizes facilities and equipment.

  As an example of such position management, for example, it relates to a power system monitoring control device that monitors and controls a power system and its power system facility information generation device, and in order to deal with input errors associated with a huge amount of data input, There has been proposed a device that automatically generates information representing the relationship between power system facilities from input data and also automatically checks data input by a person (see, for example, Patent Document 1). The equipment code for enabling the automatic generation and the automatic check is used, and this equipment code is created based on a coding system that identifies each facility of the power system hierarchically according to the configuration of the power system. Is done. Therefore, it is not necessary for a person to input information indicating the relationship between the system facilities, and a storage means for storing the information can be eliminated.

Moreover, the present invention relates to a method for inputting data in a substation monitoring and control system. Conventionally, after the position number data has been input once, the position number of the position number is not changed on the control system side even though there is no change of the switch or relay. In order to cope with the problem that a large amount of change is required, a method of inputting data independently by separating the switch and relay data from the telecom composition data and other data related to the switch and relay. According to this data input method, when changing only the telecon transmission system without changing the substation equipment, the telecon number of the position table, the word number, And it is only necessary to change the definition of the switch and relay corresponding to the bit number, and change the data easily. It is possible to improve the workability of maintenance substation monitoring system.
JP 2001-251763 A JP-A-6-296326

  However, the conventional technology as described above is information transmission up to the level of facilities / equipment constituting the power system, and even if a code is used to identify the facility / equipment, the target facility / equipment As the number increased, the amount of information for identifying the facilities / equipment became enormous, causing various problems for the entire system. That is, in the computer system that monitors and controls the power system, the control target extends to a lower system level, and thus it is necessary to operate a plurality of computer systems while coordinating between the systems. In this case, if you try to link information considering the entire computer system, the amount of code-related information that identifies the equipment and equipment installed in each system will be enormous, and the allowable information amount of the existing transmission path There is a problem of exceeding. For this reason, adverse effects such as an increase in the load on the transmission path and an information transmission delay due to a transmission delay have occurred, and an adverse effect such as a delay in restoration at the time of a system failure has become a problem.

The present invention has been made in view of the above problems, and by reducing the amount of information by unifying the information linkage method, it is possible to reduce the transmission load and ensure the speed of transmission more quickly. The purpose is to provide monitoring personnel with changes in power system status.
In addition, the TC master station and its transmission equipment installed to control the current equipment will be abolished, and the host computer system and substation will be linked directly via the network, and the host computer system will directly control the command via the network. The purpose is to control the device by issuing

  In order to solve the above problems, the present invention monitors and controls equipment and devices arranged for each of a plurality of blocks constituting an electric power system, and the equipment and equipment of the electric power system are based on the configuration of the electric power system. Fixed information storage means for storing fixed information consisting of coded information codes, number information of facilities / equipment for each block of the power system with serial numbers, and based on the fixed information, A monitoring control device comprising a control means for performing control for monitoring and controlling the state of the device and generating control information; a communication control means for transmitting control information to the communication network; a communication means connectable to the communication network; Equipment / equipment storage means for storing fixed information consisting of information code and number information, equipment / equipment control that controls equipment / equipment based on control information from the supervisory control device To build a system composed of a facilities and equipment management and means.

  As an example of a preferred embodiment of the invention described above, the information code includes an area division code indicating a unit obtained by dividing the power system, a substation code indicating a substation, an equipment code indicating an equipment type, and a machine indicating an equipment number. It consists of a code, an extension code for facility recognition, and a device code for identifying the device, and the number information is composed of a substation number and a serial number in the substation that indicates the facility / equipment in the substation with a serial number. To.

  According to the present invention, by adopting the information code, substation, and equipment serial number assigned based on the configuration of the power system, information is transmitted between the upper supervisory control device and the lower equipment / equipment management device. The cooperation method is unified, and as a result, information can be handled in a unified manner. Therefore, for example, the power system facilities and equipment in each substation can be shared among the systems. Further, by adopting, for example, an IP protocol transferable communication network, the TC master station and its transmission device installed for controlling the conventional device can be eliminated.

  According to the present invention, since the computer that manages the database management of the host computer system and the information related to various facilities and devices of each substation is installed in the monitoring control system, the centralized management of information is realized and the detailed maintenance is performed. There is an effect that grasping of information can be realized.

  Furthermore, the provision of information providing means in the facility / equipment management device has the effect that it is possible to automatically capture online information that has been possible only by exchanging databases so far in synchronization with the site. .

  In addition, the amount of information to be transmitted can be reduced with respect to the amount of information for online transmission that increases as the capacity of the transmission line increases, so that the transmission load can be reduced and the speed of the transmission speed can be ensured. As a result, there is an effect that it is possible to provide the supervisor with changes in the status of the power system more quickly.

  Hereinafter, an example of an embodiment of the present invention will be described with reference to FIGS. In recent years, in order to perform more accurate control of power system monitoring and control systems, introduction of computer systems has been progressing in order to input detailed data into computers and perform operations. In addition, computer systems are connected by an IP network, and the network technology infrastructure is being developed by realizing higher performance of the network equipment, larger transmission path capacity, and lower price. Based on this background, this example considers a configuration example of an electric power system monitoring and control system that is expected to be further accelerated in the future, and the entire system is connected to the network and scaled up. Defines centralized control information database management.

  FIG. 1 is a diagram showing a configuration example of a power system monitoring control system according to an example of an embodiment of the present invention. In this example, a plurality of substations (electric power systems) such as a power supply control station are centrally monitored and controlled in an IP network (communication network) 1 in which information transmission is performed by the IP protocol and duplexed. A monitoring control system (monitoring control device) 10 and substations (equipment / crisis management devices) 30 and 50 are connected. That is, the monitoring control system and the substation information server installed on the substation side are connected via the IP network, and the control device is connected under the information server on the substation side. The monitoring and control system 10 monitors equipment and equipment states of each substation, and sends a control command to the substation according to the monitoring result to monitor and control the power system.

  In the substation, one IP address is assigned to a chip provided for each device by adopting IPv6 (Internet Protocol Version 6). This eliminates the need for a TC master station or a transmission device that manages a plurality of substations, and information conversion is performed by simply converting the IP address into a substation serial number in the substation information server. Note that the example shown in FIG. 1 is an example, and the configuration in the monitoring control system, the number of substations, the facility configuration in the facility, and the like are not limited to this example.

  The monitoring control system 10 includes, for example, an information input / output server (control means) 15, a maintenance server (fixed information storage means) 16, a monitoring control server 17, a system control server 18, a peripheral device information server 20, a command console PC. Various servers 19a and 19b (control means) are provided. In the office, an online information LAN 13 for transmitting real-time information and an offline information LAN 14 used offline are laid. An information input / output server 15, a maintenance server 16, a monitoring control server 17, a system control server 18, and a peripheral device information server 20 are connected to the online information LAN 13. The offline information LAN 14 is connected to a maintenance server 16, a monitoring control server 17, a system control server 18, a peripheral device information server 20, and command console PC servers 19a and 19b including a personal computer. The peripheral device information server 20 is connected to the system monitoring board 22 and the printer 23 via the peripheral device information LAN 21.

  The information input / output server 15 and the maintenance server 16 are connected to the monitoring control router (communication means) 11 through the input / output information LAN 12 and connected to the IP network 1 through the monitoring control router 11.

  The information input / output server 15 in the monitoring control system 10 is a server for performing information communication with a plurality of substations via the IP network 1, and the maintenance server 16 uses an information code and number information described later as key information. It is a server for performing input and correction to the master database. The monitoring control server 17 is a server that manages monitoring and control of the power system. The system control server 18 is a server for managing the operating state (stopped / operating) of each server. The information grasped by the monitoring control server 17 is sent to, for example, the command console PC servers 19a and 19b and displayed on the monitor, and the supervisor grasps the system state while looking at the display screen of the monitor, and also at the substation. A control command is issued.

  The grid monitoring panel 22 is a device that displays main information of the power system, and can display information of the main power system even when the monitoring control server 17 and the command console PC servers 19a and 19b are completely stopped. ing. Peripheral devices such as the system monitoring board 22 and the printer 23 are managed by the peripheral device information server 20.

  The substation 30 (substation 50 has the same configuration) performs serial transmission with a substation information server (facility / equipment storage means, equipment / equipment control means) 33 and each substation equipment 35a, 35b, 35c. Function integrated terminals (equipment / equipment control means) 36a, 36b, 36c are provided, and are connected by an in-substation information LAN 34 capable of transmitting information according to the IP protocol. The substation information server 33 is connected to the IP network 1 via a LAN interface 32 and a substation router (communication means) 31.

  The substation information server 33 manages information in the substation and transmits information to the monitoring control system 10 through the IP network 1. The function integration terminals 35a, 35b, and 35c centrally monitor and control a plurality of devices based on instructions from the substation information server 33. For example, the substation information server 33 receives the control information from the monitoring control system 10 and transmits it to the function integration terminal 35a or the like via the substation information LAN 34. Then, the substation equipment 36a to be controlled is controlled along the control information content through the function integration terminal 35a.

  Further, the substation 30 includes an information providing terminal (information providing means) 37. For example, when a monitoring person operates the information providing terminal 37 to set the operation state (in operation / stopped) of the local equipment / facility. The flag information representing the setting contents is sent to the monitoring control system 10.

  Note that the routers 31 and 51 on the IP network 1, the monitoring control system 10 side, and each substation side shown in FIG. 1 are duplicated. Further, the maintenance server 16 in which a master database having the information code and number information of this example as key information is stored is also duplicated.

  FIG. 2 is a diagram for explaining the exchange of information performed using the information code between the higher-level monitoring control system and the lower-level substation information server. 2A shows a supervisory control system 10 of a higher station, a wide area IP network 1, a substation information server 33 of a lower station, an IP network network (substation information LAN) 34 in a substation, and an in-substation equipment 36a of a terminal station. , 36b, 36c are expressed in a hierarchical configuration. FIG. 2B is a diagram showing a configuration of information exchanged between the monitoring control system 10, the substation information server 33, and the substation equipment 36a, 36b, 36c.

  The information code 70 shown in FIG. 2B is key information of a unified database that can be recognized by the monitoring control system 10 and the substation information server 33, and a code that divides the entire power system is assigned. Area division code 71, substation code 72 indicating each substation, equipment code 73 assigned to equipment type units such as main transformers, phase adjusters, and outlets in each substation, and the corresponding equipment Machine code 74, an extension code 75 for equipment recognition, and a device code 76 for identifying a switch type, 43SW type, relay type, TM (telemeter) type, etc., based on, for example, JE1090 The By assigning the codes in this way, the code configuration is good for humans and easy to manage.

  Further, the number information 80 managed in pairs with the information code 70 is key information of a unified database that can be recognized by the monitoring control system 10 and the substation information server 33, like the information code 70. The substation number 81 and the equipment in the substation are represented by serial numbers (substation serial number 82). Further, a flag 83 added to the number information 80 is information indicating an operation state indicating whether the facility / device is in operation or is stopped.

  In this system, the information code 70 and the number information 80 are processed as fixed information, and the flag 83 is processed as variable information. The maintenance server 16 manages the fixed information, and the other servers monitor the fixed information and the variable information, and perform predetermined control according to the monitoring result.

  An application example of the above information code and number information will be described in association with the hierarchical structure shown in FIG. First, in the host supervisory control system 10, a database using these information code 70 and number information 80 as key information is created and stored in the maintenance server 16. Then, the created database is distributed to the substation information server 33 via the wide area IP network 1. The lower substation information server 33 receives a database having the information code 70 and the number information 80 as key information from the IP network 1, and the upper station (monitoring control system 10) and the lower station (substation information server 33). Centralize the database.

  When the database needs to be changed, the monitoring control system 10 operates the maintenance server 16 to change the database, for example, and then distributes the change information from the maintenance server 16 to the substation information server 33. The database distribution from the supervisory control system of the upper station to the substation information server of the lower station in FIG. 2A is performed to the substation information servers of all substations under management.

  The lower substation information server 33 transmits information indicating the operation / stopped state of the devices 36a, 36b, 36c in the substation to the monitoring control system 10 with the flag 83 added to the number information 80. The supervisory control system 10 changes the process of the supervisory control system 10 according to the flag state added to the number information 80 received via the wide area IP network 1. For example, when control of a device is required due to the flag state, the device control information is transmitted from the monitoring control system 10 and the substation information server 33 that has received the device control information is transmitted to the control target device in the substation. Control based on

  As shown in FIG. 2B, the information code 70 includes an area division code 71, a substation code 72, an equipment code 73, a machine code 74, an extension code 75, and a device code 76. However, using each code excluding the device code 76, upload the specific information such as the rated value, impedance, etc. possessed by the substation facility / equipment to the substation information server. It is transmitted to the control system 10. Then, the transmitted information is accumulated and centrally managed as maintenance information for the equipment in operation. As a result, unified management of the electric station specific information becomes possible.

  Next, online automatic recognition matching will be described. With the flag 83 added to the number information 80 in FIG. 2 (B), it becomes possible to grasp the operational state of the facility / equipment. The operation will be described with reference to FIG.

  First, as described with reference to FIG. 2, in the monitoring control system 10, a database having the information code 70 and the number information 80 as key information (fixed information) is created, and each server in the monitoring control system 10, for example, information The data is distributed to the input / output server 15, the monitoring control server 17, the command console PC servers 19a and 19b, and the peripheral device information server 20 (S1). At the same time, the created database is distributed via the IP network 1 to the substation information server of each substation of the subordinate station, in the example of FIG. 3, the substation information server 33 (S2). To unify.

  When the flag 83 added to the number information for a certain facility / equipment is “0” (in operation), the facility / equipment is in operation from the monitoring control system 10 and all substation information servers under its management. (Online status) is recognized.

  On the other hand, when the flag 83 is “1” (stopped), the facility / device is recognized as a facility / device that is not in operation (offline state) in the monitoring control system 10. For example, when a facility / equipment is additionally installed in a substation, the record of the facility / equipment is added to the master database of the maintenance server 16 of the monitoring control system 10, and at this time, a flag “1” is given as an initial value, Recognized by each server. In this case, in the substation information server 33, it is treated as a facility / equipment under test, and is recognized as a state in which the test can be performed in the substation.

  In order to recognize that the corresponding facility / equipment for which the flag 83 is “1” (stopped) is in operation, the monitor operates the information providing terminal 37 (see FIG. 1) to change the facility / device 36a. Designation is performed, and an instruction for matching is given to the supervisory control system 10 at the operation start timing (S3). Then, the automatic recognition matching information, that is, the number information 80 indicating that the information code 70 and the flag 83 are in operation is sent from the substation information server 33 to each server via the information input / output server 15 of the monitoring control system 10. Sent.

  When each server receives the automatic recognition matching information sent from the substation information server 33, the information of the corresponding equipment / device 36a is identified by the information code, and the flag 83 added to the number information 80 held in pairs is set to “ It drops to 0 "(in operation) and is recognized as official number information, and the database in each server is updated. By this operation, the facility / device 36a is recognized as being in operation (online state) in the monitoring control system 10.

  That is, the monitoring control system 10 that receives the number information 80 to which the information code 70 and the flag 83 are added identifies the corresponding equipment / device, and sets the flag 83 added to the number information 80 in operation (online). recognize. Thus, the database number information 80 created in the monitoring control system 10 is used in cooperation with each other in the monitoring control system 10 and each facility / equipment in a plurality of substations. As a result, information linkage is realized based on the number information between the monitoring control system 10 and the substation information server, and between the substation information server and the facilities / equipment in the substation. It is unified by.

  The above-described flag 83 can be effectively used, for example, when synchronizing with the operation start time of the facility / equipment. With reference to FIG. 4, the specific example which synchronizes with the operation start time of an installation and an apparatus is demonstrated. FIG. 4 shows an example of equipment in a substation.

In substations 30 shown in FIG. 4, V to transform the voltage obtained electric power generated by the power plant 60 transmission to have V ₁ instep busbar and V ₁ Otomo line, the V ₁ instep busbar and V ₁ Otomo line trans TR1 to connect to the ₂ upper bus and _{V 2} Otomo line, TR2, composed of the transmission line 2L and _{V 2} instep busbar and _{V 2} Otomo to transmitting the power obtained from the line transmission line 1L. Circuit breakers CB11 and CB12 and CB21 and CB22 are installed on the primary and secondary sides of the transformers TR1 and TR2, respectively. Also, _{V 2} Jia bus, _{V 2} Otomo line and transmission line 1L, between the transmission line 2L, respectively breaker CB111 and CB211 are installed. Further, the _{V 2} Otomo line, facilities are added via a breaker CB212. This equipment configuration is schematically shown and is different from the actual equipment configuration of the substation.

Figure downstream of breaker CB212 installed in V ₂ Otomo line shown in 4 Consider the case of installing the equipment and facilities. At present, if the circuit breaker CB212 is open (stopped), the circuit breaker is disconnected from the bus (power system), so that it is possible to safely perform additional construction and trial operation of facilities / equipment below the CB212. Since the circuit breaker CB212 is open for this facility / equipment, it is recognized that the circuit breaker CB212 and the corresponding facility / equipment in the unified database in the power system monitoring control system are stopped, and the flag information is both “1”.

  Next, if the newly installed equipment / equipment is tested, if it is satisfactory, the operation is entered as the next stage. The monitor closes the circuit breaker CB212, operates equipment / equipment provided below the circuit breaker CB212, operates the information providing terminal 37, and instructs the substation information server 33 to start operation S3 (see FIG. 3). ). Then, an information code 70 and number information 80 (fixed information) for specifying the equipment / device and a flag 83 (variable information) indicating that the facility is in operation (= 0) are transmitted from the substation information server 33 to the monitoring control system 10. Is done. Therefore, since the database of the monitoring control system 10 is updated simultaneously with the operation of the facilities and equipment in the substation, it is possible to synchronize the operation start time of the equipment and equipment between the upper station and the lower station. Of course, the same effect can be obtained by applying the same method when the facility / equipment is changed from being operated to being stopped.

  According to the example of the above-described embodiment, since the number information is adopted between the supervisory control system and the substation facilities / equipment, the channel number required in the conventional transmission device such as IP-TC, Recognition of word numbers and bit numbers becomes unnecessary. Furthermore, by introducing this information code system, maintenance input of all server databases is performed by the database maintenance function of the host supervisory control system, and this information code and number information are given in pairs. It becomes possible to grasp the power system state in a state synchronized with the start of operation of the field equipment. In addition, by adopting such an information code system, it is possible to centrally manage transmission positions.

  Furthermore, the monitoring control system and the substation information server can realize the transition from off-line to off-line of the flag information of the equipment / devices belonging to each substation while continuously performing on-line operation.

It is a figure which shows the example of a connection structure of the monitoring control system which is one embodiment of this invention, and a substation information server. It is a figure which shows the example of application of the information code system used in the example of one embodiment of this invention, and number information. It is a figure where it uses for description of the example of one embodiment of this invention. It is a figure where it uses for description of the example of one embodiment of this invention. It is a block diagram of an example of the conventional electric power system monitoring control system.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... IP network, 10 ... Monitoring control system, 15 ... Information input / output server, 16 ... Maintenance server, 17 ... Monitoring control server, 19a, 19b ... Command console PC server, 20 ... peripheral device information server, 30, 50 ... substation, 33 ... substation information server, 34 ... substation information LAN, 36a, 36b, 36c ... substation equipment (Equipment), 70 ... Information code, 71 ... Area division code, 72 ... Substation code, 73 ... Equipment code, 74 ... Unit code, 75 ... Extension code, 76 ..Device code, 80 ... number information, 81 ... substation number, 82 ... substation serial number, 83 ... flag

Claims (8)

A power system monitoring and control system for monitoring and controlling equipment and devices arranged for each of a plurality of blocks constituting the power system,
Fixed information that stores fixed information consisting of information codes obtained by coding the facilities and equipment of the power system based on the configuration of the power system, and number information obtained by numbering the equipment and equipment for each block of the power system according to a predetermined rule Information storage means, control means for performing control for monitoring and controlling the state of the equipment and equipment of the power system based on the fixed information, and communication for generating the control information, and communication for transmitting the control information to a communication network A monitoring control device comprising means;
Communication means connectable to the communication network; equipment storage means for storing fixed information comprising the information code and the number information; and the equipment under management based on the control information from the monitoring control device, An electric power system monitoring control system comprising an equipment management device comprising equipment control means for controlling equipment. The information code includes an area division code indicating a unit obtained by dividing the power system, a substation code indicating a substation, an equipment code indicating an equipment type, an equipment code indicating an equipment number, an extension code for equipment recognition, and an equipment. It consists of a device code to identify
2. The power system monitoring and control system according to claim 1, wherein the number information includes a substation number, a facility number in the substation, and a serial number in the substation that indicates a serial number of the equipment. While adding flag information representing the state of the equipment and equipment to the number information,
An information providing means is provided in the facility equipment management device,
When the operation state of any facility or device in the facility device management apparatus is changed, the operation state change information is transmitted from the information providing unit to the facility device storage unit according to an operation instruction, and the facility device storage unit performs the monitoring control. The power system monitoring and control system according to claim 1, wherein flag information corresponding to the fixed information is added to the device and transmitted. Specific information on the equipment and equipment managed by the equipment management device obtained from the area division code, substation code, equipment code, unit code, and extension code of the information code is monitored and controlled from the equipment management device. The power system monitoring and control system according to claim 2, wherein the power system monitoring and control system is transmitted to the apparatus. An information management method for centrally monitoring and controlling facilities and equipment arranged for each of a plurality of blocks constituting an electric power system,
In the monitoring and control apparatus, the fixed system is composed of an information code obtained by coding the facilities and devices of the power system based on the configuration of the power system, and number information obtained by numbering the facilities and devices for each block of the power system according to a predetermined rule. Remember information,
The fixed information is transmitted to the equipment management device via a communication network,
In the facility equipment management apparatus, the fixed information including the information code and the number information is received and stored. The information code includes an area division code indicating a unit obtained by dividing the power system, a substation code indicating a substation, an equipment code indicating an equipment type, an equipment code indicating an equipment number, an extension code for equipment recognition, and an equipment. It consists of a device code to identify
The information management method according to claim 5, wherein the number information includes a substation number, a facility number in the substation, and a serial number in the substation that indicates a serial number. Add flag information indicating the state of the equipment and equipment to the number information,
When the operation state of any facility or device of the facility equipment management device is changed, the operation state from the information providing unit to the facility device storage unit is determined by an operation instruction to the information providing unit provided in the facility device management apparatus. Send change information,
The information management method according to claim 5, wherein the facility device storage unit transmits the flag information corresponding to the fixed information in addition to the fixed information. Specific information on the equipment and equipment managed by the equipment management device obtained from the area division code, substation code, equipment code, unit code, and extension code of the information code is monitored and controlled from the equipment management device. The information management method according to claim 6, wherein the information management method is transmitted to a device.

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