JP2807339B2 - Distribution system control system - Google Patents

Description

The present invention relates to a distribution system control system for controlling a distribution system.

B. Summary of the Invention The distribution system control system of the present invention comprises a distribution system having a switch for connecting or disconnecting a distribution line, a higher system connected thereto, and a higher system for monitoring and controlling the higher system. A first storage unit connected to the configured power system and configured to store the accident information received from the upper system by securing a storage area for each accident, and reading the accident information read from each storage area of the storage unit; In the distribution system control system that controls the switch to perform the recovery operation of the accident corresponding to the accident information, the remote monitoring control information transmitted from the upper system (the upper system transmits to each remote substation, etc.) "Failure / abnormality information SV: Supervisory and measurement information TM such as voltage and current TM: Telemeter" required to perform monitoring and control on the control information are hereinafter referred to as SV / TM information.
Second storage means for storing state information indicating the state of the line and the switch estimated from the above, and the transmission equipment before the power failure read from the second storage means when the power failure of the distribution line occurs, the transmission equipment information before the power failure. And a third storage means for storing the data in a storage area corresponding to the distribution line.
By reading the power transmission equipment information before the power failure from the storage area of the storage means, and storing the information together with other accident information in the storage area of the first storage means corresponding to the same accident, The present invention is to read out power transmission facility information before a power failure from a storage area corresponding to an accident, correctly recognize a restoration target, and accurately perform an accident restoration operation of a distribution system.

C. Prior Art In recent years, a distribution system control system has been introduced to automate the operation of the distribution system. The distribution system control system generally refers to a system configured by switches arranged in various parts of a distribution line and a control system for monitoring and controlling them, but in a narrow sense, only the control system is referred to as a distribution system control system. . Here, the control system is referred to as a distribution system control system.

FIG. 4 is a block diagram of a conventional power system provided with this type of distribution system control system. This power system is composed of a higher system 3 and a distribution system 4, and a higher system 2 and a distribution system control system 1 are connected to each other. The upper system 3 is a distribution substation, a substation, and a transmission power system of distribution line CB or higher, and a distribution substation 31 is shown as an example in the figure. The distribution system 4 is a group of distribution lines after the distribution line rising line 5 and is connected to the higher system 3 by this line. Distribution system 4
The distribution line 41 is provided with a main line switch 42 with a remote control function, a link switch 43, and the like as automatic switches for connecting or disconnecting the distribution line 41.

The distribution system control system 1 and the upper system 2, and the upper system 2 and the upper system 3 are connected by communication lines 6 and 7, respectively. The switch of the distribution system 4 and the distribution station 31 are connected by a communication line or a group of distribution line transport equipment (not shown).

The automatic switches such as the main line switch 42 and the link switch 43 are automatically operated on site in accordance with the change of charging / discharging of both sides of the track,
The upper system 2 and the upper system 3 are relayed with the distribution system control system 1 to transmit and receive monitoring control information, thereby being remotely operated.

By the way, when the distribution system operation is classified by purpose, it can be classified into an accident recovery operation, a scheduled stop operation, a load switching operation, an emergency stop operation, and the like. The most important of these operations is the accident recovery operation. Due to the necessity of the operation, when the distribution line is artificially stopped, it is possible to control in advance to reduce the power outage time and the power outage range. However, such control is not possible when a power failure occurs due to an accident. Long-term, widespread blackouts of distribution lines without notice have a tremendous impact on local economic activity or social life. Therefore, a so-called accident restoration operation for quickly restoring a power failure due to an accident is extremely important for the distribution system control system.

In order to perform an accident recovery operation, it is first necessary to correctly understand the accident status, such as the time at which the accident occurred, the location where the accident occurred, the type of accident, and the status of the upper system restoration operation. The power outage of the distribution system due to the accident is caused by an accident occurring in the distribution line 41 itself or a power outage of the higher system 3 due to the accident, which spreads. Specifically, the former is, for example, a distribution line accident, and the latter is a bank accident, a power supply accident, or the like.

These accidents are detected by local automatic equipment monitoring and controlling the upper system and the upper system 2, and an accident recovery operation is first performed in the upper system 3. For example, re-closing by a re-closing relay, re-closing, or system switching by remote operation of the host system 2 is performed. The operation of restoring the distribution system 4 starts after these operations are completed. Until this time, the upper system 2 collects information from the equipment group of the upper system 3 including the distribution station 31, edits the accident information into a message format as needed, and transmits it to the distribution system control system 1.
Usually, for one accident, the status of the occurrence of the accident is notified by the accident message of the first report, and the status of the recovery operation in the upper system 3 and the status of the occurrence of the re-accident are notified by the accident messages of the second and third reports. The host system 2 always collects the state of the device group of the host system 3, edits it as SV / TM information, and sends it to the distribution system control system. The distribution system control system 1 recognizes the accident situation based on the information.

D. Problems to be Solved by the Invention A distribution system control system receives an accident message from a host system, extracts accident information, and manages the information for each accident that has occurred. Then, the progress of the accident restoration operation of the upper system is grasped, and the accident restoration operation of the distribution system is executed at an appropriate timing for each accident.

By the way, in order to perform such an accident recovery operation, it is necessary to recognize an object to be recovered. That is, the distribution system control system knows the power transmission range before the accident occurred, and therefore, the section of the distribution line (hereinafter referred to as a line) and the switch that was turned on before the accident occurred. There is a need.

An object of the present invention is to provide a distribution system control system that satisfies such a demand, correctly recognizes a restoration target, and can accurately perform an accident restoration operation of the distribution system.

E. Means for Solving the Problems The distribution system control system of the present invention is connected to a power system configured by a distribution system having a switch for connecting or disconnecting a distribution line, and a higher system connected thereto. A first storage unit that secures a storage area for each accident and stores the accident information received from an upper system that monitors and controls the upper system, and stores the accident information read from the storage area of the storage unit. In a distribution system control system that controls the switch based on information and performs an accident recovery operation of the distribution system, a state estimating unit that estimates a state of a line and a switch from SV / TM information transmitted by the upper system. A second storage unit that stores the state information estimated by the state estimation unit; a third storage unit that stores power transmission facility information before a power failure occurs in the distribution line. A power outage determining means for determining whether or not the power distribution line has failed based on the SV / TM information; and when the power failure determining means determines that the power distribution line has failed, the second storage means First storage control means for reading out the power transmission facility information before the power failure of the power distribution line and storing the information in a storage area of the storage means of the third storage means, and based on the accident information from the host system Distribution line identification means for identifying a distribution line that has been powered down due to an accident; and reading out the power transmission facility information before a power failure from a storage area of the third storage means corresponding to the distribution line identified by the distribution line identification means, And a second storage control means for writing accident information of the accident in which the power distribution line was interrupted into the storage area of the first storage means.

F. Operation The state estimating means is the SV / TM transmitted by the host system.
The state of the line and the switch is estimated from the information and output, and the storage means in FIG. 2 stores this. On the other hand, the power failure determining means determines whether or not the power distribution line has failed based on the SV / TM information. When the power outage determining means determines that the power distribution line has failed, the first storage control means reads out the power transmission facility information before the power failure of the power outage distribution line from the second storage control means, and the power failure occurs. The information is stored in the storage area of the third storage means corresponding to the distribution line.

In addition, the distribution line identification means specifies a distribution line that has lost power due to an accident based on the accident information from the host system, and the second storage control means corresponds to the distribution line specified by the distribution line identification means. From the storage area of the third storage means,
The power transmission equipment information of the distribution line before the power outage is read out, and the accident information of the accident that caused the power outage of the distribution line is stored in the first
In the storage area of the storage means.

The distribution system control system reads the transmission facility information before the power failure of the accident distribution line from the storage area corresponding to each accident in the first storage means, thereby correctly recognizing the restoration target, and performing the accident restoration operation of the distribution system. It can be implemented accurately.

G. Embodiment Next, an embodiment of the present invention will be described. FIG. 1 is a block diagram of an electric power system including the distribution system control system according to the present embodiment. This power system is composed of a higher system 103 and a distribution system 104, and a higher system 102 and a distribution system control system are connected to each other. The distribution system control system 101 and the upper system 102, and the upper system 102 and the upper system 103 are connected by communication lines 106 and 107, respectively, and the upper system 103 and the distribution system 104 are connected to a distribution line rising line.
Connected by 105.

Hereinafter, the upper system 103, the distribution system 104, and the upper system 102 will be described first, and then the distribution system control system 101 will be described in detail. The upper system 103 is a distribution station, a substation, and a transmission power system of distribution line CB and higher,
The figure shows the distribution station 131 as an example. This is a group of distribution lines after the distribution system 104, the distribution line rising line 105. The distribution line 141 of the distribution system 104 is provided with, for example, a main line switch 142 and a link switch 143 as automatic switches for connecting or disconnecting the distribution line 141. These switches and the substation 131 are connected by a communication line or a group of distribution line transport equipment (not shown).
The main switch 142 and the link switch 143 are remotely operated by the distribution system control system 101 to be turned on or off. These switches and the distribution system control system 101 transmit and receive monitoring control information via the upper system 102 and the upper system 103.

The host system 102 monitors and controls the host system 103 through the communication line 107. The host system 102 constantly collects the state of the device group of the host system 103 and transmits the collected state to the power distribution system control system 101 via the communication line 106 using SV / TM information.

When a bank accident, power supply accident, distribution line accident, or the like occurs in the upper system 103 or the distribution system 104, these are detected by local automatic equipment or the upper system 102 that monitors and controls the upper system 103, and first, in the upper system 103, For example, an accident recovery operation such as a reclosing by a reclosing relay, a reclosing, or a system switching by a remote operation of the host system 102 is performed. The accident recovery operation of the distribution system 104 is started after these operations are completed. Until this time, the upper system 102 collects status information from the equipment group of the upper system 103 including the substation 131, edits the accident information into a message format as needed, and
Send to 1.

SV / TM information is edited and sent immediately when the status of the device group changes, but the accident message is edited after waiting for a certain period of time for the status change to be edited.
Sent slightly later than the information.

The host system 102 usually notifies the status of the occurrence of an accident with an accident message of the first report for one accident, and reports the status of the recovery operation and the occurrence of a re-accident in the host system 3 in the accident messages of the second and third reports. To notify. Specifically, the accident message of the first report conveys the date and time of the accident, the accident-related equipment, the equipment status of the related upper system 103, and other information. The accident message of the second and third reports reports the date and time of the accident and the accident. Communicate related equipment, restoration operation status, and other information. The distribution system control system 101 manages accident information based on these accident messages, grasps the state of accident recovery of the upper system 103, and after the accident recovery operation of the upper system 103 is completed, recovers the accident of the distribution system 104. Perform the operation.

Next, the distribution system control system 101 will be described in detail. The distribution system control system 101 includes an accident information management unit 110,
It is composed of a state information management unit 120 and a recovery control unit 115.

First, the accident information management unit 110 will be described. Memory 1
11 is the accident information sent from the host system 102,
It has a plurality of storage areas for storing data separately for each accident. The information search unit 113 is operated by a memory control unit 112 described later.
Each accident information read from 111 and the information extraction unit 1 described later
The accident information from 14 is compared, and the presence or absence of the relationship is determined.

When the information search unit 113 finds related accident information, the memory control unit 112 adds the accident information extracted by the information extraction unit 114 to the same storage area of the memory 111 as the accident information and stores the same. On the other hand, when the information search unit 113 cannot find the relevant accident information, the memory control unit 112 stores the accident information extracted by the information extraction unit 114 in a storage area different from the accident information already stored in the memory 111. To memorize. Note that the memory control unit 112 also has a function related to the memory control unit 123 of the state information management unit 120, which will be described later.

The information extraction unit 114 extracts accident information such as the date and time of occurrence of the accident, the accident-related equipment, the equipment state of the associated higher-order system 103, the status of the recovery operation, and the like from the accident messages of the first to third reports sent from the upper system 102. Is output to the information retrieval unit 113.

Next, the operation of the accident information management unit 110 will be described. If the first accident occurs in the upper system 103, the upper system 1
02 detects this, and sends the accident message of the first report to the distribution system control system 101. Receiving this, the information extraction unit 114 extracts accident information on accident-related equipment and the like at the date and time when the accident occurred. The information retrieval unit 113 receives these, and compares the date and time of occurrence of the accident and the accident-related equipment with each accident information read from the memory 111 through the memory control unit 112.
In this case, since the accident information related to the received accident information is not yet stored in the memory 111, the information retrieval unit 1
13 determines that the information is irrelevant. Memory control unit 11
At this time, 2 receives all the accident information extracted by the information extracting unit 114 from the information retrieving unit 113, and writes them as information of a newly generated accident in the storage area of the memory 111 reserved for the accident.

When another accident occurs in the upper system 103, the upper system 102 similarly detects this and sends a first accident message to the distribution system control system 101. Information extraction unit 1
14 receives this, and extracts accident information such as the date and time of accident occurrence, accident-related equipment, and the like. The information retrieval unit 113 receives this, and records the date and time of the occurrence of the accident, the accident-related equipment and the memory control unit 11.
2 and the accident information read from the memory 111 is compared. In this case, since the accident information of the first accident is stored in the memory 111, the accident information is given to the information retrieval unit 113. These are from different accidents,
Since they are not related, the information search unit 113 determines that the accident information is not relevant. Therefore, the memory control unit 112
Receives the accident information extracted from the information search unit 113, and stores them as information of another newly generated accident in the memory 11
First, a new storage area is secured and stored.

Next, the upper-level system 102
When an informational accident message is transmitted, the information extracting unit 114 receives this message and extracts accident information such as the date and time of occurrence of the accident and accident-related equipment. The information retrieval unit 113 includes the extracted accident occurrence date and time and accident-related equipment, and the memory control unit 112.
Is compared with the accident information read from the memory 111. Since the accident information of the first accident is stored in the memory 111, when the accident information is given to the information retrieving unit 113, the information retrieving unit 113 associates the date and time of the accident of these two accidents and the accident-related equipment. It is determined. Since it is determined that the accident information is related, the memory control unit 112 uses the other accident information extracted from the accident message as the first accident information in the storage area for the first accident already secured in the memory 111. Add and write. The same processing is performed when the host system sends the third accident message of the first accident, and the accident information is written to the same storage area.

When the host system 102 outputs the accident information of the second report of the second accident, the accident date and time of the accident information and the accident-related equipment are stored in the storage area reserved for the second accident. Since the accident information is related to the read accident information, the accident information is additionally written in the memory 111 in the storage area reserved for the second accident.

On the other hand, if another accident has occurred, the date and time of the accident and the accident-related equipment in the accident information are not related to any accident information already stored in the memory 111. The information is stored in another storage area.

FIG. 2 conceptually shows how the accident information extracted from the accident message is stored in the memory 111. The accident information of the first report of the first accident is stored in the accident information file A which is a storage area reserved for that purpose (a), while the accident information of the first report of the next accident is stored in another storage area. (B). In addition, the accident information of the second and third reports of the second occurrence of the accident is related by the above-mentioned determination of the presence or absence of the relation of the accident information, and is added to the accident information file B (c).

Next, the state information management unit 120 will be described. Memory 1
Reference numeral 21 stores state information indicating the states of the lines and switches constituting the distribution lines of the distribution system 104. On the other hand, the memory 122 stores the line that had been transmitting power before the power failure due to the accident and the switch that was on, that is, the power transmission equipment before the power failure. The memory 122 secures a storage area for each distribution line and stores the information separately.

The state estimating unit 124 receives the SV / TM information transmitted from the host system 102 and detects a state change (for example, ON / OFF of the CB and presence / absence of the bank secondary voltage) related to charging / discharging of the distribution line. Then, the state change of the line and the switch is estimated, and the resulting state information on the state of the line and the switch is output to the memory control unit 123 described later. If the state change detected for a certain distribution line is the direction of a power outage, the state estimating unit 124 also notifies the memory control unit 123 of the fact.
Notify. That is, the state estimating unit 124 functions as a power failure determination unit.

The memory control unit 123 receives the state information from the state estimating unit 124 and writes the state information into the memory 121. When a notification of a power failure is received from the state estimating unit 124, the power transmission facility of the distribution line immediately before the power failure is read from the memory 121, and the storage area secured for each distribution line of the memory 122 as information on the power transmission facility before the power failure. Write to.

The memory control unit 123 is also connected to the memory control unit 112, reads out the contents stored in the memory 122 as necessary, and outputs the read out contents to the memory control unit 112. That is, the memory control unit 112, when the information search unit 113 determines that the accident information is irrelevant and writes the accident information of the newly-occurred accident to the memory 111, the information of the power transmission equipment before the power outage of the distribution line that has failed due to the accident A request is made to the memory control unit 123. At this time, the memory control unit 112 functions as distribution line identification means, identifies the power distribution line that has lost power based on the accident information written in the memory 111, and
Notify 3. Receiving this, the memory control unit 123 reads out the information of the power transmission equipment before the power failure of the power distribution line from the corresponding storage area of the memory 122 and sends it to the memory control unit 112. The memory control unit 112 receives this, and stores it as recovery target information together with accident information relating to the storage area of the memory 111 reserved for the accident. As described above, since the accident message is transmitted from the host system 102 slightly later than the SV / TM information, the memory control unit 112 can receive the information of the power transmission equipment before the power failure already written in the memory 122.

At this time, the memory control unit 112 and the memory control unit 123 function as a memory control unit that reads information of the power transmission facilities before the power failure from the memory 122 and writes the information into a predetermined storage area of the memory 111.

Next, the operation of the state information management unit 120 will be described. The host system 102 constantly collects information from the device group of the host system 103, edits the SV / TM information, and transmits it to the distribution system control system 101. The state estimating unit 124 receives this, and detects a state change related to charging and stopping of the distribution line. Then, the state change of the line and the switch is estimated, and information on the resulting state of the line and the switch is output to the memory control unit 123. At this time, if the detected state change is a power outage, the fact is notified to the memory control unit 123.

The memory control unit 123 receives the information on the state of the distribution line and the switch from the state estimation unit 124 and writes them into the memory 121. Further, when receiving a notification of the power failure from the state estimating unit 124, the information of the power transmission facilities before the power failure of the distribution line having the power failure is read from the memory 121, and these are read out from the memory
Write to the storage area secured for each of the 22 distribution lines. As a result, in the memory 122, information on the power transmission facilities before the power failure of the distribution line in which the power failure has occurred is stored for each distribution line.

On the other hand, the memory control unit 112 determines that the information search unit 113 has no relation to the accident information extracted by the information extraction unit 114 and the accident information stored in the memory 111.
When writing the accident information of a newly generated accident into the memory 111, the memory control unit 123 is notified of the information of the transmission line before the interruption of the distribution line that has been interrupted due to the accident and requests the information to the memory control unit 123. Receiving this, the memory control unit 123 reads out the requested information on the power transmission equipment before the power failure since it is already stored in the memory 122, and sends it to the memory control unit 112. The memory control unit 112 receives this, and stores it as recovery target information together with accident information relating to the storage area of the memory 111 reserved for the accident.

FIG. 3 conceptually shows how the information extracted from the SVTM information is written to the memories 121 and 122 and further written to a predetermined storage area of the memory 111.
The state information on the line and the switch estimated from the SV / TM information is first written into the memory 121. Then, at the time of a power outage, the power transmission equipment before the power outage of the distribution line in which the power outage occurred is read out from the memory 121. In the storage area of the memory 122 secured for each of the distribution lines F _{1 to} Fn. These pieces of information are read by a request from the memory control unit 112, and are stored in a corresponding accident storage area, accident information file A.
Written with the related accident information extracted from the accident message.

The recovery control unit 115 communicates with the memory 11 through the memory control unit 112.
The accident information is read from 1 and monitored, and when the end information of the accident recovery operation of the upper system 103 is written as the accident information, the accident recovery operation corresponding to the storage area is started. That is, the monitoring control information is
2 and the upper system 103 are relayed and sent to, for example, the main switch 142 and the related switch 143 of the distribution system 104, and these are operated to restore the distribution system 104. At this time, the recovery control unit 115
Can read and use the information of the power transmission equipment before the power failure stored in the memory 111 together with various accident information,
Recognition of the restoration target is correct, and the accident restoration operation of the distribution system can be performed accurately.

H. Effects of the Invention As described above, the distribution system control system of the present invention includes a distribution system including a switch for connecting or disconnecting a distribution line, a higher system connected thereto, and monitoring and controlling the higher system. A first storage unit connected to a power system constituted by a higher-level system and configured to store accident information received from the higher-level system by securing a storage area for each accident. In the distribution system control system that controls the switch based on the accident information read out from the accident information based on the accident information, the line and switching estimated from the SV / TM information transmitted by the upper system A second storage means for storing state information indicating the state of the switch, and when a power failure occurs in the distribution line, the line number and the equipment number of the switch before the power failure read out from the second storage means are stored in the power failure. A third storage unit for storing as power transmission facility information in a storage area corresponding to the distribution line, wherein when an accident occurs, the third storage unit corresponding to the distribution line that has lost power due to the accident. The power transmission facility information before the power failure is read from the area and stored together with the accident information related to the storage area of the first storage means corresponding to the same accident.

Therefore, the distribution system control system of the present invention reads out the power transmission equipment information before the power failure from the storage area corresponding to each accident in the first storage means, thereby correctly recognizing the restoration target, and performing the accident restoration operation of the distribution system. It can be implemented accurately.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an electric power system including a distribution system control system according to an embodiment of the present invention. FIG. 2 is a conceptual diagram for explaining how accident information is stored in the embodiment. FIG. 3 is a conceptual diagram for explaining how restoration target facility information is stored in the embodiment, and FIG. 4 is a block diagram showing a power system including a conventional distribution system control system. 101 ... distribution system control system, 106 ... communication line, 110 ... accident information management unit, 111, 121, 122 ... memory, 112, 123 ... memory control unit, 113 ... information search unit, 114 ... information extraction unit, 115 ...
Recovery control unit, 120: Facility information management unit, 124: State estimation unit.

──────────────────────────────────────────────────続 き Continuing from the front page (72) Eiji Hirai, 1 Toshiba-cho, Fuchu-shi, Tokyo Inside the Toshiba Fuchu Plant Co., Ltd. (72) Masaki Shoji 2-1-1, Osaki, Shinagawa-ku, Tokyo Meidensha Co., Ltd. (56) References JP-A-64-43020 (JP, A) JP-A-63-217927 (JP, A) JP-A-63-316623 (JP, A) (58) Fields investigated (Int. Cl. ⁶ , DB name) H02J 3/00-5/00

Claims (1)

(57) [Claims] The present invention relates to a distribution system having a switch for connecting and disconnecting a distribution line, and a distribution system connected to the distribution system. A first storage means for storing a storage area for each of the accidents for each of the accidents, and controlling the switch based on the accident information read from the storage area of the storage means; In a distribution system control system for performing a system accident recovery operation, a state estimating means for estimating a state of a line and a switch from the remote monitoring control information transmitted by the upper system, and the state information estimated by the state estimating means. Second storage means for storing; third storage means for storing power transmission equipment information before a power failure occurs in the distribution line; and power distribution based on the remote monitoring control information. Power outage determining means for determining whether or not the line has failed; and when the power failure determining means determines that the power distribution line has failed, transmitting the power before the power failure of the distribution line having failed from the second storage means. First storage control means for reading facility information and storing the read information in a storage area of the third storage means; distribution line identification means for specifying a distribution line that has been powered down due to an accident based on accident information from the higher-level system; The power transmission facility information before the power outage is read from the storage area of the third storage means corresponding to the distribution line specified by the distribution line identification means, and accident information of the accident that caused the power outage of the distribution line is stored. And a second storage control means for writing to the storage area of the first storage means.