JP2003087974A - Transformer tap control method in distributed monitor control system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a transformer tap control method in a distributed monitor control system which can improve operability and maintenability, by removing extra layout of cable through reception of information among transformers and control devices with a transmission system. SOLUTION: This system is configured with a plurality of controlled stations 2-1,..., 2-n which are connected to control devices 4-1,..., 4-n via respective cables 5 for controlling the monitoring of each facility in a substation, and a control station connected to these controlled station via a transmission system 3. During control of transformer tap, the controlled station 2-1 requests the information required for the tap vertical control propriety determination processing via the transmission system 3 among the controlled stations 2-2,..., 2-n or between the control station 1 and the controlled stations 2-2,..., 2-n, and executes the tap vertical control propriety determination processing in the controlled stations or control station based on the response information from the other controlled stations.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention aims to improve the operability and maintainability by distributing information between a transformer and a control device in a transmission system in a distributed supervisory control system, thereby eliminating extra cable routing. The present invention relates to a transformer tap control method in a distributed supervisory control system.

[0002]

2. Description of the Related Art FIG. 9 is a block diagram showing a conventional distributed supervisory control system. As shown in FIG. 9, in the conventional substation monitoring control system, monitoring control is performed for each line or facility, and independent control slave stations 2 (2-1, 2-2, ... ..- n) are connected by the transmission system 3, and the control master station 1 monitors the entire system.

The control slave station 2 and the control device 4 such as a transformer
Between (4-1, 4-2, ... 4-n in the figure),
It is connected via a cable 5 and exchanges device status information and control information. Regarding the control of the transformer in the substation, the control master station 1 and the transformer control device 6 are connected by the transformer control cable 7 to control the transformer.

In the system having the above-mentioned configuration, when the transformer control of the substation is performed, for example, when the transformer tap up / down control is performed, the control master station 1 sends a control command to the transformer control device 6. After confirming the state of the transformer with the transformer control device 6, the tap up / down control of the transformer is performed.

Although the transformer control device 6 is provided to control the transformer in this way, the control slave station 2 always takes in the state of the transformer and the state of the transformer tap, and the functions are duplicated. is doing. Therefore, the current situation is that the system cost is rising and the equipment inside the substation is increasing. Further, the transformer control cable 7 and the cable 5 from the control device are required, and extra cable routing is performed.

[0006]

On the other hand, in recent years, a monitoring control system for a substation has appeared, which is a distributed digital monitoring control system in which control slave stations are distributed for each facility of the substation. According to this, the control slave station is capable of high-speed information processing and is a system having sufficient reliability.

Therefore, according to the present invention, the transformer tap control is performed by the control slave station, and the information between the transformer and the control device is transmitted and received by the transmission system to eliminate extra cable routing and to improve operability and maintainability. An object of the present invention is to provide a transformer tap control method in a distributed supervisory control system that can be improved.

[0008]

In order to achieve the above object, according to the transformer tap control method in the distributed supervisory control system of the invention of claim 1, supervisory control for each line or facility of the substation is performed. A plurality of control slave stations that are independent for each line, control devices such as transformers that are respectively coupled to these control slave stations, and a control master station that is connected to each of the control slave stations by a transmission system and monitors the entire system When configuring a distributed monitoring control system from the above, when controlling the transformer tap of the control device, the control slave station coupled to this control device, the control slave station information required for tap up / down control availability determination processing. Between the control master station and the control slave station via the transmission system,
It is characterized in that the tap up / down control propriety determination processing is executed in the control slave station or the control master station based on the response information from another control slave station.

According to this transformer tap control method, since the transformer control device can be omitted, it is possible to eliminate the cable used only for transformer control, which improves operability, operability, and maintainability. Can be achieved.

According to the transformer tap control method in the distributed supervisory control system of the invention of claim 2, when the transformer tap is controlled, the control slave station is required for the tap up / down control propriety determination processing via the transmission system. It is characterized by requesting various information from the control master station when the transformer is selected and when the transformer tap control operation is executed.

According to this transformer tap control method, the reliability of the system can be improved.

According to the transformer tap control method in the distributed supervisory control system of the third aspect of the present invention, when controlling the transformer tap, the control slave station is required for the tap up / down control propriety determination processing via the transmission system. It is characterized in that each request for various information is made to a control slave station of a line or equipment required for tap control.

According to this transformer tap control method, the minimum necessary information can be collected through the transmission system, the load on the transmission system can be reduced, and the entire system can be simplified.

According to the transformer tap control method in the distributed supervisory control system of the fourth aspect of the present invention, when controlling the transformer tap, the tap up / down control propriety determination is always made on the basis of the information exchanged by the control slave station. It is characterized in that processing is executed, the result is notified to the control master station, and whether or not the transformer tap operation is possible is displayed.

According to this transformer tap control method, the operation and operability for the operator can be improved.

[0016]

BEST MODE FOR CARRYING OUT THE INVENTION A transformer tap control method in a distributed supervisory control system according to an embodiment of the present invention will be described below with reference to FIGS. 1 to 8. FIG. 1 is a block diagram illustrating a distributed monitoring control system.

In FIG. 1, the distributed supervisory control system performs supervisory control for each line or equipment, and transmits between the control slave stations 2-1, 2-2, ... 2-n independent for each line. Combined by system 3. The entire system is monitored by the control master station 1. Further, the control slave stations 2-1, 2-2, ...
..2-n and control devices 4-1 and 4-2 such as transformers ...
The 4-n are connected via cables 5, respectively, and exchange device status information and control information.

As will be described in detail later, the information necessary for the tap up / down control availability determination processing is transmitted via the transmission system 3,
For example, the control slave station 2-1 issues a request command, and in order to reply other control slave station information, the tap control processing is executed by software processing. When the control slave station 2-1 controls the transformer 4-1 which is a control device connected to the control slave station 2-1, the state and failure information of other transformers and other devices are displayed in the other control slave station 2-.
2, ... Obtained from 2-n. Therefore, control slave station 2-
1 to 2-n are configured as shown in FIG.

That is, as shown in FIG. 2, each control slave station 2
The configurations -1 to 2-n include an input / output processing unit 11, a transformer operation processing unit 12, and a tap up / down control propriety determination processing unit 13, and are connected to a transmission processing unit 14. Here, the input / output processing unit 11 transmits / receives information required for tap up / down control propriety determination processing between the control slave stations as transmission data via the transmission system 3.

The transformer operation processing unit 12 enables tap control of the selected transformer when there is a device selection for the transformer and the tap up / down control propriety determination processing means notifies that tap control is possible. It is a thing.

When selecting a device for a transformer, the tap up / down control permission / inhibition decision processing unit 13 requests the information necessary for the tap up / down control permission / inhibition decision processing to another control slave station when tapping the corresponding control slave station. When the information returned from another control slave station and the predetermined tap operation condition are satisfied, it is determined whether or not the tap up / down control permission / inhibition determination process is established,
The control master station is notified of whether or not the tap up / down control process is established.

FIG. 3 is a block diagram showing an example of the format of transmission data. As shown in FIG. 3, three types of information flow in the transmission system 3 for the tap up / down control permission / inhibition determination processing. The data types are (A) request information 201 and (B) reply information. 202 and (C) tap up / down control availability result information 207.

Request information 201 is (A) a request command for information necessary for the tap up / down control availability determination process. When a tap of a predetermined transformer is selected, the selected control slave station, for example, the control slave station 2-1 obtains information required for tap up / down control availability determination processing of the transformer 4-1. 201 is transmitted to another control slave station 2-2, ... 2-n or the control master station 1. The other control slave stations 2-2, ... 2-n or the control master station 1 that received the request information 201 use the (B) reply information 202 as the reply data of the information necessary for the tap up / down control availability determination processing. It transmits to the control slave station 2-1.

The response information 202 includes control slave station number information 2
03, measurement information 204, failure information 205, and device information 206 are included. Here, control slave station number information 203
Is the individual number information of each of the plurality of control slave stations. The information is a number from 1 to n, and a control slave station of a line or an equipment unit is recognized by this number.

The measurement information 204 is measurement information such as voltage, current and transformer tap value for each line or facility. Further, the failure information 205 is failure information of a line or equipment, in which failure items are sorted bit by bit and 1 is assigned to each bit.
When is entered, it is recognized as a failure, and when 0 is entered, it is recognized as normal.

The equipment information 206 is status information of equipment of a line or equipment, and equipment or equipment items are distributed in bit units. When 1 is entered in the bit, it is recognized as "ON" status, and when 0 is entered. Recognize as "OFF" state.

When such reply information 202 is received,
The control slave station 2-1 performs processing in the tap up / down control availability determination processing unit 13, and transmits (C) tap up / down control availability result information 207, which is the result, to the control master station 1.

The tap up / down control availability result information 207 includes
There are result information 208 and impossible factor information 209. The result information 208 is bit unit information of 0 or 1, and if it is 1, tap up / down control is possible, and if it is 0, tap up / down control is not possible. Further, the impossible factor information 209 is used to sort the factor items in bit units and use the factor as guidance screen display information of the control master station 1 and the control slave station 2-1 when 1 is entered in the bit.

FIG. 4 is a diagram showing a flowchart relating to the transformer operating section 12 in FIG. This transformer operation process is called twice when the transformer is selected and when the control command is output. As shown in FIG. 4, in the transformer operation process S11, it is first determined whether or not the transformer is selected (S1).
2). If the transformer selection is YES, the tap up / down control enable / disable process S1 described in detail in FIG. 5 is executed.

In the case of NO which is not the transformer selection, the processing S13 for judging whether the control command is output is executed, and when it is judged that the control command exists, the tap up / down control enable / disable process S1 is executed again. A process S14 for determining whether tap up / down control is possible or not is performed, and when the condition is satisfied, a tap operation of the transformer is executed in a process S15 of actually performing the transformer operation.

FIG. 5 is a flowchart showing the tap up / down control enable / disable process S1 executed in FIG. As shown in FIG. 5, the control slave station 2-1 performs a tap up / down control enable / disable determination process S2 for the transformer 4-1, and then performs a process S3 for determining whether a tap up / down control enable / disable condition is satisfied. . The tap up / down control availability determination processing S2 will be described in detail later with reference to FIG.

When the tap up / down control enable / disable condition is satisfied, the tap up / down control is possible for the control master station 1 in the tap up / down control enable result output process S5. Output some result.

When the tap up / down control enable / disable condition is not satisfied, in the tap up / down control impossible result output process S4, the control slave station 2-1 cannot perform the tap up / down control with respect to the control master station 1. Will output the result. Further, in the guidance output process S6, the guidance of the reason why the tap up / down control is impossible and the tap up / down control is impossible is output, and then the selection state of the transformer 4-1 is canceled in the transformer selection canceling process S7. .

FIG. 6 shows the control slave station 2 shown in FIG.
The flowchart of tap up-down control propriety determination processing S2 in -1, 2-2, 2-n is shown.

As shown in FIG. 6, when the control slave station 2-1 receives a selection command or a control command for the transformer 4-1 from the control master station 1 via the transmission system, it is necessary for the tap up / down control enable / disable determination processing S2. Other control slave station 2 to obtain various information.
2, ... 2-n, or a request command is transmitted to the control master station 1.

Next, when the control slave station 2-1 receives response information from another control slave station 2-2, ... 2-n or the control master station 1, the control slave station 2-1 enters tap control calculation S24. before,
It is confirmed that there is no device abnormality S22 or transmission system abnormality S23, and if there is no abnormality, transformer tap control calculation S24 is executed.

Further, the tap up / down control condition satisfaction determination S3 is executed from the reply information S21, and if it is satisfied, the tap up / down controllable result output processing S5 is executed and the control master station 1 is notified. If not established, the tap up / down controllable result output process S4 is performed and the control master station 1 is notified. If the control slave station cannot receive the response information S21,
Alternatively, when the device abnormality S22 and the transmission abnormality S23 occur, the tap up / down control impossible result output processing S4 is performed and the control master station 1 is notified.

Although not described in detail, in order to prevent information loss in the transmission system, a method of repeatedly transmitting the same information a plurality of times or a method of always confirming transmission at the time of information transmission It is also possible to provide.

FIG. 7 is an example of a single-line connection diagram screen showing the transformer symbol display when the control master station 1 is normal. As shown in FIG. 7, the transformer symbol 30 on the screen is displayed using the single-line connection diagram that is standardly implemented in the system. In the figure, 32 is a circuit breaker and 33 is a disconnector.

Further, as shown in FIG. 8, it is possible to display a mark indicating that tap control of the transformer is impossible. For example, when the transformer is normal, “green” is displayed, and when transformer tap control is not possible (displayed with reference numeral 31), “red” or “blinking display” is displayed, and the transformer status is displayed on the screen of the control master station 1. It may be displayed.

Next, the operation of the first embodiment of the present invention having the above configuration will be described. In the distributed supervisory control system as shown in FIG. 1, when the tap of the transformer 4-1 which is the control device is controlled by the control master station 1, the control master station 1 controls the control slave station 2-1 as shown in FIG. A selection or control command is sent to.

The control slave station 2-1 which receives this selection or control command requests the other control slave stations 2-2 ... 2-n or the control master station 1 to request information shown in FIG. 201 is transmitted as shown in FIGS. Then, the other control slave stations 2-2 ... 2-n or the control master station 1 that have received the request information 201
Transmits the response information 202 required for the transformer tap control to the control slave station 2-1.

Control slave station 2 which received this reply information 202
-1 performs tap up / down control availability determination processing S2 based on the response information 202, and tap up / down control availability result information 207.
Is transmitted to the control master station 1. When the control master station 1 receives the tap up / down control enable / disable result information 207 and as a result, the tap up / down control is possible, the tap control is executed, and if the tap up / down control is impossible, the operator is informed of the impossible factor. indicate.

As described above, according to the first embodiment of the present invention, the transformer control device and the transformer-dedicated cable from the control master station, which are conventionally required for controlling the transformer, are unnecessary, and the operation is not required. It is possible to improve operability and maintainability. Further, since the result of the tap up / down control propriety determination processing S2 is displayed as guidance, operability and operability for the operator can be improved.

Further, according to the above configuration, the information required for the up / down control propriety determination processing S2 is transmitted and received through the transmission system 3, and the tap up / down control propriety determination processing S is performed by the software processing.
Since step 2 is performed, the labor of the system can be saved and the entire system can be simplified.

Further, at the time of tap up / down control enable / disable determination processing S2, since the method of requesting and transmitting information from the control slave station 2-1 is adopted, the load on the transmission system 3 of the entire system is reduced, and the control controller concerned is reduced. Station 2-1 is another control slave station 2-2 ...
・ It is not necessary to import 2-n equipment status information.

Note that the control master station 1 can monitor the state of the transformer, and if the tap up / down control availability determination process is performed at the time of selecting the transformer device and at the time of executing tap control, the tap control process with high system reliability can be performed. .

Next, a second embodiment of the present invention will be described. The difference from the first embodiment is that the former transmits request information from the control slave station 2-1 to all other control slave stations 2-2 ... 2-n or the control master station 1. On the other hand, the latter is that the control slave station 2-1 transmits the request information 201 to the control slave station of the line or equipment required for tap control, for example, 2-2 and the control master station 1.

The same components as those in the above embodiment are designated by the same reference numerals and the description thereof will be omitted. When controlling the tap of the transformer 4-1 which is the control device of the distributed type supervisory control system from the control master station 1, the control slave station 2-1 which receives the selection or control command receives the line necessary for tap control or The request information 201 is transmitted to the equipment control slave station 2-2 and the control master station 1.

The control slave station 2-2 or control master station 1 required for tap control that has received this request information 201 is required for transformer tap control with respect to the control slave station 2-1 and control master station 1. The reply information 202 is transmitted. Then, the control slave station 2-1 and the control master station 1 which have received the response information 202 respectively perform tap up / down control propriety determination processing S2 (the control slave station and the control master station) based on the response information 202.

According to such a method, the minimum necessary information is transmitted and received to the tap up / down control propriety determination processing S2 via the transmission system 3, and each (the relevant slave station and the control master station) is subjected to the software processing. ), Tap up / down control availability determination processing S
A double check of 2 is performed, which enables labor saving and reliability improvement of the entire system.

Next, a third embodiment of the present invention will be described. In this embodiment, in the distributed supervisory control system, line or facility control slave stations 2-1 ... 2-n
The information including the response information necessary for the tap up / down control permission / inhibition determination processing is always transmitted and received between the control slave stations or between the control slave station and the control master station at a constant cycle via the transmission system 3. There is.

When the transformer tap is controlled from the control master station 1, the tap up / down control propriety determination processing S2 is executed.
-1 or the control master station 1 always determines when necessary and controls the tap of the transformer.

In this way, information is constantly transmitted and received via the transmission system 3, and the tap up / down control propriety determination processing S2 is performed by the software processing so that the control slave station 2-1 or the control master station 1 can be controlled.
In the control slave station 2-1 or the control master station 1
In order to store the information required in the inside, the software in the control slave station 2-1 or the control master station 1 can perform the tap up / down control enable / disable determination process S2 during transformer tap control. .

Therefore, the transformer control device 6 and the transformer-dedicated cable 7 from the control master station, which were conventionally required for controlling the transformer, are not necessary, and the labor and simplification of the entire system can be achieved, and the operability, Operability and maintainability can be improved.

Further, there is an advantage that the control master station 1 can monitor the state of the transformer.

[0057]

As described above, according to the present invention, the transformer control device can be dispensed with, and the cable used only for the transformer control can be deleted. It is possible to improve operability and maintainability.

[Brief description of drawings]

FIG. 1 is a configuration diagram showing a distributed supervisory control system of the present invention.

FIG. 2 is a configuration diagram of a control slave station included in the distributed supervisory control system of FIG.

FIG. 3 is a configuration diagram of transmission data.

FIG. 4 is a flowchart of transformer operation processing means.

FIG. 5 is a flowchart of tap up / down control enable / disable processing.

FIG. 6 is a flowchart of tap up / down control availability determination processing.

FIG. 7 is an explanatory diagram of single-line connection of the transformer symbol displayed at the control master station at a normal time.

FIG. 8 is an explanatory diagram of single-line connection of the transformer symbol at the time of abnormality displayed on the control master station.

FIG. 9 is a configuration diagram showing a conventional distributed monitoring control system.

[Explanation of symbols]

1 control master station 2-1 ... 2-n Control slave station 3 transmission system 4-1 ... 4-n Control equipment (transformer) 5 cables 6 Transformer control device 7 Transformer control cable 11 Input / output processing unit 12 Transformer operation processing unit 13 tap up / down control availability determination processing unit 14 Transmission processing unit 30 transformer symbols 31 Prohibition of transformer operation 32 circuit breaker 33 disconnector 201 request information 202 reply information 203 Control slave station number information 204 measurement information 205 Failure information 206 Device information 207 Tap up / down permission judgment result information 208 Result information 209 Impossible factor information

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Yoshihisa Sumida             No. 1 Toshiba-cho, Fuchu-shi, Tokyo Toshiba Corporation             Fuchu Office F-term (reference) 5G064 AA04 AC05 AC08 BA02 BA07                       CB10 DA02                 5G066 AA09 AE07 AE09 DA01

Claims (4)

[Claims] 1. A plurality of control slave stations independent of each other by monitoring and controlling each line or equipment of a substation, a control device such as a transformer coupled to each of these control slave stations, and each control. When a distributed monitoring control system is configured from a slave station and a control master station that is connected by a transmission system and monitors the entire system, and when controlling a transformer tap of the control device, the control slave station that is coupled to the control device. Request the information necessary for the tap up / down control permission / inhibition determination processing between the control slave stations or between the control master station and the control slave station, and based on the response information from the other control slave stations, A transformer tap control method in a distributed supervisory control system, wherein tap up / down control permission / inhibition determination processing is executed in a control slave station or a control master station. 2. When controlling a transformer tap, the control slave station requests a request for information necessary for tap up / down control permission / inhibition determination processing via the transmission system when the control master station selects the transformer and when the transformer is selected. The transformer tap control method in the distributed supervisory control system according to claim 1, wherein each request is made at the time of executing the transformer tap control operation. 3. When controlling a transformer tap, the control slave station sends a request for information required for tap up / down control availability determination processing to a control slave station of a line or equipment required for tap control via a transmission system. The method according to claim 1, wherein
A transformer tap control method in the distributed monitoring and control system according to claim 1. 4. When controlling a transformer tap, a tap up / down control propriety determination process is always executed based on the information transmitted and received by the control slave station, the control master station is notified of the result, and the transformer tap operation is performed. 2. The transformer tap control method in the distributed supervisory control system according to claim 1, wherein whether or not the above is displayed is displayed.