JP2012135138A - Remote supervisory control system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain a remote supervisory control system that enables system generation information of a supervisory control device related to another supervisory control device to be automatically changed, when system generation information of the other supervisory control device is changed.SOLUTION: When system generation information (for test) 56 in a slave station remote supervisory control device A5 is changed by a maintenance device 6, an automatic reflection processing part 53 notifies an automatic reflection processing part 13 in a master station remote supervisory control device 1, system generation information (for test) 16 in the master station remote supervisory control device 1 is changed, the changed system generation information (for test) 56 and 16 is checked using simulation by respective simulation processing parts 54 and 14, and the system generation information (for test) 56 and 16 is copied onto system generation information (for operation) 55 and 15 respectively when the simulation results are excellent.

Description

  The present invention relates to a remote monitoring and control system for setting and changing system generation information that defines a signal for remotely monitoring and controlling a plant.

In a conventional remote monitoring control apparatus, setting and changing work of system generation information such as transmission signal definition is performed for each monitoring control apparatus. For this reason, when a transmission signal addition or the like occurs, it is necessary to perform a setting change operation of the system generation information in each of a plurality of monitoring control devices.
Patent Document 1 describes that a system parameter is changed by a simulator, the simulator is logged in to the apparatus, and if there is no problem in the change as a result of the simulation, the change information is downloaded to the corresponding apparatus.

Japanese Patent Laid-Open No. 5-41882 (pages 3-5, FIG. 1)

In the conventional remote monitoring control device, the system generation information is set / changed individually for each monitoring control device. Therefore, the monitoring control device related to the system generation information set / changed by a certain monitoring control device is also changed individually. There was a problem that it was necessary.
In Patent Document 1, although change information for a certain device can be confirmed by a simulator, it is necessary to separately change the related device.

  The present invention has been made to solve the above-described problems, and when the system generation information is changed in a certain monitoring control device, the system generation information of the monitoring control device related to the monitoring control device. The purpose is to obtain a remote monitoring and control system that can automatically change this.

  The remote monitoring and control system according to the present invention is a remote monitoring and control system for monitoring and controlling a plant from a distance by referring to system generation information that defines data input and output to and from equipment constituting the plant. A plurality of slave station remote monitoring and control devices that respectively process data input and output to and from the equipment constituting the plant, and the slave station remote monitoring and control device connected to the slave station remote monitoring and control device via a communication line A master station remote monitoring and control device that monitors and controls the plant by inputting and outputting data to and from the control device, and the slave station remote monitoring and control device includes a storage device that stores system generation information used by itself A slave station side automatic reflection processing unit for notifying the master station remote monitoring control device of correction of the system generation information when the system generation information is corrected, The control device includes a storage device that stores system generation information used in its own device and system generation information used in all slave station remote monitoring and control devices, and a slave station remote monitoring and control device notified by the slave station side automatic reflection processing unit And the master station side automatic reflection processing unit for correcting the corresponding part of the system generation information of the own apparatus based on the notification of the correction of the system generation information.

As described above, the present invention is a remote monitoring and control system for monitoring and controlling a plant from a distance with reference to system generation information that defines data input and output between devices constituting the plant. A plurality of slave station remote monitoring and control devices that respectively process data input and output to and from equipment constituting the plant, and the slave station remote monitoring and control device connected to the slave station remote monitoring and control device via a communication line By providing data to and from the device, it is provided with a master station remote monitoring and control device that monitors and controls the plant, and the slave station remote monitoring and control device includes a storage device that stores system generation information used in its own device, A slave station side automatic reflection processing unit that notifies the master station remote monitoring and control device of correction of the system generation information when the system generation information is corrected. Of the system generation information used in the mobile station and the storage device storing the system generation information used in all the slave station remote monitoring control devices, and the correction of the system generation information of the slave station remote monitoring control device notified by the slave station side automatic reflection processing unit The base station side automatic reflection processing unit that corrects the corresponding part of the system generation information of its own device based on the notification of the master station, when the system generation information is changed in the slave station remote monitoring control device The system-generated information of the monitoring control device can be automatically changed.

BRIEF DESCRIPTION OF THE DRAWINGS It is a whole block diagram which shows the distant monitoring control system by Embodiment 1 of this invention. It is a functional block diagram which shows the remote monitoring control system by Embodiment 1 of this invention. It is a flowchart which shows the change process of the system generation information of the remote monitoring control system by Embodiment 1 of this invention. It is a figure which shows the system generation information of the slave station remote monitoring control apparatus A of the remote monitoring control system by Embodiment 1 of this invention. It is a figure which shows the system production | generation information of the slave station remote monitoring control apparatus B of the remote monitoring control system by Embodiment 1 of this invention. It is a figure which shows the system production | generation information of the master station remote monitoring control apparatus of the remote monitoring control system by Embodiment 1 of this invention. It is explanatory drawing explaining the automatic reflection function of the system generation information of the remote monitoring control system by Embodiment 2 of this invention. It is a flowchart which shows the change process of the system generation information of the remote monitoring control system by Embodiment 2 of this invention. It is explanatory drawing explaining the automatic reflection function of the log information of the remote monitoring control system by Embodiment 3 of this invention. It is a flowchart which shows the log information change process of the slave station remote monitoring control apparatus of the remote monitoring control system by Embodiment 3 of this invention. It is a flowchart which shows the change process of the log information of the master station remote monitoring control apparatus of the remote monitoring control system by Embodiment 3 of this invention.

Embodiment 1 FIG.
FIG. 1 is an overall configuration diagram showing a remote monitoring control system according to Embodiment 1 of the present invention.
In FIG. 1, the remote monitoring control system has a manned master station facility and an unmanned slave station facility.
The master station equipment having the master station remote monitoring control device 1 is installed in a place having a center function such as a water station. An operator remotely monitors and controls plant facilities scattered over a wide area by the master station remote monitoring control device 1 using the large display device 2a, the monitor device 2b, and the like.
In addition, the water distribution plant facilities in the water supply include a pump station, a distribution reservoir, a water pressure monitoring station, a water quality monitoring station, etc., which are scattered within the water supply range of the water supply station. The slave station facilities are installed for each of these water distribution plant facilities, and are usually automatically operated unattended.
In the example of FIG. 1, the slave station remote monitoring control device A5 is installed in a pump station of the slave station equipment.
The slave station remote monitoring and control device B7 is installed in the reservoir of the slave station equipment.
The slave station remote monitoring and control device A5 and the slave station remote monitoring and control device B7 are supplied with contact data of digital signals and analog information of instruments from the field equipment.
Below, what defines these contact data and analog information of instruments is called system generation information.

The master station remote monitoring and control device 1 and each slave station remote monitoring and control device are connected by a communication line 4 such as an NTT analog dedicated line, and transmit / receive plant facility monitoring / control signals.
In order for a certain slave station facility to operate automatically, a plant signal of another slave station facility may be required, and the necessary signal is transferred via the master station remote monitoring control device 1.
In the example of FIG. 1, the “reservoir water level” signal of the slave station remote monitoring and control device B7 is necessary to automatically control the water pump of the slave station remote monitoring and control device A5. For this reason, the master station remote monitoring control device 1 that has collected the distribution reservoir water level signal from the slave station remote monitoring control device B7 transfers it to the slave station remote monitoring control device A5.

FIG. 2 is a functional configuration diagram showing the remote monitoring control system according to Embodiment 1 of the present invention.
2, 1, 4, and 5 are the same as those in FIG. The host computer facility 2 is a facility including the large display device 2a and the monitor device 2b shown in FIG. 1, and is connected to the master station remote monitoring control device 1. A maintenance device 3 for correcting the system generation information of the master station remote monitoring and control device 1 is disposed in the master station remote monitoring and control device 1, and the slave station remote monitoring and control device A5 includes a slave station remote monitoring and control device. A maintenance device 6 for correcting the system generation information of A5 is arranged.
The master station remote monitoring and control device 1 is a computer having a storage device and is configured as follows.
The host computer communication processing unit 11 communicates with the host computer facility 2. The data processing unit 12 exchanges data with the slave station remote monitoring control device A5, refers to the system generation information (for operation) 15, transmits to the host computer communication processing unit 11, and monitors to the field equipment・ Data processing to input / output control signals is performed. The automatic reflection processing unit 13 (master station side automatic reflection processing unit) automatically performs reflection on the system generation information 16 stored in the own device based on the system generation information sent from the remote station remote monitoring control device A5.

The system generation information (for test) 16 has system generation information of all the slave station facilities including its own device. When the system generation information of the slave station remote monitoring control device is changed, the automatic reflection processing unit 13 It is automatically changed.
The simulation processing unit 14 performs simulation on the changed system generation information (for testing) 16 when the system generation information of the remote station remote control device is changed or when the system generation information of the own device is changed. To determine whether the reflection is good or bad. Here, in the case of good, the system generation information (for operation) 15 is updated by the system generation information (for test) 16 and used for actual operation.
The system generation information (for testing) 16 and the system generation information (for operation) 15 are in a database and are stored in a storage device.
The communication processing unit 17 communicates with the slave station remote monitoring control device A5 via the communication line 4.

The slave station remote monitoring control device A5 is a computer having a storage device, and is configured as follows.
The input / output processing unit 51 exchanges signals with field equipment. This signal includes a contact signal of input digital information and analog information of instruments, and a control signal output to field equipment.
Based on the input signal from the input / output processing unit 51, the data processing unit 52 refers to the system generation information (for operation) 55 of its own device, performs data processing, and sends the control signal to the input / output processing unit 51. Output to on-site equipment. In addition, data is exchanged with the master station remote monitoring and control device 1.
The automatic reflection processing unit 53 (slave station side automatic reflection processing unit), when the system generation information (for test) 56 of its own device is corrected, in order to reflect in the master station remote monitoring control device 1, the remote control station It transmits to the monitoring control device 1.

The system generation information (for test) 56 is the system generation information of the own device, and is corrected by the maintenance device 6.
The simulation processing unit 54 performs a simulation when the system generation information (for testing) 56 of the own device is changed, and determines whether the reflection is good or bad. Here, in the case of good, the system generation information (for operation) 55 is updated by the system generation information (for test) 56 and used for actual operation.
The system generation information (for test) 56 and the system generation information (for operation) 55 are in a database and are stored in a storage device.
The communication processing unit 57 performs communication with the communication processing unit 17 of the master station remote monitoring control device 1 via the communication line 4.

  FIG. 3 is a flowchart showing the system generation information changing process of the remote monitoring control system according to the first embodiment of the present invention.

FIG. 4 is a diagram showing system generation information of the slave station remote monitoring control device A of the remote monitoring control system according to the first embodiment of the present invention.
In FIG. 4, the database structure of the system generation information of the slave station remote monitoring and control apparatus A is shown. Each field will be described. The station number 21 is a number indicating its own device. The data type 22 is a type of data of the system generation information, and includes measurement data, contact data, and the like. The item name 23 is the name of the system generation information. The measurement item 24 indicates the range and unit of data when the data type 22 is measurement data. The display item 25 has a display method and an alarm type. In the display method, there are D indicating that it is a status signal such as operating or stopped, and A indicating a failure. The corresponding device is displayed with a color change, and in the case of A, the corresponding device is flickered and a buzzer is sounded. The affected station number 26 indicates the slave station remote monitoring control device related to the system generation information by the station number.

FIG. 5 is a diagram showing system generation information of the slave station remote monitoring control apparatus B of the remote monitoring control system according to the first embodiment of the present invention.
In FIG. 5, it is the database structure of the system generation information of the slave station remote monitoring and control apparatus B, and 21 to 26 are the same as those in FIG.

FIG. 6 is a diagram showing system generation information of the master station remote monitoring control device of the remote monitoring control system according to the first embodiment of the present invention.
FIG. 6 shows the database structure of the system generation information of the master station remote monitoring and control apparatus 1, and in addition to the system generation information unique to the master station remote monitoring and control apparatus 1 indicated by the station number 00, the slave station remote monitoring and control apparatus A system generation information of A and system generation information of the remote monitoring control device B of the slave station.
In FIG. 6, 21 to 23 are the same as those in FIG. The upper transmission 27 defines whether or not to transmit to a large display device or a monitor device connected to the master station remote monitoring and control device 1.

Next, the operation will be described.
In any slave station remote monitoring and control apparatus, when the system generation information is set / changed by the maintenance apparatus, the system generation information of the master station remote monitoring and control apparatus 1 is also automatically changed.
For example, when the system generation information of the child station remote monitoring control device A5 is set / changed, the system generation information of the parent station remote monitoring control device 1 which is the opposite communication destination is automatically changed.
Details will be described below.

During normal operation, data from the field equipment (water level, failure signal, etc.) is input to the slave station remote monitoring control device A5, and after performing data processing such as data verification and error check, the master station remote monitoring control device 1 Sent to.
The master station remote monitoring and control device 1 processes the data transmitted from the slave station remote monitoring and control device A5, and then outputs the processed data to the host computer facility 2 such as the large display device 2a and the monitor device 2b.
The master station remote monitoring and control device 1 and the slave station remote monitoring and control device A5 have system generation information including data type, item name, measurement item and the like for each data input from the field facility. The system generation information is stored in the system definition database of each device.

Each device such as the master station remote monitoring control device 1 and the slave station remote monitoring control device A5 constituting the system performs data processing while referring to the system generation information. For this reason, when a change occurs in the field equipment (for example, scale change of water level signal, addition / deletion of signal), it is necessary to correct the system generation information.
Conventionally, for this reason, when there is a change in on-site equipment, an operator is assigned to all devices that generate corrections to system-generated information, and after each system-generated information is manually corrected, an operation check test is performed. Was.
In the present invention, the following operation procedure is used in order to greatly simplify the procedure for performing the operation check test after manual setting / change in each device.

Next, processing when the system generation information is corrected in the slave station remote monitoring control apparatus A5 will be described with reference to FIGS.
When a change occurs in the field equipment, the maintenance device 6 is connected to the slave station remote monitoring control device A5, and the system generation information (for testing) 56 of the slave station remote monitoring control device A5 is corrected (S1).
Next, in accordance with the change of the system generation information (for test) 56 of the slave station remote monitoring control device A5, the automatic reflection processing unit 53 of the slave station remote monitoring control device A5 performs automatic reflection processing of the master station remote monitoring control device 1. The modification of the system generation information of the slave station remote monitoring control device A5 is notified to the unit 13 (S2).
Next, the automatic reflection processing unit 13 of the master station remote monitoring control device 1 automatically corrects the system generation information (for test) 16 of the master station remote monitoring control device 1 (S3).

Next, after the correction of the system generation information (for test) 16 of the master station remote monitoring control device 1 is completed, the maintenance device 6 manually operates the activation of the simulation processing unit 54 of the slave station remote monitoring control device A5 ( S4).
The simulation processing units 54 and 14 of the slave station remote monitoring control device A5 and the master station remote monitoring control device 1 check whether or not an error occurs in both system generation information in cooperation (S5).
In this simulation, each slave station remote monitoring and control apparatus performs simulation on the system generation information of its own apparatus, and the master station remote monitoring and control apparatus 1 performs simulation on the system generation information of its own apparatus and related slave stations. The relevance of the system-generated information between remote monitoring control devices is also checked by simulation.
In this check, for example, the scale value of the water level signal is corrected from 0 to 5 m to 0 to 3 m in the slave station remote monitoring and control apparatus A5, but in the system generation information (for testing) 16 of the master station remote monitoring and control apparatus 1 Since 0 to 5 m was not corrected, a mismatch occurred and an error occurred.
In other words, in this simulation, all the devices execute the simulation on the system generation information of their own devices all at once.

If the result of the simulation processing is OK depending on the presence or absence of an error (S6), the contents of the system generation information (for testing) of the slave station remote monitoring and control device A5 and the master station remote monitoring and control device 1 are displayed as the respective system generation information. Copy to (for operation) (S7).
If the simulation result is NG, the contents of the system generation information (for test) of the slave station remote monitoring and control device A5 and the master station remote monitoring and control device 1 are discarded (cleared) (S8) and the process ends.
Note that when copying the system generation information (for testing) to the system generation information (for operation), it is necessary to execute the slave station remote monitoring control device A5 and the master station remote monitoring control device 1 at the same time. It has a function that automatically executes at the next hour (eg, next hour, next day).

  According to the first embodiment, when the system generation information of the slave station remote monitoring and control device A is corrected, it is automatically reflected in the system generation information of the master station remote monitoring and control device, and after confirming the operation by simulation, the operation is performed. By using it, it is possible to prevent an error due to a mismatch.

Embodiment 2. FIG.
FIG. 7 is an explanatory diagram for explaining the automatic reflection function of the system generation information of the remote monitoring control system according to the second embodiment of the present invention.
In FIG. 7, 1 to 6, 13 to 17, and 53 to 57 are the same as those in FIG. In FIG. 7, the slave station remote monitoring control device B 7 is connected to the communication line 4. The slave station remote monitoring control device B7 has the same configuration as the slave station remote monitoring control device A5, and includes an automatic reflection processing unit 73, a simulation processing unit 74, system generation information (for operation) 75, and system generation information ( And a communication processing unit 77.

  FIG. 8 is a flowchart showing processing for changing the system generation information of the remote monitoring control system according to the second embodiment of the present invention.

Next, the operation will be described.
In the second embodiment, not only the opposite master station remote monitoring control apparatus 1 but also the slave station remote monitoring control apparatus A5 which is the other slave station apparatus is set / changed in the system generation information of the slave station remote monitoring control apparatus B7. It is about the case where it spreads to.
In this case, the system generation information of the slave station remote monitoring control device A5 is also automatically changed via the master station remote monitoring control device 1.

If the system generation information of a certain slave station remote monitoring and control device is changed, it may affect other slave station remote monitoring and control devices. However, since the slave station remote monitoring control devices cannot communicate directly with each other, conventionally, it has been necessary to manually correct the system generation information for each slave station remote monitoring control device.
In the example of FIG. 7, correction of the system generation information has occurred in the slave station remote monitoring control device B7. In this case, conventionally, the slave station remote monitoring control device B7, the master station remote monitoring control device 1, the slave station It was necessary to dispatch operators to three locations of the remote monitoring control device A5.
For example, assume that the scale of the reservoir water level is changed in the slave station remote monitoring control device B7, and the reservoir water level scale 0-5m in the system generation information of the slave station remote monitoring control device B7 is corrected to 0-3m.
The slave station remote monitoring and control device A5 automatically controls the start / stop of the water pump according to the reservoir water level (starts at low water level and stops at high water level). The scale needs to be corrected at the same time.

  In the present invention, when the system generation information of a certain slave station remote monitoring control device is corrected, the system generation information of other remote monitoring device is automatically corrected via the master station remote monitoring control device, and Since it is configured to execute the simulation processing for all the remote monitoring control devices of the master station and the remote monitoring control device of the slave station in which the system-generated information correction has occurred, only one operator is required.

Next, a process when the system generation information of the slave station remote monitoring controller A5 is automatically corrected when the system generation information of the slave station remote monitoring controller B7 is corrected will be described with reference to FIG.
The maintenance device 6 is connected to the slave station remote monitoring control device B7, and the system generation information is corrected (S11). At this time, in the system generation information of the data to be corrected, the slave station remote monitoring control device A5 is registered as the inter-linkage. (See the affected station number 26 in FIG. 5)
In accordance with the correction of the system generation information of the slave station remote monitoring control device B7, the automatic reflection processing unit 73 of the slave station remote monitoring control device B7 is remote from the automatic reflection processing unit 13 of the master station remote monitoring control device 1. The correction of the system generation information of the monitoring control device B7 is notified (S12).

The automatic reflection processing unit 13 of the parent station remote monitoring control device 1 corrects its own system generation information (for test) 16 and automatically reflects the child station remote monitoring control device A5 registered as “related destination”. The correction is notified to the unit 53 (S13).
In response to this, in the slave station remote monitoring and control apparatus A5, the automatic reflection processing unit 53 corrects its own system information (for test) 56. When this correction is completed, the automatic reflection processing unit 53 notifies the automatic reflection processing unit 13 of the remote monitoring control apparatus 1 of the master station, and corrects this part of the system generation information (for testing) 16 based on the correction content. (S14).

After all the system-generated information is corrected, the maintenance device 6 manually operates the activation of the simulation processing unit 74 of the slave station remote monitoring control device B7 (S15).
Based on this, the simulation processing units of the slave station remote monitoring control device B7, the master station remote monitoring control device 1, and the slave station remote monitoring control device A5 cooperate to check whether there is an error in the system generation information ( S16).
If the result of the simulation process is OK depending on whether there is an error (S17), the contents of the system generation information (for testing) of each device are copied to the system generation information (for operation) (S18).
If the simulation result is NG, the contents of the system generation information (for test) of the slave station remote monitoring control device B7, the master station remote monitoring control device 1, and the slave station remote monitoring control device A5 are discarded (cleared) (S19). )finish.

  When copying the system generation information (for testing) to the system generation information (for operation), the slave station remote monitoring control device B7, the master station remote monitoring control device 1, and the slave station remote monitoring control device A5 are executed simultaneously. Since it is necessary, it is assumed that each device has a function of automatically executing at a predetermined time (e.g., next hour and next day).

  According to the second embodiment, when the system generation information of a certain remote station remote monitoring control device is corrected, the system generation information of other remote remote station monitoring control devices is also automatically obtained via the parent remote monitoring control device. Because it is configured to execute simulation processing for all the master station remote monitoring control devices and slave station remote monitoring control devices that have been modified and the system generation information change has occurred, there is no need to dispatch an operator to each field facility, Only one operator needs to be present.

Embodiment 3 FIG.
The third embodiment relates to a case where the processing statuses of the master station remote monitoring control device and all the slave station remote monitoring control devices constituting the system are recorded as log information.
FIG. 9 is an explanatory diagram for explaining the log information automatic reflection function of the remote monitoring control system according to the third embodiment of the present invention.
9, 1-6, 11-13, 17, 51-53, 57 are the same as those in FIG. Log information 18 which is a record of the data processing status of all the devices is stored in the database of the storage device in the master station remote monitoring and control device 1, and the same contents as the log information 18 are stored in the slave station remote monitoring and control device A5. Log information 58 is stored in the database. The log information 18 and the log information 58 are the same, and include a record of the data processing status of all the devices (the master station remote monitoring control device and the slave station remote monitoring control devices A to N) constituting the system.
As a result, the log information of all devices can be referred to by any device.

  FIG. 10 is a flowchart showing log information change processing of the slave station remote monitoring control device of the remote monitoring control system according to the third embodiment of the present invention.

  FIG. 11 is a flowchart showing log information changing processing of the master station remote monitoring control apparatus of the remote monitoring control system according to the third embodiment of the present invention.

Next, the operation will be described.
The remote monitoring and control device of the master station and all remote monitoring and control devices of the slave stations log the status of processing executed by the data processing unit, communication processing unit, input / output processing unit, host computer processing unit, automatic reflection processing unit, etc. It has a function of automatically recording information in a predetermined log file.
Conventionally, since log information of each device is stored for each device, only the log information of the own device can be referred to. For this reason, when it is necessary to refer to log information of a plurality of devices in system failure analysis or the like, it is necessary to go to each site and collect log information individually.
In the present invention, it is possible to refer to the log information of all the devices at one place by implementing a mechanism in which the remote monitoring control device of the master station and all the remote monitoring control devices of the slave stations can hold the same log information. Is.

Next, the log information changing process changed by the slave station remote monitoring control device will be described with reference to FIG.
First, when the log information 58 is changed in the slave station remote monitoring control device A5, the log information 58 of the own device is corrected (S21). Next, the automatic reflection processing unit 53 notifies the automatic reflection processing unit 13 of the parent station remote monitoring control device 1, and the automatic reflection processing unit 13 holds the child station remote monitoring control device held in the parent station remote monitoring control device 1. The log information 18 of A5 is corrected (S22).
Further, by the notification from the automatic reflection processing unit 13, the log information of all remote monitoring control devices other than the slave station remote monitoring control device A5 is also processed by the automatic reflection processing unit of each slave station remote monitoring control device. The log information of the remote station remote control device A5 held is corrected (S23).

Next, the log information changing process changed at the master station will be described with reference to FIG.
When the log information 18 of the master station remote monitoring control device 1 is corrected, the log information 18 of the own device is corrected (S31). Next, the automatic reflection processing unit 13 notifies the automatic reflection processing unit of the all child station remote monitoring control device, and the master station remote monitoring held by the own device by the processing of the automatic reflection processing unit of the all child station remote monitoring control device The log information of the control device 1 is corrected (S32).
As a result, log information having the same contents is stored in the master station remote monitoring control device 1 and all the slave station remote monitoring control devices. For this reason, the log information of all devices can be browsed in any device.

  Since log information changes frequently, the automatic reflection processing unit can set the timing for notifying other devices. (Example: Every hour, every day, etc.)

  According to the third embodiment, the log information of the same contents is stored in the remote monitoring control device of the master station and the remote monitoring control device of all the slave stations, so that the log information of all devices can be viewed from any device.

DESCRIPTION OF SYMBOLS 1 Master station remote monitoring control apparatus 2 Host computer equipment 3 Maintenance apparatus 4 Communication lines 5 and 7 Slave station remote monitoring control apparatus 11 Host computer communication processing part 12 Data processing part 13 Automatic reflection processing part 14 Simulation processing part 15 System generation information (For operation)
16 System generated information (for testing)
17 Communication processing unit 18 Log information 51 Input / output processing unit 52 Data processing unit 53, 73 Automatic reflection processing unit 54, 74 Simulation processing unit 55, 75 System generation information (for operation)
56,76 System generated information (for testing)
57, 77 Communication processor 58 Log information

Claims (4)

A remote monitoring control system that monitors and controls the plant from a distance with reference to system generation information that defines data that is input and output with the equipment that constitutes the plant,
A plurality of slave station remote monitoring and control devices that respectively process data input and output with the equipment constituting the plant,
And a remote station monitoring and control unit connected to the remote station monitoring and control unit via a communication line, and monitoring and controlling the plant by inputting and outputting data to and from the remote station monitoring and control unit. ,
The slave station remote monitoring and control device is
A storage device that stores system-generated information used by the device;
When the system generation information is corrected, the slave station side automatic reflection processing unit for notifying the correction of the system generation information to the master station remote monitoring and control device,
The master station remote monitoring and control device is
A storage device storing the system generation information used in the own device and the system generation information used in the all child station remote monitoring and control device;
Based on the notification of correction of the system generation information of the slave station remote monitoring control device notified by the slave station side automatic reflection processing unit, the master station side automatic reflection processing unit for correcting the corresponding part of the system generation information of the own device; A remote monitoring control system characterized by comprising: When the correction of the system generation information of the slave station remote monitoring control device is related to another slave station remote monitoring control device, the master station side automatic reflection processing unit Notify the modification of system-generated information,
The remote monitoring and control system according to claim 1, wherein the other remote monitoring and control apparatus receiving the notification corrects the system generation information of the own apparatus. The system generation information is divided into test system generation information and operational system generation information.
The modified system generation information is system generation information for testing,
The all slave station remote monitoring and control devices and the master station remote monitoring and control device perform simulation using the test system generation information of their own devices and detect errors in the test system generation information. Each having a simulation processing unit
3. The system generation information for testing of each of the devices is copied to the system generation information for operation when no error is detected as a result of simulation by the simulation processing unit. Remote monitoring control system. Each of the remote station remote monitoring control device and the remote station monitoring control device has the same log information that records the data processing status of all the devices,
When the log information is corrected in any of the remote monitoring control devices of the slave station, the correction of the log information is notified to the remote monitoring control device of the master station by the automatic reflection processing unit on the slave station side,
Receiving this notification, the master station remote monitoring and control device corrects the corresponding part of the log information of its own device by the master station side automatic reflection processing unit, and also sends the log information to the other slave station remote monitoring and control device. The remote monitoring control system according to any one of claims 1 to 3, wherein the correction is notified.

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