JP2007233567A - Plant monitoring system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To obtain a plant monitoring system that enables a long term tendency monitoring during a plant operation cycle while maintaining a configuration of real-time monitoring. <P>SOLUTION: The system includes: a plant controller 1-1 to input a process value; a process signal input part 1-3 to carry out the input processing of the process value; a plant monitoring part 1-4 to carry out computation and warning processing by using the process value; a screen display part 1-5 to carry out a screen display request to a display unit 1-7; a digitizer 1-6 to input an operation of a user; and a plant data storing part 1-8 to store plant data for a long term. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a plant monitoring system for monitoring the state of a plant such as a nuclear power plant over multiple systems.

In a plant such as a nuclear power plant, a plant monitoring system is employed to monitor many plant devices constituting the plant.
In this plant monitoring system, process data is used, and this process data is used for real-time monitoring. Therefore, plant monitoring is enabled by collecting and displaying short-term data.

FIG. 22 is a functional block diagram showing a schematic configuration of a conventional plant monitoring system.
In FIG. 22, the plant monitoring system receives the process signal S1 from the plant control device 6-1 at the process signal input unit 6-3 through the plant bus 6-2, and further receives the process signal S1 from the process signal input unit 6-3. Is input to the plant monitoring unit 6-4, calculation processing and alarm processing are performed by the plant monitoring unit 6-4, then sent to the screen display unit 6-5, and process data is displayed by the display unit 6-7. Is done.
The screen display request from the user is input from the coordinate input device unit 6-6.

Next, processing functions of the process signal input unit 6-3 and the plant monitoring unit 6-4 will be described with reference to the functional block diagram of FIG.
When the process signal from the plant bus 6-2 is input, the process signal input unit 6-3 stores the process value in the input point database 625 of the plant monitoring unit 6-4 in the process signal input process 621.

The input point database 625 includes process signal numbers and process values.
In the plant monitoring unit 6-4, a calculation process 622 is performed using the process value extracted from the input point database 625.

In the alarm determination process 623, an alarm determination process is performed using a process signal from the input point database 625 or a signal from the calculation process 622.
The resulting screen display data S2 is transmitted to the screen display unit 6-5 in the screen display request processing 624.

  The processing functions of the screen display unit 6-5 are shown in the functional block diagram of FIG. The operator requests a screen necessary for monitoring from the coordinate input device unit 6-6, and the coordinate input process 631 determines the coordinate input position from the requested content and inputs it to the screen display process 632.

In the screen display process 632, the screen number is determined, the screen number is input to the plant monitoring unit 6-4, and screen information is requested.
Various screen information S3 and related process signals extracted from the input point database are input from the plant monitoring unit 6-4, and the display unit 6-7 is requested to display a plant monitoring screen as shown in FIG. (For example, see Patent Document 1)
JP 2002-208212 A

  However, with such a plant monitoring system, the real-time monitoring of the plant is improved. However, in a plant where one cycle operation is one year, such as a nuclear power plant, the process data from the previous cycle operation is The comparison is performed on another data device or compared with a manual record.

In addition, trend monitoring during operation monitors data for about a day using a trend graph, etc., and there is a problem that long-term trends between the real-time monitoring and the plant operation cycle cannot be monitored simultaneously.
Therefore, an object of the present invention is to provide a plant monitoring system capable of monitoring a long-term tendency between plant operation cycles while maintaining a real-time monitoring configuration.

  In order to achieve the above object, the plant monitoring system of the present invention includes a plant control device for inputting process values, a process signal input unit for executing process value input processing, and calculation processing and alarm processing using the process values. A plant monitoring unit to be implemented, a screen display unit for executing a screen display request to the display unit, a coordinate input unit for inputting a user operation, and a plant data storage unit for storing plant data, To do.

  According to the plant monitoring apparatus of the present invention, it is possible to monitor a long-term tendency between plant operation cycles while maintaining a real-time monitoring configuration.

Hereinafter, an embodiment of a plant monitoring system according to the present invention will be described with reference to the drawings.
FIG. 1 is a functional block diagram illustrating functions of the plant monitoring system according to the first embodiment of the present invention. In FIG. 1, reference numeral 1-1 denotes a plant control device. A process signal input unit 1-3 to which a process signal S1 is input from the runt control device 1-1 through a plant bus 1-2, and the process signal S1. Monitoring unit 1-4 for performing calculation processing and alarm processing using the screen, a screen display unit 1-5 for requesting display of the plant state, and a display unit 1-7 for displaying the plant monitoring screen And a coordinate input device unit 1-6 for requesting screen selection and a plant data storage unit 1-8.

  In the plant monitoring system according to the present embodiment configured as described above, the process signal S1 from the equipment constituting the plant is processed by the process signal input unit 1-3 via the plant bus 1-2, and the plant monitoring is performed. To the unit 1-4 and the plant data storage unit 1-8.

The plant data accumulating unit 1-8 accumulates the data input from the process signal input unit 1-3 at least once in the plant operation cycle in a regular cycle.
The plant monitoring unit 1-4 performs a calculation process based on a plurality of data input from the process signal input unit 1-3, and compares the process data and the calculation result with a limit value to perform an alarm determination.

The screen display unit 1-5 displays the process data input from the plant bus 1-2 to the display device unit 1-7 in real time in response to a data display request from the coordinate input device unit 1-6.
Further, the screen display unit 1-5 displays the past process data input from the plant data storage unit 1-8 in response to the stored data display request from the coordinate input device unit 1-6 via the plant monitoring unit 1-4. Display to part 1-7.

Next, detailed processing functions of the plant data storage unit 1-8 will be described with reference to the functional block diagram of FIG.
The plant data storage unit 1-8 includes an event determination process 121, a request reception process 122, a data search process (123), and a data transmission process (124).

The process signal input unit 1-3 in the process signal unit inputs the process signal S1 from the plant bus 1-2 and stores instantaneous data in the input point database of the plant monitoring unit 1-4.
Furthermore, the process signal S1 is input to the event determination process 121 of the plant data storage unit 1-8.

  In the event determination process 121, a predetermined event (plant operation, alarm, etc.) determination is performed, and time information is set in the long-term monitoring event data database 126 when a corresponding event occurs.

  The detailed contents of the long-term monitoring event data database 126 are shown in FIG. Each data item is composed of an event type, an event name, and an occurrence time. The event type / event name is registered as fixed information, and the occurrence time is set as variable information.

The process data is set in the long-term monitoring process data database 125 in association with the event type number.
The detailed contents of the long-term monitoring process data database 125 are shown in FIG. The long-term monitoring process data database 125 includes process signal numbers, input times, process values, and event types, all of which are variable information.

The process signal information is accumulated in time series for each operation cycle. When an event occurs, the process signal information is registered in association with the event.
Details of the contents of the event determination process 121 are shown in the flowchart of FIG. In the event determination process 121, the process signal is input 151, a logic determination process 152 for generating various events registered in the long-term monitoring event data database 125 is performed, and the event signal is registered in the long-term monitoring event data database 126. 153.

In addition, event type information is added to the process data near the occurrence event time 154, and the information is registered in the long-term monitoring process data database 125 155.
Regarding the display of accumulated data, a data request from the plant monitoring unit 1-4 is received by the request receiving process 122, and the data requested by the data search process 123 is retrieved from the long-term monitoring process / event data database and extracted. To do.
The result is input to the data transmission process 124 and transmitted to the requesting plant monitoring unit 1-4.

  Thus, according to the present embodiment, process data is input from the plant control device 1-1 via the plant bus 1-2, and the plant data storage unit 1-8 via the process signal input unit 1-3. By inputting the process data to, long-term accumulated data can be displayed on the display unit 1-7 via the plant monitoring unit 1-4.

As is clear from the above, in the plant monitoring system according to the present embodiment, long-term data accumulation is possible by the plant data accumulation unit 1-8, and past process data is displayed on the plant display unit for one cycle or more. Process data can be displayed in units.
Thereby, the plant state corresponding to the event can be monitored in a cross-section.

  In addition, by accumulating data over a long period (1 cycle or more), it is possible to perform operations while comparing with the plant state at the previous cycle even during operation such as plant start / stop. Trend monitoring is possible.

Next, a plant monitoring system according to a second embodiment of the present invention will be described with reference to the functional block diagram of FIG.
In the following description of the embodiment, the same parts as those in the first embodiment are denoted by the same reference numerals, and detailed description thereof is omitted.

  In FIG. 6, the present embodiment is different from the first embodiment in that the plant data storage unit 2-1 to which interface processing with other device units is added and the long-term data from the plant data storage unit 2-1. And a data management device unit 2-2 that can arbitrarily display data, output a form, and store data, and a data management input / output device unit 2-3 that performs screen display processing and form output processing.

  In the present embodiment configured as described above, the plant data storage unit 2-1 stores a long-term monitoring process / event database, obtains data from outside the plant monitoring apparatus, and performs data analysis and the like. In response to the storage data request from the management device unit 2-2, the storage data is transmitted to the data management device unit 2-2.

The data management device unit 2-2 that has received the stored data outputs a screen / form relating to the obtained process data to the data management input / output device unit 2-3 in a user-specified format.
In addition, the acquired stored data is stored in a unique format so that it cannot be edited by being taken out to the outside.

  The detailed processing contents of the plant data storage unit 2-1 are shown in the functional block diagram of FIG. The functions added in the present embodiment are a data access process 231 for receiving a request for accumulated data from the data management device unit 2-2 and, as a result, data transmission for transmitting the accumulated data to the data management device unit 2-2. It consists of processing 232.

  In the data access processing 231, when there is a request for accumulated data, security authentication is performed, and the login user name, login time, access time, etc. of the data management device unit 2-2 at the time of authentication are stored in the access log.

  When the authentication is completed in the data access process 221, the long-term monitoring process / event data database is transmitted to the data management apparatus unit 2-2 in the data transmission process 222.

Next, detailed processing contents of the data management device unit 2-2 and the data management input / output device unit 2-3 are shown in a flowchart of FIG.
The data management device unit 2-2 includes a data request reception process 231, a data access process 232, a data reception process 233, and a data output process 234.

  Data request acceptance processing 231 is executed for request signal screen display, printing, and file saving from the data management input / output device section 2-3, and input to the data access processing 232. In the data access process 232, a request for stored data is made to the plant data storage unit 2-1.

The stored data from the plant data storage unit 2-1 is received by the data reception process 233.
The received data is a temporary file and is deleted if there is no user request for a certain period of time. The received data is input to the data output process 234.

As for the data display specification, the output format of the format corresponding to the user stored in the access history is extracted from the user definition file, the screen is displayed on the data management input / output device section 2-3, and the form is output.
Further, the file is stored in the plant data storage unit 2-1 in a unique file format, which makes it difficult to edit the data even when it is taken out to the outside.

Thus, according to the present embodiment, data access from outside the plant monitoring device to the plant data storage unit 2-1 is performed from the data management device unit 2-2 managed by the user.
When data access is performed to the plant data storage unit 2-1, access to process data can be restricted by performing security authentication.

Also, security is ensured by storing the access history (user name, access time, etc.).
Further, the data management device unit 2-2 can read the definition file of the corresponding user based on the access history, and display data / form output to the data management input / output device unit 2-3 in the format set by the user. .

Saving data makes it difficult to edit the saved data in a unique file format that can only be read by dedicated software.
As is clear from the above, in the plant monitoring system according to the present embodiment, data access to the outside of the plant monitoring apparatus is centrally managed by storing the access history, leading to suppression of data falsification.

Furthermore, even if data is extracted from the storage server and saved, it is difficult to edit the data by saving it in a unique file format that can only be read by dedicated software.
Thereby, the transparency and reliability of the process data stored and extracted in the plant data storage unit can be ensured.

  The data output is output / saved in a user-defined file format defined in advance by the access history, and the data monitored / extracted for each user can be obtained immediately.

Next, a plant monitoring system according to a third embodiment of the present invention will be described with reference to the functional block diagram of FIG.
In FIG. 9, in addition to the first embodiment, the present embodiment is a plant data storage unit 3 to which processing for adding related information of stored data and notifying the outside is added when an event occurs is added. -1; an external notification mail storage / transfer device unit 3-2 for storing a mail notification document and transferring it to a corresponding external terminal; and an external terminal 3-3 for receiving the transferred mail notification. The

In the present embodiment configured as described above, the plant data storage unit 3-1 detects an event, and when the event occurs, adds related process information to the mail and transmits the mail to the target user. To do.
The external notification mail storage / transfer device unit 3-2 stores the mail notification information and transfers it to the corresponding external terminal 3-3.

The detailed processing contents of the plant data storage unit 3-1 are shown in the functional block diagram of FIG.
The plant data storage unit 3-1 includes an event trigger detection process 321, a mail document creation process 322, and a mail document transmission process 323.

The event trigger detection processing 321 searches the event data database for long-term monitoring stored in the plant data storage unit, and periodically monitors the occurrence of events.
When an event corresponding to mail transmission occurs, the mail document creation process 322 is notified.
In the mail document creation process, the relevant process information is read from the process data database for long-term monitoring, and the user to be sent when the event occurs is extracted from the mail transmission database to create a mail document.

The detailed contents of this mail transmission database are shown in FIG.
The mail transmission database is composed of monitoring Gr, time, mail address, and event type. When an event occurs, the mail address of the monitoring Gr to be transmitted is extracted from the time of occurrence / type of event (a transmission destination is selected according to importance). The extracted mail address is copied to the mail document, and the mail document is created.
When the mail document is created, it is input to the mail text transmission process 323 and transmitted to the external notification mail storage / forwarding unit 3-2.

FIG. 12 shows the detailed processing contents of the external notification mail storage / transfer apparatus unit 3-2.
The external notification mail storage / transfer device unit 3-2 includes a mail storage processing unit 341 and a mail transfer processing unit.

The notification mail transmitted from the mail storage processing unit is stored in the mail database by the mail storage processing unit 341.
The mail document is transferred by the mail transfer processing unit 342 in response to a transfer request from the external terminal.

As described above, according to the present embodiment, an event is detected by the plant data storage unit 3-1, and the transmission destination of the external notification extracted based on the related information, the importance level of the event, and the occurrence time is added to the mail document. Can send mail.
The mail is transferred to the external terminal by the external notification mail storage / forwarding unit 3-2.

  As is clear from the above, in the plant monitoring system according to the present embodiment, when an event or the like occurs, it is possible to automatically extract the mail addresses of appropriate parties and immediately notify the outside of the abnormality, and at the time of occurrence By adding past related process information, it is possible to share information between the central control room monitoring the plant and external parties.

Next, a plant monitoring system according to a fourth embodiment of the present invention will be described with reference to FIG.
In FIG. 13, in addition to the first embodiment, the present embodiment is a field device 4-1 that is a source of a process amount on site, a field device relay device 4-2 that relays the process amount, Image processing device 4-3 for extracting image information and sound information on site, sound device 4-4, field device bus 4-6 for transmitting the information, and plant data storage for inputting and storing the data It consists of part 4-5.

  In the present embodiment configured as described above, the field device relay device 4-2, the image processing device 4-3, and the sound device 4-4 connected to the field device 4-1 are the process signal and image signal on the field. The voice signal is input to the plant data storage unit 4-1 via the field equipment bus 4-6.

The plant data storage unit 4-1 classifies plant information and field device information and sets them in each database.
In addition, this information is extracted from the database to determine the state of the field device in a complex manner, and supports the operation management of the field device.

  The detailed processing contents of the plant data storage unit 4-1 are shown in the functional block diagram of FIG. The plant data storage unit 4-1 includes an input information determination process 421, an event determination process 422, and a data transmission process 423.

The information on the field devices from the field device relay device 4-2, the image processing device 4-3, and the sound device 4-4 connected to the field device 4-1 is via the field device bus 4-6. Along with the plant level information, it is input to the process signal unit 1-3 and then to the plant data storage unit 4-1.
Signals input to the plant data storage unit 4-1 are classified into plant level and field device level information by an input information determination process 421.

  In the event determination process 422, event (plant operation, alarm, etc.) that is set in advance at both the plant level and the on-site equipment level is determined, and if a corresponding event occurs, it is registered in the event data database.

Process data is registered in the process data database after adding related event information.
After using this database to determine the state of field equipment in a complex manner, it is registered in the field equipment management support database.

Details of the event determination processing 422 are shown in the flowchart of FIG.
The detailed contents of the field device event data database and the field device process data database are shown in FIGS.

The field device event data database includes event types, event names, occurrence times, image file names, and audio file names.
The occurrence process 431 of the event occurrence at the field device level is performed, and when the event occurs, the occurrence time, the image file name and the audio file name at that time are registered in this database 432.

  The field equipment process data database includes field equipment process signal numbers, times, process values, field equipment level event types, and plant level event types. The field device process information is registered, and the field device level event information and the plant level event information are added and registered (processing 433 and processing 434).

Using these databases, the operation of the field device is determined in a complex manner (process 435). The result is registered in the field device management support database (process 436). An example of the composite determination logic is shown in FIG.
The composite determination logic includes an image, sound, field process, and plant process information. In the example, the operating state of the valve of the auxiliary pump is determined.

Analyzes the valve operating state based on the image information of the auxiliary pump main valve in the field, analyzes the valve operating state based on the vibration measurement results around the valve based on the audio information, and further identifies the on-site process value and the main pump activation information at the plant level. The preparation status of the on-site valve is determined in a complex manner, and the result is registered in the on-site equipment management support database.
In the “data transmission process (423)”, the database is transmitted to the “data management device unit (2-2)” and displayed on the “data management input / output device unit (2-3)”.

  As described above, according to the present embodiment, the data of the field device 4-1 is transmitted to the field device bus 4-6 by the field device relay device 4-2, the image processing device 4-3, and the sound device 4-4, After registering in the field equipment level database in the plant data storage unit 4-1, the operation state of the field equipment is determined in combination and registered in the field equipment management support database. By transmitting the result to the data management device unit 2-2, it is possible to assist in grasping the operation state of the field device.

As is clear from the above, the plant monitoring system according to the present embodiment can centrally manage the information on the field equipment level and can comprehend the situation at the field.
Further, by combining with process-related information at the plant level, long-term cooperative monitoring / recording between the plant plant level and the equipment level becomes possible.

Next, a plant monitoring apparatus according to a fifth embodiment of the present invention will be described with reference to the functional block diagram of FIG.
In the present embodiment, the process signal flow, plant monitoring, and screen display processing are substantially the same as those in the first embodiment.

  In FIG. 19, in addition to the first embodiment, the present embodiment is a plant data storage section 5-1 that supports the creation of data to be disclosed, and a data management apparatus section 5-2 that changes and confirms the data. And a data disclosure display unit 5-3 for publicly releasing the data.

In the present embodiment configured as described above, the plant data storage unit 5-1 detects the occurrence of an event to be disclosed based on the input / accumulated process information, and creates data for disclosure.
The data management unit 5-2 can change / confirm the data. The data disclosure display unit 5-3 displays the disclosure data.

The detailed contents of the plant data storage unit 5-1 are shown in the functional block diagram of FIG.
The plant data storage unit 5-1 includes a public event occurrence detection process 521, a public data creation process 522, a public data notification process 523, a public data change / update process 524, and a public data transmission process 525.

An occurrence event is extracted from the event data database, and it is determined from the public event setting information whether the event information is public level.
If the event is a public level event, the process data is copied to the data public database, and information at the time of event occurrence is input to the public data creation process 522.

In the public data creation process 522, based on the data, the public case material is searched, and if there is similar public data, the public data is created by entering the data value input using the data as a template. Even if there is no similar public data, public data is created based on the default template.
The public data is input to the public data notification process 523 and notified to the data management device unit 5-2.

The change request / confirmation request from the data management device unit 5-2 is changed and updated in the public data change / update process 524, and is input to the public data transmission process 525.
In the public data transmission process 525, after registering the public data in the public case material, it is transmitted to the data public display unit 5-3 to update the public data.

The detailed contents of the data management unit 5-2 are shown in the functional block diagram of FIG.
The data management unit 5-2 includes a notification reception process 531 and a data item change / confirmation process 532 in addition to the process of the third modification of the third modification.

A public data creation notification is received from the plant data storage unit 5-1, and is input to the data item change / confirmation processing 532 after reception processing in the notification reception processing 531.
In the data item change / confirmation processing 532, data is output to the data management input / output device section 2-3 by the data output processing 223, and a request signal from the data management input / output device section 2-3 is sent to the “data request acceptance processing 221”. After the processing, the data item change / confirmation processing 532 processes the change contents and confirmation contents and inputs them to the data access processing 222.
The data access process 222 saves the history to the plant data storage unit in the access log, and transmits the changed content and the confirmation content to the plant data storage unit 5-1.

As described above, according to the present embodiment, the occurrence of the public level event is detected by the plant data storage unit 5-1, and the public material is created based on the past public case material.
The contents are transmitted to the “data management device section (5-2)”, and after the change and confirmation processing is performed by the user, the public data is transmitted to the data disclosure display device section 5-3 and is disclosed.

  As is clear from the above, the plant monitoring system according to the present embodiment can automatically detect the occurrence of a public event and support the creation of data to be published based on the data at the time of detection. In addition, the public data item can be arbitrarily changed without modifying the device.

The functional block diagram which shows the plant monitoring system by the 1st Embodiment of this invention. The functional block diagram explaining the process of the plant data storage part of the plant monitoring system by the 1st Embodiment of this invention. Explanatory drawing for demonstrating the event data for long-term monitoring of the plant monitoring system by the 1st Embodiment of this invention. Explanatory drawing for demonstrating the process data for long-term monitoring of the plant monitoring system by the 1st Embodiment of this invention. The flowchart for demonstrating the function of the event determination process part of the plant monitoring system by the 1st Embodiment of this invention. The functional block diagram which shows the plant monitoring system by the 2nd Embodiment of this invention. The functional block diagram explaining the process of the plant data storage part of the plant monitoring system by the 2nd Embodiment of this invention. The functional block diagram explaining the process of the data management apparatus part / data management input / output apparatus part of the plant monitoring system by the 2nd Embodiment of this invention. The functional block diagram which shows the plant monitoring system by the 3rd Embodiment of this invention. The functional block diagram explaining the process of the plant data storage part of the plant monitoring system by the 3rd Embodiment of this invention. Explanatory drawing for demonstrating the mail transmission data of the plant monitoring system by the 3rd Embodiment of this invention. The functional block diagram explaining the process of the external notification mail storage / transfer apparatus part by the 3rd Embodiment of this invention. The functional block diagram which shows the plant monitoring system by the 4th Embodiment of this invention. The functional block diagram explaining the process of the plant data storage part of the plant monitoring system by the 4th Embodiment of this invention. The flowchart for demonstrating the function of the event determination process part of the plant monitoring system by the 4th Embodiment of this invention. Explanatory drawing for demonstrating the event data for field equipment of the plant monitoring system by the 4th Embodiment of this invention. Explanatory drawing for demonstrating the process data for field equipment of the plant monitoring system by the 4th Embodiment of this invention. Explanatory drawing for demonstrating the composite determination logic of the plant monitoring system by the 4th Embodiment of this invention. The functional block diagram which shows the plant monitoring system by the 5th Embodiment of this invention. The functional block diagram explaining the process of the plant data storage part of the plant monitoring system by the 5th Embodiment of this invention. The functional block diagram explaining the process of the data management apparatus part of the plant monitoring system by the 5th Embodiment of this invention. The functional block diagram which shows the conventional plant monitoring system. The functional block diagram explaining the process of the process signal part / plant monitoring part of the conventional plant monitoring system. The functional block diagram explaining the process of the screen display part of the conventional plant monitoring system. Explanatory drawing explaining the screen of the plant monitoring apparatus of the conventional plant monitoring system.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1-1 ... Plant control apparatus, 1-2 ... Plant bus, 1-3 ... Process signal input part, 1-4 ... Plant monitoring part, 1-5 ... Screen display part, 1-6 ... Coordinate input device part, 1 -7 ... display device unit, 1-8 ... plant data storage unit, 2-1 ... plant data storage unit, 2-2 ... data management device unit, 2-3 ... data management input / output device unit, 3-1 ... plant Data storage unit, 3-2 ... mail storage / forwarding unit, 3-3 ... external terminal, 4-1 ... field device, 4-2 ... field device relay device, 4-3 ... image processing, 4-4 ... sound Device, 4-5 ... Plant data storage unit, 4-6 ... Field equipment bus, 5-1 ... Plant data storage unit, 5-2 ... Data management device unit, 5-2 ... Data disclosure display device unit, 6-1 ... Plant controller, 6-2 ... Plant bus, 6-3 ... Process signal part, 6-4 ... Plan Monitoring unit, 6-5 ... the screen display unit, 6-6 ... coordinate input device unit, 6-7 ... display unit.

Claims (5)

  A plant control unit that inputs process values, a process signal input unit that performs process value input processing, a plant monitoring unit that performs calculation processing and alarm processing using the process values, and a screen display request to the display unit A plant monitoring system comprising: a screen display unit for performing operation, a coordinate input device unit for inputting a user operation, and a plant data storage unit for storing plant data.   A plant data storage unit for processing and managing access to the stored data, a data management unit for access management, display and form output operation with the plant data storage unit, and a data management input / output unit The plant monitoring system according to claim 1, comprising:   A plant data storage unit that creates and sends a mail document together with related process information when an unexpected event / alarm occurs, and a mail storage / transfer device unit that stores the sent mail and forwards it to the user to be received The plant monitoring system according to claim 1, further comprising: an external terminal that receives mail.   In addition to data input from the plant bus, connected to the field equipment, the field relay device that processes the process value, the image processing device that processes the image information, the voice processing device that processes the voice information, and details of those sites The plant monitoring system according to claim 1, further comprising a plant data storage unit that inputs and stores data via a field device bus. It has a data disclosure display device section for public disclosure, a data management device section for selecting, changing and adding data items to be disclosed, and a plant data storage section for supporting creation of public data, The plant monitoring system according to claim 1.

Images