JPH05266381A - Plant condition monitoring equipment - Google Patents

Abstract

PURPOSE:To quickly and exactly display the plant condition on a large number of display devices. CONSTITUTION:Plant state supervisory equipment 1 is provided with a plant data receiving device 2 to receive plant data sent from a plant through a transmission line and plural plant data display device 3 connected by a network in order to display received data. The plant data receiving device 2 is provided with each data buffer 24 for display screen installed correspondingly to plural display screens to be displayed on the plant data display device 3, a display data distributing part 22 to select the data required for each display screen and store it in each data buffer for display screen, and a data distributing and transmitting part 27 to take the data of the display screen to be displayed out of the corresponding data buffer for display screen and send it to each plant data display device. Each plant data display device 3 is provided with a means for an operator to designate the display screen.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a display device, and more particularly to a plant condition monitoring device for transmitting plant data via a communication line and displaying a plant condition when remote monitoring is performed using a large number of display devices. Regarding

[0002]

2. Description of the Related Art Even in a conventional plant, plant data is transmitted to a remote place through a communication line for the purpose of safe and efficient operation of the plant, and several types of screens as shown in FIGS. 9 and 10 are displayed as an example. The plant is being monitored. A conventional plant state monitoring device will be described with reference to FIG. The plant state monitoring device 1 is composed of a plant data receiving device 2 and a plurality of, for example, three plant data display devices 3. Here, the plant data receiving device 2 includes a plant data receiving unit 20, a received data buffer 21, and a data distribution / transmitting unit 27. The plant data receiving unit 20 periodically receives a large amount of data sent from the plant and temporarily stores it in the reception data buffer 21, and the contents of this reception data buffer 21 are rewritten with new data each time it is received. To go. Data distribution transmitter 27
Periodically distributes and transmits all the data stored in the reception data buffer 21 to each of the three plant data display devices using another line. Data transmission to the plant data display device was performed serially one by one. The data received by each plant status display device 3 is 3
The platform is the same.

FIG. 15 is a block diagram of the plant data display device 3, which is a screen switching request unit 31, a data receiving unit 32, a data buffer 33, and a screen data selecting / collecting unit.
34, screen data buffer 35, fixed display data storage section 36,
It is composed of a moving image processing unit 37, a display screen control unit 38, a display device 39, and a data selection information unit 40. Then, the data receiving unit 32 periodically receives all the data sent from the plant data receiving apparatus 2, and temporarily stores it in the data buffer 33. The content of the data buffer 33 is rewritten with new data each time it is received. By the way, the plant status display device 3 creates several kinds of display screens related to the nuclear power plant as shown in FIGS. 9 and 10, and outputs them to the display device 39. The operator selects a screen to be displayed from among several kinds of screens via the dialogue device 50.

The screen switching request unit 31 sends the screen identifier requested by the operator to the screen data selection / collection unit 34. The data selection information section 40 stores information on necessary parameters for each screen. The screen data selection collection unit 34 refers to the contents of the data selection information unit 40, collects the data required for screen display from the data buffer 33, and stores it in the screen data buffer 35. The display fixed data storage unit 36 stores a fixed pattern for each screen as a screen image. The moving image processing unit 37 refers to the screen identifier passed from the display screen control unit 38,
Create the variable part of the screen. The display screen control unit 38 combines the fixed image and the variable unit described above and outputs the screen to the display device 39.

[0005]

In the conventional device, the plant data receiving device 2 and each plant data displaying device 3 are directly connected to the plant data receiving device 2 with one low speed line for each plant data displaying device 3. Because I was doing
The number of plant data display devices 3 that can be connected to one plant data reception device 2 was limited. If a large number of plant data display devices 3 are connected to one plant data reception device 2, the plant data reception device 2 needs to be a large-scale device capable of connecting a plurality of lines. The data distribution / transmission unit 27 is a system that sequentially transmits data to each plant data display device 3, and due to the low speed of the line connecting the plant data reception device 2 and the plant data display device 3, There is a problem that a time difference occurs in the received data between the plant data display devices 3, and as a result, the data consistency cannot be obtained. With the recent development of networks, high-speed processing has become possible by connecting the plant data receiving device 2 and the plant data display device 3 via a network, but if the number of plant data display devices increases,
There is a problem that the amount of data on the network increases and the traffic increases, and if a large number of plant data display devices are connected, smooth operation of the system may be impeded. In addition, each plant data display device requires a capacity to receive all data sent from the plant, which results in high cost. The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a plant state monitoring device that displays a plant state accurately and at high speed on a large number of display devices.

[0006]

In order to achieve the above object, the present invention provides a plant data receiving device for receiving plant data sent from a plant via a transmission line, and a network for displaying the received data. In a plant state monitoring device having a plurality of plant data display device connected by, in the plant data receiving device, each screen data buffer provided corresponding to a plurality of display screens displayed on the plant data display device, A display data distribution unit that selects necessary data for each screen and stores it in each screen data buffer, and extracts the screen data to be displayed from the corresponding screen data buffer and sends it to each plant data display device. It is equipped with a data distribution / transmission unit, and each operator can specify a display screen on each plant data display device. With.

The plant data display device notifies the plant data reception device of the identifier of the display screen designated by the operator. Upon receiving this, the plant data receiving device sends only the data necessary for the screen of the notified identifier to the corresponding plant data display device. This makes it possible to select and reduce the data to be sent to each plant data display device. Therefore, the amount of data on the network is reduced, which enables smooth real-time monitoring.

[0007]

Embodiments will be described below with reference to the drawings. Figure 1
FIG. 15 is a configuration diagram of an embodiment of a plant state monitoring apparatus according to the present invention, in which the same portions as those in FIG. 14 and the corresponding portions are denoted by the same reference numerals. Plant data receiving device 2 in FIG.
Is a plant data reception unit 20, a reception data buffer 21,
The display data distribution unit 22, the distribution information storage unit 23, a plurality of screen data buffers 24, the data transmission control unit 25, the transmission information buffer 26, and the data distribution transmission unit 27. The plant data receiving unit 20 receives data sent from the plant via a communication line in a short cycle (for example, a 10-second cycle),
The reception data buffer 21 stores the parameter identifiers in numerical order. The data transmitted from the plant consists of a parameter identifier and a data value that identify each parameter with a 4-digit code. As in the conventional example, the contents of the reception data buffer 21 are rewritten to new contents each time data is received. As shown in FIG. 4, the reception data buffer 21 stores parameter identifiers and values in association with each other.

The distribution information storage unit 23 is represented by the matrix shown in FIG. In the figure, a1 to z9 represent the identifiers of the screens displayed on the plant data display device, and the distribution flags of the screens a1 to z9 are set with 1 bit for each screen for each parameter identifier. Each parameter is used on the screen where the distribution flag is set to 1. The display data distribution unit 22 distributes all the received data according to the contents of the distribution information storage unit 23, and sets the data in the screen data buffers 24a1 to 24z9 provided for each screen. For example, the received data of the parameter A001 is the screen data buffer corresponding to the screen a1 and the screen a2 whose distribution flag is set to 1.
It is stored in 24a1 and 24a2. Similar processing is performed for each parameter, and finally only the data required for each screen is stored in the data buffer for each screen. For example, only the data necessary for the screen a1 is stored in the data buffer for the screen a1.

The data transmission control unit 25 sends a transmission notification to the data distribution transmission unit 27 based on the identifier of the screen notified from each plant data display device 3. Data distribution transmitter 27
Stores the data transmission information in the transmission information buffer 26 as shown in FIG. 6 in accordance with the notification from the data transmission control unit 25. FIG. 6 shows the plant data display devices 3A to 3J,
The identifier of the screen to be displayed is shown. If there is no screen display request from each plant display device, set 999 to the screen identifier corresponding to the corresponding display device. The data distribution transmission unit 27 refers to the contents of the transmission information buffer 26 and transmits the contents of the data buffer of the corresponding screen to each plant data display device. For example, in the state of FIG. 6, the contents of the data buffer for screen a1 are transmitted to the plant data display device 3A.

FIG. 2 shows a configuration example of the plant data display device 3.
Shown in. The plant data display device 3 includes, for example, a screen switching request unit 31, a data receiving unit 32, a screen data buffer 35, a display fixed data storage unit 36, a moving image processing unit 37, a display screen control unit.
38 and a display device 39, and has a screen as shown in FIGS. 9 and 10, for example. The screen switching request unit 31 notifies the plant data receiving device 2 of the identifier of the screen to be displayed, for example, according to the request input from the operator interaction device 50. The data receiving unit 32 receives the data sent from the plant data receiving device 2 and stores it in the screen data buffer 35. The screen data buffer 35 stores the screen identifier of the display screen, the parameter identifier to be displayed, and the value, for example, as shown in FIG.
Store the contents as shown in.

The fixed display data storage unit 36 stores fixed information of the display screen as a screen image. FIG. 9 shows an example of the display screen. For the screen of FIG. 9, the display fixed data storage unit 36 stores the information shown in FIG. The moving image processing unit 37 defines the display method of a changing part of the screen, such as a bar chart, based on the contents of the display fixed data storage unit 36. The display screen control unit 38 is a display fixed data storage unit.
Based on the contents of 36, a display screen is synthesized and created according to the definition of the moving image processing unit 37, and output to the display device 39.

Next, the operation will be described with reference to FIGS. 1, 2 and 3. The plant data receiving unit 20 receives data sent from the plant, for example, in a cycle of 10 seconds, stores the data in the reception data buffer in the order of the parameter identifiers as shown in FIG. 4, and when the storage is completed, the display data distribution unit Notify 22. After the data is stored in the reception data buffer, the process of waiting for the next data to be sent and then receiving the data again is periodically repeated. The distribution information storage unit 23 stores distribution information of data as shown in FIG. 5, for example. The display data distribution unit 22 distributes each parameter in the reception data buffer to the distribution information storage unit 23.
The display data is distributed to the screen data buffer by referring to the contents of. The parameter identifier and the value are stored in the corresponding screen data buffer whose data distribution flag is 1. The same process is performed for all parameters. The display data distribution unit 22 gives a transmission instruction to the data distribution transmission unit 27 after storing all parameters.

The screen switching request unit 31 is an operator dialogue device 50.
The data transmission control unit 25 is notified of the screen identifier requested by the operator via. The data transmission control unit 25 stores the screen switching request notified from each plant data display device in the transmission information buffer 26 as shown in FIG.
The data distribution / transmission unit 27 is instructed to transmit the corresponding data to the plant data display device that has issued the switching request. When receiving a transmission instruction from the display data distribution unit 22, the data distribution transmission unit 27 transmits the contents of the screen data buffer corresponding to each plant data display device according to the contents of the transmission information buffer. When receiving an instruction from the data transmission control unit 25, the data distribution control unit 27 refers to the contents of the transmission information buffer and transmits the contents of the corresponding screen data buffer to the plant data display device that has made the screen switching request. To do. Display data distribution unit 22 and data transmission control unit 25
If the above instructions overlap at the same time, the data distribution transmission unit 27 ignores the instruction from the data transmission control unit 25. When the screen identifier of the transmission information buffer 26 is 999, data transmission to the corresponding plant data display device is not performed.

The data receiving unit 32 receives the data transmitted from the data distribution transmitting unit 27, stores the data in the screen data buffer 35 in a format as shown in FIG. 7, and notifies the display screen control unit 38 when the storage is completed. .. Upon receiving this, the display screen control unit 38 refers to the screen identifier stored at the top of the screen data buffer 35 and notifies the moving image processing unit 37 of the relevant screen. The moving image processing unit performs dynamic processing of parameters such as bar chart, color change, blinking, digital display, etc. according to the screen operation specifications predetermined for each screen, and notifies the display screen control unit 38 of the end of the processing. .. Display screen control unit 38
Displays on the display device a combination of the screen image of the screen fixing unit stored in the display fixed data storage unit 36 and the dynamic screen processed by the moving image processing unit. When the same screen as the previously output screen is output, that is, when there is no screen switching request, the display screen control unit 38 re-outputs only the data processed by the moving image processing unit to the display device, and Cycle update display is performed.

According to the above embodiment, in the plant data receiving device, the data to be sent to the plant data display device is selected and the amount of data on the network is reduced, so that the device can be used even when the device has a large number of plant data display devices. The whole smooth operation becomes possible. Below, a comparison of the amount of data between the prior art and the present invention will be made with reference to FIGS. First, in the configuration of FIG. 14, the screen type is n
, The number of plant data display devices on the network is s, the overlapping ratio of display parameters between each screen is r%, and the amount of data received by the plant data receiving device at one time is xbyte.
Then, the amount of data transmitted by the data distribution / transmission unit to each plant data display device via the network in one transmission is represented by the equation (1). xxs (1) In this device, the amount of data transmitted by the data distribution / transmission unit in one transmission is represented by the equation (2). x × s × (1 + r / 100) / n (2) That is, If is satisfied, the amount of data can be reduced. For example, r = 20
%, N = 30, The amount of data can be limited to 1/25 of that of conventional equipment. Further, in this device, the data processing amount of the plant data display device is smaller than that of the conventional device, so that the device can be made more compact than the conventional device.

In the above embodiment, the parameters displayed on the plant data display device were previously determined for each screen. However, you can plot any parameters specified by the operator.
It is also possible to display them together on one screen such as 13. FIG. 11 shows a block configuration diagram in the case of this embodiment. The plant state monitoring device 1 of this embodiment includes a plant data receiving device 2 and, for example, 10 plant data display devices (3A to
3J). The plant data receiving unit 20 receives the data sent from the plant and stores it in the reception data buffer 21. The transmission parameter setting unit 28 sets a plurality of parameter identifiers to be transmitted in the display information storage unit 23 provided corresponding to each plant data display device according to the transmission parameter request transmitted from each plant data display device. The display information storage units 23A to 23J store a list of parameter identifiers to be displayed on the plant data display devices 3A to 3J. For example, the parameter list to be transmitted to the plant data display device 3A is displayed information storage unit 23A.
It is stored in. The display data distribution unit 22 refers to the contents of each display information storage unit, for example, 23A to 23J, collects data to be transmitted to each plant information display device from the reception data buffer, and provides the data corresponding to each plant data display device. The data buffer for the selected display device. The data distribution transmission unit 27 transmits the contents of the data buffer for each display device to the corresponding plant data display device.

FIG. 12 is a block diagram of the plant data display device of this embodiment. The transmission parameter registration unit 41 stores the transmission parameters designated via the operator interaction device 50.
It is requested to the plant data display device as a transmission parameter. The data receiving unit 32 stores the received data in the screen data buffer and notifies the display screen creating unit 42 when the storage is completed. The display fixed part storage unit 43 stores the name of the plant parameter,
Fixed information such as units is stored. The display screen creation unit extracts the fixed information of the parameters stored in the screen data buffer, creates a screen, and outputs the screen to the display device 39.

[0018]

As described above, according to the present invention, the data to be transmitted to the plant data display device in the plant data receiving device is configured to be selected and transmitted only in accordance with the operator's request. , The total amount of data on the network is limited, and the smooth operation of the device using the compact plant data display device is enabled.

[Brief description of drawings]

FIG. 1 is a configuration diagram of an embodiment of a plant state monitoring device according to the present invention.

FIG. 2 is a diagram showing a configuration example of a plant data display device.

FIG. 3 is a processing flowchart of a display data distribution unit and a data distribution unit.

FIG. 4 is a diagram showing a storage example of a reception data buffer.

FIG. 5 is a diagram illustrating a storage example of a distribution information storage unit.

FIG. 6 is a diagram showing a storage example of a transmission information buffer.

FIG. 7 is a diagram showing a storage example of a screen data buffer.

FIG. 8 is an example of a storage image of a screen fixed data storage unit.

FIG. 9 is an example of a display screen.

[Figure 10] Example of display screen.

FIG. 11 is a diagram of a plant state monitoring device according to another embodiment.

FIG. 12 is a diagram of a plant data display device according to another embodiment.

FIG. 13 is a screen example according to another embodiment.

FIG. 14 is a block diagram showing an example of a conventional plant state monitoring device.

FIG. 15 is a diagram showing an example of a conventional plant data display device.

[Explanation of symbols]

 1 plant status monitoring device 2 plant data receiving device 3 plant data display device 20 plant data receiving unit 21 reception data buffer 22 display data distribution unit 23 distribution information storage unit 24, 35 screen data buffer 25 data transmission control unit 26 transmission information buffer 27 Data distribution / transmission unit 28 Transmission parameter setting unit 31 Screen switching request unit 32 Data reception unit 33 Data buffer 34 Screen data selection / collection unit 36 Fixed display data storage unit 37 Video processing unit 38 Display screen control unit 39 Display device 40 Data selection information unit 41 Transmission parameter registration unit 42 Display screen creation unit 43 Fixed display unit Storage unit 50 Operator interaction device

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁵ Identification code Office reference number FI technical display location // G05B 23/02 301 N 7208-3H

Claims (1)

[Claims] 1. A plant state having a plant data receiving device for receiving plant data sent from a plant via a transmission line, and a plurality of plant data displaying devices connected by a network for displaying the received data. In the monitoring device, the plant data receiving device has a data buffer for each screen provided corresponding to a plurality of display screens displayed on the plant data display device and each screen by selecting necessary data for each screen. Each of the plant data display devices includes a display data distribution unit that stores the data for the display data buffer and a data distribution transmission unit that extracts the data of the screen to be displayed from the corresponding screen data buffer and transmits it to each plant data display device. A plant condition monitoring device comprising means for designating a display screen by an operator.