JPH02291920A - Plant monitoring and controlling apparatus - Google Patents

Abstract

PURPOSE:To facilitate the reading of data values and to improve the accuracy of the data by setting a reference line for reading the data values at specified positions from trend graphs. CONSTITUTION:When process values are inputted into a display control means 2 from a plant, at first, input processing for the input data is performed in an input processing part 21. Then, the data are stored in a data storing part 22. The stored 22 data are processed in a display processing part 23 as trend graphs. The graphs are displayed on a CRT display 1. Then, the presence or absence of the display request for a reference line 8 is decided in a reference-line processing part 24. When it is decided that the display request is present, the reference line 8 is displayed on the screen of the CRT 1 with the processing part 24. When the reference line 8 is displayed on the CRT 1, the intersections of the reference line 8 and the trend graphs 4a -4c are detected with the processing part 24. The value of the data (a) - (c) at the times specified with the reference line 8 are displayed as digital values on data display parts 9a - 9c.

Description

[Detailed description of the invention] [Industrial application field]

The present invention relates to a plant monitoring and control device that displays time-series process values input from a plant in the form of a trend graph on a display means in order to understand the operating status of the plant.

[Conventional technology]

FIG. 4 is a block diagram showing a conventional plant monitoring and control device. In the figure, 1 is a CRT display as a display means, and 2 is a display control means for displaying time-series process values sent from a plant as a trend graph on the CRT display 1. Reference numeral 3 denotes a keyboard as an input means operated by an operator to input a request for displaying a trend graph, etc. to the display control means 2. Further, 21 is an input processing unit that performs input processing of the process values sent from the plant;
2 is a data storage unit in which data used for the trend graph is stored after input processing by the input processing unit 21, and 23 is a data storage unit that stores the data stored in the data storage unit 22 as a trend graph on a CRT. This is a display processing unit that displays information on the display 1. The display control stage 2 is composed of an input processing section 21, a data storage section 22, and a display processing section 23. Next, the operation will be explained. The process values from the plant inputted to the display control means 2 undergo input processing by the input processing section 21, and then those used as a trend graph are accumulated in the data storage section 22. Here, when the operator inputs a request to display a trend graph from the keyboard 3, the display processing unit 23 that received the request displays the data stored in the data storage unit 22 as a trend graph on the screen of the CRT display 1. do. FIG. 5 is an explanatory diagram showing an example of the display on the CRT display 1. As shown in FIG. In the figure, 4a to 4C are trend graphs displaying three types of data a to c, and 5a to 5
c is a coordinate axis of each trend graph 4a to 4c, and 6 is a time axis common to each trend graph 4a to 4C. Coordinate axis 5
a indicates that data a is displayed between 0 and 50r&/M, coordinate axis 5b indicates that data b is displayed between 0 and 100 vo/M, and coordinate axis 5C indicates that data C is displayed between 0 and 5m. The time axis 6 shows that data from 5 hours ago to the present time is displayed. With the trend graphs 4a to 4c displayed on the CRT display 1, it is possible to see changes in each of the data a to C over five hours. Here, when reading the data values of each data a to c at a predetermined position (time), for example, two hours ago, from each of the trend graphs 4a to 4c displayed on this CRT display 1, the operator must manually , set a line parallel to the coordinate axes 5a to 5c (indicated by broken lines in Figure 5) from the point 2 hours before the time axis 6, and connect this line to each trend graph 4a to 5c.
It was necessary to find the intersection with 4c and read the respective data values from each of the coordinate axes 5a to 5c. According to the example shown in FIG. 5, the value of data a - c two hours ago is:
40 rrf/M, 4 2 rd/M, respectively.
2 m is obtained.

[Problem to be solved by the invention]

Conventional plant monitoring and control devices are configured as described above, so when an operator wants to know the data value at a predetermined position (time) in the trend graphs 4a to 4c based on process values output from the plant, the operator can Trend graphs 4a to 4C displayed on display 1 and coordinate axes 5
Compare a to 5C and visually check the predetermined position (
It is necessary to read the data value at the time (time), and high accuracy cannot be expected from the read data value, and the reading operation is also extremely complicated. The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to obtain a plant monitoring and control device that is easy to read and has high precision in the obtained data values.

[Means to solve the problem]

The plant monitoring and control device according to the present invention sets a reference line for reading data values at a predetermined position from a trend graph, reads the value at the intersection of this reference line and the trend graph, and reads the value at the intersection of the trend graph at the predetermined position. Reference line control in which the display control means has a reference line processing section that displays the data value on the data display section of the display means, and a signal for moving the position of the reference line is input to the reference line processing section. It is a connection of means.

[For use]

The reference line processing unit in this invention sets a reference line for reading data values at a predetermined position from the trend graph displayed on the display means, and determines the position of this reference line by a signal input from the reference line control means. By moving the trend graph to a predetermined position, reading the value at the intersection of the reference line and the trend graph, and displaying it on the display means as the data value at the predetermined position, the reading of the trend graph can be automated. This aims to realize a plant monitoring and control system that improves the accuracy of data values.

【Example】

An embodiment of the present invention will be described below with reference to the drawings. 1st
In the figure, 1 is a CRT display 1 as a display means, 2 is a display system f'f [I means, 3 is a keyboard as an input means, 21 is an input processing section, 22 is a data storage section,
Reference numeral 23 denotes a display processing section, which is the same as, or equivalent to, those in the prior art denoted by the same reference numerals in FIG. 4, so a detailed explanation will be omitted. Further, 24 sets a reference line for reading the data value at a predetermined position (time) from the trend graph displayed on the CRT display 1, and also calculates the value at the intersection of this reference line and the trend graph. Read it and set it as the value of the data at the predetermined time.
This is a line-of-sight processing unit that is displayed on the T-display 1. The display control means 2 includes an input processing section 21 and a data storage section 22.
, and in addition to the display processing section 32, this reference line processing section 2
It is different from the conventional one in that it is equipped with 4. Further, 7 is a CRT display 1 by the reference line processing section 24.
When moving the position of the reference line displayed on the trend graph to the time position at which the data value is desired to be read, the operator inputs a signal to the reference line processing unit 24 for moving the position. The reference line control means is a mouse in this embodiment. Further, FIG. 2 is an explanatory diagram showing an example of a display on the CRT display 1. As shown in FIG. In the figure, 4a to 4c are trend graphs displaying three types of data a to C, 5a to 5c are coordinate axes of each trend graph 4a to 4C, and 6 is a time axis common to each trend graph 4a to 4C. is the fifth
These are equivalent to the conventional ones shown in the figure. Also, 8
is a reference line displayed on the CRT display 1 by the reference line processing section 24 in order to read the data value at a predetermined time from the trend graphs 4a to 4c. 93 to 9C are data display sections in which the values of points at which each of the trend graphs 4a to 4C intersect with this reference line 8 are digitally displayed, and 10 is a time at which the position of the reference section 8 on the time axis 6 is digitally displayed. This is the display section. Next, the operation will be explained. Here, FIG. 3 is a flowchart showing the procedure of the operation. When process values are input from the plant to the display control stage 2, the input processing section 21 first performs input processing for the input data (step STI). The data that has undergone this input processing is then stored in the data storage unit 22 to be used as a trend graph (step ST2). Here, when the operator inputs a request to display a trend graph from the keyboard 3, the display processing unit 23 that receives the request displays the data stored in the data storage unit 22 on the CRT display 1 as a trend graph. (Step S
T3). Next, the reference line processing unit 24 determines whether there is a request to display the reference line 8 (step ST4). This reference line 8 is designated to be displayed or erased by a request operation on the keyboard 3 by the operator. Step ST4
If it is determined that there is a display request,
The reference line processing unit 24 displays the reference line 8 on the screen of the CRT display 1 (step ST5). At this time, along with this reference line 8, the time value at the position where it is displayed is also digitally displayed on the time display section 10. The display position of the reference line 8 can be easily moved by clicking on the time axis 6 on the screen of the CRT display 1 using the mouse 7 serving as reference line control means. When the reference line 8 is displayed on the CRT display 1, the reference line processing unit 24 detects the intersections of this reference line 8 and each of the trend graphs 4a to 4C, and calculates the intersection points of each data a''-c specified by the reference line 8. Digitally display the value at the time on the data display sections 9a to 9c (step ST6)
. Further, as a result of the determination in step ST4, if there is no request to display the reference line 8, the reference line processing unit 24
The reference line 8 is not displayed on the screen of the RT display 1, and only the values of each data a to C at the current point are displayed on the data display section 9.
A to 9C are digitally displayed (step ST7). In the above embodiment, the reference line 8 is displayed on the top of the display column 1, and a request operation for displaying/erasing the reference line 8 is performed from the keyboard 3.
does not necessarily need to be displayed in 1,000-column display, and may be displayed only digitally on the data display sections 9a to 9C and the time display section 10, or the request operation may be performed using the mouse 7. Further, in the above embodiment, a case has been described in which the mouse 7 is used as a reference line control means for moving the position of the reference line 8, but it may also be performed by operating a cursor movement key on the keyboard 3. It has a similar effect. In that case, the keyboard 3 has both the function of an input means and the function of a reference line control means.

【Effect of the invention】

As described above, according to the present invention, a reference line for reading data values from a trend graph is set, and the position of this reference line is moved to a predetermined position by a signal input from the reference line control means. Since the configuration is configured to read the value at the intersection of the reference line and the trend graph and display it on the display means as the data value at a predetermined position (time), it is possible to read the data value at a predetermined time from the trend graph. This has the effect of providing a plant monitoring and control device that can be read automatically, freeing the operator from the complicated task of visually reading trend graphs, and improving the accuracy of the obtained data values.

[Brief explanation of the drawing]

FIG. 1 shows a plant monitoring system i1 according to an embodiment of the present invention.
1 is a block diagram showing a conventional plant monitoring and control device, FIG. 2 is an explanatory diagram showing a display example of its display means, FIG. FIG. 5 is an explanatory diagram showing a display example of the display means. 1 is a display means (CRT display), 2 is a display control means, 21 is an input processing section, 22 is a data storage section, 23 is a display processing section, 24 is a reference line processing section, 3 is an input means (keyboard), 4a- 4c is a trend graph, 7 is a reference line control means (mouse), 8 is a reference line, and 9a to 9c are data display sections. In addition, in the figures, the same reference numerals indicate the same or equivalent parts.

Claims (1)

[Claims] A display means for displaying time-series process values sent from the plant as a trend graph, an input processing unit that performs input processing of the input process values, and storage of data input and processed by the input processing unit. and display control means having a display processing section that displays the data accumulated in the data accumulation section on the display means as the trend graph. Set a reference line to read the data value at the position,
The display control means includes a reference line processing section that reads the value at the intersection of the reference line and the trend graph and displays it on the data display section on the display means as the data value at the predetermined position. A plant monitoring and control device further comprising reference line control means for inputting a signal for moving the position of the reference line to a reference line processing section of the display control means.