JPS6226469B2 - - Google Patents

Description

[Detailed description of the invention]

The present invention relates to a technique for displaying the history of process quantities such as pressure, temperature, and flow rate of a plant as a graph on a screen display device. In conventional technology for displaying graphs on screen display devices, the graphs are displayed at once after all necessary process values have been collected, making it possible to spatially analyze plant conditions; Temporal changes could not be monitored. On the other hand, with conventional technology that updates graphs over time, changes in process values can be monitored, but past history cannot be monitored in relation to time, and history that has been erased from the screen cannot be easily redisplayed. I couldn't do it. In addition, even with conventional recorders that record on paper, if the past history cannot be monitored in relation to time and it is necessary to view the past history, operations such as rewinding the paper by the necessary amount are necessary. It was necessary. The present invention is applicable to such conventional pen recorders,
Considering the situation with graph display devices such as CRTs, it is possible to easily monitor the trend of process volume near the current time by comparing it with the time, and to rewind the chart of the recorder to check the trend of process volume at past times. It is an object of the present invention to provide a trend graph display device that can easily display and record a trend graph without such troubles. This will be explained below with reference to the drawings. In FIG. 1, the process value storage means 21 of the electronic computer 2 stores all the process values that can be displayed on the trend graph from the plant through the process input device 1 according to their respective storage cycles (assumed to be △t ₁ ). The data is stored in the process value storage means 24 in the format shown in the table.

[Table] The process value storage means 21 periodically refers to the process value storage means 24 shown in Table 1 for each process value, and returns to the latest storage time (Tp) at the storage cycle (△
t ₁ ) has reached the current time, the process values at that time are stored in list form from the top of the process value storage means. Here, when a request to display the trend recorder of the process value B on the screen display device 3 comes from the manual input 4, the trend graph fixed display means 23 displays the trend recorder shown in FIG. 2 a, b, c, and d. Unit of horizontal axis, vertical axis and process value B in KG/CM2G
And fixed parts such as 10, 20, 30 values etc. are displayed on the screen display device 3.
Output to. At the same time, the process value storage means 21 and the trend graph update display means 22 are notified that a new trend recorder display request for process value B has been made. First, the trend graph update display means 22 refers to the latest storage time (Tp) of the process value B from the process value storage means 24 in Table 1. Assuming that the time is 16:06:25, as shown in Figure 2a, the time is calculated at 10 minute intervals and so that the time is close to the center of the time axis and on the left side. is displayed along the horizontal axis. Next, the trend graph update display means 22 stores the trend graph of process value B from 15:50:00 to 16:06:25 in the process value storage means 24 in order to display it as shown in FIG. 2a. The stored process value B is used, but the number n of process values used to draw the trend graph and the number m of each process value to be used are calculated according to the following formula. . n = quotient of {(Tp - To) / △t ₂ } (1) n: Number of process values used to determine the graph Tp: Latest save time (16:06:25 in the example) To: Start of display Time (15:50:00 in the example) △t ₂ : Update cycle m = △t ₂ / △t ₁ (2) m: How many process values to use - its value △t ₁ : Storage cycle If the remainder of equation (1) is 0, the process value at 15:50:00 can be used as is, and a graph can be determined from n pieces of data and displayed as shown in Figure 2a. On the other hand, if the remainder of equation (1) is 0, the process value at 15:50:00 is calculated from the nth data from (n+m-1), and the graph is determined from that and the n data. , is displayed as shown in FIG. 2a. The process value storage means 21 includes process values A,
B, C, D... are always preserved every time the period △t becomes ₁ .
Although it is stored in the corresponding part of the process value storage means 24, the trend graph update display means 22 is activated every time the process value B update cycle _Δt2 is reached. The trend graph update display means 22 stores the display position of the process value B at the final display point of the previous graph and its time, and displays it and the process value B.
A graph between the latest storage time Tp and the process value at that time is determined and updated and displayed as shown in FIG. 2b. When the graph extends over time and the latest storage time Tp becomes 16:30:00 or more, that is, when it becomes as shown in Figure 3 c, the trend graph update display means 22 displays the time axis. Update the time value so that the display time on the left end of the time axis is 16:30.
so that the minutes are in the center of the trend recorder,
(Refer to Figure 2 d) Next, the latest save time Tp that has changed from 16:10:00 to 16:30:00 or more in the graph.
are displayed as shown in FIG. 2d. The method is the same as for displaying the graph in FIG. 2a. Furthermore, when monitoring a plant, there is a need to monitor past history, and in some cases, it is also necessary to record it. In such a case, the start time and end time are input using manual input 4 when requesting the trend recorder display of process values. As a result, the trend graph update display means 22 retrieves the process values from the process value corresponding to the start time to the process value corresponding to the end time from the process value storage means 24 shown in FIG. It is also possible to automatically record on a hard copy device 5 connected to the screen display device 3. Even the same process value may exhibit a gradual change or a sudden change depending on the operating state of the plant. In addition, when controlling, it becomes necessary to monitor subtle changes in process values during plant operation. When requesting the trend recorder display of process values through manual input 4 in various cases such as this, the update cycle of the graph (this is the update cycle of the save table; however, it is an integral multiple of the save cycle). ) and the display width (i.e., the width of the vertical axis values in a, b, c, d in FIG. It is also possible to change the update period of the section 24 and notify the trend graph update display means 22 of the display width of the process value. This makes it possible to freely change the update period and display width according to the operation of the plant, as shown in FIGS. 3a and 3b. As described above, according to the present invention, it is possible to grasp the history of changes in process values in correspondence with time. For example, the rate of change over time can be easily determined. Furthermore, even the history of subtle changes in the process amount can be monitored using a trend recorder on the same screen display device as appropriate.

[Brief explanation of the drawing]

FIG. 1 is a configuration diagram showing one embodiment of the present invention, and FIG.
Figure a is a characteristic diagram showing an example of the first screen displayed when a new trend graph display request is made;
Figure b is a characteristic diagram showing how the graph expands over time, and Figure 2 c is a characteristic diagram that shows how the graph extends over time.
The characteristic diagram shown in Fig. 2 (d) shows that 30 minutes has been reached and the graph is full.The time axis display time is updated so that 16:30 is in the center, and at the same time the graph is moved in parallel. The characteristic diagrams, Figures 3a and 3b, show the trend graphs when the display cycle and display width of Figures 2a, b, c, and d are changed. It is a characteristic diagram showing the contents. 1...process input device, 2...electronic computer,
21... Process value storage means, 22... Trend graph update display means, 23... Trend graph fixed display means, 24... Process value storage means, 3...
...Screen display device, 4...Manual input device, 5...
Hard copy device.

Claims (1)

[Scope of Claims] 1. A process input device for inputting plant process values, an electronic computer for calculating a process value trend from the process values, a display device for displaying a process value trend graph, and a display device for displaying a process value trend graph. A trend graph display device comprising a manual input device for making a display request and specifying a display update cycle of the process values and a display width of the process values, wherein the computer comprises the following means: A trend graph display device characterized by: (a) Process value storage means for reading the process values at predetermined storage intervals via the process input device; (b) Process values read in chronological order by the process value storage means and the latest storage of the reads. (c) Process value storage means for storing time (c) When a request to display the trend graph is made, the horizontal and vertical axes of the trend graph are displayed based on the display update cycle of the process value and the display width of the process value. Trend graph fixed display means (d) to be displayed on the device, when a request for displaying the trend graph is received, is activated at each display update cycle of the process value, and is configured to position the latest storage time at the center of the horizontal axis. time is plotted on the horizontal axis corresponding to the display update cycle of the process value, the process value is plotted on the vertical axis corresponding to the display width of the process value, and the process values before the latest storage time are collectively displayed. and the process values after the latest storage time are updated and displayed, and as a result of the updated display, when the display of the process values reaches the end of the horizontal axis, the end of the horizontal axis is displayed at that point. a process value update display means for moving the time value displayed on the horizontal axis to a position in the center of the horizontal axis and restarting the update display of the process value from that position;