JP5599223B2 - Multi-monitor switching device and multi-monitor switching method - Google Patents

Description

  The present invention relates to a multi-monitor switching device and a multi-monitor switching method that appropriately switch display screens of a plurality of monitors used for plant monitoring or control.

For example, in a power plant or a chemical plant, an operation console on which a plurality of monitors are mounted is installed in a monitoring control room or the like, and a plant operator (hereinafter referred to as an “operator”) is connected to a plurality of monitors. It is common to monitor and control a plant while viewing a displayed screen or the like (see, for example, Patent Document 1).
In power plants and chemical plants, there are many types of screens available (some plants have hundreds of screens), and the desired screen is selected from many screens. Displayed on several monitors.

For example, when the operator console is equipped with three monitors 1, 2, and 3, the operator can select, for example, a screen showing a system diagram of a plant, a trend graph from many screens prepared in advance. Screen, a screen showing a plant operation history, a screen showing a plant system diagram, a screen showing a trend graph on a monitor 2, and a screen showing a plant operation history on a monitor 3 May be made.
At this time, if the number of monitors mounted on the driving console is as small as about three, it is easy for the operator to grasp which screen is displayed on which monitor. As the number of monitors mounted on the PC increases, it is difficult to grasp which screen is displayed on which monitor.

In plant monitoring and control, the type of screen displayed on each monitor is not fixed. For example, an operation of switching between the screen displayed on the monitor 1 and the screen displayed on the monitor 2 may be performed. .
In Patent Document 2 below, for example, the screen displayed on the monitor 1 is the screen (1), the screen displayed on the monitor 2 is the screen (2), and the screen displayed on the monitor 3 is the screen (3). ), When a request for switching between the screen displayed on the monitor 1 and the screen displayed on the monitor 2 is received, the screen (2) is displayed on the monitor 1 and the screen (1) is displayed on the monitor 2. A multi-monitor switching device is disclosed.

Therefore, if the operator knows which screen is displayed on which monitor, it is possible to easily switch between the screens displayed on each monitor by inputting a screen switching request. .
However, as the number of monitors installed on the operator console increases, it is difficult for the operator to know which screen is displayed on which monitor. You may not be able to determine if you should enter it.
If it is not possible to determine which monitor screen switching request should be input, the operator moves to the installation position of each monitor (see FIG. 19), selects a new screen to be displayed on the monitor, An operation for displaying the screen is required, which requires a lot of labor and labor.

Japanese Patent Laid-Open No. 11-212632 (FIG. 1) JP-A-10-240209 (paragraph numbers [0014] to [0016], FIG. 1)

  Since the conventional multi-monitor switching device is configured as described above, if the operator knows which screen is displayed on which monitor, the screen switching request can be input to each monitor. You can easily switch the displayed screen. However, as the number of monitors installed on the operator console increases, it is difficult for the operator to know which screen is displayed on which monitor. You may not be able to determine if you should enter it. In such a case, the operator needs to move to the installation position of each monitor, newly select a screen to be displayed on the monitor, and display the screen, which requires a lot of labor and labor. there were.

  In addition, if all the monitors installed on the operator console are in the operator's field of view, the operator can see which screen is displayed by looking at all the monitors even if they do not remember which screen is displayed. It is possible to grasp which screen is displayed on the monitor, but when the number of monitors mounted on the operation console is large and all the monitors do not fall within the operator's field of view (see FIG. 20), There is a problem that not all monitors can be viewed at one time, and which screen is displayed on which monitor cannot be easily grasped.

  The present invention has been made to solve the above-described problems. Regardless of the monitor, the screen displayed on all the monitors can be grasped and the screen displayed on each monitor. It is an object of the present invention to obtain a multi-monitor switching device and a multi-monitor switching method capable of easily switching between them.

The multi-monitor switching device according to the present invention includes a table holding means for holding a table in which a correspondence relationship between a plurality of monitors used for monitoring or controlling a plant and a display screen is recorded, and a table held by the table holding means. Referring to the table, the screen generating means for generating screens displayed on a plurality of monitors, and the tab indicating the identification information for each screen generated by the screen generating means with reference to the table held by the table holding means A tab group generating means for generating a group, and a screen display for synthesizing the tab group generated by the tab group generating means on the screen of each monitor generated by the screen generating means, and displaying the screen after the tab group combining on each monitor means, and operation acceptance means for accepting an operation for each monitor that displays the screen after tab group synthesized by the screen display unit, the operation acceptance means That operation on the monitor is accepted, if the operation of pressing the tab that indicates the identification information of the screen the operation is displayed on the monitor other than one monitor, one monitor screen displayed on a certain monitor switches to the screen displayed on the monitor other than, and to switch to a screen display displayed on the monitor other than one monitor is displayed on one monitor, and a monitor which is recorded in the tables Correspondence relation updating means for updating the correspondence relation of the display screen is provided .

According to this invention, referring to the table holding means for holding a table in which the correspondence between a plurality of monitors used for plant monitoring or control and the display screen is recorded, and the table held by the table holding means Generating a tab group indicating identification information for each screen generated by the screen generation unit with reference to the table generated by the screen generation unit that generates screens to be displayed on a plurality of monitors and the table holding unit; A tab group generation unit, a screen display unit configured to combine the tab group generated by the tab group generation unit with the screen of each monitor generated by the screen generation unit, and display the screen after the tab group combination on each monitor; and operation accepting means for accepting an operation for each monitor that displays the screen after tab group combined by the display means, steering for a certain monitor by the operation acceptance means It is accepted, if the operation of pressing the tab that indicates the identification information of the screen the operation is displayed on the monitor other than one monitor, the screen displayed on the certain monitor in the monitor other than one monitor switches to the screen displayed, and to switch to a screen display displayed on the monitor other than one monitor is displayed on one monitor, the corresponding display screen and monitor are recorded in the tables since it is configured to so that a correspondence updating means for updating the relationship, even looking at what the monitor, it is possible to grasp the screen displayed on all monitors, screens displayed on the monitor There is an effect that switching between the two can be easily performed.

It is a block diagram which shows the multi-monitor switching apparatus by Embodiment 1 of this invention. It is a flowchart which shows the processing content of the multi-monitor switching apparatus by Embodiment 1 of this invention. It is explanatory drawing which shows an example of the correspondence recorded by the monitor / screen relationship table. It is explanatory drawing which shows an example of the tab group produced | generated by the tab group production | generation part 14. FIG. It is explanatory drawing which shows an example of the screen A, B, C with which the tab group was synthesize | combined by the display screen synthetic | combination part 15. FIG. It is explanatory drawing which shows an example of the correspondence recorded on the monitor / screen relationship table updated by the correspondence update part. It is explanatory drawing which shows an example of the tab group produced | generated by the tab group production | generation part 14. FIG. It is explanatory drawing which shows an example of screen B, A, and C with which the tab group was synthesize | combined by the display screen synthetic | combination part 15. FIG. It is a block diagram which shows the multi-monitor switching apparatus by Embodiment 2 of this invention. It is explanatory drawing which shows an example of the tab group produced | generated by the tab group production | generation part 14. FIG. 7 is an explanatory diagram illustrating an example of a correspondence relationship recorded in a monitor / screen relationship table updated by a correspondence relationship update unit 20. FIG. It is explanatory drawing which shows an example of the tab group produced | generated by the tab group production | generation part 14. FIG. It is explanatory drawing which shows an example of screen A, A, and C with which the tab group was synthesize | combined by the display screen synthetic | combination part 15. FIG. It is a block diagram which shows the multi-monitor switching apparatus by Embodiment 3 of this invention. It is explanatory drawing which shows the automatic alignment of the some tab which comprises the tab group. It is explanatory drawing which shows the thumbnail in a tab. It is explanatory drawing which shows the example by which the display area of the monitor is divided | segmented into right and left. It is explanatory drawing which shows an example of the tab group produced | generated by the tab group production | generation parts 14 and 21. FIG. It is explanatory drawing which shows the movement of the operator at the time of screen selection. It is explanatory drawing which shows the monitor which enters into an operator's visual field.

Embodiment 1 FIG.
FIG. 1 is a block diagram showing a multi-monitor switching device according to Embodiment 1 of the present invention.
In FIG. 1, monitors 1, 2, and 3 are display devices that display various screens, and are mounted on, for example, an operation console installed in a monitoring control room of a power plant or a chemical plant.
In power generation plants, chemical plants, and the like, many screens are prepared in advance, and a desired screen is selected from many screens and displayed on the monitors 1, 2, and 3.
In FIG. 1, for simplification of explanation, an example in which three monitors 1, 2, and 3 are mounted on a driver's console is shown as an example, but this is only an example. In some cases, it is implemented in the driver's console.

The table holding unit 11 includes a storage device such as a RAM or a hard disk, for example, and the correspondence between the monitors 1, 2, 3 and the display screen (the monitor identification number indicating the monitors 1, 2, 3 and the monitors 1, 2, 3). 3), a monitor / screen relationship table in which a correspondence relationship with a screen identification number indicating a screen displayed in 3 is recorded in an internal storage device. The table holding unit 11 constitutes a table holding unit.
The screen data storage unit 12 is constituted by a storage device such as a hard disk, for example, and stores attribute data indicating screen data relating to various screens prepared in advance, screen names (screen identification information) of the screens, and the like. ing.

The screen generation unit 13 includes, for example, a GPU (Graphics Processing Unit) and the like, and refers to the monitor / screen relationship table held by the table holding unit 11 to display the types of screens displayed on the monitors 1, 2, and 3. The screen data of the screens to be displayed on the monitors 1, 2 and 3 are acquired from the screen data storage unit 12, and processing for generating the screens is performed. For example, if the screen identification number corresponding to the monitor identification number indicating the monitor 1 indicates the system diagram of the plant, a screen indicating the system diagram of the plant is generated, and the screen identification number corresponding to the monitor identification number indicating the monitor 2 is generated. Generates a screen showing the trend graph, and if the screen identification number corresponding to the monitor identification number showing the monitor 3 is the plant operation history screen, a screen showing the plant operation history is generated. To do.
The screen generator 13 constitutes a screen generator.

The tab group generation unit 14 is made up of, for example, a GPU and the like, refers to the monitor / screen relationship table held by the table holding unit 11, confirms the type of screen displayed on the monitors 1, 2, 3, The screen names of the screens displayed on the monitors 1, 2, 3 are acquired from the screen data storage unit 12, and a process for generating a tab group indicating the screen names of the screens displayed on the monitors 1, 2, 3 is performed.
In the example of FIG. 1, since the number of monitors mounted on the driver's console is three, a tab group composed of three tabs is generated. Therefore, if the number of monitors mounted on the driving console is N, a tab group composed of N tabs is generated.
The tab group generation unit 14 constitutes a tab group generation unit.

  The display screen synthesizing unit 15 is composed of, for example, a semiconductor integrated circuit on which a CPU is mounted, a one-chip microcomputer, and the like, and the tab group generated by the tab group generating unit 14 is displayed on the monitor 1 generated by the screen generating unit 13. A screen composition process for composing two or three screens, a screen display process for displaying the screen after the tab group composition on the monitors 1, 2, 3, etc. is performed. The display screen composition unit 15 constitutes screen display means.

The man-machine interface 16 is an input device such as a mouse or a keyboard, for example. When the operator selects a screen to be displayed on the monitors 1, 2, 3, or when the screen displayed on the monitors 1, 2, 3 is switched. It is an input device used for. When the monitors 1, 2, and 3 are equipped with a touch screen, a touch pen or an operator's finger can also be used as the man-machine interface 16.
The input monitor detection unit 17 is composed of, for example, a semiconductor integrated circuit on which a CPU is mounted, a one-chip microcomputer, or the like. The operator uses the man-machine interface 16 to detect a monitor that is operating. carry out.

The input command analysis unit 18 is composed of, for example, a semiconductor integrated circuit on which a CPU is mounted, a one-chip microcomputer, and the like, and accepts an operation input by the operator using the man-machine interface 16 and analyzes the operation content. Perform the process.
The man-machine interface 16, the input monitor detection unit 17, and the input command analysis unit 18 constitute an operation accepting unit.

  The correspondence update unit 19 is constituted by, for example, a semiconductor integrated circuit on which a CPU is mounted, a one-chip microcomputer, or the like. For example, a monitor (monitor operated by an operator) detected by the input monitor detection unit 17 is used. In the case of the monitor 1, it can be shown that the operation content analyzed by the input command analysis unit 18 is an operation of pressing a tab indicating the screen name of the screen displayed on the monitor 2 (or the monitor 3). For example, the screen displayed on the monitor 1 is switched to the screen displayed on the monitor 2 (or the monitor 3), and the screen displayed on the monitor 2 (or the monitor 3) is displayed on the monitor 1. The correspondence between the monitor identification number and the screen identification number recorded in the monitor / screen relation table of the table holding unit 11 is And it carries out a process of new to. The correspondence update unit 19 constitutes a correspondence update unit.

In the example of FIG. 1, the table holding unit 11, the screen generation unit 13, the tab group generation unit 14, the display screen synthesis unit 15, the input monitor detection unit 17, the input command analysis unit 18, and the corresponding components that are components of the multi-monitor switching device. It is assumed that each of the relationship update units 19 is configured by dedicated hardware. However, when the multi-monitor switching device is configured by a computer, the table holding unit 11, the screen generation unit 13, the tab group generation unit 14, the program describing the processing contents of the display screen synthesis unit 15, the input monitor detection unit 17, the input command analysis unit 18, and the correspondence update unit 19 is stored in the memory of the computer, and the CPU of the computer stores the memory The program stored in the program may be executed.
FIG. 2 is a flowchart showing the processing contents of the multi-monitor switching device according to Embodiment 1 of the present invention.

Next, the operation will be described.
In the monitor / screen relationship table held by the table holding unit 11, the correspondence between the monitor identification number indicating the monitor 1, 2, 3 and the screen identification number indicating the screen displayed on the monitor 1, 2, 3 Is recorded.
FIG. 3 is an explanatory diagram showing an example of the correspondence recorded by the monitor / screen relation table.
In the example of FIG. 3, the monitor 1 displays a screen A (for example, a plant system diagram), the monitor 2 displays a screen B (for example, a trend graph), and the monitor 3 displays a screen C (for example, a plant). The operation history screen is displayed.

  The screen data storage unit 12 includes screen data relating to various screens prepared in advance (for example, graphic data relating to screen layout, data such as plant measurement values and trend data described on the screen). In addition, attribute information indicating the screen name of the screen is recorded.

The screen generation unit 13 refers to the monitor / screen relationship table held by the table holding unit 11 and confirms the type of screen displayed on the monitors 1, 2, and 3.
In the example of FIG. 3, it is confirmed that the screen displayed on the monitor 1 is the screen A, the screen displayed on the monitor 2 is the screen B, and the screen displayed on the monitor 3 is the screen C.
When the screen generation unit 13 confirms the types of screens to be displayed on the monitors 1, 2, and 3, the screen generation unit 13 acquires the screen data of the screens A, B, and C to be displayed on the monitors 1, 2, and 3 from the screen data storage unit 12. The screens A, B, and C are generated.
That is, the screen data related to the screen A is acquired from the screen data storage unit 12 to generate the screen A, and the screen data related to the screen B is acquired to generate the screen B. Further, the screen data relating to the screen C is acquired to generate the screen C.
Note that the generation processing itself of the screens A, B, and C is a known technique, and thus detailed description thereof is omitted here.

The tab group generation unit 14 refers to the monitor / screen relationship table held by the table holding unit 11 and confirms the type of screen displayed on the monitors 1, 2, and 3.
In the example of FIG. 3, it is confirmed that the screen displayed on the monitor 1 is the screen A, the screen displayed on the monitor 2 is the screen B, and the screen displayed on the monitor 3 is the screen C.
When the tab group generation unit 14 confirms the types of screens displayed on the monitors 1, 2, and 3, the tab group generation unit 14 acquires the screen names of the screens A, B, and C displayed on the monitors 1, 2, and 3 from the screen data storage unit 12. Thus, a tab group indicating the screen names of the screens to be displayed on the monitors 1, 2, 3 is generated.

Here, FIG. 4 is an explanatory diagram illustrating an example of a tab group generated by the tab group generation unit 14.
In the example of FIG. 1, since three monitors 1, 2, and 3 are mounted on the driver's console, a tab group including three tabs is generated as shown in FIG.
However, the three tabs constituting the tab group displayed on the monitor 1, the three tabs constituting the tab group displayed on the monitor 2, and the three tabs constituting the tab group displayed on the monitor 3 are displayed. Although the tabs are the same, in the tab group displayed on the monitor 1, the tabs related to the screen A displayed on the monitor 1 are seen in the forefront, and the tabs related to the screens B and C displayed on the monitors 2 and 3. Tabs are generated so that is visible behind.

In the tab group displayed on the monitor 2, the tabs related to the screen B displayed on the monitor 2 can be seen in the forefront, and the tabs related to the screens A and C displayed on the monitors 1 and 3 can be seen behind. A tab group is generated.
In the tab group displayed on the monitor 3, the tabs related to the screen C displayed on the monitor 3 can be seen in the forefront, and the tabs related to the screens A and B displayed on the monitors 1 and 2 can be seen in the rear. A tab group is generated.
Screen names (for example, plant system diagram, trend graph, plant operation history screen, etc.) displayed on the monitors 1, 2, 3 are displayed on the three tabs constituting the tab group. However, in FIG. 4, the screen names are represented by screen A, screen B, and screen C for simplification of the drawing notation.
In FIG. 4, monitor identification numbers [1], [2], and [3] for identifying the monitors 1, 2, and 3 are displayed on the tabs related to the screens A, B, and C.

When the screen generation unit 13 generates screens A, B, and C to be displayed on the monitors 1, 2, and 3, and the tab group generation unit 14 generates a tab group, the display screen synthesis unit 15 converts the tab group to the screen generation unit. 13, the screens A, B, and C generated after the tab group composition are displayed on the monitors 1, 2, and 3.
FIG. 5 is an explanatory diagram showing an example of screens A, B, and C on which tab groups are combined by the display screen combining unit 15.
In FIG. 5, the screens A, B, and C generated by the screen generation unit 13 are displayed on the area A that is the upper area of the monitors 1, 2, and 3, and are the lower areas of the monitors 1, 2, and 3. An example is shown in which the tab group generated by the tab group generation unit 14 is displayed in the area B.

  Thus, for example, when the operator sits in front of the monitor 1 and looks at the screen A displayed on the monitor 1, the tabs are displayed in the area B of the monitor 1. 3, it can be understood that the screens displayed on the monitors 2 and 3 are the screens B and C.

Next, when the operator is sitting in front of the monitor 1, for example, when it is necessary to switch the screens A and B displayed on the monitors 1 and 2 (monitor 1: screen A → screen B, monitor 2: screen: B → Screen A), the operator uses the man-machine interface 16 to switch the screens A and B displayed on the monitors 1 and 2 (step ST1).
That is, an operation of pressing a tab indicating the screen name of the screen B to be displayed next on the monitor 1 among the tab groups displayed on the area B of the monitor 1 is performed.

The input monitor detection unit 17 uses the man-machine interface 16 to switch the screen B displayed on the area B of the monitor 1 as a switching operation of the screens A and B displayed on the monitors 1 and 2. When an operation for depressing a tab indicating a name is performed, a monitor on which the operator is performing an operation is detected (step ST2).
In this case, it is detected that the monitor operated by the operator is the monitor 1.
When the input monitor detection unit 17 detects that the monitor operated by the operator is the monitor 1, the input monitor detection unit 17 outputs a monitor identification number (1) indicating the monitor 1 to the input command analysis unit 18.

When an operator performs an operation using the man-machine interface 16, the input command analysis unit 18 receives the operation and analyzes the operation content.
When the operator performs an operation of pressing one of the tabs constituting the tab group displayed on the area B of the monitor 1, the input command analysis unit 18 performs an operation of switching between the two screens. recognize.
As described above, when the tab indicating the screen name of the screen B is pressed and the monitor identification number (1) is received from the input monitor detection unit 17, the switching operation of the screens A and B displayed on the monitors 1 and 2 is performed. Recognize that
The input command analysis unit 18 outputs a switching request signal (AB) instructing switching between the screens A and B displayed on the monitors 1 and 2 to the correspondence update unit 19 as an analysis result of the operation content ( Step ST3).

When the correspondence update unit 19 receives the switching request signal (AB) from the input command analysis unit 18, it is recorded in the monitor / screen relationship table of the table holding unit 11 in accordance with the switching request signal (AB). The correspondence relationship between the monitor identification number and the screen identification number is updated (step ST4).
That is, the correspondence update unit 19 switches the screen A displayed on the monitor 1 to the screen B displayed on the monitor 2, and the screen B displayed on the monitor 2 is displayed on the monitor 1. The correspondence relationship between the monitor identification number and the screen identification number recorded in the monitor / screen relationship table of the table holding unit 11 is updated so as to switch to the screen A.

FIG. 6 is an explanatory diagram showing an example of the correspondence relationship recorded in the monitor / screen relationship table updated by the correspondence relationship update unit 19.
In the example of FIG. 6, the monitor 1 displays a screen B (for example, a trend graph), the monitor 2 displays a screen A (for example, a plant system diagram), and the monitor 3 displays a screen C (for example, a plant). The operation history screen is displayed.

When the correspondence relationship updating unit 19 updates the monitor / screen relationship table held by the table holding unit 11 (step ST5), the screen generation unit 13 refers to the updated monitor / screen relationship table, and monitors 1 Check the type of screen to be displayed in 2 and 3.
In the example of FIG. 6, it is confirmed that the screen displayed on the monitor 1 is the screen B, the screen displayed on the monitor 2 is the screen A, and the screen displayed on the monitor 3 is the screen C.
When the screen generation unit 13 confirms the types of screens to be displayed on the monitors 1, 2, 3, the screen generation unit 13 acquires the screen data of the screens B, A, C displayed on the monitors 1, 2, 3 from the screen data storage unit 12. The screens B, A, and C are generated (step ST6).

The tab group generation unit 14 refers to the monitor / screen relationship table updated by the correspondence relationship update unit 19 and confirms the type of screen displayed on the monitors 1, 2, and 3.
In the example of FIG. 6, it is confirmed that the screen displayed on the monitor 1 is the screen B, the screen displayed on the monitor 2 is the screen A, and the screen displayed on the monitor 3 is the screen C.
When the tab group generation unit 14 confirms the types of screens displayed on the monitors 1, 2, 3, the tab group generation unit 14 acquires the screen names of the screens B, A, C displayed on the monitors 1, 2, 3 from the screen data storage unit 12. Thus, a tab group indicating the screen names of the screens B, A, and C displayed on the monitors 1, 2, 3 is generated (step ST7).

Here, FIG. 7 is an explanatory diagram illustrating an example of a tab group generated by the tab group generation unit 14.
As shown in FIG. 7, the three tabs constituting the tab group displayed on the monitor 1, the three tabs constituting the tab group displayed on the monitor 2, and the tab group displayed on the monitor 3 are displayed. Although the three tabs constituting the same are the same, in the tab group displayed on the monitor 1, the tab related to the screen B displayed on the monitor 1 can be seen in the forefront, and the screen A displayed on the monitors 2 and 3. , C so that the tabs are generated in the rear.

In the tab group displayed on the monitor 2, the tabs related to the screen A displayed on the monitor 2 can be seen in the forefront, and the tabs related to the screens B and C displayed on the monitors 1 and 3 can be seen behind. A tab group is generated.
In the tab group displayed on the monitor 3, the tabs related to the screen C displayed on the monitor 3 can be seen in the forefront, and the tabs related to the screens B and A displayed on the monitors 1 and 2 can be seen in the rear. A tab group is generated.
In addition, the screen names (for example, trend graph, plant system diagram, plant operation history screen, etc.) displayed on the monitors 1, 2, 3 are displayed on the three tabs constituting the tab group. However, in FIG. 7, screen names are represented by screen B, screen A, and screen C for simplification of drawing notation.

When the screen generation unit 13 generates screens B, A, and C to be displayed on the monitors 1, 2, and 3 and the tab group generation unit 14 generates a tab group, the display screen synthesis unit 15 generates the tab group as a screen generation unit. 13 is synthesized with the screens B, A, and C generated in step 13, and the screens B, A, and C after the tab group synthesis are displayed on the monitors 1, 2, and 3 (step ST8).
FIG. 8 is an explanatory diagram illustrating an example of screens B, A, and C in which tab groups are combined by the display screen combining unit 15.
In FIG. 8, the screens B, A, and C generated by the screen generation unit 13 are displayed on the area A that is the upper area of the monitors 1, 2, and 3, and are the lower areas of the monitors 1, 2, and 3. An example is shown in which the tab group generated by the tab group generation unit 14 is displayed in the area B.
Thus, the operator can switch between the screens A and B displayed on the monitors 1 and 2 without performing an operation on the monitor 2 by sitting in front of the monitor 1 and performing an operation on the monitor 1. .

  As is apparent from the above, according to the first embodiment, the table that holds the monitor / screen relationship table in which the correspondence between the monitors 1, 2, 3 used for monitoring or controlling the plant and the display screen is recorded. A screen generator 13 that generates screens A, B, and C to be displayed on the monitors 1, 2, 3 with reference to the storage unit 11, the monitor / screen relationship table held by the table storage unit 11, and a table A tab group generation unit 14 that generates a tab group indicating the screen names of the screens A, B, and C displayed on the monitors 1, 2, and 3 with reference to the monitor / screen relation table held by the holding unit 11; The tab group generated by the tab group generation unit 14 is combined with the screens A, B, and C of the monitors 1, 2, and 3 generated by the screen generation unit 13, and the screens A, B, and C after the tab group combination are combined. Display on monitors 1, 2 and 3 Display screen composition unit 15 and operation accepting means for accepting operations on monitors 1, 2, and 3 on which screens A, B, and C after the tab group composition are displayed by display screen composition unit 15 are provided. If the operation on the monitor 1 is accepted by the accepting means and the operation is an operation of pressing the tab indicating the screen name of the screen B displayed on the monitor 2, the correspondence update unit 19 is displayed on the monitor 1. Is recorded in the monitor / screen relation table so that the screen A displayed on the monitor 2 is switched to the screen B displayed on the monitor 2 and the screen B displayed on the monitor 2 is switched to the screen A displayed on the monitor 1. The monitor identification number and the screen identification number are updated so that the screen displayed on all the monitors 1, 2, 3 can be grasped regardless of which monitor is viewed. Rutotomoni, an effect that switching can be easily performed between the screens displayed on the monitor 1, 2, 3.

In the first embodiment, the operator switches the screens A and B displayed on the monitors 1 and 2 by performing an operation on the monitor 1. However, the operator performs an operation on the monitor 2. Thus, the screens A and B displayed on the monitors 1 and 2 may be switched.
The switching between the two screens is not limited to between the screen A and the screen B. Even when switching between the screen A and the screen C or between the screen B and the screen C, the screen A and the screen C are switched. Switching can be performed in the same manner as switching between B.

Embodiment 2. FIG.
FIG. 9 is a block diagram showing a multi-monitor switching device according to Embodiment 2 of the present invention. In the figure, the same reference numerals as those in FIG.
The correspondence update unit 20 is composed of, for example, a semiconductor integrated circuit on which a CPU is mounted, a one-chip microcomputer, or the like. For example, a monitor (a monitor operated by an operator) detected by the input monitor detection unit 17 is used. In the case of the monitor 1, it can be shown that the operation content analyzed by the input command analysis unit 18 is an operation of pressing a tab indicating the screen name of the screen displayed on the monitor 2 (or the monitor 3). For example, the screen displayed on the monitor 1 is switched to the screen displayed on the monitor 2 (or the monitor 3), and the monitor 2 (or the monitor 3) is displayed as in the correspondence relationship updating unit 19 in FIG. Monitors recorded in the monitor / screen relationship table of the table holding unit 11 so that the screen displayed on the screen is switched to the screen displayed on the monitor 1. It carries out a process of updating the correspondence between the different numbers and screen identification number.

  In addition, for example, when the monitor detected by the input monitor detection unit 17 (the monitor that the operator is operating) is the monitor 1, the correspondence update unit 20 displays the operation content analyzed by the input command analysis unit 18. If the operation is to instruct the other monitor 2 (or monitor 3) to copy the screen displayed on the monitor 1, the screen displayed on the other monitor 2 (or monitor 3) is displayed on the monitor 1. A process of updating the correspondence between the monitor identification number and the screen identification number recorded in the monitor / screen relation table of the table holding unit 11 is performed so as to switch to the displayed screen. The correspondence update unit 20 constitutes a correspondence update unit.

  In the example of FIG. 9, the table holding unit 11, the screen generation unit 13, the tab group generation unit 14, the display screen synthesis unit 15, the input monitor detection unit 17, the input command analysis unit 18, and the corresponding components that are components of the multi-monitor switching device. Although it is assumed that each of the relationship update units 20 is configured by dedicated hardware, when the multi-monitor switching device is configured by a computer, the table holding unit 11, the screen generation unit 13, the tab group generation unit 14, a program describing the processing contents of the display screen synthesis unit 15, the input monitor detection unit 17, the input command analysis unit 18, and the correspondence relationship update unit 20 is stored in the memory of the computer, and the CPU of the computer stores the memory in the memory The program stored in the program may be executed.

Next, the operation will be described.
The screen generation unit 13 refers to the monitor / screen relationship table held by the table holding unit 11 in the same manner as in the first embodiment, and displays the screens A, B, and C to be displayed on the monitors 1, 2, and 3. Generate.
Similarly to the first embodiment, the tab group generation unit 14 refers to the monitor / screen relationship table held by the table holding unit 11 and indicates the screen names of the screens displayed on the monitors 1, 2, and 3. Generate tabs.
However, the display contents of the tabs constituting the tab group generated by the tab group generation unit 14 are slightly different from those in the first embodiment.

FIG. 10 is an explanatory diagram illustrating an example of a tab group generated by the tab group generation unit 14.
In the example of FIG. 9, since three monitors 1, 2, 3 are mounted on the driver's console, a tab group including three tabs is generated as shown in FIG.
However, the three tabs constituting the tab group displayed on the monitor 1, the three tabs constituting the tab group displayed on the monitor 2, and the three tabs constituting the tab group displayed on the monitor 3 are displayed. Although the tabs are the same, in the tab group displayed on the monitor 1, the tabs related to the screen A displayed on the monitor 1 are seen in the forefront, and the tabs related to the screens B and C displayed on the monitors 2 and 3. Tabs are generated so that is visible behind.

In the tab group displayed on the monitor 2, the tabs related to the screen B displayed on the monitor 2 can be seen in the forefront, and the tabs related to the screens A and C displayed on the monitors 1 and 3 can be seen behind. A tab group is generated.
In the tab group displayed on the monitor 3, the tabs related to the screen C displayed on the monitor 3 can be seen in the forefront, and the tabs related to the screens A and B displayed on the monitors 1 and 2 can be seen in the rear. A tab group is generated.

Screen names (for example, plant system diagram, trend graph, plant operation history screen, etc.) displayed on the monitors 1, 2, 3 are displayed on the three tabs constituting the tab group. However, in FIG. 10, screen names are represented by screen A, screen B, and screen C for simplification of drawing notation.
In FIG. 10, monitor identification numbers [1], [2], and [3] for identifying the monitors 1, 2, and 3 are displayed on the tabs related to the screens A, B, and C.
In the tab shown in FIG. 10, a screen duplication button used when duplicating the screen displayed on the monitor to another monitor is displayed.

The display screen composition unit 15 generates the screens A, B, and C to be displayed on the monitors 1, 2, and 3 by the screen generation unit 13, and the tab group generation unit 14 generates the tab group, as in the first embodiment. Then, the tab group is combined with the screens A, B, and C generated by the screen generation unit 13, and the screens A, B, and C after the tab group combination are displayed on the monitors 1, 2, and 3.
Thus, for example, when the operator sits in front of the monitor 1 and looks at the screen A displayed on the monitor 1, the tabs are displayed in the area B of the monitor 1. 3, it can be understood that the screens displayed on the monitors 2 and 3 are the screens B and C.

Next, when the operator is sitting in front of the monitor 1, for example, when the screen A displayed on the monitor 1 needs to be copied to another monitor 2 (monitor 1: screen A → screen A, monitor 2). : Screen B → Screen A), the operator uses the man-machine interface 16 to copy the screen A displayed on the monitor 1 to another monitor 2.
That is, among the tab groups displayed in the area B of the monitor 1, an operation of pressing the “screen copy button” in the tab indicating the screen name of the screen B displayed on the monitor 2 is performed (in FIG. 10, (The operation of pressing the “screen copy button” pointed to by the arrow is performed).

When the operator uses the man-machine interface 16, the input monitor detection unit 17 performs an operation of pressing the “screen copy button” as an operation of copying the screen A displayed on the monitor 1 to another monitor 2. The monitor on which the operator is operating is detected.
In this case, it is detected that the monitor operated by the operator is the monitor 1.
When the input monitor detection unit 17 detects that the monitor operated by the operator is the monitor 1, the input monitor detection unit 17 outputs a monitor identification number (1) indicating the monitor 1 to the input command analysis unit 18.

When an operator performs an operation using the man-machine interface 16, the input command analysis unit 18 receives the operation and analyzes the operation content.
When the operator performs an operation of pressing the “screen copy button” in any of the tabs constituting the tab group displayed in the area B of the monitor 1, the input command analysis unit 18 performs an operation of copying the screen. Is recognized as having been done.
As described above, when the “screen copy button” in the tab indicating the screen name of the screen B is pressed and the monitor identification number (1) is received from the input monitor detection unit 17, the screen A displayed on the monitor 1 is displayed. Is recognized as an operation for copying to the monitor 2.
The input command analysis unit 18 outputs, to the correspondence update unit 20, a copy request signal that instructs to copy the screen A displayed on the monitor 1 to the monitor 2 as an analysis result of the operation content.

When the correspondence update unit 20 receives the duplication request signal from the input command analysis unit 18, according to the duplication request signal, the correspondence relationship update unit 20 sets the monitor identification number and screen identification number recorded in the monitor / screen relation table of the table holding unit 11. Update correspondence.
That is, the correspondence relationship update unit 20 monitors the monitor identification recorded in the monitor / screen relationship table of the table holding unit 11 so that the screen B displayed on the monitor 2 is switched to the screen A displayed on the monitor 1. The correspondence between the number and the screen identification number is updated.

FIG. 11 is an explanatory diagram showing an example of the correspondence relationship recorded in the monitor / screen relationship table updated by the correspondence relationship update unit 20.
In the example of FIG. 11, the monitor 1 displays a screen A (for example, a plant system diagram), the monitor 2 displays a screen A (for example, a plant system diagram), and the monitor 3 displays a screen C (for example, a plant system diagram). , Plant operation history screen) is displayed.

When the correspondence update unit 20 updates the monitor / screen relationship table held by the table holding unit 11, the screen generation unit 13 refers to the updated monitor / screen relationship table to monitor 1, 2, 3. Check the type of screen to be displayed.
In the example of FIG. 11, it is confirmed that the screen displayed on the monitor 1 is the screen A, the screen displayed on the monitor 2 is the screen A, and the screen displayed on the monitor 3 is the screen C.
When the screen generation unit 13 confirms the types of screens to be displayed on the monitors 1, 2, 3, the screen generation unit 13 acquires the screen data of the screens A, A, C displayed on the monitors 1, 2, 3 from the screen data storage unit 12. The screens A, A, and C are generated.

The tab group generation unit 14 refers to the monitor / screen relationship table updated by the correspondence update unit 20 and confirms the type of screen displayed on the monitors 1, 2, and 3.
In the example of FIG. 11, it is confirmed that the screen displayed on the monitor 1 is the screen A, the screen displayed on the monitor 2 is the screen A, and the screen displayed on the monitor 3 is the screen C.
When the tab group generation unit 14 confirms the types of screens displayed on the monitors 1, 2, and 3, the tab group generation unit 14 acquires the screen names of the screens A, A, and C displayed on the monitors 1, 2, and 3 from the screen data storage unit 12. Thus, a tab group indicating the screen names of the screens A, A, and C displayed on the monitors 1, 2, and 3 is generated.
FIG. 12 is an explanatory diagram illustrating an example of a tab group generated by the tab group generation unit 14.

When the screen generation unit 13 generates screens A, A, and C to be displayed on the monitors 1, 2, and 3 and the tab group generation unit 14 generates a tab group, the display screen synthesis unit 15 generates the tab group as a screen generation unit. 13, the screens A, A, and C after the tab group composition are displayed on the monitors 1, 2, and 3.
FIG. 13 is an explanatory diagram illustrating an example of screens A, A, and C on which tab groups are combined by the display screen combining unit 15.
In FIG. 13, the screens A, A, and C generated by the screen generation unit 13 are displayed on the area A that is the upper area of the monitors 1, 2, and 3, and are the lower areas of the monitors 1, 2, and 3. An example is shown in which the tab group generated by the tab group generation unit 14 is displayed in the area B.
Thus, the operator can copy the screen A displayed on the monitor 1 to the monitor 2 without performing an operation on the monitor 2 by performing an operation on the monitor 1 while sitting in front of the monitor 1. it can.

  As apparent from the above, according to the second embodiment, for example, when the monitor detected by the input monitor detection unit 17 is the monitor 1, the operation content analyzed by the input command analysis unit 18 is the monitor 1. If the operation is to instruct the other monitor 2 to copy the screen displayed on the screen, the correspondence update unit 20 switches the screen displayed on the other monitor 2 to the screen displayed on the monitor 1. In addition, since the correspondence relationship between the monitor identification number and the screen identification number recorded in the monitor / screen relationship table of the table holding unit 11 is updated, when the operator is sitting in front of the monitor 1, the monitor 1 By performing the operation on, the screen A displayed on the monitor 1 can be duplicated on the monitor 2 without performing the operation on the monitor 2.

In the second embodiment, the case where the operator performs an operation on the monitor 1 to duplicate the screen A displayed on the monitor 1 on the monitor 2 is described. However, the operator performs an operation on the monitor 1. Thus, the screen A displayed on the monitor 1 may be copied to the monitor 3.
Further, when the operator performs an operation on the monitor 2 or the monitor 3, the screens B and C displayed on the monitor 2 or the monitor 3 may be copied to another monitor.

In the second embodiment, the screen A displayed on the monitor 1 is duplicated on the monitor 2 when the operator performs an operation on the monitor 1. In this case, the screen displayed on the monitor 2 is displayed. B is not displayed on any monitor, and there is no tab indicating the screen name of screen B.
For this reason, after the screen A displayed on the monitor 1 is copied to the monitor 2, when the screen B needs to be displayed, the operator selects the screen B from the many screens prepared in advance. Many operations are required to select and display the screen B on the monitor.
Therefore, in the second embodiment, the history of a screen that has been displayed on any of the monitors in the past is held, and if the operator selects screen B from the history, the screen B is displayed on the monitor. It may be possible to simplify the operation.

Embodiment 3 FIG.
FIG. 14 is a block diagram showing a multi-monitor switching device according to Embodiment 3 of the present invention. In the figure, the same reference numerals as those in FIG.
The tab group generation unit 21 is composed of, for example, a GPU and the like, and the monitor 1 and the monitor 2 are referred to by referring to the monitor / screen relation table held by the table holding unit 11 as in the tab group generation unit 14 of FIG. , 3 is confirmed, the screen names of the screens displayed on the monitors 1, 2, 3 are acquired from the screen data storage unit 12, and the screen names of the screens displayed on the monitors 1, 2, 3 are obtained. A process for generating the tab group shown is executed.
Further, when the tab group generation unit 21 refers to the monitor / screen relationship table updated by the correspondence relationship update unit 20 and generates a new tab group, after a certain time has elapsed since the generation of the new tab group, A process of arranging a plurality of tabs constituting the tab group in order of monitor identification numbers (order of monitor numbers) is performed. The tab group generation unit 21 constitutes a tab group generation unit.

  In the example of FIG. 14, the table holding unit 11, the screen generation unit 13, the tab group generation unit 21, the display screen synthesis unit 15, the input monitor detection unit 17, the input command analysis unit 18, and the corresponding components that are components of the multi-monitor switching device. Although it is assumed that each of the relationship update units 20 is configured by dedicated hardware, when the multi-monitor switching device is configured by a computer, the table holding unit 11, the screen generation unit 13, the tab group generation unit 21, a program describing the processing contents of the display screen synthesis unit 15, input monitor detection unit 17, input command analysis unit 18, and correspondence update unit 20 is stored in the memory of the computer, and the CPU of the computer stores the memory in the memory The program stored in the program may be executed.

Next, the operation will be described.
In the first and second embodiments, when the correspondence relationship update unit 20 updates the correspondence relationship recorded in the monitor / screen relationship table, the tab group generation unit 14 refers to the updated correspondence relationship and newly creates a tab. As shown in FIG. 7, when the switching operation between two screens is repeated, the display positions of the plurality of tabs constituting the tab group are not in the order of the monitor identification numbers (monitor 1 in FIG. 7). Then, the monitor identification numbers are in the order of [2] [1] [3] from the left), which is difficult to see.

Therefore, in the third embodiment, the tab group generation unit 21 refers to the updated monitor / screen relationship table in the same manner as the tab group generation unit 14 in the first and second embodiments, and newly creates a tab. When a group is generated, an internal timer is started from the time when a new tab group is generated.
When the timer detects that a certain period of time has elapsed, the tab group generation unit 21 arranges a plurality of tabs constituting the tab group in the order of monitor identification numbers as shown in FIG.
Accordingly, the display positions of the plurality of tabs constituting the tab group coincide with the arrangement relationship of the plurality of monitors mounted on the driving console.

  As apparent from the above, according to the third embodiment, when the tab group generation unit 21 refers to the monitor / screen relationship table updated by the correspondence relationship update unit 20 and newly generates a tab group, Since a plurality of tabs constituting the tab group are arranged in order of monitor identification number after a certain time has elapsed since the generation of a new tab group, the plurality of tabs constituting the tab group are arranged. Display position coincides with the arrangement relationship of a plurality of monitors mounted on the driver's console, and it is possible to present an easily viewable tab group.

Embodiment 4 FIG.
In the first to third embodiments, the tab group generation units 14 and 21 refer to the updated monitor / screen relationship table to generate a new tab group, but as shown in FIG. When the tab group generation units 14 and 21 generate a tab group, the thumbnails of the screen generated by the screen generation unit 13 may be included in each tab constituting the tab group.
Accordingly, by viewing the tab group displayed on the monitor area B, it is possible to more easily grasp the screen displayed on another monitor.

Embodiment 5 FIG.
In Embodiments 1 to 4 above, the monitor is divided vertically, and the upper part of the monitor is the area A (area for displaying the screen) and the lower part of the monitor is the area B (area for displaying the tab group) As shown in FIG. 17, the monitor is not limited to this. For example, as shown in FIG. 17, the monitor is divided into left and right sides, and the left side of the monitor is an area A (area for displaying the screen). The right side may be an area B (an area for displaying a tab group).

Embodiment 6 FIG.
In the first to fifth embodiments described above, the tabs indicating the screen names of the display screens of the monitors 1, 2, 3 mounted on the driver's console are displayed on the second area of the monitors 1, 2, 3. Assuming a monitor (virtual monitor) that is not actually mounted on the driver's console, as shown in FIG. 18, a screen D to be displayed on the virtual monitor is generated, and a tab indicating the screen name of the screen D is displayed. May be included in the tab group.
In this case, since the screen D that is not actually displayed on the monitors 1, 2, and 3 mounted on the driver's console can be associated with the tab, the operation of the operator pressing the tab indicating the screen name of the screen D is performed. Can easily display the screen D on the monitors 1, 2, and 3.

  1, 2, 3 monitor, 11 table holding unit (table holding unit), 12 screen data storage unit, 13 screen generating unit (screen generating unit), 14, 21 tab group generating unit (tab group generating unit), 15 display screen Composition unit (screen display means), 16 Man-machine interface (operation reception means), 17 Input monitor detection section (operation reception means), 18 Input command analysis section (operation reception means), 19, 20 Correspondence update section (correspondence) Update means).

Claims (5)

Table holding means for holding a table in which the correspondence between a plurality of monitors and display screens used for plant monitoring or control is recorded;
Screen generation means for generating screens to be displayed on a plurality of monitors with reference to the table held by the table holding means;
A tab group generation unit that generates a tab group indicating identification information for each screen generated by the screen generation unit with reference to the table held by the table holding unit;
Screen display means for combining the tab group generated by the tab group generation means with the screen of each monitor generated by the screen generation means, and displaying the screen after the tab group synthesis on each monitor;
An operation accepting means for accepting an operation for each monitor on which the screen after the tab group composition is displayed by the screen display means;
If an operation on a certain monitor is accepted by the operation accepting means, and the operation is an operation of pressing a tab indicating identification information of a screen displayed on a monitor other than the certain monitor, the operation is displayed on the certain monitor. So that the screen displayed on the monitor other than a certain monitor is switched to the screen displayed on the monitor other than the certain monitor and the screen displayed on the certain monitor is switched to the screen displayed on the certain monitor. A multi-monitor switching device comprising correspondence updating means for updating a correspondence between a recorded monitor and a display screen. The correspondence updating unit operation on one monitor is accepted by the operation acceptance means, if an operation for instructing a copy screen where the operation is displayed on one monitor on the monitor other than one monitor, claims screen displayed on the monitor other than one monitor to switch the screen displayed on the one monitor, and updates the correspondence between the display screen and monitor are recorded in the table Item 4. The multi-monitor switching device according to item 1. The tab group generation unit refers to the updated table by the correspondence updating unit, generates a new tab group, after a certain time to generate a group of new tabs, the tab group 3. The multi-monitor switching device according to claim 1, wherein a plurality of tabs constituting the plurality of tabs are arranged in order of monitor numbers. The tab group generating means, when generating a tab group indicating identification information of a screen displayed on a plurality of monitors, a thumbnail of the generated screen by the screen generating means, each tab constituting the tab group The multi-monitor switching device according to claim 1, wherein the multi-monitor switching device is included in the multi-monitor switching device. A screen generation processing step in which the screen generation means generates a screen to be displayed on the plurality of monitors with reference to a table in which the correspondence between the plurality of monitors and display screens used for monitoring or controlling the plant is recorded;
A tab group generation processing step in which the tab group generation means generates a tab group indicating identification information for each screen generated in the screen generation processing step with reference to the table,
Screen display processing step in which the screen display means combines the tab group generated in the tab group generation processing step with the screen of each monitor generated in the screen generation processing step, and displays the screen after the tab group synthesis on each monitor. When,
An operation reception processing step in which the operation reception means receives an operation for each monitor on which the screen after the tab group composition is displayed by the screen display processing step;
If an operation for a certain monitor is accepted in the operation accepting processing step and the operation is an operation of pressing a tab indicating identification information of a screen displayed on a monitor other than a certain monitor, the correspondence updating means The screen displayed on the monitor is switched to the screen displayed on a monitor other than a certain monitor, and the screen displayed on a monitor other than a certain monitor is switched to the screen displayed on a certain monitor. Thus, the multi-monitor switching method provided with the correspondence update process step of updating the correspondence between the monitor recorded in the table and the display screen.

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