JP2004177614A - Multi-screen display device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve the following problem: when a 2nd video showing a partial detail is contracted and displayed in a multi-screen video being displayed on a multi-screen display unit, viewability of the detail becomes difficult because of decrease in the resolution due to the contraction. <P>SOLUTION: When a 1st video 201 is displayed on the whole multi-screen display unit 60 made up by seamlessly arranging a plurality of component screens 101-106 and a 2nd video 202 showing a partial detail is intended to be displayed in a position selected by a screen operation device 3 on the multi-screen, a picture control device 2 is arranged so as to display the 2nd video in the whole size of the component screens without contracting the display, therefore, the 2nd video 202 can be always recognized with best resolution. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a multi-screen display device for operation and monitoring control of various plants, various transportation systems, various military monitoring devices, and the like.
[0002]
[Prior art]
For example, when operating / monitoring / controlling an industrial plant such as a water treatment plant, system diagrams, images and data of surveillance cameras are displayed on a large display device as needed so that many operators can see the same screen at the same time. What is displayed by switching is used. Of the large display devices used for such purposes, a plurality of small screens are arranged and connected to form one large screen, which is called a multi-screen (or multi-large screen). Such a display device for performing monitoring control is called a multi-screen display device (or a multi-large screen display device).
[0003]
For example, a conventional multi-screen display device disclosed in FIG. 7 of Patent Document 1 and its display operation will be described. Hereinafter, reference numerals used in the description of the conventional technology are those described in Patent Document 1. In FIG. 7 of Patent Document 1, a plant 8 to be monitored, process input devices 5a and 5b for taking in data from the plant 8, computers 50a and 50b for processing / editing the taken data, and data edited by the computer. CRT controllers 30a and 30b to be displayed and large display controllers 10a and 10b to display data edited by a computer on the large displays 1a and 1b are described. FIG. 7 of the same document shows a display example of the large display 1 of the conventional multi-large-screen plant monitoring and control apparatus, that is, the display screens 31 and 32 of the CRT at places where the large screen 11 is displayed on the large displays 1a and 1b. , 33, 34, and 35 are shown.
[0004]
On the large screen 11, a screen showing the whole plant is displayed. With this screen, the operator can easily grasp the whole plant. CRT screens 31 to 35 are reduced and displayed at positions near the related display on the large screen 11 in some places on the large screen, and more detailed partial situations and various data are displayed. However, since the CRT screen originally displays image data displayed on a single monitor in a reduced size on a part of the large screen, the resolution is reduced, and the screen becomes difficult to read and becomes a dirty screen. There was a problem that, in order to confirm the details, it was necessary to reread the entire screen of one of the other monitors.
Further, when the CRT screen is displayed on the large screen, the large screen below the CRT screen cannot be seen, and there is a problem that it cannot be said that there is no trouble in driving.
[0005]
[Patent Document 1]
JP-B-6-93172 FIGS. 3 and 7 [0006]
[Problems to be solved by the invention]
Since the conventional multi-screen display device is as described above, all operators can see the CRT screen on the screen, but there is a problem that the display becomes dirty and difficult to see because the CRT screen is reduced. . In addition, there is a problem that the screen of the large screen is hidden by the screen of the CRT, and it is difficult to effectively perform overall monitoring.
[0007]
SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems, and is an advantage of displaying a CRT screen on a multi-screen without impairing the viewability of the CRT screen and displaying the multi-screen. It is an object of the present invention to provide a multi-screen display device that does not prevent effective overall monitoring.
[0008]
[Means for Solving the Problems]
A multi-screen display device according to the present invention is a multi-screen display configured by arranging a plurality of element screens of the same size,
A screen display device for outputting an arbitrary first image in which the entire multi-screen display is one screen,
A screen operation device for selecting an element screen for displaying a second video from the plurality of element screens,
Displaying the first video on the multi-screen display, stopping display of a portion of the displayed first video displayed on the selected element screen, and displaying video data of the second video. And a screen control device that selects a video information source that provides the second video and displays the second video on the entire screen of the selected element screen.
The size for displaying the second video is always displayed as the size of the element screen.
Since the second video is always displayed in the size of the element screen, it does not occur that the second video is difficult to read.
[0009]
BEST MODE FOR CARRYING OUT THE INVENTION
Embodiment 1 FIG.
Hereinafter, a multi-screen display device according to a first embodiment of the present invention will be described with reference to FIG. In FIG. 1, a multi-screen display 60 (sometimes referred to as a large-screen display or simply a large-screen for distinction for the sake of explanation) has first to sixth small projector screens (hereinafter referred to as a first-screen) having the same size. To the sixth element screen) are arranged in close contact with each other and are arranged seamlessly (with no noticeable seams), so that they can be displayed as one multi-screen image. On the multi-screen display 60, an image (software, referred to as a second video 202) sent from each device (CRT monitoring control devices 51, 52, ITV cameras 61, 62, etc.) described below is displayed. The screen control device 2 for processing and displaying on the multi-screen display 60 is connected.
Each of the first to sixth element screens 101 to 106 has the resolution and screen size of at least one CRT display alone.
[0010]
The screen control device 2 displays a screen such that an input signal from a device specified based on a specification of an operator (not shown) is displayed on any of the specified first to sixth element screens 101 to 106 on the multi-screen display 60. A screen operation device 3 for controlling the control device 2 is connected.
Further, the screen control device 2 includes a monitoring screen (also referred to as a multi-screen) showing the entire plant for receiving the plant signal from the controllers 81 and 82 and displaying the plant signal on the multi-screen display 60 as one multi-screen video 100. The screen display device 4 that outputs a video signal of the first video 201) is also connected.
The screen control device 2 receives a plant signal from the controllers 81 and 82 via the control LAN 7 in addition to the video signal output from the screen display device 4 and displays a plant monitoring screen or the like on a CRT (not shown). Signals from 51 and 52 and signals from ITV cameras 61 and 62 for capturing images of the plant by cameras are input. These devices are collectively referred to as a video information source.
[0011]
Next, the operation will be described with reference to FIGS. In the first embodiment, a multi-screen display 60 in which a total of six projectors (element screens) of three horizontal surfaces and two vertical surfaces are connected will be described as an example. Of course, the multi-screen display 60 may be larger. FIG. 2 is a flowchart for explaining a display method and an operation flow for the display method. FIG. 3 is an operation screen example for explaining an operation example of the screen operation device 3. FIG. 4 is a display example illustrating the display state of the multi-screen video 100.
In a normal monitoring state (normally refers to a steady operation state in which an alarm such as an alarm is not displayed), the multi-screen image 100 includes a multi-screen monitoring screen (software) that the screen display device 4 has. (Referred to as a first video 201). The first video 201 is mainly used for macro-monitoring the entire plant, and is a video from which the state of the entire plant can be easily grasped. Further, the monitoring video (second video 202) of the CRT monitoring devices 51 and 52 and the ITV cameras 61 and 62 displays a detailed monitoring screen of each individual facility constituting the plant. Information can be obtained.
[0012]
Here, by displaying the screens of the CRT monitoring devices 51 and 52 and the monitoring video (second video 202) of the ITV cameras 61 and 62 on the multi-screen display 60, detailed information will be shared by a plurality of operators. First, in step S0 in FIG. 3, the operator (operator) inputs the number of the information source (signal source such as a CRT monitoring device or an ITV camera) of the second video to be displayed on the screen operation device 3. . Next, in step S1, the position (number of the element screen) of the surface to be displayed on the multi-screen display 60 where this image is to be displayed is input. At this time, a display position on the first video 201 that does not cause any trouble even if it is not visible is selected. Next, in step S2, the screen operation device 3 notifies the screen control device 2 of the input device number (input signal source) and display position (output destination). The screen control device 2 that has received the notification stops displaying only the portion of the first video 201 being displayed that is displayed on the selected element screen.
[0013]
Further, the screen control device 2 switches the input signal and the output destination based on the notified information, and displays the second image on the selected element screen of the multi-screen display 60 so as to fill the entire screen of the element screen ( S3).
In FIG. 4, the image (second image 202) 91 of the CRT monitor 51 is displayed on the first element screen 101, and the image (second image 202) 92 of the ITV camera 61 is displayed on the fourth element screen 104. Shows an example of the display. In this case, the original multi-screen (first video 201) is displayed on the remaining second, third, and fifth to sixth element screens.
Since the designation of the display destination of the image / video is performed in units of element screens, and designation of using only a small part of one element screen for display (designation of reduced display) is not performed, at least one image displayed on the element screen is displayed. It is displayed with the same resolution as that displayed on one CRT display.
[0014]
As described above, according to the multi-screen display method of the present invention, the monitoring screen of the CRT monitoring device and the video of the ITV camera can be displayed in the multi-screen in units of the size of the element screen, so that it is difficult to view the image because it is reduced. This is eliminated, and necessary information can be shared between operators, and the effect of plant monitoring can be enhanced.
[0015]
Embodiment 2 FIG.
Next, a multi-screen display device according to a second embodiment will be described with reference to FIG. FIG. 6 is a flowchart when the display method of the present embodiment is performed. Hereinafter, in the flowcharts of the respective embodiments, the flows having the same step numbers indicate the same contents. Step S0 in FIG. 6 is the same as step S0 in FIG. 2 of the first embodiment, and thus detailed description is omitted.
First, in advance, the second screen display device 74 simplifies the first image 201 in addition to the first image 201 for the overall monitoring, so that the second image display device 74 has a size that fits in a part of the multi-screen display 60. A screen of a size (the medium size here will be described later; hereinafter, referred to as a third video 203) is also created and stored, and can be switched and output as needed.
Step (T1) is similar in content to step S1 in FIG. 2 of the first embodiment, but when the second large-screen scanning device 73 selects a display position for displaying the selected second video, a multi-screen The selection is sequentially performed from the position of the end of 100 (either end may be performed).
Next, the second screen operation device 73 notifies the second screen control device 72 and the second screen display device 74 of the output destination of the selected input signal and output signal. Upon receiving the notification, the second screen control device 72 stops displaying the first image 201 of the displayed multi-screen image 100, and then switches the input signal and the output destination based on the notified information. The second image 202 is displayed on the selected element screen of the multi-screen display 60 (S3). Then, the second screen display device 74 is simplified and stored in advance so as to be displayed on the remaining screens other than the element screen on which the selected and second video 202 is displayed. 203 is output, and the second screen control device 72 displays this on an empty portion of the multi-screen display 60 (T4).
[0016]
Here, the medium-sized third image 203 is a small screen such as a multi-screen image for four-screen display reduced to two screen widths or a multi-screen image for two-screen display reduced to one screen width. This is a medium-size overall monitoring screen that has been created and stored in advance so that the minimum necessary display can be performed. Although the size of the display is smaller than that of the multi-screen 100, a necessary portion is left after examination in advance, so that the temporary display does not hinder plant monitoring / operation.
FIG. 7 shows a screen (second video) of the CRT monitor 51 on the first element screen 101, a video (second video) of the ITV camera 61 on the fourth element screen 014, and a third video on the remaining four surfaces. 203 shows an example of displaying a monitoring screen 203 (monitoring screen stored in the multi-screen display device). If the number of screens on which the selected second video is displayed is an odd number, the remaining one screen may be left blank.
[0017]
As described above, according to the present invention, the monitoring screen of the CRT monitoring device and the image of the ITV camera can be displayed in a large unit for each element screen, and the next best screen prepared as the whole monitoring screen is also displayed. Therefore, it is possible to enhance the effect of the plant monitoring without overlapping the screens. Further, since the multi-screen displays a simple screen 203 in which necessary parts are secured, there is no problem in monitoring the entire plant.
[0018]
Embodiment 3 FIG.
Next, a multi-screen display device according to a third embodiment will be described with reference to FIGS. FIG. 9 is a flowchart showing the operation of the present embodiment, and FIG. 10 is a diagram showing a display example of a multi-screen.
Steps S0, T1, S2, and S3 in FIG. 9 are the same as the steps described in the first and second embodiments, and thus detailed description will be omitted. Steps up to step T1 in FIG. 9 are the same as in the second embodiment, and steps S2 and S3 are the same as the flow in FIG. 2 in the first embodiment.
In step U4, the third screen control device 80 performs a display 98 in which the multi-screen image is reduced so as to enter an empty (non-displayed) area of the multi-screen display 60. There are various ways of reduction depending on the shape of the vacant portion, but the reduction method is arbitrary as long as it enters (U4).
FIG. 10 shows an example in which the screen of the CRT monitor 51 is displayed on the first element screen 101, the image of the ITV camera 61 is displayed on the fourth element screen 104, and a reduced multi-screen output from the screen display device 4 is displayed on the remaining four screens. Is shown. In FIG. 10, the reduced screen 98 is shown at the upper end, but the position (up and down) of the remaining four planes at which the reduced screen is displayed is arbitrary.
Whenever the screen of the CRT monitoring device or the screen of the ITV camera (second video) further increases, the necessary reduced size is determined from the layout shape and size of the remaining vacant screen as needed. Reduce the size to just fit.
[0019]
As described above, according to the present invention, the monitoring screen of the CRT monitoring device and the image of the ITV camera are displayed in a large size on the multi-screen, and the entire monitoring screen does not overlap and is not hidden, and without being partially cut. Since it can be displayed, the effect of plant monitoring can be enhanced. Another advantage is that it is not necessary to create a plurality of multi-screen monitoring screens in advance as in the display method of the second embodiment.
[0020]
Embodiment 4 FIG.
Next, a multi-screen display device according to a fourth embodiment will be described with reference to FIG. FIG. 12 is a flowchart illustrating the operation, and FIG. 13 is a diagram illustrating a display example of a screen.
Steps S0 to S3 are the same as in FIG. 2 of the first embodiment, but the main points will be briefly described again.
The operator selects an information source (CRT monitoring device or ITV camera) of the second information to be displayed from the screen operation device 3 (S0), and selects an element screen to be displayed on the multi-screen display 60 (S1). The screen operation device 3 notifies the fourth screen control device 92 of the output destination of the selected input signal and output signal, and the fourth screen control device that has received the notification stops displaying a part of the multi-screen (S2). . The fourth screen control device 92 switches the input signal and the output destination based on the notified information, and displays the input signal and the output destination on the selected element screen of the multi-screen display 60 (S3). In the state so far, the display state is the same as that in FIG. 4 of the first embodiment.
[0021]
In this state, it is assumed that some additional display such as a failure or a caution event has occurred in a device or the like displayed on the screen of the multi-screen video 100. Since the condition determination device 70 constantly monitors the entire screen, it checks the display position of the symbol related to the additional display that has occurred (V4). If the examined display position is hidden below the screen of the CRT monitoring device or ITV camera previously displayed (the present invention indicates that the additional display is made and that it is hidden by the second image). In this case, it is called that a predetermined condition is satisfied), and the position number of the surface hidden by the fourth screen control device 94 and the output destination position number to be changed (erased or moved) so as not to be hidden are notified ( V5). Based on the notification, the fourth screen control device 92 deletes the screen (second image) of the CRT monitoring device or ITV camera that hides the symbol, or changes (moves) the position of the displayed element screen. (V6).
[0022]
FIG. 13A shows a state in which the screen 90 of the CRT monitoring device 51 is displayed on the first element screen 101 and the image of the ITV camera 61 is displayed on the fourth element screen 104. 13B shows a case where an alarm 96 has occurred on the first video 201 of FIG. 13B. Then, in FIG. 13B, the screen 90 of the CRT monitoring device of the first element screen 101 is moved to the screen of the second element screen 102 ( 90a) An example of the operation is shown.
As described above, according to the present invention, it is possible to always see the alarm display that has occurred in the overlapping lower image, and to perform monitoring without losing important information such as alarm occurrence on an easy-to-view screen that does not shrink. Is possible.
[0023]
Embodiment 5 FIG.
Next, a fifth embodiment will be described with reference to FIG. FIG. 15 is a flowchart showing the operation of the present embodiment. The screen operation device 3 selects an information source (CRT monitoring device or ITV camera) of the second video to be displayed (S0), and selects a position on the multi-screen 100 where the selected second video is to be displayed. (S1). The screen operation device 3 notifies the fourth screen control device 92 of the output destination of the selected input signal and output signal (S2). The fourth screen control device 92 switches the input signal and the output destination based on the notified information and displays the input signal and the output destination on the multi-screen display 60 (S3). The description so far is the same as that of the first embodiment.
[0024]
In this state, as shown in FIG. 16A, a failure or the like originally occurs in a portion hidden below the second image on the multi-screen image 100, and an alarm symbol 96 for displaying the failure is displayed. Is generated. Of course, the alarm symbol 96 is also hidden and cannot be seen. The second condition determination device 71 checks the display position of the symbol 96 related to the failure that has occurred (V4). As a result of the examination, if a predetermined condition is satisfied (in this case, the condition is that a symbol is generated and hidden), the fourth screen control device 92 is notified of the change of the output destination of the multi-screen (W5). Based on the notification, the fourth screen control device 92 changes the display output destination of the screen display device 4 (for example, moves as shown in FIG. 16B) (W6). FIG. 16A shows a multi-screen with a screen (second video) of the CRT monitoring device 51 displayed on the first element screen 101 and a video (second video) of the ITV camera 61 on the fourth element screen 104. 16B shows a state where an alarm 96 has occurred in a portion of the monitoring screen hidden by the first element screen 101, and FIG. 16B shows an example of an operation when the multi-screen video 201 is moved. Although the right end of the first image has moved and disappears, there is no problem in dealing with the alarm 96 for the time being.
[0025]
As described above, according to the present invention, it is possible to perform monitoring without missing important information such as occurrence of an alarm on an easy-to-view screen that is not reduced or the like.
[0026]
Embodiment 6 FIG.
Next, a sixth embodiment will be described. The configuration of the multi-screen display device of the present embodiment is the same as that of FIG. FIG. 17 is a flowchart showing the operation of the present embodiment. The information source (CRT monitoring device or ITV camera) of the second video to be displayed on the screen operation device 3 is selected (S0), and the element display surface to be displayed on the multi-screen display 60 is selected (S1). The screen operation device 3 notifies the fourth screen control device 92 of the output destination of the selected input signal and output signal (S2). The fourth screen control device switches the input signal and the output destination based on the notified information and displays the input signal and the output destination on the multi-screen display 60 (S3). The operation up to this point is the same as in the first embodiment.
[0027]
In this state, when the cursor 89 displayed on the multi-screen display 60 is moved to a hidden part of the monitoring screen (X4), the condition determination device 70 monitors the position of the cursor 89. (In this case, that the cursor 89 has moved to a portion of the monitoring screen hidden by the second video), the second video hidden by the fourth screen control device 92 is detected. And the output destination to be changed next (for example, increment the element screen number by 1) are notified (X5). Based on the notification, the fourth screen control device 92 deletes or moves the screen of the second video that hides the cursor 89 (X6).
FIG. 18A shows a state where the screen of the CRT monitoring device 51 (second image) is displayed on the first element screen 101 and the image of the ITV camera 61 (second image) is displayed on the fourth element screen 104. This shows a state where the cursor 89t is on the screen 102. FIG. 18B shows an example in which the second image on the first element screen is moved to the second element screen 102 as a result of moving the cursor 89 to the first element screen 101.
[0028]
As described above, according to the present invention, the display position can be controlled with a simple operation by moving the cursor on the images even if the images are overlapped, so that monitoring on the multi-screen can be performed efficiently. it can.
[0029]
Embodiment 7 FIG.
Next, a seventh embodiment will be described. The configuration of the present embodiment is the same as FIG. FIG. 15 is a flowchart showing the operation of the present embodiment. The information source (CRT monitoring device or ITV camera) of the second video to be displayed by the screen operation device 3 is selected (S0), and the element display surface to be displayed on the multi-screen display 60 is selected (S1). The screen operation device 3 notifies the fourth screen control device 92 of the output destination of the selected input signal and output signal (S2). Then, based on the notified information, the input signal and the output destination are switched and displayed on the multi-screen display 60 (S3). The description so far is the same as that of the first embodiment.
[0030]
In this state, when the cursor 89 displayed on the multi-screen display is moved to a hidden part of the monitoring screen (X4), the second condition determination device 71 monitors the position of the cursor, and When it is detected that it has moved to a hidden part of the monitoring screen, the fourth screen control device 92 is notified (commanded) of the output destination of the screen of the multi-screen display device (Y5). The fourth screen control device 92 changes the output destination of the screen of the multi-screen display 60 based on the notification (Y6).
FIG. 20A shows a state where the cursor 89 is on the second element screen 102 with the image of the ITV camera 61 displayed on the fourth screen and the screen of the CRT monitoring device 51 on the first element screen 101. (B) shows an example of the operation when the cursor 89 is moved to the first element screen 101, and as a result, the multi-screen monitoring screen moves one screen to the right. As a result, the cursor 89 is on the multi-screen after the movement and moves to the trunk again.
[0031]
As described above, according to the present invention, even if the images are overlapped, the display position can be controlled by a simple operation by moving the cursor on the images, so that the multi-screen monitoring can be performed efficiently. it can. Further, since the screen of the CRT monitoring device 51 and the image display position of the ITV camera 61 are not switched, there is no movement of the line of sight and it is not bothersome.
[0032]
【The invention's effect】
As described above, according to the multi-screen display device of the present invention, the monitoring screen of the CRT monitoring device and the image of the ITV camera can always be displayed on the multi-screen in the size of the element screen, so that the image which is always easy to see Thus, necessary information can be shared between operators, and the effect of plant monitoring can be enhanced.
[Brief description of the drawings]
FIG. 1 is a system block diagram illustrating a configuration of a multi-screen display device according to a first embodiment of the present invention.
FIG. 2 shows an operation flowchart of the display device of FIG.
FIG. 3 shows an example of an operation screen for executing the flow of FIG.
FIG. 4 is a video example of a multi-screen displayed according to the flow of FIG. 2;
FIG. 5 is a system block diagram for describing a configuration of a multi-screen display device according to a second embodiment of the present invention.
6 shows an operation flow chart of the display device of FIG.
7 is an image example of a multi-screen displayed according to the flow of FIG. 5;
FIG. 8 is a system block diagram illustrating a configuration of a multi-screen display device according to a third embodiment of the present invention.
9 shows an operation flowchart of the display device of FIG.
FIG. 10 is a video example of a multi-screen displayed according to the flow of FIG. 9;
FIG. 11 is a system block diagram illustrating a configuration of a multi-screen display device according to a fourth embodiment of the present invention.
12 shows an operation flowchart of the display device of FIG.
13 is a video example of a multi-screen displayed according to the flow of FIG.
FIG. 14 is a system block diagram illustrating a configuration of a multi-screen display device according to a fifth embodiment of the present invention.
15 shows an operation flowchart of the display device of FIG.
16 is a video example of a multi-screen displayed according to the flow of FIG.
FIG. 17 is an operation flowchart of the display device in Embodiment 6;
18 is a video example of a multi-screen displayed according to the flow of FIG.
FIG. 19 shows a flowchart of a display method according to Embodiment 7 of the present invention.
20 is a video example of a multi-screen displayed according to the flow of FIG. 19;
[Explanation of symbols]
2 screen control device, 3 screen operation device,
4 screen display device, 60 multi-screen display device,
70 condition determination device, 71 second condition determination device,
72 second screen control device, 73 second screen operation device,
74 second screen display device,
80 third screen control device, 92 fourth screen control device,
89 cursor, 96 alarm symbol, 98 reduced display screen,
101 to 106 first to sixth element screens, 201 first video,
202 second video, 203 third video.

Claims (7)

A multi-screen display configured by arranging multiple element screens of the same size,
A screen display device for outputting an arbitrary first image in which the entire multi-screen display is one screen,
A screen operation device for selecting an element screen for displaying a second video from the plurality of element screens,
Displaying the first video on the multi-screen display, stopping display of a portion of the displayed first video displayed on the selected element screen, and displaying video data of the second video. And a screen control device that selects a video information source that provides the second video and displays the second video on the entire screen of the selected element screen.
A multi-screen display device, wherein the size for displaying the second video is always displayed as the size of the element screen. A multi-screen display configured by arranging multiple element screens of the same size,
A second screen display device that outputs an arbitrary first image in which the entire multi-screen display is one screen, and an arbitrary third image in which a part of the multi-screen display is one screen;
A second screen operation device that preferentially selects an element screen at an end of the multi-screen display as a screen for displaying a second video from among the plurality of element screens;
Displaying the first video on the multi-screen display, stopping the display of the displayed first video, selecting a video information source that provides video data of the second video, A second screen control device that displays the image on the entire screen of the selected element screen, and further displays the third image on the multi-screen display excluding the selected element screen,
A multi-screen display device, wherein the size for displaying the second video is always set to the size of the element screen, and no screen is covered by another screen. A multi-screen display configured by arranging multiple element screens of the same size,
A screen display device for outputting an arbitrary first image in which the entire multi-screen display is one screen,
A second screen operation device that preferentially selects an element screen at an end of the multi-screen display as a screen for displaying a second video from among the plurality of element screens;
Displaying the first video on the multi-screen display, stopping the display of the displayed first video, selecting a video information source that provides video data of the second video, A third screen control device that displays the second image on the entire screen of the selected element screen, and further displays the first image on the multi-screen display excluding the selected element screen,
A multi-screen display, wherein the size for displaying the second video is always set to the size of the element screen, and the first and second screens are not covered by each other. apparatus. A multi-screen display configured by arranging multiple element screens of the same size,
A screen display device for outputting an arbitrary first image in which the entire multi-screen display is one screen,
A screen operation device for selecting an element screen for displaying a second video from the plurality of element screens,
Displaying the first video on the multi-screen display, stopping display of a portion of the displayed first video displayed on the selected element screen according to an external command, and A fourth screen control device that selects a video information source that provides video data of a second video to be displayed on the selected element screen, and displays the second video on the entire screen of the selected element screen;
By judging all displayed images and outputting a command to the fourth screen control device when a predetermined condition is satisfied, the display of the second video is stopped, or the display of the second video is stopped. A multi-screen display device comprising a condition determining device for changing a display position. A multi-screen display configured by arranging multiple element screens of the same size,
A screen display device for outputting an arbitrary first image in which the entire multi-screen display is one screen,
A screen operation device for selecting an element screen for displaying a second video from the plurality of element screens,
Displaying the first video, stopping display of a portion of the displayed first video displayed on the selected element screen in accordance with an external command, and displaying on the selected element screen A fourth image control device that selects an image information source that provides image data of a second image to be displayed, and displays the second image on the entire screen of the selected element screen;
Judging all displayed images, outputting a command to the fourth screen control device when a predetermined condition is satisfied, and moving the display position of the first image in units of the width of the element screen. A multi-screen display device comprising a second condition determination device. The multi-screen display device according to claim 4, wherein the predetermined condition is that an alarm display is present in a portion where the display of the first video is stopped. The multi-screen display device according to claim 4, wherein the predetermined condition is that a cursor is present at a portion where the display of the first video is stopped.

Images