JP4244586B2 - Multi-display screen setting method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a multi-display screen setting method.
[0002]
[Prior art]
Conventionally, in personal computers, televisions, vehicle navigation devices, etc., especially when a large display such as a wide display or a landscape display is adopted, a single display mode for displaying one screen on the entire display and a display There is provided a technique capable of selecting a dual display mode in which two separate screens are displayed. In some cases, it is possible to select a multi-display mode in which three or more screens can be displayed on the display.
[0003]
In particular, in a personal computer, a single display mode in which two or more independent displays are adjacent to each other, and the two or more displays are regarded as one continuous display and a single screen is displayed. A technique for selecting a multi-display mode for displaying a separate screen is provided.
[0004]
In this case, switching between the single display mode and the dual display mode or the multi-display mode, how to arrange a plurality of screens in the dual display mode or the multi-display mode, for example, arranged side by side, or The screen display setting for switching the array to be arranged vertically is performed by resetting the screen properties.
[0005]
[Problems to be solved by the invention]
However, in the conventional multi-display screen setting method, since detailed operations are required to reset the screen properties, incorrect settings may be performed. In particular, a touch panel display that can be input by touching (touching) the display with a pen or a finger by disposing a transparent touch panel made of a contact detection type transparent electrode on the surface of the display. In some cases, it is difficult to perform detailed operations, and settings are often mistaken. Furthermore, if calibration of the touch panel is not correctly performed, an intended operation item cannot be selected, and operation becomes more difficult.
[0006]
The present invention solves the problems of the conventional multi-display screen setting method, and displays a screen display such as switching between the single display mode and the multi-display mode, switching the screen arrangement in the multi-display mode, and the like by a simple operation. An object of the present invention is to provide a multi-display screen setting method capable of changing the setting of the display.
[0007]
[Means for Solving the Problems]
Therefore, in the multi-display screen setting method according to the present invention, screen setting markers are displayed on the screens of a plurality of screen display devices each having a corresponding touch panel, and the marker is selected by operating the touch panel. The position of the marker is changed and displayed, and the screen setting of the screen display device is changed according to the marker selection mode by operating the touch panel.The marker displayed on the screen of one screen display device is selected first time, the marker displayed on the screen of the one screen display device is selected second time, and the other screen display device is selected third time. When the marker displayed on the screen is selected, a horizontally long screen is set with the screen of the one screen display device on the left side and the screen of the other screen display device on the right side. Select the marker displayed on the screen of the device, select the marker displayed on the screen of another screen display device for the second time, and select the marker displayed on the screen of the one screen display device for the third time In this case, a vertically long screen is set with the screen of the one screen display device as the upper side and the screen of the other screen display device as the lower side.
[0008]
In another multi-display screen setting method of the present invention,Markers for screen setting are displayed on the screens of a plurality of screen display devices each having a corresponding touch panel, and the positions of the markers are changed according to the marker selection mode by operating the touch panel. The screen setting of the screen display device is changed in accordance with the mode of marker selection by the operation of, and the marker displayed on the screen of one screen display device is selected for the first time, and the one screen is selected for the second time. When a marker displayed on the screen of the display device is selected, a horizontally long screen is set with the screen of the one screen display device on the left side and the screen of the other screen display device on the right side. When the marker displayed on the screen of the display device is selected and the marker displayed on the screen of another screen display device is selected for the second time, the screen of the one screen display device is set as the upper side, A screen of the screen display device to configure the screen vertically long that the lower side.
[0009]
In still another multi-display screen setting method of the present invention,The coordinates on the touch panel corresponding to each of the plurality of screen display devices are detected, and the screen setting of the screen display device is changed and the screen size setting is changed according to the detection mode of the coordinates. When the touch panel whose coordinates are detected the second time is the same as the touch panel whose coordinates are detected the second time, a horizontally long screen with the screen of the screen display device corresponding to the touch panel as the left side and the screen of the other screen display device as the right side If the touch panel that detected the coordinates for the first time is different from the touch panel that detected the coordinates for the second time, the screen of the screen display device corresponding to the touch panel that detected the coordinates for the first time is set to the upper side, and the other screen Set a portrait screen with the screen of the display device on the bottom.
[0010]
In still another multi-display screen setting method of the present invention,Markers for screen setting are displayed on the screens of a plurality of screen display devices each having a corresponding touch panel, and the positions of the markers are changed according to the marker selection mode by operating the touch panel. The screen setting of the screen display device is changed according to the selection mode of the marker by the operation, and the calibration of the touch panel is also executed, and the marker displayed on the screen of one screen display device for the first time is changed. When selecting a marker displayed on the screen of the one screen display device for the second time and selecting a marker displayed on the screen of the one screen display device for the third time, the one screen display device Set a horizontally long screen with the left screen as the left screen and the screen of the other screen display device as the right side, and the first time the screen displayed on the screen of the first screen display device is displayed. When the marker displayed on the screen of the one screen display device is selected for the second time and the marker displayed on the screen of the other screen display device is selected for the third time, the one screen display device is selected. A vertically long screen is set with the above screen as the upper side and the screen of the other screen display device as the lower side.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0014]
FIG. 1 is a block diagram showing a configuration of a multi-display screen device according to the first embodiment of the present invention.
[0015]
In the figure, 11 is a main control unit for controlling the operation of each unit, 12 and 13 are a first screen display device and a second screen display as screen display devices for displaying a screen set by the main control unit 11. Device. Here, the main control unit 11 is a kind of computer including a calculation unit such as a CPU and an MPU, a storage unit such as a magnetic disk and a semiconductor memory, an input / output interface, and the like. The operation of the second screen display device 13 is controlled. The first screen display device 12 and the second screen display device 13 are composed of a CRT, a liquid crystal display, an LED (Light Emitting Diode) display, a plasma display, and the like, and constitute a display of a multi-display screen device. The first screen display device 12 and the second screen display device 13 may be configured independently and separately so as to be two independent displays. It may be integrally configured to be a single display for displaying a screen.
[0016]
Reference numeral 14 denotes a first touch panel as a touch panel corresponding to the first screen display device 12, and 15 denotes a second touch panel as a touch panel corresponding to the second screen display device 13. The first touch panel 14 and the second touch panel 15 are made of transparent electrodes and the like, and when touched with a pen or a finger, a change in resistance value or capacitance is detected, and position information of the touched location is input. This pointing device is also called a touch screen. The first touch panel 14 and the second touch panel 15 may be an infrared type or ultrasonic type with high accuracy. The first touch panel 14 and the second touch panel 15 are transparent, and are affixed to the entire surface of the first screen display device 12 and the second screen display device 13, and screened with a pen or a finger. The position touched by is transmitted to the main control unit 11 to cause the main control unit 11 to execute an operation corresponding to the position.
[0017]
In the present embodiment, the multi-display screen device is, for example, a personal computer, a television, a game machine, a PDA (Personal Digital Assistant), a mobile phone, a vehicle navigation device, etc., but a post office, a credit union, a consumer financial company, etc. Distributed to ATMs (Automatic Teller Machines), CDs (Cash Dispensers), currency exchange machines, etc., convenience stores, supermarkets, etc. Installed in established kiosk terminals, railway stations, bus stops, amusement parks, game centers such as game centers, theaters such as movie theaters, museums, parking lots, restaurants such as restaurants, and sports facilities such as golf courses Automatic ticket vending machines, If the apparatus having a Isupurei may be any device.
[0018]
In addition, the multi-display screen device may have three or more screen display devices so as to display three or more screens. Only the case of having a screen display device, that is, the first screen display device 12 and the second screen display device 13 will be described. In general, when two screens are displayed, it is often referred to as a dual display. However, in the present embodiment, multiple screens are displayed including the display of two screens. It will be called a display.
[0019]
Next, the operation of the multi-display screen device having the above configuration will be described.
[0020]
FIG. 2 is a diagram showing the display position of the marker of the first screen display device according to the first embodiment of the present invention, and FIG. 3 is a diagram of the marker of the second screen display device according to the first embodiment of the present invention. It is a figure which shows a display position.
[0021]
In the present embodiment, switching between the single display mode and the multi display mode on the screen A and the screen B of the first screen display device 12 and the second screen display device 13, and the arrangement of the screens in the multi display mode A screen setting marker for accurately setting the screen display such as switching is displayed. The screen display setting can be changed by touching and selecting a predetermined marker, that is, according to the marker selection mode by operating the first touch panel 14 and the second touch panel 15 as touch panels. it can.
[0022]
In this case, as shown in FIG. 2, in the first screen display device 12, the first marker A is displayed at the upper left of the screen A.₁Is displayed, and the second marker A is displayed at the lower left.₂Is displayed, and the third marker A is displayed on the upper right._ThreeIs displayed.
[0023]
Further, as shown in FIG. 3, in the second screen display device 13, the first marker B is displayed at the upper left of the screen.₁Is displayed, and the second marker B is displayed at the lower left.₂Is displayed, and the third marker B is displayed on the upper right._ThreeIs displayed.
[0024]
Next, the screen setting operation will be described.
[0025]
FIG. 4 is a flowchart showing the screen setting operation in the first embodiment of the present invention, and FIG. 5 is a diagram showing a screen display pattern in the first embodiment of the present invention.
[0026]
First, any screen display pattern may be used as the initial setting screen (default screen). For example, as shown in the screen display pattern (1) shown in FIG. Assume that it is displayed. That is, it is assumed that the entire screen is in a multi-display mode in which the screen is divided into a plurality of parts in the horizontal direction. Here, when the operator who operates the multi-display screen device starts the screen setting operation, the main control unit 11 displays the first marker A on the screen A of the first screen display device 12.₁And the first marker B is displayed on the screen B of the second screen display device 13.₁Is displayed. The operator then displays the displayed first marker A₁Or the first marker B₁The first marker A is touched with a finger or pen.₁Or the first marker B₁Select.
[0027]
Here, the first marker A₁Is selected, the main control unit 11 displays the second marker A on the screen A of the first screen display device 12.₂And the second marker B is displayed on the screen B of the second screen display device 13.₂Is displayed. The operator then displays the displayed second marker A₂Or second marker B₂The second marker A is touched with a finger or pen.₂Or second marker B₂Select.
[0028]
Subsequently, the second marker A₂Is selected, the main control unit 11 displays the third marker A on the screen A of the first screen display device 12._ThreeAnd the third marker B is displayed on the screen B of the second screen display device 13._ThreeIs displayed. The operator then displays the displayed third marker A_ThreeOr third marker B_ThreeThe third marker A can be touched with a finger or pen._ThreeOr third marker B_ThreeSelect.
[0029]
And the third marker A_ThreeWhen is selected, the main control unit 11 sets the screen display pattern to the screen display pattern (3) shown in FIG. 5, and only the screen A is displayed horizontally long. That is, it becomes a single display mode in which only the screen A of the first screen display device 12 is displayed on the entire screen. The third marker B_ThreeWhen is selected, the main control unit 11 sets the screen display pattern to the screen display pattern (1) shown in FIG. 5, and the screen A and the screen B are displayed side by side.
[0030]
As described above, the second marker A is displayed on the screen A of the first screen display device 12.₂Is displayed, and the second marker B is displayed on the screen B of the second screen display device 13.₂Is displayed, the second marker B₂Is selected, the main control unit 11 displays the third marker A on the screen A of the first screen display device 12._ThreeIs displayed, but the marker is not displayed on the screen B of the second screen display device 13. The operator then displays the displayed third marker A_ThreeThe third marker A can be touched with a finger or pen._ThreeSelect. Then, the main control unit 11 sets the screen display pattern to the screen display pattern (2) shown in FIG. 5, and the screen A and the screen B are displayed in parallel in the vertical direction. That is, the multi-display mode is displayed in which the entire screen is divided into a plurality of parts in the vertical direction.
[0031]
Further, as described above, the first marker A is displayed on the screen A of the first screen display device 12.₁Is displayed, and the first marker B is displayed on the screen B of the second screen display device 13.₁The first marker B when is displayed₁Is selected, the main control unit 11 displays the second marker A on the screen A of the first screen display device 12.₂And the second marker B is displayed on the screen B of the second screen display device 13.₂Is displayed. The operator then displays the displayed second marker A₂Or second marker B₂The second marker A is touched with a finger or pen.₂Or second marker B₂Select.
[0032]
Subsequently, the second marker A₂Is selected, the marker is not displayed on the screen A of the first screen display device 12, and the third marker B is displayed on the screen B of the second screen display device 13._ThreeIs displayed. The operator then displays the displayed third marker B_ThreeThe third marker B is touched with a finger or pen._ThreeSelect. Then, the main control unit 11 sets the screen display pattern to the screen display pattern (5) shown in FIG. 5, and the screen A and the screen B are displayed in parallel in the vertical direction. That is, the multi-display mode is displayed in which the entire screen is divided into a plurality of parts in the vertical direction. In the screen display pattern (2), screen A is displayed on the top and screen B is displayed on the bottom, whereas in the screen display pattern (5), screen A is displayed on the bottom and the screen B is displayed. B is displayed above.
[0033]
Here, the second marker A is displayed on the screen A of the first screen display device 12.₂Is displayed, and the second marker B is displayed on the screen B of the second screen display device 13.₂Is displayed, the second marker A₂Is selected, the main control unit 11 displays the third marker A on the screen A of the first screen display device 12._ThreeAnd the third marker B is displayed on the screen B of the second screen display device 13._ThreeIs displayed. The operator then moves the third marker A displayed with a finger or pen._ThreeOr third marker B_ThreeBy touching the third marker A_ThreeOr third marker B_ThreeSelect.
[0034]
And the third marker A_ThreeWhen is selected, the main control unit 11 sets the screen display pattern to the screen display pattern (4) shown in FIG. 5, and the screen A and the screen B are displayed side by side. That is, the multi-display mode is displayed in which the entire screen is divided into a plurality of parts in the horizontal direction. In the previous screen display pattern (1), screen A is displayed on the left and screen B is displayed on the right, whereas in screen display pattern (4), screen A is displayed on the right. B is displayed on the left. The third marker B_ThreeWhen is selected, the main control unit 11 sets the screen display pattern to the screen display pattern (6) shown in FIG. 5, and only the screen B is displayed horizontally long. That is, it becomes a single display mode in which only the screen B of the second screen display device 13 is displayed on the entire screen.
[0035]
Subsequently, the operator checks the display state of the screen, determines whether or not there is a problem with the display state of the set display pattern of the screen, and ends the screen setting operation when there is no problem. When there is a problem with the display state, the operator performs the screen setting operation again.
[0036]
Next, a flowchart will be described.
Step S1: The first marker A is displayed on the first screen display device 12.₁On the second screen display device 13 with the first marker B₁Are respectively displayed.
Step S2 First marker A₁It is determined whether or not is selected. First marker A₁If is selected, the process proceeds to step S3, where the first marker A₁Is not selected, that is, the first marker B₁If is selected, the process proceeds to step S10.
Step S3: The second marker A is displayed on the first screen display device 12.₂On the second screen display device 13 with the second marker B₂Are respectively displayed.
Step S4 Second marker A₂It is determined whether or not is selected. Second marker A₂If is selected, the process proceeds to step S5, where the second marker A₂Is not selected, that is, the second marker B₂If is selected, the process proceeds to step S9.
Step S5: The third marker A is displayed on the first screen display device 12._ThreeOn the second screen display device 13 with the third marker B_ThreeAre respectively displayed.
Step S6 Third marker A_ThreeIt is determined whether or not is selected. Third marker A_ThreeIf is selected, the process proceeds to step S7, where the third marker A_ThreeIs not selected, that is, the third marker B_ThreeIf is selected, the process proceeds to step S8.
Step S7: The screen setting is set to the screen display pattern (3).
Step S8: The screen setting is set to the screen display pattern (1).
Step S9: The screen setting is set to the screen display pattern (2).
Step S10: The second marker A is displayed on the first screen display device 12.₂On the second screen display device 13 with the second marker B₂Are respectively displayed.
Step S11 Second marker A₂It is determined whether or not is selected. Second marker A₂If is selected, the process proceeds to step S12, where the second marker A₂Is not selected, that is, the second marker B₂If is selected, the process proceeds to step S13.
Step S12: The screen setting is set to the screen display pattern (5).
Step S13: Marker A is displayed on the first screen display device 12._ThreeOn the second screen display device 13 with the third marker B_ThreeAre respectively displayed.
Step S14 Third marker A_ThreeIt is determined whether or not is selected. Third marker A_ThreeIf is selected, the process proceeds to step S15, where the third marker A_ThreeIs not selected, that is, the third marker B_ThreeIf is selected, the process proceeds to step S16.
Step S15: The screen setting is set to the screen display pattern (4).
Step S16: The screen setting is set to the screen display pattern (6).
Step S17: The display state of the screen is confirmed, and it is determined whether or not there is a problem with the display state. If there is no problem, the process ends. If there is a problem, the process returns to step S1.
[0037]
Thus, in the present embodiment, the screen setting can be changed only by selecting the marker three times, so that the operator can easily change the screen setting.
[0038]
Next, a second embodiment of the present invention will be described. The structure of the multi-display screen device in the present embodiment is the same as the structure of the multi-display screen device in the first embodiment, and will be described with reference to FIG. The marker display positions in the first screen display device 12 and the second screen display device 13 are also the same as in the first embodiment, and will be described with reference to FIGS. Further, the screen division pattern is the same as that of the first embodiment, and will be described with reference to FIG.
[0039]
Next, the screen setting operation will be described.
[0040]
FIG. 6 is a flowchart showing the screen setting operation in the second embodiment of the present invention.
[0041]
Also in the present embodiment, the initial setting screen is displayed with the screen A and the screen B arranged side by side as in the screen display pattern (1) shown in FIG. 5 as in the first embodiment. It is assumed that Here, when the operator who operates the multi-display screen device starts the screen setting operation, the main control unit 11 displays the first marker A on the screen A of the first screen display device 12.₁And the first marker B is displayed on the screen B of the second screen display device 13.₁Is displayed. The operator then displays the displayed first marker A₁Or the first marker B₁The first marker A is touched with a finger or pen.₁Or the first marker B₁Select.
[0042]
Here, the first marker A₁Is selected, the main control unit 11 displays the second marker A on the screen A of the first screen display device 12.₂And the second marker B is displayed on the screen B of the second screen display device 13.₂Is displayed. The operator then displays the displayed second marker A₂Or second marker B₂The second marker A is touched with a finger or pen.₂Or second marker B₂Select.
[0043]
And the second marker A₂When is selected, the main control unit 11 sets the screen display pattern to the screen display pattern (1) shown in FIG. 5, and the screen A and the screen B are displayed side by side. That is, the multi-display mode is displayed in which the entire screen is divided into a plurality of parts in the horizontal direction. The second marker B₂When is selected, the main control unit 11 sets the screen display pattern to the screen display pattern (2) shown in FIG. 5, and the screen A and the screen B are displayed in parallel in the vertical direction. That is, the multi-display mode is displayed in which the entire screen is divided into a plurality of parts in the vertical direction.
[0044]
Further, as described above, the first marker A is displayed on the screen A of the first screen display device 12.₁Is displayed, and the first marker B is displayed on the screen B of the second screen display device 13.₁The first marker B when is displayed₁Is selected, the main control unit 11 displays the second marker A on the screen A of the first screen display device 12.₂And the second marker B is displayed on the screen B of the second screen display device 13.₂Is displayed. The operator then displays the displayed second marker A₂Or second marker B₂The second marker A is touched with a finger or pen.₂Or second marker B₂Select.
[0045]
Subsequently, the second marker A₂When is selected, the main control unit 11 sets the screen display pattern to the screen display pattern (5) shown in FIG. That is, the multi-display mode is displayed in which the entire screen is divided into a plurality of parts in the vertical direction. The second marker B₂When is selected, the main control unit 11 sets the screen display pattern to the screen display pattern (4) shown in FIG. 5, and the screen A and the screen B are displayed side by side. That is, the multi-display mode is displayed in which the entire screen is divided into a plurality of parts in the horizontal direction.
[0046]
Subsequently, the operator checks the display state of the screen, determines whether or not there is a problem with the display state of the set display pattern of the screen, and ends the screen setting operation when there is no problem. When there is a problem with the display state, the operator performs the screen setting operation again.
[0047]
Next, a flowchart will be described.
Step S21: The first marker A is displayed on the first screen display device 12.₁On the second screen display device 13 with the first marker B₁Are respectively displayed.
Step S22 First marker A₁It is determined whether or not is selected. First marker A₁If is selected, the process proceeds to step S23, where the first marker A₁Is not selected, that is, the first marker B₁If is selected, the process proceeds to step S27.
Step S23: The second marker A is displayed on the first screen display device 12.₂On the second screen display device 13 with the second marker B₂Are respectively displayed.
Step 2S4 Second marker A₂It is determined whether or not is selected. Second marker A₂If is selected, the process proceeds to step S25, where the second marker A₂Is not selected, that is, the second marker B₂If is selected, the process proceeds to step S26.
Step S25: The screen setting is set to the screen display pattern (1).
Step S26: The screen setting is set to the screen display pattern (2).
Step S27: The second marker A is displayed on the first screen display device 12.₂On the second screen display device 13 with the second marker B₂Are respectively displayed.
Step S28 Second marker A₂It is determined whether or not is selected. Second marker A₂If is selected, the process proceeds to step S29, where the second marker A₂Is not selected, that is, the second marker B₂If is selected, the process proceeds to step S30.
Step S29: The screen setting is set to the screen display pattern (5).
Step S30: The screen setting is set to the screen display pattern (4).
Step S31: The display on the screen is confirmed, and it is determined whether or not there is a problem with the display. If there is no problem, the process ends. If there is a problem, the process returns to step S21.
[0048]
As described above, in this embodiment, the screen setting can be changed only by selecting the marker twice, so that the operator can change the screen setting more easily than in the first embodiment. .
[0049]
Next, a third embodiment of the present invention will be described. The structure of the multi-display screen device in the present embodiment is the same as the structure of the multi-display screen device in the first embodiment, and will be described with reference to FIG. The marker display positions in the first screen display device 12 and the second screen display device 13 are also the same as in the first embodiment, and will be described with reference to FIGS. Further, the screen division pattern is the same as that of the first embodiment, and will be described with reference to FIG.
[0050]
Next, the screen setting operation will be described.
[0051]
FIG. 7 is a first flowchart showing the screen setting operation in the third embodiment of the present invention, and FIG. 8 is a second flowchart showing the screen setting operation in the third embodiment of the present invention.
[0052]
Also in the present embodiment, as in the first and second embodiments, the initial setting screen has screen A and screen B arranged side by side as in screen display pattern (1) shown in FIG. It is assumed that it is displayed. Here, when the operator who operates the multi-display screen device starts the screen setting operation, the main control unit 11 displays the first marker A on the screen A of the first screen display device 12.₁And the first marker B is displayed on the screen B of the second screen display device 13.₁Is displayed. The operator then displays the displayed first marker A₁Or the first marker B₁The first marker A is touched with a finger or pen.₁Or the first marker B₁Select.
[0053]
Here, the first marker A₁Is selected, the main control unit 11 displays the second marker A on the screen A of the first screen display device 12.₂Is displayed, but the marker is not displayed on the screen B of the second screen display device 13. The operator then displays the displayed second marker A₂The second marker A is touched with a finger or pen.₂Select. Then, the main control unit 11 displays the third marker A on the screen A of the first screen display device 12._ThreeAnd the first marker B is displayed on the screen B of the second screen display device 13.₁Is displayed. The operator then displays the displayed third marker A_ThreeOr the first marker B₁The third marker A can be touched with a finger or pen._ThreeOr the first marker B₁Select.
[0054]
Subsequently, the third marker A_ThreeIs selected, the main control unit 11 displays the first marker B on the screen B of the second screen display device 13.₁Is displayed, but the marker is not displayed on the screen A of the first screen display device 12. The operator then displays the displayed first marker B₁Touch the first marker B with your finger or pen.₁Select. Then, the main control unit 11 displays the second marker B on the screen B of the second screen display device 13.₂Is displayed. Subsequently, the operator displays the displayed second marker B₂By touching with a finger or pen, the second marker B₂Select. Then, the main control unit 11 displays the third marker B on the screen B of the second screen display device 13._ThreeIs displayed. The operator then displays the displayed third marker B_ThreeThe third marker B is touched with a finger or pen._ThreeSelect. Then, the main control unit 11 reads the first to third markers A.₁~ A_ThreeAnd the first to third markers B₁~ B_ThreeBased on the coordinates touched when selecting, the first touch panel 14 and the second touch panel 15 are calibrated, and the screen display pattern is set to the screen display pattern (1) shown in FIG. Screen A and screen B are displayed side by side. That is, the multi-display mode is displayed in which the entire screen is divided into a plurality of parts in the horizontal direction.
[0055]
Further, as described above, the third marker A is displayed on the screen A of the first screen display device 12._ThreeIs displayed, and the first marker B is displayed on the screen B of the second screen display device 13.₁Is displayed, the first marker B₁Is selected, the main control unit 11 displays the second marker B on the screen B of the second screen display device 13.₂Is displayed, but the marker is not displayed on the screen A of the first screen display device 12. The operator then displays the displayed second marker B₂By touching with a finger or pen, the second marker B₂Select. Then, the main control unit 11 displays the third marker A on the screen A of the first screen display device 12._ThreeIs displayed, but the marker is not displayed on the screen B of the second screen display device 13. Subsequently, the operator displays the displayed third marker A._ThreeThe third marker A can be touched with a finger or pen._ThreeSelect. Then, the main control unit 11 displays the third marker B on the screen B of the second screen display device 13._ThreeIs displayed, but the marker is not displayed on the screen A of the first screen display device 12. The operator then displays the displayed third marker B_ThreeThe third marker B is touched with a finger or pen._ThreeSelect. Then, the main control unit 11 reads the first to third markers A.₁~ A_ThreeAnd the first to third markers B₁~ B_ThreeBased on the coordinates touched when selecting, the first touch panel 14 and the second touch panel 15 are calibrated, and the screen display pattern is set to the screen display pattern (2) shown in FIG. Screen A and screen B are displayed side by side in the vertical direction. That is, the multi-display mode is displayed in which the entire screen is divided into a plurality of parts in the vertical direction.
[0056]
As described above, the first marker A is displayed on the screen A of the first screen display device 12.₁Is displayed, and the first marker B is displayed on the screen B of the second screen display device 13.₁Is displayed, the first marker B₁Is selected, the main control unit 11 displays the second marker B on the screen B of the second screen display device 13.₂Is displayed, but the marker is not displayed on the screen A of the first screen display device 12. The operator then displays the displayed second marker B₂By touching with a finger or pen, the second marker B₂Select. Then, the main control unit 11 displays the first marker A on the screen A of the first screen display device 12.₁And the third marker B is displayed on the screen B of the second screen display device 13._ThreeIs displayed. The operator then displays the displayed first marker A₁Or third marker B_ThreeThe first marker A is touched with a finger or pen.₁Or third marker B_ThreeSelect.
[0057]
Here, the first marker A₁Is selected, the main control unit 11 displays the second marker A on the screen A of the first screen display device 12.₂Is displayed, but the marker is not displayed on the screen B of the second screen display device 13. The operator then displays the displayed second marker A₂The second marker A is touched with a finger or pen.₂Select. Then, the main control unit 11 displays the third marker B on the screen B of the second screen display device 13._ThreeIs displayed, but the marker is not displayed on the screen A of the first screen display device 12. The operator then displays the displayed third marker B_ThreeThe third marker B is touched with a finger or pen._ThreeSelect. Then, the main control unit 11 displays the third marker A on the screen A of the first screen display device 12._ThreeIs displayed, but the marker is not displayed on the screen B of the second screen display device 13. Subsequently, the operator displays the displayed third marker A._ThreeThe third marker A can be touched with a finger or pen._ThreeSelect. Then, the main control unit 11 reads the first to third markers A.₁~ A_ThreeAnd the first to third markers B₁~ B_ThreeBased on the coordinates touched when selecting, the first touch panel 14 and the second touch panel 15 are calibrated, and the screen display pattern is set to the screen display pattern (5) shown in FIG. Screen A and screen B are displayed side by side in the vertical direction. That is, the multi-display mode is displayed in which the entire screen is divided into a plurality of parts in the vertical direction.
[0058]
As described above, the first marker A is displayed on the screen A of the first screen display device 12.₁Is displayed, and the third marker B is displayed on the screen B of the second screen display device 13._ThreeIs displayed, the third marker B_ThreeIs selected, the main control unit 11 displays the first marker A on the screen A of the first screen display device 12.₁Is displayed, but the marker is not displayed on the screen B of the second screen display device 13. The operator then displays the displayed first marker A₁The first marker A is touched with a finger or pen.₁Select. Then, the main control unit 11 displays the second marker A on the screen A of the first screen display device 12.₂Is displayed, but the marker is not displayed on the screen B of the second screen display device 13. The operator then displays the displayed second marker A₂The second marker A is touched with a finger or pen.₂Select. Then, the main control unit 11 displays the third marker A on the screen A of the first screen display device 12._ThreeIs displayed, but the marker is not displayed on the screen B of the second screen display device 13. Subsequently, the operator displays the displayed third marker A._ThreeThe third marker A can be touched with a finger or pen._ThreeSelect. Then, the main control unit 11 reads the first to third markers A.₁~ A_ThreeAnd the first to third markers B₁~ B_ThreeBased on the coordinates touched when selecting, the first touch panel 14 and the second touch panel 15 are calibrated, and the screen display pattern is set to the screen display pattern (4) shown in FIG. Screen A and screen B are displayed side by side. That is, the multi-display mode is displayed in which the entire screen is divided into a plurality of parts in the horizontal direction.
[0059]
Subsequently, the operator checks the display state of the screen, determines whether or not there is a problem with the display state of the set display pattern of the screen, and ends the screen setting operation when there is no problem. When there is a problem with the display state, the operator performs the screen setting operation again.
[0060]
Next, a flowchart will be described.
Step S41: The first marker A is displayed on the first screen display device 12.₁On the second screen display device 13 with the first marker B₁Are respectively displayed.
Step S42: First marker A₁It is determined whether or not is selected. First marker A₁If is selected, the process proceeds to step S43, where the first marker A₁Is not selected, that is, the first marker B₁If is selected, the process proceeds to step S56.
Step S43: The second marker A is displayed on the first screen display device 12.₂, And the second marker A₂Select.
Step S44: The third marker A is displayed on the first screen display device 12._ThreeOn the second screen display device 13 with the first marker B₁Are respectively displayed.
Step S45 Third marker A_ThreeIt is determined whether or not is selected. Third marker A_ThreeIf is selected, the process proceeds to step S46, where the third marker A_ThreeIs not selected, that is, the first marker B₁If is selected, the process proceeds to step S51.
Step S46: The first marker B is displayed on the second screen display device 13.₁, And the first marker B₁Select.
Step S47: The second marker B is displayed on the second screen display device 13.₂, And the second marker B₂Select.
Step S48: The third marker B is displayed on the second screen display device 13._Three, And the third marker B_ThreeSelect.
Step S49 1st-3rd marker A₁~ A_ThreeAnd the first to third markers B₁~ B_ThreeCalibration of the first touch panel 14 and the second touch panel 15 is executed based on the coordinates touched when selecting.
Step S50: The screen setting is set to the screen display pattern (1).
Step S51: The second marker B is displayed on the second screen display device 13.₂, And the second marker B₂Select.
Step S52: The third marker A is displayed on the first screen display device 12._ThreeAnd the third marker A_ThreeSelect.
Step S53: The third marker B is displayed on the second screen display device 13._Three, And the third marker B_ThreeSelect.
Step S54 1st-3rd marker A₁~ A_ThreeAnd the first to third markers B₁~ B_ThreeCalibration of the first touch panel 14 and the second touch panel 15 is executed based on the coordinates touched when selecting.
Step S55: The screen setting is set to the screen display pattern (2).
Step S56: The second marker B is displayed on the second screen display device 13.₂, And the second marker B₂Select.
Step S57: The first marker A is displayed on the first screen display device 12.₁On the second screen display device 13 with the third marker B_ThreeIs displayed.
Step S58 First marker A₁It is determined whether or not is selected. First marker A₁If is selected, the process proceeds to step S59 where the first marker A₁Is not selected, that is, the third marker B_ThreeIf is selected, the process proceeds to step S64.
Step S59: The second marker A is displayed on the first screen display device 12.₂, And the second marker A₂Select.
Step S60: The third marker B is displayed on the second screen display device 13._Three, And the third marker B_ThreeSelect.
Step S61: The third marker A is displayed on the first screen display device 12._ThreeAnd the third marker A_ThreeSelect.
Step S62 1st-3rd marker A₁~ A_ThreeAnd the first to third markers B₁~ B_ThreeCalibration of the first touch panel 14 and the second touch panel 15 is executed based on the coordinates touched when selecting.
Step S63: The screen setting is set to the screen display pattern (5).
Step S64: The first marker A is displayed on the first screen display device 12.₁, And the first marker A₁Select.
Step S65: The second marker A is displayed on the first screen display device 12.₂, And the second marker A₂Select.
Step S66: The third marker A is displayed on the first screen display device 12._ThreeAnd the third marker A_ThreeSelect.
Step S67 1st-3rd marker A₁~ A_ThreeAnd the first to third markers B₁~ B_ThreeCalibration of the first touch panel 14 and the second touch panel 15 is executed based on the coordinates touched when selecting.
Step S68: The screen setting is set to the screen display pattern (4).
Step S69: The display on the screen is confirmed, and it is determined whether or not there is a problem with the display. If there is no problem, the process ends. If there is a problem, the process returns to step S41.
[0061]
As described above, in the present embodiment, it is possible to easily change the screen display setting while calibrating the first touch panel 14 and the second touch panel 15.
[0062]
Next, a fourth embodiment of the present invention will be described. The structure of the multi-display screen device in the present embodiment is the same as the structure of the multi-display screen device in the first embodiment, and will be described with reference to FIG. The marker display positions in the first screen display device 12 and the second screen display device 13 are also the same as in the first embodiment, and will be described with reference to FIGS.
[0063]
Next, the screen setting operation will be described.
[0064]
FIG. 9 is a flowchart showing the screen setting operation according to the fourth embodiment of the present invention.
[0065]
First, the main control unit 11 detects whether the operator first touches the first touch panel 14 or the second touch panel 15 with a finger or a pen, and the upper left corner of the touch panel touched first is displayed. The position coordinate is set to the origin (0, 0), and the position coordinate of the first point touched by the operator (X₁, Y₁) Is detected.
[0066]
  Subsequently, the main control unit 11 detects whether the operator touches the first touch panel 14 or the second touch panel 15 with a finger or a pen, and the touch panel touched second is first. If the touch panel is the same as the touch panel touched, the screen corresponding to the touch panel is displayed.UpOn the side, the other touch panelunderSet to the side. When the touch panel touched second by the operator is different from the touch panel touched first, the screen corresponding to the touch panel touched first is set on the left side and the other touch panel is set on the right side.
[0067]
Then, the main control unit 11 determines the position coordinates of the second point touched by the operator (X₂, Y₂), And then the position coordinates (X_Three, Y_Three) Is detected.
[0068]
Next, the main control unit 11 determines the position coordinates of the first point touched by the operator (X₁, Y₁)_Three-X₁] X [Y₁-Y₂] Set the screen size to be the size of].
[0069]
Subsequently, the operator checks the display state of the screen, determines whether or not there is a problem with the set display state of the screen, and ends the screen setting operation when there is no problem. When there is a problem with the display state, the operator performs the screen setting operation again.
[0070]
  Next, a flowchart will be described.
Step S71 The first point touched by the operator, that is, the first touch panel 14 and the second touch panel 15 at the first touch point are detected.
Step S72 The upper left corner on the touch panel side of the first touch point is set to the origin (0, 0).
Step S73: Position coordinates (X₁, Y₁) Is detected.
Step S74: The first touch panel 14 and the second touch panel 15 at the second touch point are detected, and it is determined whether or not the touch panel at the second touch point is the same as the touch panel at the first touch point. If the touch panel is the same as the first touch panel, the process proceeds to step S75. If the touch panel is different from the first touch panel, the process proceeds to step S76.
Step S75 The screen corresponding to the same touch panel is set on the left side, and the other touch panel is set on the right side.
Step S76 Touch the screen corresponding to the first touch panel.UpOn the side, the other touch panelunderSet to the side.
Step S77: Position coordinates (X₂, Y₂) Is detected.
Step S78: Position coordinates (X_Three, Y_Three) Is detected.
Step S79: Position coordinates (X₁, Y₁)_Three-X₁] X [Y₁-Y₂Set the screen size to the size of].
Step S80: The display on the screen is confirmed, and it is determined whether or not there is a problem with the display. If there is no problem, the process ends. If there is a problem, the process returns to step S71.
[0071]
As described above, in this embodiment, by touching any three points on the first touch panel 14 and the second touch panel 15, the screen division pattern and the screen size can be easily set.
[0072]
In the first to fourth embodiments, the case where the first touch panel 14 or the second touch panel 15 is used as an input device has been described. However, other input devices such as a keyboard and a mouse are also used. Can be applied.
[0073]
Further, the present invention can be applied to any device as long as it has a multi-display screen device configured as shown in FIG.
[0074]
Furthermore, in the said 1st-3rd embodiment, although the order which displays a marker on a screen is fixed, this order can be changed arbitrarily.
[0075]
In addition, this invention is not limited to the said embodiment, It can change variously based on the meaning of this invention, and does not exclude them from the scope of the present invention.
[0076]
【The invention's effect】
As described above in detail, according to the present invention, in the multi-display screen setting method, the screen setting can be changed by a simple operation.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a multi-display screen device according to a first embodiment of the present invention.
FIG. 2 is a diagram showing a marker display position of the first screen display device according to the first embodiment of the present invention.
FIG. 3 is a diagram showing a marker display position of the second screen display device according to the first embodiment of the present invention.
FIG. 4 is a flowchart showing a screen setting operation according to the first embodiment of the present invention.
FIG. 5 is a diagram showing a screen display pattern according to the first embodiment of the present invention.
FIG. 6 is a flowchart showing a screen setting operation according to the second embodiment of the present invention.
FIG. 7 is a first flowchart showing a screen setting operation in the third embodiment of the present invention;
FIG. 8 is a second flowchart showing a screen setting operation in the third embodiment of the present invention;
FIG. 9 is a flowchart showing a screen setting operation according to the fourth embodiment of the present invention.
[Explanation of symbols]
12 First image display device
13 Second image display device
14 First touch panel
15 Second touch panel

Claims (4)

Markers for screen setting are displayed on the screens of a plurality of screen display devices each having a corresponding touch panel, and the positions of the markers are changed according to the marker selection mode by operating the touch panel. A multi-display screen setting method, wherein the screen setting of the screen display device is changed according to the mode of marker selection by the operation of
Select the marker displayed on the screen of one screen display device for the first time, select the marker displayed on the screen of the one screen display device for the second time, and select the marker displayed on the screen of the other screen display device for the third time. When the displayed marker is selected, a horizontally long screen is set with the screen of the one screen display device on the left side and the screen of the other screen display device on the right side,
Select the marker displayed on the screen of one screen display device for the first time, select the marker displayed on the screen of another screen display device for the second time, and display the screen of the one screen display device for the third time. A multi-display screen setting method in which when a displayed marker is selected, a vertically long screen is set with the screen of the one screen display device as the upper side and the screen of the other screen display device as the lower side. Markers for screen setting are displayed on the screens of a plurality of screen display devices each having a corresponding touch panel, and the positions of the markers are changed according to the marker selection mode by operating the touch panel. A multi-display screen setting method, wherein the screen setting of the screen display device is changed according to the mode of marker selection by the operation of
When a marker displayed on the screen of one screen display device is selected for the first time and a marker displayed on the screen of the one screen display device is selected for the second time, the screen of the one screen display device is And set a landscape screen with the screen of the other screen display device on the right side.
When the marker displayed on the screen of one screen display device is selected for the first time and the marker displayed on the screen of another screen display device is selected for the second time, the screen of the one screen display device is set as the upper side. A multi-display screen setting method for setting a vertically long screen with the screen of the other screen display device as a lower side. Detecting coordinates on a touch panel corresponding to each of a plurality of screen display devices, and changing the screen setting of the screen display device and changing the screen size setting according to the mode of detection of the coordinates, A multi-display screen setting method,
If the touch panel whose coordinates were detected the first time and the touch panel whose coordinates were detected the second time are the same, the screen of the screen display device corresponding to the touch panel is the left side and the screen of the other screen display device is the right side. Set the screen,
When the touch panel whose coordinates are detected the first time is different from the touch panel whose coordinates are detected the second time, the screen of the screen display device corresponding to the touch panel whose coordinates are detected the first time is set to the upper side, and the screen of another screen display device luma Ruchi display screen setting method to set the screen vertically long that the lower the. Markers for screen setting are displayed on the screens of a plurality of screen display devices each having a corresponding touch panel, and the positions of the markers are changed according to the marker selection mode by operating the touch panel. A multi-display screen setting method characterized by changing the screen setting of the screen display device according to the mode of marker selection by the operation of, and also performing calibration of the touch panel,
Select the marker displayed on the screen of the first screen display device for the first time, select the marker displayed on the screen of the first screen display device for the second time, and the screen of the one screen display device for the third time When the marker displayed on is selected, a horizontally long screen is set with the screen of the one screen display device on the left side and the screen of the other screen display device on the right side,
Select the marker displayed on the screen of one screen display device for the first time, select the marker displayed on the screen of the one screen display device for the second time, and select the marker displayed on the screen of the other screen display device for the third time. A multi-display screen setting method in which when a displayed marker is selected, a vertically long screen is set with the screen of the one screen display device as the upper side and the screen of the other screen display device as the lower side.

Images