JPH09138731A - Graphical user interface - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve developing efficiency, operability and customizing performance by judging an operation mode to process concerning what is discriminated by a picture discrimination part based on picture display data, the output signal of a touch screen and an operation mode signal in an operation mode storage part. SOLUTION: A developer or a user instructs a picture of a function symbol based on picture display data of a display/operation component displayed on a display unit 1 to drag and drop. Then the operation mode to be processed of the display/operation component with picture display data of the instructed and operated picture is judged to be changed, and a coordinate position arithmetic part 8, etc., calculates the moving coordinate position of picture display data. The picture is displayed on the display unit 1 through a display/operation component picture generation part 4 based on the arithmetic coordinate positional information.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a graphical user interface for operating devices of various devices in an air conditioner, a lighting device, a power receiving / distributing device, a home electric appliance and the like.

[0002]

2. Description of the Related Art In recent years, a direct touch system using a touch screen is becoming the mainstream as a graphical user interface of an operating device in an air conditioner, a lighting device, a power receiving and distributing device, a home electric appliance and the like. The input-type graphical user interface using a touch screen can be operated by directly touching an image of an operation button, an operation key, an operation switch, or the like that appears on the screen, so that a comfortable operation can be performed.

In the software development in the graphical user interface of such an operating device, a display / operating screen corresponding to the operating device is created by arranging images of function symbols such as operating buttons or operating keys on the screen. , A display / operation part that has a program (software) that realizes various data such as the image display data of the image of the function symbol that has been created once, and the operation of the function symbol when the image of the function symbol is operated and received. It has been registered as, and the development efficiency has been improved by reusing it.

The work of arranging images of function symbols such as operation buttons on the display / operation screen is left to the discretion of the developer, and any display / operation parts having the same image display data may be used. It may be arranged at various positions on the display / operation screen.

[0005]

The conventional graphical user interface as described above requires the following development work.
Since the developer or the development team individually performed each property to be developed, the design of which display / operation parts to use for which display / operation screen of which equipment should be designed with the experience of the developer or development team. Inevitably it depends on intuition, and as a result, the same expression is made with the same operation contents.Images of the function symbols of the display and operation parts are displayed for each device and placed in different locations on the operation screen. In some cases, inconsistencies may occur in the display / operation screens and operation methods between devices or models. And, because the display and operation screen design is done individually for each property, the development efficiency was also poor.

Further, when the display / operation parts are added, changed, or deleted in accordance with the specification change of the device, the image of the function symbol of the added / changed / deleted display / operation parts is arranged or The entire display / operation screen to be placed must be reviewed each time, which is time-consuming, and data such as the image position and size of the functional symbols of the display / operation parts and the change program (software) need to display the display / operation parts group. Since it is managed by the main software that controls and manages, when changing the data such as image position and size and the changing program (software), it is necessary to change the main program, resulting in high cost. There was such a problem.

Further, when another display / operation component is required to operate the contents represented by the image of the function symbol of the display / operation component, the display / operation component at each stage is individually prepared, It was necessary to associate them. That is, for example, when the image of the function symbol, which is the operation button representing the “operation mode” of the air conditioner is pressed to further select the operation mode, the image of the function symbol that is the operation button X representing the setting of the operation mode is displayed. A display / operation part having image display data and a display / operation part having image display data of an image of a function symbol that is a window Y for selecting a type of operation mode such as cooling / heating / drying are prepared and operated. When the button X is pressed, the window Y is opened, and it is necessary to separately associate the window mode with the actual operation mode selection operation. As a result, the development work of the graphical user interface becomes complicated, and there is a problem in workability such that development takes time.

In addition, in many conventional display / operation screen configurations, an image of a conventional operation panel, which is a collection of physical switches, is directly projected onto the display / operation screen. Therefore, for example, the operation buttons are arranged in a line regardless of the operation target,
The location of the device that is actually operated and the display / operation screen that has the image display data of the image of the function symbol, which is the operation button on the display / operation screen. The operability is deteriorated because it is necessary to find a display / operation part having image display data of an image of a functional symbol to be operated by relying on the above-mentioned character information and the like.

The present invention has been made in order to solve the above problems, and improves the development efficiency and operability.
It is intended to provide a graphical user interface capable of improving the customizability.

[0010]

A graphical user interface according to the present invention is a display / operation part having various data including image display data and means for realizing various calculations, and image display data of the display / operation part. A display unit displaying an image of a functional symbol based on
A touch screen that is arranged on the surface of the display unit and detects the coordinates of the position of the image display data of the image of the instructed and operated function symbol, and the image display data of the image that is instructed or operated based on the output signal of the touch screen. An image identification unit that identifies a display / operation component having an operation mode, an operation mode storage unit that stores an operation mode for identifying an operation on the touch screen, image display data of the item identified by the image identification unit, and a touch screen Based on the output signal of and the operation mode information of the operation mode storage unit, an operation processing determination unit that determines the operation mode to be processed for the one identified by the image identification unit, and each display / operation component, Image display data of the image of the function symbol displayed on the display unit as various data and image display data are displayed. Coordinate position calculation means for calculating the coordinate position of the image display data as means for realizing various calculations, and a function symbol based on the coordinate position information by the coordinate position calculation means. When the operation / operation determining unit determines that the operation mode to be processed is the coordinate position change, the output of the touch screen is supplied to the coordinate position calculating unit. A coordinate position changing processing means for causing the display unit to display an image based on the image display data after the position change by displaying the image based on the image display data after the position change. I have.

Further, in the graphical user interface according to the present invention, each display / operation component shows the relationship between the image of the functional symbol displayed on the display unit and the display area on the display unit as means for realizing various calculations. Coordinate position data is stored and has coordinate position default value storage means for outputting to the display / operation component image generation means, and the coordinate position default value storage means is an image display unit via the display / operation component image generation means. This is for specifying the area displayed above.

Further, in the graphical user interface according to the present invention, each display / operation component calculates a distance from an image of another functional symbol displayed on the display unit as a means for realizing various calculations. The distance calculation means and the second distance calculation means for calculating the distance between the image of the function symbol based on the image display data of the corresponding display / operation part and the screen edge of the display unit. Distance information by the distance calculating means and the second distance calculating means, a first reference distance between images of the preset function symbol and a second reference from the preset screen edge to the image of the functional symbol. The coordinate position calculation means calculates the coordinate position of the image display data based on the first and second reference distances based on the distance and the image display data after the position change. Image based is intended to be displayed on the display unit through the display and operation component image generating means.

In the graphical user interface according to the present invention, the display / operation component is an image size calculation means for calculating the size of the image of the function symbol based on the image display data as a means for realizing various calculations, and an operation. When the processing determination unit determines that the operation mode to be processed is image size change, the output of the touch screen is supplied to the image size calculation means to change the size of the image of the function symbol. Image size change processing means for causing the display unit to display the image after the image size change and display / operation component image generation means.

Further, in the graphical user interface according to the present invention, the display / operation parts are setting screen generating means for creating a setting screen as a means for realizing various calculations and displaying it on the display unit, and attributes of the display / operation parts. A display / operation component attribute value storage means for storing a value, and a setting for setting the attribute value of the display / operation component when the operation mode determination unit determines that the operation mode to be processed is the setting operation process. Drive the screen generation means to display the setting screen on the display unit, and display the image of the function symbol based on the image display data on the setting screen as the attribute value.
A setting operation processing unit for storing the operation component attribute value storage unit, and an image of the functional symbol based on the image display data on the display unit based on the attribute value stored in the display / operation component attribute value storage unit. It is to be displayed.

Further, in the graphical user interface according to the present invention, the display / operation component includes an attribute value setting screen data storage unit for storing setting screen information as means for realizing various calculations, and setting screen display position information. It has a stored setting screen display coordinate position data storage section and a setting procedure storage section in which setting procedure information is stored. The setting screen generating section sets the setting screen information and the setting screen display position based on the setting procedure information. Information is taken out and a setting screen corresponding to the image of the function symbol based on the image display data of each display / operation component is displayed on the display unit.

[0016]

BEST MODE FOR CARRYING OUT THE INVENTION

Embodiment 1 FIG. FIG. 1 is a block diagram showing the configuration of the first to sixth embodiments of the present invention. The display / operation components according to the first to sixth embodiments of the present invention include various data including image display data, programs (software) for realizing various calculations, and respective programs (software).
And an arithmetic control unit for executing The processing units 4, 5, 6, 7, 8, 9, 10, 1 in FIG.
1, 12, 13, 14, 15, 19, 20, 21, 21,
2, 23, 24, 25, 26, 27 and 28 are respectively realized by a program (software) and an arithmetic control unit that executes the program (software).

In the first embodiment, when the operation processing determination unit 16 determines that the operation mode to be processed is coordinate position change, the touch screen for the display / operation component identified by the image identification unit 29. The output of 2 is supplied to the coordinate position calculation unit 8 to perform a calculation process for changing the coordinate position of the image display data, and the image of the function symbol based on the image display data after the position change is displayed. 4 is displayed on the display unit 1.

When creating or modifying the operation screen A on the operation device of a certain device as shown in FIG. 2, first,
Operation screen creation / correction mode in the operation device, which is one of the function symbol images 30 based on the image display data of the display / operation components displayed on the display unit 1, or an operation for actually moving the device A developer or user instructs and operates, for example, an image 30 of a mode setting change button (not shown) having a function of changing and selecting one of the operation / change modes of the screen to set the operation screen creation / correction mode. . At this time, the coordinates of the image 30 of the mode setting change button that is instructed and operated by the touch screen 2 having the position coordinate detection unit is detected, and the detected coordinate information is output to the image identification unit 29. Then, the image identification unit 29 identifies that the image display data of the image 30 that is instructed and operated based on the detected coordinate information from the touch screen 2 is the image display data of the display / operation part of the mode setting change button, The operation processing determination unit 16 determines which mode the mode setting change button is instructed and operated based on the operation mode information in the operation mode storage unit 17.

Next, when any one of the images 30 of the function symbols based on the image display data of the display / operation parts displayed on the display unit 1 is instructed and operated by the developer or the user, The coordinates of the image 30 designated and operated by the touch screen 2 having the position coordinate detection unit are detected, and the detected coordinate information is output to the image identification unit 29. The image identification unit 29 identifies which display / operation component image display data the image display data of the image 30 that has been instructed and operated based on the detected coordinate information from the touch screen 2, and the operation processing determination unit. Reference numeral 16 indicates the display identified by the image identification unit 29.
Based on the image information of the operation component, the output signal of the touch screen 2 and the operation mode information of the operation mode storage unit 17, the operation mode to be processed, the setting operation process, and the image size changing process for the identified display / operation component. , The coordinate position changing process or the operation mode changing process is determined, and a signal is output to the processing units 18, 19, 20, 21 corresponding to the determined operation mode. When it is determined that the operation mode change processing is performed, the operation mode change processing unit 18 changes the content of the operation mode storage unit 17.

Here, an image 30 of the mode setting change button
Image 3 displayed on the display unit 1 when in the operation screen creation / correction mode by the instruction and operation
When the developer or the user drags any of 0 and moves it to another place and drops it, the operation processing determination unit 16 determines that the operation mode to be processed for the display / operation component identified by the image identification unit 29 is the coordinate. It is determined that the position is changed, and a signal is output to the coordinate position change processing unit 21 included in the display / operation component identified by the image identifying unit 29.
Then, the coordinate position change processing unit 21 uses the touch screen 2
Is supplied to the coordinate position calculation unit 8. Then, the coordinate position calculator 8 calculates the coordinate position of the image display data based on the output information of the touch screen 2. The calculated coordinate position information is supplied to the display / operation component image generation unit 4, and the display / operation component image generation unit 4 generates an image 30 based on the calculated coordinate position information and writes it in the image memory 3. Then, the display unit 1 displays the moving image 30 of the designated and operated function symbol, and finally displays the image 30 at the dropped position.

As described above, when the developer or the user instructs and drags and drops the image 30 of the function symbol based on the image display data of the display / operation component displayed on the display unit 1, the instruction and the operation are performed. It is determined that the operation mode to be processed by the display / operation component having the image display data of the image is the coordinate position change, the moving coordinate position of the image display data is calculated by the coordinate position calculation unit 8 and the calculated coordinate position information. Since the image 30 is displayed on the display unit 1 via the display / operation component image generation unit 4 based on the above, the display position of the image 30 of the function symbol on the operation screen A can be freely changed. Can be easily created and modified.

Embodiment 2. FIG. 3 is an operation explanatory view of an operation screen displayed on the display unit according to the second embodiment of the present invention.

In the second embodiment, when the operation screen is created and modified, it is moved from outside the operation screen, or is generated by the display / operation component having the function of displaying / operating components in the operation screen. An image of each function symbol based on the image display data of each display / operation component is displayed as an image of the function symbol displayed on the display unit 1 stored in the coordinate position data storage unit 7 and a display area on the display unit 1. Based on the coordinate position data showing the relationship of
The coordinate position default value storage unit 6 specifies the display area on the display unit 1 corresponding to the image of each functional symbol and causes the display unit 1 to display the specified display area.

In designing and developing the operation screen of the operation device, when arranging the image of the function symbol based on the image display data of the display / operation part to be used on the operation screen,
First, the operation screen creation / correction mode is set. Then, as shown in FIG. 3A, an image of a function symbol based on image display data of the display / operation component 31 to be used from the display / operation component group 32 in which a plurality of display / operation components 31 are stored. Similarly to the case described in the first embodiment, when the developer directs and drags 30 and drops it at an arbitrary position on the operation screen A, the coordinates of the instructed and operated image 30 are detected by the touch screen 2, Based on the coordinates, the image identification unit 29 identifies which image of the display / operation component 31 on which the image 30 of the function symbol is operated based on the image display data. Next, when the operation processing determination unit 16 determines that the operation mode to be processed for the display / operation component 31 identified by the image identification unit 29 is the coordinate position change, the display / operation identified by the image identification unit 29 is displayed.
A signal is output to the coordinate position change processing unit 21 included in the operation component 31, and the coordinate position change processing unit 21 causes the touch screen 2
Is supplied to the coordinate position calculation unit 8.

The coordinate position calculation unit 8 calculates the coordinate position of the image display data based on the output information of the touch screen 2, and the calculated coordinate position information is supplied to the display / operation component image generation unit 4. At this time, the coordinate position default value storage unit 6 supplies the coordinate position data stored in the coordinate position data storage unit 7 to the display / operation component image generation unit 4, and based on this coordinate position data, the image of the functional symbol is displayed. The displayed area on 30 display units 1 is specified.

In the display unit 1, the image identifying section 2
When the image 30 of the functional symbol based on the image display data of the display / operation component 31 identified by 9 is dropped on the operation screen A for the first time, it is not displayed at the coordinate position of the drop destination calculated by the coordinate position calculation unit 8. , Is displayed in the display area on the display unit 1 specified by the coordinate position default value storage unit 6 based on the coordinate position data via the display / operation component image generation unit 4.

That is, as shown in FIG.
The title bar 33a, which is the image 30 of the function symbol based on the image display data of the operation component 31, is arranged in the title bar area 34a at the upper part of the operation screen A, and the main information / operation button 33b is the main information / operation button area 34.
It is arranged in b, scenario mark 33c, cancel button 3
3d, O. The K button 33e and the other object button 33f are provided in respective areas 34c, 34d, 34.
e, 34f. When a plurality of images 30 are arranged in one area, they may be arranged based on the priority corresponding to each image 30.

As described above, when the operation screen A is developed, the image 30 of the function symbol based on the image display data of the display / operation component 31 to be used is displayed / the operation component group 32.
When the image 30 is taken out from the display unit 1 and moved to the operation screen A, the moved image 30 is displayed on the display unit 1 specified by the coordinate position default value storage unit 6 based on the coordinate position data stored in the coordinate position data storage unit 7. Since the image 30 of the function symbol that has the same operation content and the same expression is made no matter who creates the operation screen A, it is not placed in a different place for each device, resulting in a unified operation. The screen A can be created, and there is no risk of inconsistency in the operation screen A and the operation method between devices or models. After that, when the operation screen A is corrected, the first embodiment is performed.
It can be easily inferred that it can be corrected by changing the coordinate position of the image 30 of the function symbol shown in FIG.

Embodiment 3. FIG. 4 is an operation explanatory view of an operation screen displayed on the display unit according to the third embodiment of the present invention.

In the third embodiment, the first calculated distance information of the first distance calculator 23 for calculating the distance from the image of another function symbol displayed on the display unit 1 and the corresponding function symbol. The second calculated distance information of the second distance calculation unit 24 that calculates the distance between the image and the screen edge of the display unit 1 and the preset function symbol stored in the first reference distance storage unit 27. Based on the first reference distance between the images and the second reference distance from the preset screen edge of the second reference distance storage unit 28 to the image of the function symbol,
The coordinate position calculation unit 8 calculates the coordinate position of the image display data of the image of the corresponding function symbol based on the first and second reference distances, and displays the image of the function symbol based on the image display data after the position change. The image is displayed on the display unit 1 via the operation component image generator 4.

In the second embodiment, when the operation screen is laid out so that the images of the function symbols arranged in the respective areas are easy to see and operate, as shown in FIG. 4, the image display data of the display / operation component 31a is displayed. When the image 30a of the functional symbol based on the image is arranged on the operation screen A, the first distance calculation unit 23 displays the image of another display / operation component in close proximity by the coordinate position calculation unit 25 of another display / operation component. An image of a function symbol based on the data, eg image 30
Based on the coordinate position information of b, 30c, 30d and the coordinate position information of the image 30a arranged on the operation screen A, the distances 35a, 35b, 35c (first calculation distance) between them are calculated. Then, the coordinate position calculation unit 8 determines the distance between the image 30a and the other images 30b, 30c, 30d based on the first calculated distance information and the first reference distance information between the images of the preset function symbols. The coordinate position of the image display data of the image 30a is calculated so that the image 30a is appropriately maintained, and the display / operation component image generation unit 4 generates the image 30a based on the calculated coordinate position information to generate the image 30a.
Write to.

At the same time, the second distance calculating section 24 displays the screen size information in the screen size data storage section 26 and the image 3
The screen edge 36 and the image 3 based on the coordinate position information of 0a.
A distance 35d (second calculation distance) from 0a is calculated.
Then, the coordinate position calculation unit 8 uses the second calculated distance information and the second calculated distance information from the screen edge to the image of the function symbol.
Based on the reference distance information, the coordinate position of the image display data of the image 30a is calculated so as to keep an appropriate distance from the screen edge 36 with respect to the image 30a, and the display / operation part image is calculated based on the calculated coordinate position information. The generator 4 generates the image 30 a and writes it in the image memory 3.

Then, images 30b of other function symbols,
The same calculation is performed in 30c, 30d, etc., and the intervals between the images of the function symbols displayed on the display unit 1 and the screen edge 36 are adjusted.

As described above, from the image of the function symbol based on the image display data of the display / operation component identified by the image identifying unit 29, the image of the other function symbol displayed on the display unit 1, and the screen edge 36. Since the interval can be automatically adjusted, the operation screen A laid out so that it is easy to see and operate can be created.
Further, even when the operation screen A is changed due to addition / change / deletion of the display / operation component 31, FIG. 5A and FIG.
As shown in FIG. 3, it is possible to automatically adjust the mutual distance between the image 30 of the function symbol displayed on the display unit 1 and the distance from the screen edge 36. It is possible to improve the work efficiency of creating the operation screen A without the trouble of reviewing.

Embodiment 4 FIG. In the fourth embodiment,
When the operation processing determination unit 16 determines that the operation mode to be processed is image size change, the image identification unit 29.
The output of the touch screen 2 regarding the display / operation component identified by is supplied to the image size calculation unit 10 to perform calculation processing for changing the size of the image of the functional symbol,
The image of the function symbol after the image size change is displayed on the display unit 1 via the display / operation component image generation unit 4.

As shown in FIG. 2, one of the images 30 of the function symbol displayed on the display unit 1, for example, the end portion 37 of the image 30 is instructed by the developer or the user, and the inside of the image 30 is displayed. When the image 30 is dragged outward, the coordinates of the image 30 are detected by the touch screen 2, and the image identification unit 29 determines which display / operation part the image display data of the image 30 instructed and operated based on the detected coordinates. Identify whether it is image display data. When the operation processing determination unit 16 determines that the operation mode to be processed for the display / operation component identified by the image identification unit 29 is image size change, the display / operation identified by the image identification unit 29 is displayed. A signal is output to the image size change processing unit 20 included in the operation component,
The image size change processing unit 20 supplies the output of the touch screen 2 to the image size calculation unit 10.

Next, the image size calculator 10 determines the image 3 of the functional symbol based on the output information of the touch screen 2.
A calculation for changing the size of 0 is performed, and the display / operation component image generation unit 4 generates the image 30 of the function symbol based on the calculated image size information and writes it in the image memory 3. Then, on the display unit 1, the image 30 of the designated and operated function symbol is reduced or enlarged and displayed, and the image 30 of the function symbol in which the end portion 37 is positioned at the coordinates of the finally dropped point is displayed. .

As described above, when the developer or the user instructs and drags and drops the end portion 37 of the image 30 of the function symbol displayed on the display unit 1, the image 30 of the instructed function symbol is reduced or enlarged. Since it is displayed on the display unit 1, the size of the image 30 of the function symbol on the operation screen A can be freely changed,
The operation screen A can be easily created and modified.

Embodiment 5 FIG. FIG. 6 is an operation explanatory view of the operation screen displayed on the display unit according to the fifth embodiment of the present invention.

In the fifth embodiment, the operation / operation change mode of the operation screen by the operation process determination unit 16 and the operation mode to be processed by the display / operation component identified by the image identification unit 29 is the setting operation process. When it is determined that the setting screen generating unit 5 is driven to set the attribute value of the display / operation component identified by the image identifying unit 29, the setting screen is displayed on the display unit 1. A function based on the image display data of the display / operation component is stored in the display / operation component attribute value storage unit 11 as an attribute value of the image of the function symbol, and a function based on the image display data of the display / operation component based on the attribute value. The symbol image is displayed on the display unit 1.

When the user operates the operation screen,
As shown in FIG. 6A, any one image 30 of the function symbol images 30 displayed on the display unit 1 is displayed.
Is instructed by the user, the coordinates of the image 30 are detected by the touch screen 2, and the image identification unit 29
Identifies which display / operation component 31 the image display data of the image 30 designated and operated is based on the detected coordinates. When the operation processing determination unit 16 determines that the operation mode to be processed for the display / operation component 31 identified by the image identification unit 29 is the setting operation process, the display / operation identified by the image identification unit 29 is displayed. The setting operation processing unit 19 including the operation component 31
Drives the setting screen generating unit 5 to set the attribute value of the corresponding display / operation component, causes the display unit 1 to display the setting screen B as shown in FIG. The display / operation component having the image display data of the image 30 of the symbol is stored in the display / operation component attribute value storage unit 11 as an attribute value.

At this time, the setting screen generating unit 5 sends the setting screen information in the attribute value setting screen data storage unit 13 and the setting screen display position information in the setting screen display coordinate position data storage unit 14,
The setting screen B is created by sequentially extracting the setting screen B according to the setting procedure information in the setting procedure storage unit 15, and the setting screen B is displayed on the operation screen A.

Further, the attribute value setting unit 22 sets the image 30 of the function symbol such as the operation button marked with Δ displayed on the setting screen B of the image 30 of the instructed function symbol as the attribute value 38 and displays / operates it. It is stored in the component attribute value storage unit 11. When the setting operation is omitted, the attribute value 38 of the instructed image 30 is determined using the default value stored in the display / operation component attribute value default value storage unit 12. Here, for example, when the Δ mark operation button is instructed, the value of Δ is set in the display / operation component attribute value storage unit 11 by the attribute value setting unit 22, and the display screen according to the attribute value 38 (not shown). No)
The display unit 1 via the display / operation component image generation unit 4.
Will be displayed.

As described above, as shown in FIG. 6C, each display / operation component 31 has the data of the setting screen B, the display position coordinate data of the setting screen B, which are necessary for the respective settings. It has the default value of the setting procedure and the attribute value 38 when the setting is omitted. With this, when a user wants to perform a certain operation, by selecting the image 30 of the function symbol based on the image display data of the corresponding display / operation component, all necessary items are set up until the final value is set. Therefore, the degree of perfection as a display / operation part can be increased. Further, since each display / operation component has an operation procedure or a setting screen B for operation, the same display / operation component 31 for the same operation target.
If the display screen and the operation method are the same, it is possible to prevent a different operation screen A from being created for each design.

Embodiment 6. In the sixth embodiment, the coordinate position data of the image of the function symbol based on the image display data of the display / operation component by the coordinate position data storage unit 7 and the image display data of the display / operation component by the image data storage unit 9 are used. Based on the size data of the image of the function symbol based on
For example, a function symbol displayed on the display unit is determined based on the relative positional relationship and relative size relationship between the equipment layout on each floor of a building or a building, the room configuration, and the equipment layout of the entire building. A display screen is created by arranging marks that symbolize parts and devices in a building around the image based on their relative positions. Hereinafter, a specific description will be given.

As shown in FIG. 7, in order to allow the user to easily understand the operation screen A created by the developer, as shown in FIG. 8C, it is desired to change it to a map drawing-like operation screen C. In this case, first, an image (not shown) of the mode setting change button displayed on the display unit 1 is designated and operated to set the operation screen creation / correction mode, and the function displayed on the display unit 1 in FIG. The symbol image 30 is, for example, an image 39a of “1F illumination”, “2F illumination”, “1F power amount”, “2F power amount”,
When 39d, 39c, and 39d are instructed to be dragged and dropped at desired positions, the touch screen 2 and the image identification unit 2 are similar to the case described in the first embodiment.
9 identifies which image display data of the display / operation component 31 the image display data of the image designated and operated is, and the operation processing determination unit 16 determines that the operation mode is coordinate position change. Next, the image identification section 2
"1F illumination", which is the image 30 of the function symbol based on the image display data of the display / operation component identified by 9.
The coordinate position change processing unit 21 in the image 39a of the above supplies the output information of the touch screen 2 to the coordinate position calculation unit 8,
The coordinate position calculation unit 8 calculates the coordinate position of the image display data of the “1F illumination” image 39a based on the output information of the touch screen 2. Then, as shown in FIG.
The image 39a of "1F illumination" is displayed on the display unit 1 at the position finally dropped through the display / operation component image generation unit 4.
Will be displayed. In addition, "2F lighting", "1F electric energy",
Similarly, the images 39b, 39c, 39d of "2F electric energy" are also displayed at the dropped positions.

Next, the images 39a and 39b are made to have a desired image size while designating the end portions of the image 39a of "1F illumination" and the image 39b of "2F illumination" which are the image 30 of the function symbol. When the image display data of the image 30 instructed and operated by the touch screen 2 and the image identification unit 29 is displayed and operated as in the case described in the fourth embodiment, the display / operation component 31 is dragged.
Image display data is identified, and the operation processing determination unit 16 determines that the operation mode is image size change. Then, the image size change processing unit 20 in the image 39 a of “1F illumination”, which is the image 30 of the function symbol based on the image display data of the display / operation component 31 identified by the image identification unit 29, outputs the output of the touch screen 2. The information is supplied to the image size calculator 10, and the image size calculator 10 calculates the size of the “1F illumination” image 39a based on the output information of the touch screen 2.
Then, as shown in FIG. 8C, an image 39a of "1F illumination" in which the end portion is positioned (enlarged) at the coordinates of the point finally dropped through the display / operation component image generation unit 4
Is displayed on the display unit 1. Further, the “2F illumination” image 39b is also enlarged and displayed. At this time,
Image 39a of "1F illumination" and image 3 of "2F illumination"
9b, similar to the case described in the third embodiment,
The distance between the other functional symbol displayed on the display unit 1 and the image 30 and the distance from the screen edge are automatically adjusted.

Further, if necessary, an image 40 for indicating a mark such as a staircase, a washroom, a hot water supply room, an emergency exit, a fire hydrant, a door, a wall, and a line such as a partition is stored in the same manner as in the first embodiment. Take out from the section 9 and place it on the operation screen A,
A map drawing-like operation screen C close to the actual state as shown in FIG. 8C is created.

As described above, the coordinate position of the image 30 of the function symbol shown in the first embodiment is changed, the image size of the image 30 of the function symbol shown in the fourth embodiment is changed, and the image 40 showing the mark as necessary. Since it is possible for the user to easily perform additional arrangements, etc., the operation screen A can be customized like the operation screen C for each user, and the image of the actual operation target device can be easily captured on the operation device. As a result, the operability of the user can be improved.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a configuration of first to sixth embodiments of the present invention.

FIG. 2 is an operation explanatory diagram of an operation screen displayed on the display unit according to the first and fourth embodiments of the present invention.

FIG. 3 is an operation explanatory view of an operation screen displayed on the display unit according to the second embodiment of the present invention.

FIG. 4 is an operation explanatory diagram of an operation screen displayed on the display unit according to the third embodiment of the present invention.

FIG. 5 is an operation explanatory diagram of an operation screen displayed on the display unit according to the third embodiment of the present invention.

FIG. 6 is an operation explanatory view of an operation screen displayed on the display unit according to the fifth embodiment of the present invention.

FIG. 7 is an operation explanatory view of an operation screen displayed on the display unit according to the sixth embodiment of the present invention.

FIG. 8 is an operation explanatory view of an operation screen displayed on the display unit according to the sixth embodiment of the present invention.

[Explanation of symbols]

1 display unit, 2 touch screen, 4 display
Operation component image generation unit, 5 setting screen generation unit, 6 coordinate position default value storage unit, 8 coordinate position calculation unit, 10 image size calculation unit, 11 display / operation component attribute value storage unit, 13 attribute value setting screen data storage Section, 14 setting screen display coordinate position data storage section, 15 setting procedure storage section, 16 operation processing determination section, 17 operation mode storage section, 19 setting operation processing section, 20 image size change processing section, 21 coordinate position change processing section , 23 first distance calculation unit, 24 second distance calculation unit, 29 image identification unit, 30 image of functional symbol, 31 display / operation component, 36 screen edge, 38 attribute value.

Claims (6)

[Claims] 1. Each display / operation part having various data including image display data and means for realizing various calculations, and a display for displaying an image of a functional symbol based on the image display data of the display / operation part. A unit, a touch screen arranged on the surface of the display unit for detecting the coordinates of the position of the image display data of the image of the instructed and operated function symbol, and the instruction or operation based on the output signal of the touch screen. An image identification unit that identifies a display / operation component having image display data of an image, an operation mode storage unit that stores an operation mode for identifying an operation on the touch screen, and an image identification unit that identifies the operation mode. Based on the image display data of the object, the output signal of the touch screen, and the operation mode information of the operation mode storage unit, An operation processing determination unit that determines an operation mode to be processed for the one identified by the image identification unit, and each display / operation component is an image of a functional symbol displayed on the display unit as the various data. Image display data and display coordinate position data for displaying the image display data, and further, as the means, a coordinate position calculating means for calculating the coordinate position of the image display data, and coordinates by the coordinate position calculating means. When it is determined that the operation mode to be processed by the operation / operation determination unit and the operation / operation component image generation unit for displaying the image of the functional symbol on the display unit based on the position information is coordinate position change,
The output of the touch screen is supplied to the coordinate position calculation means to perform calculation processing for changing the coordinate position of the image display data, and an image based on the image display data after the position change is displayed on the display / operation component image generation means. And a coordinate position change processing means for displaying the coordinate position on the display unit via the graphical user interface. 2. Each of the display / operation parts stores coordinate position data indicating a relationship between an image of a functional symbol displayed on the display unit as the means and a display area on the display unit, and the display / operation is performed. A coordinate position default value storage means for outputting to the component image generation means is provided, and the coordinate position default value storage means specifies the area displayed on the display unit of the image via the display / operation component image generation means. The graphical user interface according to claim 1, wherein: 3. Each of the display / operation parts includes first distance calculation means for calculating a distance from an image of another functional symbol displayed on the display unit as the means, and a corresponding display / operation part. Second distance calculation means for calculating the distance between the image of the functional symbol and the screen edge of the display unit based on the image display data of 1., the first distance calculation means and the second distance calculation means. The coordinate position calculation means based on the calculated distance information based on, the first reference distance between the preset images of the function symbol and the preset second reference distance from the screen edge to the image of the functional symbol. To calculate the coordinate position of the image display data based on the first and second reference distances,
3. The graphical user interface according to claim 1, wherein an image based on the image display data after the position change is displayed on the display unit via the display / operation component image generating means. 4. Each of the display / operation parts includes, as the means, an image size calculation means for calculating the size of an image of a functional symbol based on image display data, and an operation mode to be processed by the operation processing determination section. When it is determined that the image size is changed, the output of the touch screen is supplied to the image size calculation means to perform a calculation process for changing the size of the image of the function symbol to change the image size. 4. The graphical user interface according to claim 1, further comprising image size changing processing means for displaying a subsequent image on the display unit via the display / operation component image generating means. 5. The display / operation component attribute value for each of the display / operation components, the setting screen generating unit for generating a setting screen as the unit and displaying the setting screen on the display unit, and the attribute value of the display / operation component being stored. When the storage unit and the operation processing determination unit determines that the operation mode to be processed is the setting operation processing, the setting screen generating unit is driven to display the display screen in order to set the attribute value of the display / operation component. A setting operation processing means for displaying a setting screen on the unit and storing the image of the functional symbol based on the image display data on the setting screen as an attribute value in the display / operation component attribute value storage means; An image processing apparatus for displaying an image of a functional symbol based on image display data on the display unit based on the attribute value stored in the operation component attribute value storage means. Claim 1, 2, 3 or 4 graphical user interface as claimed. 6. Each of the display / operation parts includes an attribute value setting screen data storage unit that stores setting screen information and a setting screen display coordinate position data storage unit that stores setting screen display position information as the unit. , Setting procedure storing means for storing setting procedure information, and the setting screen generating means extracts the setting screen information and the setting screen display position information based on the setting procedure information, and performs each display / operation. The graphical user interface according to claim 5, wherein a setting screen corresponding to the image of the function symbol based on the image display data of the component is displayed on the display unit.