JPH08167021A - Method for constructing gui screen - Google Patents

Abstract

PURPOSE: To increase the efficiency of constructing operation for the GUI (Graphic user interface) screen of an engineering device. CONSTITUTION: A still picture is generated on the screen of the engineering device. A necessary object is selected out of objects for moving pictures which are stored in a basic object library 100-23 and after its attribute is defined, the object is arranged at a necessary position on the still picture. A current position mark stored in a quasi-moving picture specification file 100-24 is arranged at a necessary position on the still picture corresponding to a user terminal arranged in each section. Each current position mark is given an installation section number as a variable attribute. One GUI picture which is thus constructed is distributed to respective user terminals. Each user terminal displays only the current position mark having the installation section number matching the installation section number set to itself on its GUI screen.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for constructing a graphic user interface screen (GUI screen) to be displayed on the screen of a user terminal.

[0002]

2. Description of the Related Art Recently, industrial process control, factory automation (FA), building automation (B
In fields such as A), user terminals having GUI screens are becoming widespread as terminal devices for monitoring and operation. This user terminal is located in various places in the facility, and through the GUI screen displayed on the screen, you can easily turn on / off the air conditioner, set the temperature / humidity, turn on / off the lighting, etc. It is possible to freely operate and monitor the equipment. Here, the GUI screen displayed on the screen of the user terminal is constructed by an engineering device. That is, various GUI screens are constructed by the engineering device, and while the constructed GUI screens are moved within the facility, 1
Each unit is individually set for each user terminal.

The construction of the GUI screen on the engineering device is performed by the following method, for example. First, draw a fixed picture (still picture) to be displayed on the screen. A figure is defined as an area (reception area) for receiving a touch with a finger or a mouse click on the still image. In this case, the figure in the reception area is to some extent a general-purpose component (for example, operation button or screen transition button), and after defining what action to take when this figure is touched or mouse clicked, Build the screen by placing.

[Case 1] For example, the first floor of the building is section S1
It is assumed that the user terminals UT1 to UT4 are arranged in these sections S1 to S4. In this case, a plan view of the first floor is displayed as a still image on the screen of the engineering device, and the figure of the reception area is arranged on the displayed still image. At this time, as the GUI screen displayed on the screens of the user terminals UT1 to UT4, for example, the current position mark should be displayed only at the position where the user terminal is installed. In this case, four identical plan views of the first floor are prepared, and four still images are created by adding the display of the current position mark at a different position for each user terminal.

[Case 2] It is assumed that the first floor of the building is composed of sections S1 to S4 and that the sections S1 to S4 can be partitioned. In this case, a plan view of the first floor is displayed on the screen of the engineering device, and a partition line is written in this plan view to make a still image. When there is a request to remove a partition due to tenant replacement or layout change, etc.
Create a data file after recreating a still image
Recycle.

[0006]

However, according to such a GUI screen construction method, in the case of [Case 1], that is, most of the portions displayed as still images are the same, and only a small portion is displayed. When creating a large number of different still images, an excessive amount of work is required and work efficiency is poor. Further, the capacity when generated as data becomes large, and a large capacity memory is required to store this, which is extremely disadvantageous in a microcomputer system. In the case of [Case 2], that is, when a display element that may be changed later is created as a still image, when the change actually occurs, the engineering device is returned to and the still image is corrected. Must be done, and work efficiency is poor.

The present invention has been made in order to solve such a problem, and an object of the present invention is to provide a GUI screen capable of improving the working efficiency and reducing the required memory capacity. It is to provide a construction method of.

[0008]

In order to achieve such an object, the first invention (the invention according to claim 1) creates a still image on the screen of an engineering apparatus, and creates the still image on the created still image. Define a video object for dynamic display such as device operation and measurement data, and place the object, and freeze the semi-video with a variable attribute that can be changed later in the display attribute. It is arranged to be placed in the picture. A second invention (the invention according to claim 2) is the first invention, wherein the quasi-moving image is used as a current position mark, and this current position mark is attached with its installation section number as a variable attribute. The third invention (the invention according to claim 3) is
In the first aspect of the present invention, a semi-moving image is used as a partition line, and the partition line is provided with a variable attribute of valid / invalid. A fourth aspect of the invention (the invention according to claim 4) is the first aspect of the invention, wherein the quasi-moving image is a character string, and the installation section number is attached to this character string as a variable attribute.

[0009]

Therefore, according to the present invention, in the first invention,
A quasi-video with a variable attribute whose setting can be changed later is placed in the still image in the display attribute. By setting the variability of this quasi-video, for example, the current position mark placed at a predetermined position can be displayed by a predetermined user It is possible to display only on the GUI screen displayed on the terminal, or to display only the partition line at a predetermined position on the GUI screen. Second
According to the present invention, by adding the installation section number as a variable attribute to the current location mark, only the current location mark having the installation section number that matches the installation section number set for each user terminal is displayed on the GUI screen. It is possible to display it on. According to the third aspect of the present invention, by enabling / disabling the partition line as a variable attribute, it is possible to display only the partition line at the position set as valid on the GUI screen of each user terminal. In the fourth aspect of the invention, by adding the installation section number as a variable attribute to the character string, only the character string having the installation section number that matches the installation section number set for itself is displayed on the GUI screen in each user terminal. It is possible to display it on.

[0010]

EXAMPLES The present invention will now be described in detail based on examples. FIG. 2 is a block diagram showing the overall configuration of a BA system to which the present invention is applied. In the figure, 100 is a building, 100-1 is a control system constructed on the first floor of the building 100, 100-2 is an engineering device, 100-
3 is a central monitoring device. A control system similar to that of 100-1 is also constructed on the second to fifth floors of the building 100.

In the control system 100-1, 1-1
1 to 4 are user terminals arranged in sections S1 to S4 on the first floor of the building, and 2-1, 3-1 and 4-1 are sections S1
Lighting equipment, air-conditioning equipment, crime prevention equipment, and
2, 3-2 and 4-2 are lighting equipment, air-conditioning equipment and crime prevention equipment arranged in the section S2, and 2-3, 3-3 and 4-3 are lighting equipment and air-conditioning equipment arranged in the section S3. ， Security equipment,
2-4, 3-4, 4-4 are lighting equipment, air-conditioning equipment, crime prevention equipment, and 5 arranged in the section S4, area controller,
6 is a user terminal master.

The area controller 5 is a user terminal master 6 from the user terminals 1-1 to 1-4.
The state of the equipment devices of the lighting equipment 2-1 to 2-4, the air conditioning equipment 3-1 to 3-4, and the crime prevention equipment 4-1 to 4-4 is controlled based on the input via the. In addition, the area controller 5
Lighting equipment 2-1 to 2-4, air conditioning equipment 3-1 to 3-4, and crime prevention equipment 4-1 to 4-4 are divided into states S1 to S.
It is stored for each 4 and output to the user terminals 1-1 to 1-4 through the user terminal master 6. The area controller 5 is connected to the central monitoring device 100-3 and exchanges information with the central monitoring device 100-3.
The central monitoring device 100-3 is connected to the host computer of the building management company and exchanges information with the host computer.

The engineering unit 100-2 uses a communication line (floor integrated LA) for initial setting and maintenance.
N) Connected to L1, G to user terminal master 6
Enter the UI screen. User terminal master 6
The GUI screen from the engineering device 100-2 is distributed to the user terminals 1-1 to 1-4. In this embodiment, as the engineering device 100-2,
I use a personal computer.

FIG. 3 shows a plan view of the first floor of the building 100. In this embodiment, the first floor has sections S1 to S
Is composed of 4, sector S1 is made from the indoor area S ₁₁ to S _14, compartment S2 are made from the indoor area S ₂₁ to S _24, section S3
Is the indoor area S _{31 to} S ₃₄ , and the section S 4 is the indoor area S
_It consists of _{41 to} S ₄₄ . User terminals 1-1 to 1-4
Are arranged beside the entrances / exits of the sections S1 to S4 (inside the room). Further, in this embodiment, the indoor area S ₁₁ is partitioned.

FIG. 4 shows the user terminal 1-1 (1-2).
1 to 4) is a block diagram showing a configuration. The user terminal 1-1 includes a liquid crystal display device 1A, a transparent touch panel switch 1B overlaid on the surface of the liquid crystal display device 1A, an MMI controller 1C, and a CPU.
D, external I / F-1E, RAM-1F, E2PR
It is equipped with OM and 1G.

Next, a method of constructing a GUI screen in the engineering device 100-2 will be described with reference to the flowchart shown in FIG. First, the engineering device 100-2 is started up (step 501), a password is entered (step 502), and a still image is created on the screen (step 503). There are two types of passwords, a general worker level password and a tool provider level password. In this case, in step 502, the shift to step 503 is permitted regardless of the type of the password.

The still image is created in step 503 as follows. First, the screen currently displayed (Fig. 9
In (a), select "Settings" from the main menu bar, select "Still Image" from the main menu, and start the still image editor. The still image editor is a tool for creating a still image, and as shown in the configuration diagram of the main part of the engineering device 100-2 in FIG.
It is stored in the hard disk (HDD) 21.

When the still image editor 100-21 is activated, a "drawing" main menu appears as shown in FIG. 9B. This main menu has a "rectangle",
A menu such as "Circle / Ellipse", "Polygon", "Straight line", etc. appears, and while selecting it, draw a desired still image on the screen. For example, a rough sketch of the first floor of the building 100, that is, a portion that is not supposed to be changed in setting is drawn as a still image. When the creation of the still image is completed, a file name is given and the file is saved in the still image file 100-22. In the same manner, necessary still images are created one after another, a file name is given to each still image, and the still images are stored in the still image file 100-22.

When the creation of the still image is completed, the process of creating the moving image is started. The video here is a group of parts (objects) for operating the device (on / off) and dynamically displaying measurement data, and is roughly divided into operating objects and display objects. It Examples of objects for operation include digital start / stop, analog setting, schedule setting, screen transition, and other types of objects.
Display objects include date, time, character string, analog value, digital value, outside temperature, outside humidity,
Examples include objects such as rainfall conditions. Figure 6
Shows the conceptual diagram of the screen configuration. In addition, in this figure, the semi-moving image will be described later.

In creating a moving image, first, a screen to be defined is selected (step 504). In this case, as shown in FIG. 10A, "setting" is selected from the main menu bar, and "download data" is selected from the main menu. Then, as shown in FIG. 10B, a matrix for "download data setting" appears.
In the matrix for "download data setting", the vertical axis indicates the function and the horizontal axis indicates the partition section. In FIG. 10B, as the screen to be defined, the partition section “0
1 "to" 05 _{"(S 11, S 12 ~S 13} , S2, S3, S
The illumination operation screen for 4) is shown as being selected as the composite method.

After selecting the screen to be defined in this way, a still image is selected (step 505). To select this still image, as shown in FIG. 10C, select "File" from the main menu bar, select → "Library selection" from the main menu, and select "Still image" from the pull-down menu. select. Then, the file name of the still image is specified, and the specified still image is displayed on the screen. In the example of FIG. 10C, a sketch of the first floor of the building 100 created in step 503, that is, FIG.
The still image created in (b) is the still image file 100-22
Is read from.

Next, the process proceeds to step 506 to set the layout and attributes of the moving image (object). In this "movement arrangement / attribute setting", as shown in FIG. 11A, "setting" is selected from the main menu bar, and "operation object" or "display object" is selected from the main menu. Here, when “operation object” is selected, a list of usable operation objects is displayed. Selecting "Display Objects" displays a list of available display objects.

The operation objects and the display objects, which are objects for moving images, are comprehensively stored in the basic object library 100-23 in the floppy disk (FDD) as necessary for building management.
In this case, the operation object and the display object are classified into the types shown in FIG. 6 and stored in the basic object library 100-23.
FIG. 11B shows a state in which “operation object” is selected and a list of digital start / stop type operation objects is displayed. The basic object library 100-23 may be stored in a hard disk (HDD).

Now, suppose that an "illumination one-shot switch" is to be arranged as an operation object in the section S1 in the still image in FIG. 11 (a). In this case, FIG.
The "illumination one-shot switch" is selected from the list of operation objects in (b). Then, the attribute setting dialog box of the type (digital start / stop type) to which the "lighting one-shot switch" belongs appears (FIG. 11C). Then, by interactively inputting to the attribute setting dialog box, the attribute is defined for the "lighting one-shot switch". For example, for the size, the vertical dimension and the horizontal dimension are input. Regarding the switch frame, a list of usable switch frames is displayed (see FIG. 12A), and the desired switch frame is selected from this list. For the target device address, the address corresponding to the device to be turned on / off is written as, for example, "LIGT-001".

The attribute setting dialog box is also displayed by double-clicking an already placed object, and the setting can be changed later. The attribute setting dialog box shown in FIG. 11C is a general worker level attribute setting dialog box. If the tool provider level password is input in step 502, the tool provider level password is input. It is possible to display the attribute setting dialog box (higher level dialog box) and change the setting of important attributes such as the display icon and the display icon color defined at the factory shipment stage. FIG. 7 shows an example of object classification and attributes.

In this way, when the attribute for the "illumination one-shot switch" is defined and confirmed, the defined "illumination one-shot switch" appears as the operation object Ob1 on the still image (FIG. 12 (b). )reference). The switch frame of the appearing operation object Ob1 is the switch frame set in FIG. 12A, the device address is attached to the lower part, and the object type is attached to the upper part. Further, in the switch frame, an icon indicating "illumination one-shot switch" is displayed. Then, the appearing operation object is moved to a desired position in the section S1 by operating the mouse. For reference, an operation object and icons displayed in its switch frame are illustrated in FIG.

Similarly, a desired object is selected from the moving image objects stored in the basic object library 100-23, and the attribute of the selected object is interactively input to the attribute setting dialog box. The object defined by this attribute is placed at a desired position on the still image.
In the above description, an example of arranging the operation object has been described, but when arranging the display object, the attribute is defined and the display object is arranged at a desired position in the same manner as the operation object. Needless to say.

Therefore, according to this embodiment, the definition of the object and the attribute for the object does not depend on the programming work, and G
It is possible to improve work efficiency in constructing the UI screen. Further, according to the present embodiment, since the attribute setting dialog box is prepared for each type of moving image object, as compared with the case where the attribute setting dialog box is provided for each moving image object, The number of attribute setting dialog boxes can be reduced, and memory is saved accordingly. Further, according to the present embodiment, among the attributes defined for the object for the moving image, the attributes such as the display icon and the display icon color cannot be changed without the tool provider level password. Important attributes set in stages will not be easily changed.

When the creation of the moving image is completed, the process moves to the creation of a semi-moving image (step 508). The quasi-moving image here is a part that has a special role that has variable attributes that can be changed later in its display attributes.When displaying the floor plan on the screen, partition lines and current positions are displayed. , Character string (see FIG. 6). Appearance is an icon, a polygonal line, or a character string, which is not linked to the data in the field at all, but unlike static images, it is subject to display / non-display unique to the user terminal depending on the floor partition status.

In creating the quasi-moving image, as shown in FIG. 13A, "setting" is selected from the main menu bar, and "UT position" is selected from the main menu. Then
As shown in FIG. 13B, a list of current position marks is displayed. The current position mark is the floppy disk (F
It is stored in the semi-moving image designation file 100-24 in DD). In this case, in the quasi-moving image designation file 100-24, character strings such as “1F north” and “1F south” are also stored in addition to the current position mark. In addition, quasi-video specification file
00-24 may be stored in a hard disk (HDD).

Now, suppose that the current position mark is to be placed in the section S1 in "still image + moving image" in FIG. 13 (a). In this case, “4. down” is selected from the list of current position marks in FIG. Then, "4.
The current position mark G1 (see FIG. 13C) corresponding to "down" appears in "still image + moving image". The present position of the present position mark G1 is moved to a desired position by operating the mouse. Similarly, the current position mark is arranged in the sections S2 to S4 in the "still image + moving image".

Next, the partition line is set. In setting the partition line, as shown in FIG. 14A, "setting" is selected from the main menu bar, and "partition line" is selected from the main menu. Then, the partition line editor 100
-25 is activated, and a partition line appears as a broken line in the "still image + moving image" as shown in FIG. The partition line editor 100-25 is a tool for creating a partition line and is stored in a hard disk (HDD). Here, the partition lines M ₁₁ and M ₁₂ are set to be valid in correspondence with the partition of the indoor area S ₁₁ shown in FIG.
Thereby, as shown in FIG. 14C, the partition lines M ₁₁ and M ₁₂ are shown by solid lines.

Next, the character string is set. To set a character string, select "Settings" from the main menu bar and then select "Character string" from the main menu. Then, Figure 1
A list of character strings is displayed in the same manner as 3 (b).
Select the desired character string from this character string and select "Still image +
It is made to appear in a "moving image", and the position of the appearing character string is moved to a desired position by operating the mouse. Similarly, the character strings are arranged in the sections S2 to S4 in the “still image + moving image” (see FIG. 14C).

Next, in step 509, it is determined whether the screen is the composite display system. In this case, since the composite display method is used in FIG.
If YES in step 9, the process proceeds to step 510. In step 510, "installation section number" and "attribute" are set for each object on the screen. Also, an "installation section number" is set for the current position mark and the character string.

The setting of the installation section number and the attribute for each object on the screen is performed as follows. Click the desired object with the mouse, then "File"
→ Select “Section setting” (see FIG. 15A). Then, as shown in FIG. 15B, a setting dialog appears. In this setting dialog, the partition section number to which the object belongs is defined as the setting section (installation section number). In the display section, the section in which you want to display the object is defined. As a result, which partition belongs to which object is determined, and even if different tenants are included in each partition, only the objects belonging to the partition of the own tenant can be displayed on the screen. The setting position number for the current position mark and character string on the screen is also set by calling the setting dialog.

In this way, one GUI screen is constructed by superimposing a moving image and a quasi-moving image on a still image.
In the same manner, steps 504 to 512 are repeated to build all GUI screens. In constructing this GUI screen, the overall processing operation is the control unit 100-2.
The GUI screen constructed in 6 was converted and integrated into a data file, and the data file floppy 100-
It stores in 27.

The GUI screen constructed by the engineering device 100-2 is input from the engineering device 100-2 to the user terminal master 6 by connecting the engineering device 100-2 to the communication line L1. It is distributed to the user terminals 1-1 to 1-4. The user terminals 1-1 to 1-4 display the GUI screen distributed from the user terminal master 6 on the screen.
As a result, it is possible to save the labor of setting the GUI screens to the user terminals 1-1 to 1-4 one by one while moving in the building, and to significantly reduce the labor.

Here, the user terminals 1-1 to 1-
In 4, the number of the installed partition section is set as the installation section number. That is, “02” is set as the installation section number for the user terminal 1-1, “03” is set as the installation section number for the user terminal 1-2, and “04” is set as the installation section number for the user terminal 1-3. “05” is set as the installation section number for 1-4.

Each of the user terminals 1-1 to 1-4 displays only the current position mark and the character string having the installation section number that matches the installation section number set for itself, and other current position marks and character strings. Is not displayed. As a result, if one GUI screen shown in FIG. 14C is sent to the user terminals 1-1 to 1-4, the user terminals 1-1 to 1-4 will not be shown in FIG.
The GUI screens shown in (a) to (d) are displayed.

That is, according to the present embodiment, by sending one GUI screen from the engineering device 100-2, the positions of the current position mark and the contents of the character string are respectively sent to the user terminals 1-1 to 1-4. Different GU
The I screen can be displayed. Therefore, in the engineering device 100-2, it is not necessary to create a large number of still images in which the position of the current position mark and the content of the character string are different, that is, the amount of still images to be created can be reduced and the work efficiency can be improved. It is possible, and the memory capacity for storing still images is small.

Further, in this embodiment, since the partition line is set to be valid / invalid in the engineering device 100-2, it is possible to deal with the change of the partition on the product, and the working efficiency is remarkably improved. In other words, when there is a request to remove a partition due to tenant replacement or layout change, it is possible to deal with it by simply changing the valid / invalid setting of the partition line, that is, without recreating a still image. However, it is possible to improve work efficiency.

Further, in this embodiment, the partition line is set to be valid / invalid so that the rough sketch (still image) of the floor is shared for the first to fifth floors, and the amount of production and the number of steps of still images are reduced. be able to. Also, if tools such as service personnel tools with limited functions are supported, it will be possible to modify the partition part at the site level without destroying the basic part of the picture. That is, the user terminals 1-1 to 1-4 are provided with, for example, a "partition change function" to enable / disable the partition line.
It is not necessary to return to the engineering device 100-2 as long as it can be set on the side of 1-4.

[0043]

As is apparent from the above description, according to the present invention, in the first invention, a quasi-moving image having a variable attribute whose setting can be changed later is arranged in a still image. By setting the variable attribute of the quasi-moving image, for example, the current position mark placed at a predetermined position can be displayed only on the GUI screen displayed on a predetermined user terminal, and the GUI set to each user terminal can be set.
It is possible to make the screen common, that is, to reduce the amount of still images to be created, thereby increasing work efficiency, and to reduce the required memory capacity. Also, by setting the variable attribute of the quasi-video, for example, it is possible to display only the partition line at a predetermined position on the GUI screen, and there is a request to remove the partition due to tenant replacement or layout change. In this case, it is possible to deal with it by simply changing the setting of the variable attribute of the quasi-moving image, that is, it is not necessary to recreate the still image, and the work efficiency can be improved.

According to the second aspect of the present invention, by adding the installation section number as a variable attribute to the present position mark, only the present position mark having the installation section number that matches the installation section number set for itself at each user terminal. Can be displayed on that GUI screen, and the GUI screen set for each user terminal can be made common, that is, the amount of still images created can be reduced, and work efficiency can be increased. It is also possible to reduce the required memory capacity. According to the third aspect of the present invention, by enabling / disabling the partition line as a variable attribute, it becomes possible to display only the partition line at the position set as valid on the GUI screen of each user terminal. If there is a request to remove the partition due to changes, etc., it will be possible to deal with it by simply changing the valid / invalid setting of the partition line, that is, it is not necessary to recreate the still image.
It is possible to improve work efficiency.

According to the fourth aspect of the present invention, by adding the installation section number to the character string as a variable attribute, only the character string having the installation section number that matches the installation section number set for each user terminal is It is possible to display it on the GUI screen, and in each user terminal, only the character string having the installation section number that matches the installation section number set for itself is displayed in the G
It becomes possible to display on the UI screen, and the GUI screen set for each user terminal can be made common, that is, the amount of still images to be created can be reduced, and the work efficiency can be improved, and the required memory capacity. It is also possible to reduce.

[Brief description of drawings]

FIG. 1 is a configuration diagram of essential parts of an engineering apparatus used in the BA system shown in FIG.

FIG. 2 is a block diagram showing the overall configuration of a BA system to which the present invention is applied.

FIG. 3 is a plan view of the first floor of the building.

FIG. 4 is a block diagram showing a configuration of a user terminal.

FIG. 5 is a flowchart for explaining a GUI screen construction method in the engineering device.

FIG. 6 is a conceptual diagram of a screen configuration.

FIG. 7 is a diagram showing object classification and attribute examples.

FIG. 8 is a diagram illustrating an operation object and icons displayed in a switch frame thereof.

FIG. 9 is a diagram showing a process of constructing a GUI screen on the engineering device.

FIG. 10 is a diagram illustrating a process of constructing a GUI screen on the engineering device.

FIG. 11 is a diagram illustrating a process of constructing a GUI screen on the engineering device.

FIG. 12 is a diagram illustrating a process of constructing a GUI screen on the engineering device.

FIG. 13 is a diagram illustrating a process of constructing a GUI screen on the engineering device.

FIG. 14 is a diagram illustrating a process of constructing a GUI screen on the engineering device.

FIG. 15 is a diagram illustrating a process of constructing a GUI screen on the engineering device.

FIG. 16 is a diagram showing an example of a GUI screen displayed on each user terminal after receiving one GUI screen.

[Explanation of symbols]

1-1 to 1-4 ... User terminal, 6 ... User terminal master, 100-2 ... Engineering device,
100-21 ... Still image editor, 100-22 ... Still image file, 100-23 ... Basic object library, 100-24 ... Quasi moving image designation file, 100-25
... Partition line editor, 100-26 ... Control unit, 100-
27 ... Data file floppy.

Claims (4)

[Claims] 1. A GUI screen construction method for constructing a graphic user interface screen to be displayed on a screen of a user terminal on a screen of an engineering device, wherein a still image is created on the screen of the engineering device, and the created still image is created. A moving image object that has a variable attribute that can be set and changed later in the display attribute by arranging a moving object for dynamic display of device operation and measurement data on the screen after defining its attributes. Is arranged on the still image. 2. The GUI according to claim 1, wherein the quasi-moving image is a current position mark, and the installation position number is attached to this current position mark as a variable attribute.
How to build the screen. 3. The method for constructing a GUI screen according to claim 1, wherein the quasi-moving image is a partition line, and the partition line is provided with valid / invalid as a variable attribute. 4. The method for constructing a GUI screen according to claim 1, wherein the quasi-moving image is a character string, and the character string is attached with its installation section number as a variable attribute.