CN111026383A - Graph multi-window monitoring method and device based on power grid dispatching control system - Google Patents

Abstract

The invention discloses a graph multi-window monitoring method and device based on a power grid dispatching control system, which can configure a plurality of pictures and set the display proportion of a main window and an auxiliary window, thereby realizing the integrated monitoring effect that one display interface intensively displays a plurality of monitored graph pictures. The graphic multi-window display has a memory function, the size of a window and a graphic display area before the graphic is closed are memorized, and the functions of the main window and the auxiliary window are consistent and can be switched mutually. The invention effectively meets the requirement that a user monitors information of a plurality of different scenes or equipment at the same time, and the monitoring information is more comprehensive and visual.

Description

Graph multi-window monitoring method and device based on power grid dispatching control system

Technical Field

The invention belongs to the technical field of power automation, and particularly relates to a graph multi-window monitoring method and device based on a power grid dispatching control system.

Background

In the current power grid dispatching control system, a graphic monitoring interface supports browsing of local information of a graphic in a floating window or a docking window mode, but browsing of a plurality of graphic pictures at the same time is inconvenient. In power grid scheduling, a plurality of plant station diagrams, tidal current diagrams, system diagrams or various application diagrams and the like are associated, and users often need to monitor information in the diagrams at the same time. The current systems lack tools to properly organize and present the associated graphical information.

Disclosure of Invention

Aiming at the problems, the invention provides a method and a device for realizing graph multi-window monitoring based on a power grid dispatching control system, which can meet the requirement of a user on monitoring a plurality of graphs simultaneously, and enable graph information to be more visual and richer in content.

In order to achieve the technical purpose and achieve the technical effects, the invention is realized by the following technical scheme: a graph multi-window monitoring method based on a power grid dispatching control system,

carrying out secondary development on a power grid dispatching control system, and configuring window information in a configuration file through a multi-window configuration dialog box;

a display interface of the power grid dispatching control system displays a main window and an auxiliary window according to window information of the configuration file;

the auxiliary window is associated with the main window, and when the main window is switched, the corresponding auxiliary window is synchronously switched;

when the sizes and the positions of the main window and the auxiliary window are adjusted, the sizes and the positions of the windows are automatically stored in a configuration file;

and when the power grid dispatching control system is closed and then is opened again, the previous monitoring picture is automatically recovered, and the display area of the window is kept unchanged.

Further, the window information includes the content, size and position of the main window and the auxiliary window, and the association relationship between the main window and the auxiliary window.

Further, configuring the window information in the configuration file is realized through a multi-window configuration dialog box, and the dialog box allows the user to configure the content including: the name and position of the graphic file displayed by the window support the operations of browsing the graphic file, adding and deleting.

Furthermore, after the multi-window configuration dialog box receives the confirmation message, the current configuration is stored, and the system opens the corresponding graphic window.

Furthermore, one main window corresponds to one group of auxiliary windows, when a user opens a graphic file, the graphic is defaulted to be the main window, and whether the graphic association is related to the auxiliary window is searched; and if the auxiliary window exists, opening the auxiliary window simultaneously for integrated monitoring.

A figure multi-window monitoring device based on a power grid dispatching control system comprises:

the window information configuration module is used for carrying out secondary development on the power grid dispatching control system and configuring window information in a configuration file;

the window information display module is used for displaying a main window and an auxiliary window on a display interface of the power grid dispatching control system according to the window information of the configuration file; the auxiliary window is associated with the main window, and when the main window is switched, the corresponding auxiliary window is synchronously switched; when the sizes and the positions of the main window and the auxiliary window are adjusted, the sizes and the positions of the windows are automatically stored in a configuration file;

and the window closing and opening module is used for opening again after the power grid dispatching control system is closed, automatically recovering the previous monitoring picture, and keeping the display area of the window unchanged.

Further, the window information includes the content, size and position of the main window and the auxiliary window, and the association relationship between the main window and the auxiliary window.

Further, the configuration window information is implemented by a multi-window configuration dialog box, which allows the user to configure the content including: the name and position of the graphic file displayed by the window support the operations of browsing the graphic file, adding and deleting.

Further, the multi-window configuration dialog box saves the current configuration in response to the save message, and the system opens the corresponding graphical window.

Furthermore, one main window corresponds to one group of auxiliary windows, when a user opens a graphic file, the graphic is defaulted to be the main window, and whether the graphic association is related to the auxiliary window is searched; and if the auxiliary window exists, opening the auxiliary window simultaneously for integrated monitoring.

The invention has the beneficial effects that:

the invention can meet the requirements of flexibly organizing the monitoring pictures and monitoring a plurality of associated graphic pictures for users, has richer picture display contents, does not need to manually and frequently switch the pictures, and is more convenient and faster to operate.

The invention can configure a plurality of pictures and set the display proportion of the main window and the auxiliary window, thereby realizing the integrated monitoring effect of intensively displaying a plurality of monitoring graphic pictures on one display interface. The graphic multi-window display has a memory function, the size of a window and a graphic display area before the graphic is closed are memorized, and the functions of the main window and the auxiliary window are consistent and can be switched mutually. The invention effectively meets the requirement that a user monitors information of a plurality of different scenes or equipment at the same time, and the monitoring information is more comprehensive and visual.

Drawings

FIG. 1 and FIG. 2 are schematic diagrams of a main window and an auxiliary window organization;

FIG. 3 is a multi-window profile contents;

fig. 4 is the window area information profile content.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the following embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and do not limit the scope of the invention. The following detailed description of the principles of the invention is provided in connection with the accompanying drawings.

Example 1:

a graph multi-window monitoring method based on a power grid dispatching control system is characterized in that secondary development is carried out on the power grid dispatching control system, window information is configured through a multi-window configuration dialog box, and the window information comprises the following steps: displaying contents and positions of the main window and the auxiliary window and the incidence relation of the main window and the auxiliary window;

displaying a main window and an auxiliary window on a display interface of the power grid dispatching control system according to the window information of the configuration file, and automatically storing the size and the position of the windows into the configuration file after the sizes of the main window and the auxiliary window are adjusted;

when the power grid dispatching control system is closed and then is opened again, the previous monitoring picture is automatically recovered, and the display area of the window is kept unchanged;

the auxiliary window is associated with the main window, and when the main window is switched, the corresponding auxiliary window is synchronously switched; supporting multiple sets of configuration;

the main window and one of the auxiliary windows can exchange positions, namely the main window is changed into the auxiliary window, the auxiliary window is changed into the main window, and the positions of other auxiliary windows are unchanged;

the secondary window displays the content for the same operations as the primary window.

Configuring display contents, positions and window sizes of a main window and an auxiliary window in a configuration file; the method specifically comprises the following steps: the window information is configured through the multi-window configuration dialog box, the user is allowed to configure the name of the graphic file and the display position of the window, and operations such as browsing the graphic file, adding, deleting and the like are supported. The type of the graphic file can be any type supported by a power grid dispatching control system, such as a plant station diagram, a tidal current diagram, a distribution network single line diagram and the like.

After clicking 'save' on the multi-window configuration dialog box, the current configuration is saved, and the system opens the corresponding graphical window. The user can adjust the size and the position of the window as required, save the display area and exchange the positions of the main window and the auxiliary window. And when the power grid dispatching control system is closed, the sizes and the positions of the main window and the auxiliary window are saved.

The main window and the auxiliary windows are related, and one main window corresponds to one group of auxiliary windows; there may be multiple sets of configurations. When a user opens a graphic file, the default graphic is a main window, and whether the graphic association is associated with an auxiliary window is searched; and if the auxiliary window exists, opening the auxiliary window. And similarly, the corresponding auxiliary window is automatically opened when the main window is switched.

The secondary window content supports the same application operation as the primary window.

Example 2:

as shown in fig. 1 and 2, a method for monitoring a graph with multiple windows based on a power grid dispatching control system includes:

performing secondary development on a power grid dispatching control system, and configuring the content, position and size of a main window and an auxiliary window in a configuration file; a display interface of the power grid dispatching control system displays a main window and an auxiliary window according to the configuration file;

and displaying the main window and the auxiliary window on a display interface of the power grid dispatching control system according to the configuration file, and automatically storing the size and the position of the window into the configuration file after the sizes of the main window and the auxiliary window are adjusted.

When the power grid dispatching control system is closed, the content, size and position of the window are saved, and when the power grid dispatching control system is opened again, the previous monitoring picture is automatically recovered, and the display area of the window is kept unchanged;

the auxiliary window is associated with the main window, and when the main window is switched, the corresponding auxiliary window is synchronously switched; supporting multiple sets of configuration;

the main window and one of the auxiliary windows can exchange positions, namely the main window is changed into the auxiliary window, the auxiliary window is changed into the main window, and the positions of other auxiliary windows are unchanged;

the secondary window displays the content for the same operations as the primary window.

Further comprising:

configuring window information through a configuration dialog box; the configuration dialog receives the following information: the file name of the main window, the file name of the auxiliary window and the display position of the auxiliary window; one configuration allows only one primary window, and may have multiple secondary windows; the display position of the secondary window (relative to the primary window) includes: upper, left, right, lower. The multiple secondary windows in the same position are parked in the order from top to bottom or from left to right. The type of the graphic file can be any type supported by a power grid dispatching control system, such as a plant station diagram, a tidal current diagram, a distribution network single line diagram and the like;

as shown in fig. 3, after the configuration dialog box receives the saved signal, the power grid dispatching control system saves the configuration content into the configuration file, and opens the configured graph, specifically: firstly, checking whether a main window graph is opened or not, and if not, opening the main window graph; secondly, checking whether the auxiliary window graph is opened or not, and if not, opening the auxiliary window graph;

when the power grid dispatching control system opens the graph, reading the size configuration and the display area configuration of the window, and setting the size and the display area of the opened graph; for the first open graphic, open at the default window size, the graphic scales to 100%. In the graphic browsing and monitoring process, the window size and the graphic display area can be adjusted according to the needs. As shown in fig. 4, after the current region setting saving operation is performed, the display region information of the main window and the auxiliary window is saved in the configuration file;

the multi-window configuration can be deleted, the positions of the main window and the parent window can be exchanged, and the corresponding modification is synchronously updated into the configuration file.

Example 3:

a figure multi-window monitoring device based on a power grid dispatching control system comprises:

the window information configuration module is used for carrying out secondary development on the power grid dispatching control system and configuring window information in a configuration file;

the window information display module is used for displaying a main window and an auxiliary window on a display interface of the power grid dispatching control system according to the window information of the configuration file; the auxiliary window is associated with the main window, and when the main window is switched, the corresponding auxiliary window is synchronously switched; when the sizes and the positions of the main window and the auxiliary window are adjusted, the sizes and the positions of the windows are automatically stored in a configuration file;

and the window closing and opening module is used for opening again after the power grid dispatching control system is closed, automatically recovering the previous monitoring picture, and keeping the display area of the window unchanged.

The window information comprises the content, size and position of the main window and the auxiliary window and the incidence relation of the main window and the auxiliary window.

Configuring window information in the configuration file is realized through a multi-window configuration dialog box, and the dialog box allows the user to configure the content comprising: the graphic file name, the window size and the position displayed by the window support operations of browsing graphic files, adding and deleting.

The multi-window configuration dialog box saves the current configuration in response to the save message and the system opens the corresponding graphical window.

One main window corresponds to one group of auxiliary windows, when a user opens a graphic file, the graphic is defaulted to be the main window, and whether the graphic association is related to the auxiliary window is searched; and if the auxiliary window exists, opening the auxiliary window simultaneously for integrated monitoring.

The invention can meet the requirements of flexibly organizing the monitoring pictures and monitoring a plurality of associated graphic pictures for users, has richer picture display contents, does not need to manually and frequently switch the pictures, and is more convenient and faster to operate.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. A graph multi-window monitoring method based on a power grid dispatching control system is characterized in that,

carrying out secondary development on a power grid dispatching control system, and configuring window information through a multi-window configuration dialog box;

a display interface of the power grid dispatching control system displays a main window and an auxiliary window according to window information of the configuration file;

the auxiliary window is associated with the main window, and when the main window is switched, the corresponding auxiliary window is synchronously switched;

when the sizes and the positions of the main window and the auxiliary window are adjusted, the sizes and the positions of the windows are automatically stored in a configuration file;

and when the power grid dispatching control system is closed and then is opened again, the previous monitoring picture is automatically recovered, and the display area of the window is kept unchanged.

2. The method for monitoring the graph with multiple windows based on the power grid dispatching control system according to claim 1, wherein the method comprises the following steps: the window information comprises the content, size and position of the main window and the auxiliary window and the incidence relation of the main window and the auxiliary window.

3. The method for monitoring the graph with multiple windows based on the power grid dispatching control system according to claim 1, wherein the method comprises the following steps: the window information is implemented via a multi-window configuration dialog box that allows the user to configure content including: the name and position of the graphic file displayed by the window support the operations of browsing the graphic file, adding and deleting.

4. The method for monitoring the graph with multiple windows based on the power grid dispatching control system according to claim 3, wherein the method comprises the following steps: and after receiving the confirmation message, the multi-window configuration dialog box stores the current configuration, and the system opens the corresponding graphic window.

5. The method for monitoring the graph with multiple windows based on the power grid dispatching control system according to claim 1, wherein the method comprises the following steps: one main window corresponds to one group of auxiliary windows, when a user opens a graphic file, the graphic is defaulted to be the main window, and whether the graphic association is related to the auxiliary window is searched; and if the auxiliary window exists, opening the auxiliary window simultaneously for integrated monitoring.

6. The utility model provides a figure multi-window monitoring device based on electric wire netting dispatch control system which characterized in that: the method comprises the following steps:

the window information configuration module is used for carrying out secondary development on the power grid dispatching control system and configuring window information through a multi-window configuration dialog box;

the window information display module is used for displaying a main window and an auxiliary window on a display interface of the power grid dispatching control system according to the window information of the configuration file; the auxiliary window is associated with the main window, and when the main window is switched, the corresponding auxiliary window is synchronously switched; when the sizes and the positions of the main window and the auxiliary window are adjusted, the sizes and the positions of the windows are automatically stored in a configuration file;

and the window closing and opening module is used for opening again after the power grid dispatching control system is closed, automatically recovering the previous monitoring picture, and keeping the display area of the window unchanged.

7. The device of claim 6, wherein the graphical multi-window monitoring device comprises: the window information comprises the content, size and position of the main window and the auxiliary window and the incidence relation of the main window and the auxiliary window.

8. The device of claim 6, wherein the graphical multi-window monitoring device comprises: configuring window information in the configuration file is realized through a multi-window configuration dialog box, and the dialog box allows the user to configure the content comprising: the name and position of the graphic file displayed by the window support the operations of browsing the graphic file, adding and deleting.

9. The device of claim 8, wherein the graphical multi-window monitoring device comprises: and after receiving the confirmation message, the multi-window configuration dialog box stores the current configuration, and the system opens the corresponding graphic window.

10. The device of claim 6, wherein the graphical multi-window monitoring device comprises: one main window corresponds to one group of auxiliary windows, when a user opens a graphic file, the graphic is defaulted to be the main window, and whether the graphic association is related to the auxiliary window is searched; and if the auxiliary window exists, opening the auxiliary window simultaneously for integrated monitoring.

Images