CN112598160A - Electric power Internet of things shape display method, device, medium and electronic equipment - Google Patents

Abstract

The embodiment of the application discloses a method, a device, a medium and electronic equipment for displaying the shape of an electric power internet of things. The method comprises the following steps: acquiring spatial data of the power equipment; acquiring environmental information and monitoring information; processing the spatial data to acquire a 2D plane information diagram of the power equipment; and determining a 3D site information graph of the power equipment with the environmental information and the monitoring information according to the 2D plane information graph, the environmental information and the monitoring information, and displaying the state information of the power equipment. According to the technical scheme, the integration degree of the environmental information and the monitoring information of the power equipment is optimized, the information has a shape and a structure to a certain degree, and the problem of errors caused during data reading can be solved under the conditions of large amount, real-time performance and complexity of the data of the power detection equipment. And the power personnel can more clearly and intuitively know the actual real state of the power equipment.

Description

Electric power Internet of things shape display method, device, medium and electronic equipment

Technical Field

The embodiment of the application relates to the technical field of power internet of things, in particular to a method, a device, a medium and electronic equipment for displaying the shape of the power internet of things.

Background

In the electric power internet of things system, because of the influence of natural factor loss and human factor of bad weather, the electric power equipment may be naturally aged or artificially damaged, and the phenomena of decompression and deformation occur gradually, so that the electric power accidents such as equipment damage, line power failure and the like caused by the potential safety hazard which may occur at any time need to be monitored by electricity for the high-risk accidents of the electric power equipment. The more important is the display of the status information of the power equipment.

For information processing in the display of the state information of the power equipment, past monitoring items provide data in a paper book reporting mode and are displayed in a two-dimensional plane form.

Due to the large amount, real-time performance and complexity of data of the power detection equipment, the possibility of errors caused during data reading is often greatly increased by using simple information processing technology. The display of the state information of the power equipment is monotonous and has no visual sense, and users often cannot simply and clearly know the actual real state of the power equipment.

Disclosure of Invention

The embodiment of the application provides a method, a device, a medium and electronic equipment for displaying the shape of an electric power internet of things, which optimize the integration degree of environmental information and monitoring information of the electric power equipment, enable the information to have a shape and a structure to a certain degree, and can solve the problem of errors caused by data reading under the conditions of large amount, real-time performance and complexity of data of electric power detection equipment. And the power personnel can more clearly and intuitively know the actual real state of the power equipment.

In a first aspect, an embodiment of the present application provides a method for displaying a shape of an electric power internet of things, where the method includes:

acquiring spatial data of the power equipment; acquiring environmental information and monitoring information;

processing the spatial data to acquire a 2D plane information diagram of the power equipment;

and determining a 3D site information graph of the power equipment with the environmental information and the monitoring information according to the 2D plane information graph, the environmental information and the monitoring information, and displaying the state information of the power equipment.

In a second aspect, an embodiment of the present application provides an electric power thing networking shape display device, the device includes:

the data acquisition module is used for acquiring spatial data of the power equipment; acquiring environmental information and monitoring information;

the 2D plane information graph acquisition module is used for processing the space data to acquire a 2D plane information graph of the power equipment;

and the 3D site information map determining module is used for determining a 3D site information map of the power equipment with the environmental information and the monitoring information according to the 2D plane information map, the environmental information and the monitoring information, and is used for displaying the state information of the power equipment.

In a third aspect, the present application provides a computer-readable medium, on which a computer program is stored, where the computer program, when executed by a processor, implements the method for displaying the shape of the power internet of things according to the present application.

In a fourth aspect, an embodiment of the present application provides an electronic device, which includes a memory, a processor, and a computer program stored on the memory and executable on the processor, where the processor executes the computer program to implement the method for displaying the shape of the power internet of things according to the embodiment of the present application.

According to the technical scheme provided by the embodiment of the application, the spatial data of the power equipment is acquired; acquiring environmental information and monitoring information; processing the spatial data to obtain a 2D plane information diagram of the power equipment; and determining a 3D site information graph of the power equipment with the environmental information and the monitoring information according to the 2D plane information graph, the environmental information and the monitoring information, and displaying the state information of the power equipment. According to the technical scheme, the integration degree of the environmental information and the monitoring information of the power equipment is optimized, the information has a shape and a structure to a certain degree, and the problem of errors caused during data reading can be solved under the conditions of large amount, real-time performance and complexity of the data of the power detection equipment. And the power personnel can more clearly and intuitively know the actual real state of the power equipment.

Drawings

Fig. 1 is a flowchart of a method for displaying a shape of an electric power internet of things according to an embodiment of the present disclosure;

fig. 2 is a schematic diagram of a shape display process of an electric power internet of things provided in the second embodiment of the present application;

fig. 3 is a schematic structural diagram of a power internet of things shape display device provided in the third embodiment of the present application;

fig. 4 is a schematic structural diagram of an electronic device according to a fifth embodiment of the present application.

Detailed Description

The present application will be described in further detail with reference to the following drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the application and are not limiting of the application. It should be further noted that, for the convenience of description, only some of the structures related to the present application are shown in the drawings, not all of the structures.

Before discussing exemplary embodiments in more detail, it should be noted that some exemplary embodiments are described as processes or methods depicted as flowcharts. Although a flowchart may describe the steps as a sequential process, many of the steps can be performed in parallel, concurrently or simultaneously. In addition, the order of the steps may be rearranged. The process may be terminated when its operations are completed, but may have additional steps not included in the figure. The processes may correspond to methods, functions, procedures, subroutines, and the like.

Example one

Fig. 1 is a flowchart of a method for displaying a shape of an electric power internet of things according to an embodiment of the present application, where the present embodiment is applicable to a situation of displaying state information of an electric power device, and the method may be executed by an apparatus for displaying a shape of an electric power internet of things according to an embodiment of the present application, where the apparatus may be implemented in a software and/or hardware manner, and may be integrated in an intelligent terminal and other devices for monitoring high-risk accidents of an electric power device.

As shown in fig. 1, the method for displaying the shape of the power internet of things includes:

s110, acquiring spatial data of the power equipment; and acquiring environmental information and monitoring information.

The spatial data may be spatial data of the ground and the object. For example, the spatial data may be geographic locations of all power devices in a certain area, spatial location data, and the like.

In the present embodiment, the environmental information may be a matter factor including air, water, temperature, and the like. Preferably, the environmental information can be information of heavy fog, precipitation, high temperature and the like; the monitoring information may be some information generated when the power equipment is operating. For example, the monitoring information may be temperature or pressure, etc.

In the scheme, the spatial data of the power equipment is obtained by analyzing and processing a map of an area where the power equipment is located and a remote sensing image; acquiring the regional environment information through meteorological software; and acquiring monitoring information through a sensor on the power equipment.

In the present technical solution, optionally, the environmental information includes rainfall, fog, and high temperature; the monitoring information includes temperature, humidity, and pressure.

In which, the environmental information and the monitoring information may cause serious damage to the power equipment, power supply interruption in some regions, rapid aging of the insulation of the power equipment, reduction in the service life and rated current of the power equipment, or high-risk accidents of the power equipment such as an overheat switch.

Through showing environmental information and monitoring information, make the information have certain shape and structure, can solve under the circumstances of the massiveness of electric power check out test set data, real-time and complexity, the error problem that causes when data read to and let the electric power personnel can more clear, audio-visual understanding electric power equipment's actual true condition.

And S120, processing the spatial data to acquire a 2D plane information diagram of the power equipment.

In this embodiment, the 2D plane information map of the power device is a plane image that does not include depth information, and includes four directions, i.e., left and right directions and up and down directions. The 2D plane information diagram shows two-dimensional plane information of the power equipment.

In the scheme, ArcGIS is used for carrying out vectorization processing on the spatial data, so that a GIS two-dimensional vector diagram is formed, and all power equipment in the project is displayed in a 2D plane information diagram. ArcGIS is a comprehensive system that users can use to collect, organize, manage, analyze, communicate and distribute geographic information. A GIS (Geographic Information System) is a computer System for inputting, storing, querying, analyzing and displaying Geographic data, which combines geography and geography, with the collection, storage, management, display and analysis of data on the earth's surface relating to spatial, Geographic distribution.

S130, determining a 3D field address information graph of the power equipment with the environment information and the monitoring information according to the 2D plane information graph, the environment information and the monitoring information, and displaying state information of the power equipment.

The 3D site information map of the power device may be a map showing power device information in a three-dimensional form. The 3D site information graph shows the three-dimensional shape, environmental information and monitoring information of the power equipment.

In this embodiment, after the 2D plane information map is determined, the 2D plane information map is converted into a 3D site information map, the power equipment is displayed in a three-dimensional form, and the environment information and the monitoring information are displayed in the 3D site information map.

In this technical solution, optionally, determining a 3D site information diagram of the power equipment with the environmental information and the monitoring information according to the 2D plane information diagram, the environmental information, and the monitoring information, for displaying the state information of the power equipment, includes:

converting the 2D plane information graph into a three-dimensional model by utilizing an image recognition technology;

and adding the environmental information and the monitoring information into the three-dimensional model, and generating a 3D site information graph of the power equipment, wherein the 3D site information graph is used for displaying the state information of the power equipment.

In the scheme, the 2D plane information graph is converted into the three-dimensional model by using an image recognition technology, and the three-dimensional model can be obtained by obtaining an image acquisition position point cloud graph through the correlation principle of image recognition and path judgment on the original space data of oblique photography, then generating the three-dimensional model from the two-dimensional model by adopting a method of tiling images on a dot matrix based on a point cloud model, and finally obtaining the live-action three-dimensional model. The image recognition technology may be any available method in the prior art, and this embodiment is not particularly limited.

In this embodiment, the environment information and the monitoring information are added to the three-dimensional model to generate a 3D site information map of the power equipment, and the environment information and the monitoring information may be displayed in the 3D site information map in the form of numbers, letters or characters.

The state information of the power equipment is more visual and vivid by showing the power equipment in a three-dimensional characteristic form. Meanwhile, the environmental information and the monitoring information are displayed on the 3D site information graph, so that the integration degree of the environmental information and the monitoring data of the power equipment is optimized, and the information has a shape and a structure to a certain degree.

According to the technical scheme provided by the embodiment of the application, the spatial data of the power equipment is acquired; acquiring environmental information and monitoring information; processing the spatial data to obtain a 2D plane information diagram of the power equipment; and determining a 3D site information graph of the power equipment with the environmental information and the monitoring information according to the 2D plane information graph, the environmental information and the monitoring information, and displaying the state information of the power equipment. By executing the technical scheme, the integration degree of the environmental information and the monitoring information of the power equipment is optimized, the information has a shape and a structure to a certain degree, and the problem of errors caused during data reading can be solved under the conditions of large amount, real-time performance and complexity of the data of the power detection equipment. And the power personnel can more clearly and intuitively know the actual real state of the power equipment.

Example two

Fig. 2 is a schematic diagram of a shape display process of the power internet of things provided in the second embodiment of the present application, and the second embodiment is further optimized based on the first embodiment. The concrete optimization is as follows: after determining a 3D site information map of the power equipment with the environmental information and the monitoring information according to the 2D plane information map and the environmental information and the monitoring information, for displaying the status information of the power equipment, the method further includes: determining dynamic information according to the environmental information and the variation of the monitoring information along with time; and determining a 4D power equipment display diagram according to the 3D site information diagram and the dynamic information. The details which are not described in detail in this embodiment are shown in the first embodiment. As shown in fig. 2, the method comprises the steps of:

s210, acquiring spatial data of the power equipment; and acquiring environmental information and monitoring information.

And S220, processing the spatial data to acquire a 2D plane information diagram of the power equipment.

And S230, determining a 3D field address information graph of the power equipment with the environment information and the monitoring information according to the 2D plane information graph, the environment information and the monitoring information, and displaying the state information of the power equipment.

And S240, determining dynamic information according to the environmental information and the variation of the monitoring information along with time.

The dynamic information may be changing information for describing environment information and monitoring information that change with time. For example, the rainfall of the environmental information at the current time is 1 mm, and the rainfall after one hour is 5 mm.

And S250, determining a 4D power equipment display diagram according to the 3D field address information diagram and the dynamic information.

In this embodiment, the 4D power equipment display map may be a dynamic map for describing monitoring information of the power equipment and changes of the environmental information over time. The 4D power equipment display graph shows the three-dimensional shape of the power equipment, and the variation of the environmental information and the monitoring information along with time.

It can be understood that the 3D field information graph is added with time axis information, and a time method is represented by a synchronous data item time marking method, so that a time and space combined data model is established, the effect of a 4D power equipment display graph is achieved, and changes of environmental information and equipment monitoring information are represented.

In this technical solution, optionally, the method further includes:

judging whether the environmental information and the monitoring information meet preset early warning conditions or not;

and if so, generating safety early warning information according to the environmental information and the monitoring information.

In this embodiment, the early warning condition may be that the precipitation exceeds a certain threshold, the temperature exceeds a certain range, or the pressure of the power equipment exceeds a certain threshold, or the like. The early warning condition can be set manually according to the material, the function or the position of the power equipment.

The safety early warning information can be numbers, characters or letters and the like. For example, the safety warning information may be excessive temperature or the like.

The intelligent cloud platform safety early warning system has the advantages that logic analysis is carried out through the acquired environmental information and monitoring information, safety is analyzed on the intelligent cloud platform, and relevant safety early warning information is displayed. For example, when severe weather or environment occurs, whether the power equipment is threatened or not is judged according to the real-time information of the power equipment, and safety early warning information is given. Or when the power equipment is in a state, judging whether danger occurs according to monitoring information of the power equipment, and giving safety early warning information.

By judging the environmental information and the monitoring information, the actual real state of the equipment can be known more clearly, and the safety condition of the power equipment can be acquired more quickly.

In this technical solution, optionally, after generating the safety precaution information according to the environment information and the monitoring information, the method further includes:

and adding the safety early warning information to the 3D site information graph and the 4D power equipment display graph.

In the scheme, after the safety early warning information is obtained, the safety early warning is sent to the 3D site information graph and the 4D power equipment display graph, namely, the safety early warning information is displayed on the 3D site information graph and the 4D power equipment display graph respectively.

Through showing safety precaution information respectively on 3D site information picture and 4D power equipment show picture, let the electric power personnel can know the actual true state of equipment more clearly, the more quick safe condition who acquires equipment.

In this technical solution, optionally, the method further includes:

responding to the clicking operation or the input operation of the power personnel, displaying the 2D plane information graph, the 3D field information graph or the 4D power equipment display graph corresponding to the clicking operation or the input operation, and enabling the power personnel to view the 2D plane information graph, the 3D field information graph or the 4D power equipment display graph.

In this embodiment, a 2D plane information diagram, a 3D field address information diagram, and a 4D power equipment display diagram are respectively displayed on the power equipment state information platform, where the 2D plane information diagram shows a two-dimensional plane diagram of the power equipment; the 3D site information graph shows the three-dimensional shape of the power equipment, environmental information, monitoring information and safety early warning information; the 4D power equipment display graph shows the three-dimensional shape of the power equipment, the variation of the environmental information and the monitoring information along with time and the safety early warning information. The electric power personnel can click or input and view the 2D plane information graph, the 3D site information graph and the 4D electric power equipment display graph on the electric power equipment state information platform according to the requirements.

Through showing 2D plane information picture, 3D site information picture and 4D power equipment show picture respectively on power equipment state information platform, the electric power personnel can look over according to the demand, have realized the monitoring to power equipment high risk accident.

According to the technical scheme provided by the embodiment of the application, the spatial data of the power equipment is acquired; acquiring environmental information and monitoring information; processing the spatial data to obtain a 2D plane information diagram of the power equipment; and determining a 3D site information map of the power equipment with the environmental information and the monitoring information according to the 2D plane information map, the environmental information and the monitoring information. Determining dynamic information according to the environmental information and the variation of the monitoring information along with time; and determining a 4D power equipment display diagram according to the 3D site information diagram and the dynamic information. By executing the technical scheme, the integration degree of the environmental information and the monitoring information of the power equipment is optimized, the information has a shape and a structure to a certain degree, and the problem of errors caused during data reading can be solved under the conditions of large amount, real-time performance and complexity of the data of the power detection equipment. And the power personnel can more clearly and intuitively know the actual real state of the power equipment.

EXAMPLE III

Fig. 3 is a schematic structural diagram of an electric power internet of things shape display device provided in the third embodiment of the present application, and as shown in fig. 3, the electric power internet of things shape display device includes:

a data obtaining module 310, configured to obtain spatial data of the electrical device; acquiring environmental information and monitoring information;

a 2D plane information diagram obtaining module 320, configured to process the spatial data to obtain a 2D plane information diagram of the power device;

a 3D site information map determining module 330, configured to determine, according to the 2D plane information map, the environment information, and the monitoring information, a 3D site information map of the power device with the environment information and the monitoring information, and to show state information of the power device.

In this technical solution, optionally, the apparatus further includes:

the dynamic information determining module is used for determining dynamic information according to the environmental information and the variation of the monitoring information along with time;

and the 4D power equipment display diagram determining module is used for determining a 4D power equipment display diagram according to the 3D site information diagram and the dynamic information.

In this technical solution, optionally, the 3D field address information map determining module 330 includes:

a three-dimensional model obtaining unit for converting the 2D plane information graph into a three-dimensional model by using an image recognition technology;

and the 3D site information map generating unit is used for adding the environmental information and the monitoring information into the three-dimensional model, generating a 3D site information map of the power equipment and displaying the state information of the power equipment.

In the present technical solution, optionally, the environmental information includes rainfall, fog, and high temperature; the monitoring information includes temperature, humidity, and pressure.

In this technical solution, optionally, the apparatus further includes:

the environment information and monitoring information judging module is used for judging whether the environment information and the monitoring information meet preset early warning conditions or not;

and the safety early warning information generation module is used for generating safety early warning information according to the environmental information and the monitoring information if the environmental information and the monitoring information are met.

In this technical solution, optionally, the apparatus further includes:

and the safety early warning information adding module is used for adding the safety early warning information to the 3D site information graph and the 4D power equipment display graph.

In this technical solution, optionally, the apparatus further includes:

and the display module is used for responding to the clicking operation or the input operation of the power personnel, displaying the 2D plane information graph, the 3D field information graph or the 4D power equipment display graph corresponding to the clicking operation or the input operation, and allowing the power personnel to view the graph.

The product can execute the method provided by the embodiment of the application, and has the corresponding functional modules and beneficial effects of the execution method.

Example four

A fourth embodiment of the present application further provides a medium containing computer-executable instructions, which when executed by a computer processor, are configured to perform a method for displaying a shape of an electric power internet of things, the method including:

acquiring spatial data of the power equipment; acquiring environmental information and monitoring information;

processing the spatial data to acquire a 2D plane information diagram of the power equipment;

and determining a 3D site information graph of the power equipment with the environmental information and the monitoring information according to the 2D plane information graph, the environmental information and the monitoring information, and displaying the state information of the power equipment.

Media-any of various types of memory devices or storage devices. The term "media" is intended to include: mounting media such as CD-ROM, floppy disk, or tape devices; computer system memory or random access memory such as DRAM, DDR RAM, SRAM, EDO RAM, Lanbas (Rambus) RAM, etc.; non-volatile memory such as flash memory, magnetic media (e.g., hard disk or optical storage); registers or other similar types of memory elements, etc. The medium may also include other types of memory or combinations thereof. In addition, the medium may be located in the computer system in which the program is executed, or may be located in a different second computer system, which is connected to the computer system through a network (such as the internet). The second computer system may provide the program instructions to the computer for execution. The term "media" may include two or more media that may reside in different locations, such as in different computer systems that are connected by a network. The media may store program instructions (e.g., embodied as computer programs) that are executable by one or more processors.

Of course, the medium provided in the embodiments of the present application includes computer-executable instructions, and the computer-executable instructions are not limited to the above-described shape display operation of the power internet of things, and may also perform related operations in the shape display method of the power internet of things provided in any embodiments of the present application.

EXAMPLE five

Fifth, the embodiment of the application provides an electronic device, and the electric power thing networking shape display device provided by the embodiment of the application can be integrated in the electronic device. Fig. 4 is a schematic structural diagram of an electronic device according to a fifth embodiment of the present application. As shown in fig. 4, the present embodiment provides an electronic device 400, which includes: one or more processors 420; the storage device 410 is configured to store one or more programs, and when the one or more programs are executed by the one or more processors 420, the one or more processors 420 implement the method for displaying the shape of the power internet of things provided by the embodiment of the present application, the method includes:

acquiring spatial data of the power equipment; acquiring environmental information and monitoring information;

processing the spatial data to acquire a 2D plane information diagram of the power equipment;

and determining a 3D site information graph of the power equipment with the environmental information and the monitoring information according to the 2D plane information graph, the environmental information and the monitoring information, and displaying the state information of the power equipment.

Of course, those skilled in the art can understand that the processor 420 also implements the technical solution of the method for displaying the shape of the power internet of things provided in any embodiment of the present application.

The electronic device 400 shown in fig. 4 is only an example, and should not bring any limitation to the functions and the scope of use of the embodiments of the present application.

As shown in fig. 4, the electronic device 400 includes a processor 420, a storage device 410, an input device 430, and an output device 440; the number of the processors 420 in the electronic device may be one or more, and one processor 420 is taken as an example in fig. 4; the processor 420, the storage device 410, the input device 430, and the output device 440 in the electronic apparatus may be connected by a bus or other means, and are exemplified by a bus 450 in fig. 4.

The storage device 410 is a computer-readable medium, and can be used to store software programs, computer-executable programs, and module units, such as program instructions corresponding to the method for displaying the shape of the power internet of things in the embodiment of the present application.

The storage device 410 may mainly include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program required for at least one function; the storage data area may store data created according to the use of the terminal, and the like. Further, the storage 410 may include high speed random access memory, and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other non-volatile solid state storage device. In some examples, storage 410 may further include memory located remotely from processor 420, which may be connected via a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.

The input means 430 may be used to receive input numbers, character information, or voice information, and to generate key signal inputs related to user settings and function control of the electronic device. The output device 440 may include a display screen, speakers, or other electronic equipment.

The electronic equipment provided by the embodiment of the application can achieve the integration degree of optimizing the environmental information and the monitoring data of the power equipment, so that the information has a certain shape and structure, and the electric power personnel can know the actual real state of the power equipment more clearly and visually.

The electric power internet of things shape display device, the medium and the electronic equipment which are provided in the embodiments can execute the electric power internet of things shape display method provided by any embodiment of the application, and have corresponding functional modules and beneficial effects for executing the method. Technical details which are not described in detail in the above embodiments can be referred to a shape display method of the power internet of things provided in any embodiments of the present application.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present application and the technical principles employed. It will be understood by those skilled in the art that the present application is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the application. Therefore, although the present application has been described in more detail with reference to the above embodiments, the present application is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present application, and the scope of the present application is determined by the scope of the appended claims.

Claims (10)

1. A shape display method for an electric power Internet of things is characterized by comprising the following steps:

acquiring spatial data of the power equipment; acquiring environmental information and monitoring information;

processing the spatial data to acquire a 2D plane information diagram of the power equipment;

and determining a 3D site information graph of the power equipment with the environmental information and the monitoring information according to the 2D plane information graph, the environmental information and the monitoring information, and displaying the state information of the power equipment.

2. The method of claim 1, wherein after determining a 3D site information map of the power equipment with the environmental information and the monitoring information for showing status information of the power equipment according to the 2D plane information map and the environmental information and the monitoring information, the method further comprises:

determining dynamic information according to the environmental information and the variation of the monitoring information along with time;

and determining a 4D power equipment display diagram according to the 3D site information diagram and the dynamic information.

3. The method according to claim 1, wherein determining a 3D site information map of the power equipment with the environmental information and the monitoring information according to the 2D plane information map and the environmental information and the monitoring information, for showing status information of the power equipment, comprises:

converting the 2D plane information graph into a three-dimensional model by utilizing an image recognition technology;

and adding the environmental information and the monitoring information into the three-dimensional model, and generating a 3D site information graph of the power equipment, wherein the 3D site information graph is used for displaying the state information of the power equipment.

4. The method of claim 1, wherein the environmental information includes rainfall, fog, and high temperature; the monitoring information includes temperature, humidity, and pressure.

5. The method of claim 1, further comprising:

judging whether the environmental information and the monitoring information meet preset early warning conditions or not;

and if so, generating safety early warning information according to the environmental information and the monitoring information.

6. The method of claim 5, wherein after generating safety precaution information from the environmental information and the monitoring information, the method further comprises:

and adding the safety early warning information to the 3D site information graph and the 4D power equipment display graph.

7. The method of claim 2, further comprising:

responding to the clicking operation or the input operation of the power personnel, displaying the 2D plane information graph, the 3D field information graph or the 4D power equipment display graph corresponding to the clicking operation or the input operation, and enabling the power personnel to view the 2D plane information graph, the 3D field information graph or the 4D power equipment display graph.

8. The utility model provides an electric power thing networking shape display device which characterized in that includes:

the data acquisition module is used for acquiring spatial data of the power equipment; acquiring environmental information and monitoring information;

the 2D plane information graph acquisition module is used for processing the space data to acquire a 2D plane information graph of the power equipment;

and the 3D site information map determining module is used for determining a 3D site information map of the power equipment with the environmental information and the monitoring information according to the 2D plane information map, the environmental information and the monitoring information, and is used for displaying the state information of the power equipment.

9. A computer-readable medium, on which a computer program is stored, which, when being executed by a processor, implements the power internet of things shape presentation method according to any one of claims 1 to 7.

10. An electronic device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, wherein the processor implements the power internet of things shape presentation method as claimed in any one of claims 1 to 7 when executing the computer program.

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