CN115689490A - Method and device for managing power equipment - Google Patents

Abstract

The application discloses a method and a device for managing electric power equipment.

Description

Method and device for managing power equipment

Technical Field

The present application relates to the field of data management technologies, and in particular, to a method and an apparatus for managing power devices.

Background

With the rapid development of the power industry, the number of power devices (such as electric meters or power terminals) is also rapidly increasing, and in order to monitor and control the power consumption information, at present, a power consumption information acquisition system is usually adopted to manage the power devices, that is, the power consumption information acquisition system acquires the content of the power devices and directly controls the power devices. However, since the power equipment in the power system is updated quickly, the power equipment of a new model is continuously deployed in the power system, and once the power equipment of a new model is deployed in the power system, the code of the power utilization information acquisition system needs to be modified to be suitable for the power system including the power equipment of a new model, that is, the power utilization information acquisition system has poor compatibility with a mode of managing the power equipment.

Disclosure of Invention

The application provides a method and a device for managing electric power equipment, wherein a corresponding digital entity is established for each electric power equipment through a digital twin engine, and the interaction between a business system and the electric power equipment can be realized through the corresponding digital entity on the digital twin engine, so that the management of the electric power entity is more flexible and convenient.

In a first aspect, the present application provides a method for managing an electric power device, applied to a digital twin engine, the method including:

receiving an access request of a first power device, wherein the access request is used for requesting the first power device to be deployed into a power system;

creating a first digital entity of a first power device, the first digital entity corresponding to the first power device in the digital twin engine;

and managing the first electric power equipment based on the first digital entity, wherein the interaction between the first electric power equipment and the business system is realized through the first digital entity on the digital twin engine.

Optionally, creating a first digital entity of the first power device comprises:

providing a configuration interface to the first power device through a visualization interface provided by the digital twin engine;

in response to a configuration operation on the configuration interface, a first digital entity is obtained.

Optionally, the configuration operation includes a selection operation of selecting the first twin template in the configuration interface based on the property, the function, and the connection relationship of the first power device, and an editing operation of editing the first twin template.

Optionally, managing the first power device based on the first digital entity comprises:

receiving a first control message sent by a service system, wherein the first control message is used for indicating a first operation to be executed by first electric power equipment;

updating the content of the first digital entity according to the first control message, wherein the updated content of the first digital entity is consistent with the content of the first electric power equipment after the first operation is carried out;

generating a second control message according to the updated content of the first digital entity;

and sending a second control message to the first electric power equipment, wherein the content of the first electric power equipment is consistent with the updated content of the first digital entity after the first electric power equipment processes the second control message.

Optionally, managing the first power device based on the first digital entity comprises:

receiving a first control message sent by a service system, wherein the first control message is used for indicating a first operation to be executed by a power system;

according to the first operation, obtaining a second operation corresponding to the first power equipment, wherein the first operation is completed by a plurality of power equipment in the power system together, and the plurality of power equipment comprise the first power equipment;

updating the content of the first digital entity according to the first control message, wherein the updated content of the first digital entity is consistent with the content of the first power equipment after the second operation is carried out;

generating a second control message according to the updated content of the first digital entity;

and sending a second control message to the first electric power equipment, wherein the content of the first electric power equipment is consistent with the updated content of the first digital entity after the first electric power equipment processes the second control message.

Optionally, managing the first power device based on the first digital entity comprises:

receiving a first request message sent by a service system, wherein the first request message is used for indicating to collect the content of first electric power equipment;

obtaining the content of the first digital entity according to the first request message;

generating a first response message according to the content of the first digital entity, wherein the first response message comprises the content of the first digital entity;

and sending the first response message to the service system.

Optionally, managing the first power device based on the first digital entity comprises:

receiving the content of the first power equipment sent by the first power equipment;

and updating the content of the first digital entity according to the content of the first electric power equipment.

Optionally, the method comprises:

the digital twin engine comprises a digital topology of the power system, nodes in the digital topology representing power devices in the power system, and connections between nodes in the digital topology representing connections between power devices in the power system.

Optionally, the method comprises:

the power equipment includes a power terminal and/or an electricity meter.

In a second aspect, the present application provides an apparatus for managing a power terminal, the apparatus comprising:

a first receiving unit, configured to receive an access request of a first power device, where the access request is used to request that the first power device be deployed into a power system;

the first processing unit is used for creating a first digital entity of the first power device, and the first digital entity corresponds to the first power device in the digital twin engine;

and the second processing unit is used for managing the first power equipment based on the first digital entity, and the interaction of the first power equipment and the service system is realized through the first digital entity on the digital twin engine.

Optionally, the first processing unit is specifically configured to:

providing a configuration interface to the first power device through a visual interface provided by the digital twin engine;

in response to a configuration operation on the configuration interface, a first digital entity is obtained.

Optionally, the first processing unit is specifically configured to:

the configuration operation includes a selection operation and an editing operation, the selection operation is an operation of selecting a first twin template in the configuration interface based on the attribute, the function and the connection relation of the first power device, and the editing operation is an operation of editing the first twin template.

Optionally, the second processing unit is specifically configured to:

receiving a first control message sent by a service system, wherein the first control message is used for indicating a first operation to be executed by first electric power equipment;

updating the content of the first digital entity according to the first control message, wherein the updated content of the first digital entity is consistent with the content of the first electric power equipment after the first operation is carried out;

generating a second control message according to the updated content of the first digital entity;

and sending a second control message to the first electric power equipment, wherein the content of the first electric power equipment is consistent with the updated content of the first digital entity after the first electric power equipment processes the second control message.

Optionally, the second processing unit is specifically configured to:

receiving a first control message sent by a service system, wherein the first control message is used for indicating a first operation to be executed by a power system;

according to the first operation, obtaining a second operation corresponding to the first power equipment, wherein the first operation is completed by a plurality of power equipment in the power system together, and the plurality of power equipment comprise the first power equipment;

updating the content of the first digital entity according to the first control message, wherein the updated content of the first digital entity is consistent with the content of the first power equipment after the second operation is carried out;

generating a second control message according to the updated content of the first digital entity;

and sending a second control message to the first electric power equipment, wherein the content of the first electric power equipment is consistent with the updated content of the first digital entity after the first electric power equipment processes the second control message.

Optionally, the second processing unit is specifically configured to:

receiving a first request message sent by a service system, wherein the first request message is used for indicating to collect the content of first electric power equipment;

obtaining the content of the first digital entity according to the first request message;

generating a first response message according to the content of the first digital entity, wherein the first response message comprises the content of the first digital entity;

and sending a first response message to the service system.

Optionally, the second processing unit is specifically configured to:

receiving the content of the first power equipment sent by the first power equipment;

and updating the content of the first digital entity according to the content of the first electric power equipment.

In a third aspect, the present application provides an apparatus for managing a power device, the apparatus comprising a memory and a processor:

the memory is used for storing a computer program;

the processor is adapted to perform the method provided by the first aspect described above according to a computer program.

In a fourth aspect, the present application also provides a computer-readable storage medium for storing a computer program for executing the method provided in the first aspect.

Therefore, the application has the following beneficial effects:

when the novel power equipment needs to be accessed, the digital twin engine responds to an access request of the received power equipment to obtain creation information of the power equipment, and a worker creates a digital entity corresponding to the power equipment at the front end of the digital twin engine according to the content of the creation information, so that the power equipment can be managed through managing the digital entity in the digital twin engine, the aim of accessing the novel equipment without modifying codes is fulfilled, and operation and maintenance cost is reduced.

In addition, according to the technical scheme, the distributed architecture is established by the main station system by introducing the digital twin engine, and each node in the digital twin engine is relatively independent, so that the response speed of the main station system can be improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments described in the present application, and other drawings can be obtained by those skilled in the art according to the drawings.

Fig. 1 is a schematic flowchart of a method for managing an electrical device according to an embodiment of the present disclosure;

FIG. 2 is a schematic diagram of a system 200 for managing power devices according to an embodiment of the present disclosure;

FIG. 3 is a flowchart illustrating an embodiment of a method for managing power devices according to an embodiment of the present disclosure;

FIG. 4 is a schematic structural diagram of an apparatus 400 for managing power devices according to an embodiment of the present disclosure;

fig. 5 is a schematic structural diagram of an apparatus 500 for managing power equipment in an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In the names of "first receiving unit", "first processing unit", and the like, the "first" mentioned in the embodiments of the present application is used only for name identification, and does not represent the first in sequence. The same applies to "second", "third", etc.

At present, the power consumption information acquisition system mainly utilizes various communication networks, such as 485 lines, public network communication, power line carriers and the like, to perform bidirectional network communication with the power equipment provided with the communication module, so that the power consumption information acquisition system manages the power equipment. However, with the increase of the number of the electric power devices, when a new type of electric power device is added to the power consumption information acquisition system, a worker needs to investigate and clarify the attributes and parameters of the field device, then express the parameters and attributes into the fields of the data table or members of the software object, modify the codes in the power consumption information acquisition system based on the data table or the software object, and finally access the new type of electric power device into the power consumption information acquisition system. According to the technical scheme, the code is frequently modified by using the electrical information acquisition system, so that the compatibility of the electrical equipment is poor, and the operation and maintenance cost is increased. On the other hand, because the power consumption information acquisition system is a centralized architecture, as the number of the accessed power devices increases, the response speed of the system decreases.

In the embodiment of the application, the digital twin engine creates a digital entity corresponding to the power device by receiving an access request of the power device, and the power device can be managed based on the digital entity. Specifically, the method may include, for example: the method comprises the steps that a digital twin engine receives an access request of the power equipment, an operator selects a twin template according to the attribute, the function and the connection relation of the power equipment at a configuration interface at the front end of the digital twin engine according to the access request of the power equipment, edits and operates according to the twin template to obtain a corresponding digital entity, and finally, the digital twin engine can manage the power equipment based on the digital entity, namely, the interaction between the power equipment and a service system is realized through the digital twin engine.

To facilitate understanding of specific implementation of the method for managing an electrical device provided in the embodiments of the present application, the following description is made with reference to the accompanying drawings.

It should be noted that, the main body implementing the method for managing the power equipment may be the apparatus for managing the power equipment provided in the embodiments of the present application, and the apparatus for managing the power equipment may be carried in the electronic equipment or a functional module of the electronic equipment. The electronic device in the embodiment of the present application may be any device capable of implementing the method for managing an electrical device in the embodiment of the present application, and for example, may be an Internet of things (IoT) device.

Fig. 1 is a schematic flowchart of a method for managing an electrical device according to an embodiment of the present disclosure. The method may be applied to an apparatus for managing an electrical device, which may be, for example, the apparatus 400 for managing an electrical device shown in fig. 4, or the apparatus for address resolution may be a functional module integrated in the apparatus 500 for managing an electrical device shown in fig. 5.

The method of the embodiment of the application is applied to a digital twin engine, and the digital twin engine is an operation and control device developed based on a configurable digital twin model.

As shown in fig. 1, the method comprises the steps of:

s101: an access request of a first electrical device is received, the access request requesting deployment of the first electrical device into an electrical power system.

The power equipment comprises electric meters and power terminals, the electric meters are responsible for collecting data of a single customer, but as the number of used electric meters increases, the generated data amount is too much, and the electric meters cannot be directly managed, so that the electric meters in one area (such as two streets) are connected with one power terminal, and the electric meters are managed by the power terminal.

In order to manage the power device, it is necessary to receive an access request of the power device, create a digital entity corresponding to the power device in the digital twin engine according to the access request, and then manage the power device based on the digital entity. Therefore, the embodiment of the present application receives an access request of an electrical device through S101, and provides a precondition for creating a digital entity corresponding to the electrical device.

For example, when a power device is newly deployed to a power system, the power device may trigger an access event, and for the digital twin engine, an access request of the power device may be received, and based on the access request, a configuration interface for the power device may be displayed on a visual interface provided by the digital twin engine, so that an operator may configure the power device.

S102: creating a first digital entity for the first power device, the first digital entity corresponding to the first power device in the digital twin engine.

As an example, S102 may include: and in one case, the operator determines a first twin template matched with the first electric device according to the identification of the first electric device in the access request or according to the attribute, the function and the connection relation of the first electric device, and obtains the first digital entity in response to the editing of the editable content of the first twin template displayed on the configuration interface in a skipping manner by the operator. In another case, the operator selects a first twin template among the twin templates of the configuration interface based on experience, and then obtains the first digital entity in response to the operator's editing of the editable content of the first twin template jumped to display on the configuration interface. In yet another case, if the operator does not match an existing twin template matched by the first electric device in the configuration interface, a new twin template (referred to as a first twin template) may be created on the configuration interface, the first twin template being established based on the attributes and functions of the first electric device, and then the first digital entity may be obtained in response to the operator editing the editable content of the first twin template jumped to display on the configuration interface.

The first digital entity is obtained in response to editing of editable content of the first twin template displayed in a skipping mode on the configuration interface by an operator, and specifically, the first digital entity is obtained based on the first twin template, the attribute, the function and the connection relation of the first electric power device.

S103: managing the first power device based on the first digital entity, the interaction of the first power device with a business system being enabled by the first digital entity on the digital twin engine.

As an example, for a scenario where the business system has a control requirement for a specified power device, S103 may include: s1031, receiving a first control message sent by the service system, where the first control message is used to indicate a first operation to be performed by the first electrical device, and the first control message includes an identifier of the first electrical device; s1032, updating the content of the first digital entity corresponding to the identifier of the first electrical device according to the first control message, where the updated content of the first digital entity is consistent with the content of the first electrical device after the first operation is performed; s1033, generating a second control message according to the updated content of the first digital entity; s1034, sending a second control message to the first electrical device, where after the first electrical device processes the second control message, the content of the first electrical device is consistent with the updated content of the first digital entity.

As an example, for a scenario where the business system issues the control demand without specifying a specific power device satisfying the control demand, S103 may include: s1031, receiving a first control message sent by the service system, where the first control message is used to indicate a first operation to be performed by the power system; s1032, obtaining a second operation corresponding to the first power equipment according to the first operation; s1033, forming a task according to the first control message, and distributing the task to a plurality of electric power devices, wherein the task needs the plurality of electric power devices in the electric power system to jointly complete a first operation, and the plurality of electric power devices comprise a first electric power device; s1034, updating the content of the first digital entity according to the task, wherein the updated content of the first digital entity is consistent with the content of the first power equipment after the second operation is carried out; s1034, generating a second control message according to the updated content of the first digital entity; s1035, sending a second control message to the first electrical device, where after the first electrical device processes the second control message, the content of the first electrical device is consistent with the updated content of the first digital entity.

As an example, for a scenario where the business system needs to collect the content of the specified power device, S103 may include: s1031, receiving a first request message sent by the service system, wherein the first request message is used for indicating to collect the content of the first electric power equipment, and the first request message comprises an identifier of the first electric power equipment; s1032, obtaining the content of the first digital entity corresponding to the identifier of the first electric power equipment according to the first request message; s1033, generating a first response message according to the content of the first digital entity, where the first response message includes the content of the first digital entity; s1034, the first response message is sent to the service system.

As an example, for a reporting scenario triggered by a salient event of an electrical device, S103 may include: s1031, receiving the content of the first electrical device sent by the first electrical device, where the content may include an indication or an alarm, and may be periodically reported and updated, or reported and updated in real time, or reported and updated by event triggering (for example, data of the electrical device exceeds an alert value, for example, every time the indication exceeds 100); s1032, updating the content of the first digital entity according to the content of the first power device.

According to the method, firstly, the access request of the power equipment is received through the digital twin engine, the configuration interface of the power equipment is provided according to the visual interface provided by the digital twin engine, the configuration operation is carried out on the configuration interface according to the attribute, the function and the connection relation of the power equipment to generate the corresponding digital entity, and finally, the corresponding power equipment can be managed through the management digital entity, so that the management of the power entity is more flexible and convenient.

The system architecture for managing power devices in the embodiment of the present application is shown in fig. 2: above the digital twin engine 202 is a service function interface 201, which interacts with the service system. A security isolation gateway 203 is arranged below the digital twin engine 202, the security isolation gateway 203 interacts with a front-end communication server cluster 204 through the security isolation gateway 203, and the front-end communication server cluster 204 interacts with an electric terminal 205 and an electric meter 206, an electric meter 207, an electric meter 208 and an electric meter 209 managed by the electric terminal 205 through a communication network.

As an example, the digital twin engine 202 specifically includes: the system comprises a twin engine operation management tool, a twin engine main body, a twin object management tool, a twin library and a twin configuration maintenance tool. The digital twin engine operation management tool comprises engine monitoring, object monitoring, operation monitoring and extended services. The twin engine body refers to a processing unit for messages between the power equipment and the business system, and includes management of the twin objects. The twin object management module implements management of the digital entity. Twin libraries are the primary tools for managing digital twin entities. The twin configuration maintenance tool manages and maintains data in the twin library.

In order to make the method provided by the embodiments of the present application clearer and easier to understand, a specific example of the method is described below with reference to fig. 3.

S301: the digital twin engine receives an access request of the power device 1 for requesting the power device 1 to be deployed into the power system.

The power device 1 includes a power terminal and an electricity meter, and the power device 1 may be, for example, a first power device in the above method.

S302: the digital twin engine provides a configuration interface of the power device 1 according to the access request.

As an example, S302 may include: according to the access request of the power equipment 1 received by the digital twin engine, an operator displays an interface for configuring a digital entity in a visual interface provided by the digital twin engine, and configures the corresponding digital entity for the power equipment 1.

S303: and the digital twin engine responds to the configuration operation of the configuration interface to obtain a digital entity 1, wherein the digital entity 1 corresponds to the power equipment 1.

As an example, S303 may include: the operator establishes a digital entity 1 at the configuration interface according to the attribute, the function and the connection state of the power equipment 1, and the generated digital entity 1 is stored in the twin library, wherein the digital entity 1 can be the first digital entity in the method.

S304: the digital twin engine manages the power equipment 1 based on the digital entity 1, and the interaction between the power equipment 1 and a service system is realized through the digital entity 1 on the digital twin engine.

As an example, when a user of a certain electric meter does not pay electricity for a long time, and the service system needs to switch off the electric meter, S304 may include: s3041, the digital twin engine receives a control message 1 sent by the service system through the service interface, where the control message 1 is used to instruct the electric meter 1 to perform a switching operation, where the control message 1 includes an identifier of the electric meter 1; s3042, the digital twin engine processes according to the control message 1 to generate a task 1 and stores the task 1 into a task queue, wherein the content of the task 1 is to change the state of the digital entity 1 corresponding to the identifier of the ammeter 1 into a closing state; s3043, the task queue allocates task 1 to digital entity 1; s3044, the service management in the digital twin engine changes the state of the digital entity 1 into a closed state according to the task; s3045, generating a control message 2 by object start-stop processing in the digital twin engine according to the updated closing state of the digital entity 1; s3046, the digital twin engine sends the control message 2 to the electric meter 1 through the front communication server cluster, and after the electric meter 1 processes the control message 2, the electric meter 1 is also in a closed state.

As an example, when the power devices in a region need to be overhauled, and the service system needs to control all the power devices in the region to perform a switching operation, S304 may include: s3041, the digital twin engine receives a control message 1 sent by the service system through the service interface, where the control message 1 is used to indicate that all the electric power devices in the area perform a switching operation, and the control message 1 includes an identifier of the electric power device in the area; s3042, the digital twin engine processes according to the control message 1 to generate a task 1 and stores the task 1 into a task queue, wherein the content of the task 1 is that the state of the digital entity 1 corresponding to the identifier of the electricity meter 1 in the area is changed into a gate closing state; s3043, the task queue allocates a control 1 task to a plurality of electrical devices in the area, where the task needs the plurality of electrical devices in the area to jointly complete a closing operation, where the plurality of electrical devices include an electricity meter 1; s3044, the service management in the digital twin engine changes the state of the digital entity 1 into a closed state according to the task; s3045, generating a control message 2 by the object start-stop processing in the digital twin engine according to the updated closing state of the digital entity 1; s3046, the digital twin engine sends a control message 2 to the electric meter 1 through the front communication server cluster server, and after the electric meter 1 processes the control message 2, the electric meter 1 is also in a closed state.

As an example, when the user needs to view the electricity consumption data of the electricity meter, and the like, and the service system needs to collect the electricity consumption data of the user electricity meter, S304 may include: s3041, the digital twin engine receives a request message 1 sent by a service system through a service interface, wherein the request 1 is used for indicating and collecting electricity consumption data of an electricity meter 1, and the request message 1 comprises an identifier of the electricity meter 1; s3042, the digital twin engine processes the request message 1 to generate a task 1 and stores the task 1 into a task queue, wherein the content of the task 1 is to obtain the electricity consumption data of the electricity meter 1; s3043, the task queue distributes the tasks to the digital entities 1 corresponding to the identifications of the electric meters 1; s3044, the service management in the digital twin engine obtains the electricity consumption data of the digital entity 1 according to the tasks and generates a response message 1, wherein the response message 1 comprises the electricity consumption data of the digital entity 1; s3044, the digital twin engine sends a response message 1 to the service system through the service interface.

As an example, when the voltage of the electric meter drops to an alarm value, the electric meter will alarm to inform the service system to process the electric meter, and S304 may include: s3041, the digital twin engine receives a voltage alarm of the ammeter 1 through the front communication server cluster; s3042, the digital twin engine processes according to the voltage alarm to generate an event 1 and stores the event 1 to event management; s3043, the event management updates the voltage of the digital entity 1 according to the event 1; s3043, the digital twin engine generates an alarm message 1 according to the voltage of the digital entity 1; s3044, the digital twin engine sends an alarm message 1 to the service system.

The embodiment of the application provides a method for managing electric power equipment, which comprises the steps that firstly, an access request of the electric power equipment is received through a digital twin engine, an operator opens a configuration interface at the front end of the digital twin engine according to the access request of the electric power equipment, and generates a corresponding digital entity according to the attribute, the function and the connection relation of the electric power equipment, and finally, the interaction of the electric power equipment and a service system can be realized through the digital twin engine, so that the management of the electric power entity is more flexible and convenient.

In addition, according to the technical scheme, a distributed architecture is established by the system for managing the power equipment by introducing the digital twin engine, each node represents the power equipment in the power system and is relatively independent, and the response speed of the system can be improved when the system runs.

Referring to fig. 4, an embodiment of the present application provides an apparatus 400 for managing an electrical device, where the apparatus 400 includes:

a first receiving unit 401, configured to receive an access request of a first electrical device, where the access request is used to request that the first electrical device be deployed into an electrical power system;

a first processing unit 402, configured to create a first digital entity of a first power device, where the first digital entity corresponds to the first power device in the digital twin engine;

a second processing unit 403, configured to manage the first power device based on the first digital entity, where interaction of the first power device with the business system is implemented through the first digital entity on the digital twin engine.

Optionally, the first processing unit 402 is specifically configured to:

providing a configuration interface to the first power device through a visual interface provided by the digital twin engine;

in response to a configuration operation on the configuration interface, a first digital entity is obtained.

Optionally, the first processing unit 402 is specifically configured to:

the configuration operation includes a selection operation and an editing operation, the selection operation is an operation of selecting a first twin template in the configuration interface based on the attribute, the function and the connection relation of the first power device, and the editing operation is an operation of editing the first twin template.

Optionally, the second processing unit 403 is specifically configured to:

receiving a first control message sent by a service system, wherein the first control message is used for indicating a first operation to be executed by first electric power equipment;

updating the content of the first digital entity according to the first control message, wherein the updated content of the first digital entity is consistent with the content of the first electric power equipment after the first operation is carried out;

generating a second control message according to the updated content of the first digital entity;

and sending a second control message to the first electric power equipment, wherein the content of the first electric power equipment is consistent with the updated content of the first digital entity after the first electric power equipment processes the second control message.

Optionally, the second processing unit 403 is specifically configured to:

receiving a first control message sent by a service system, wherein the first control message is used for indicating a first operation to be executed by a power system;

according to the first operation, obtaining a second operation corresponding to the first power equipment, wherein the first operation is completed by a plurality of power equipment in the power system together, and the plurality of power equipment comprise the first power equipment;

updating the content of the first digital entity according to the first control message, wherein the updated content of the first digital entity is consistent with the content of the first power equipment after the second operation is carried out;

generating a second control message according to the updated content of the first digital entity;

and sending a second control message to the first electric power equipment, wherein the content of the first electric power equipment is consistent with the updated content of the first digital entity after the first electric power equipment processes the second control message.

Optionally, the second processing unit 403 is specifically configured to:

receiving a first request message sent by a service system, wherein the first request message is used for indicating to collect the content of first electric power equipment;

obtaining the content of the first digital entity according to the first request message;

generating a first response message according to the content of the first digital entity, wherein the first response message comprises the content of the first digital entity;

and sending a first response message to the service system.

Optionally, the second processing unit 403 is specifically configured to:

receiving the content of the first power equipment sent by the first power equipment;

and updating the content of the first digital entity according to the content of the first electric power equipment.

An embodiment of the present application further provides an apparatus 500 for managing an electrical device, as shown in fig. 5, the apparatus 500 includes a memory 501 and a processor 502:

the memory 501 is used for storing computer programs;

the processor 502 is configured to execute the method provided in fig. 1 or fig. 2 described above according to a computer program.

As can be seen from the above description of the embodiments, those skilled in the art can clearly understand that all or part of the steps in the method of the above embodiments may be implemented by software plus a general hardware platform. Based on such understanding, the technical solution of the present application may be embodied in the form of a software product, which may be stored in a storage medium, such as a read-only memory (ROM)/RAM, a magnetic disk, an optical disk, etc., and includes several instructions for enabling a computer device (which may be a personal computer, a server, or a network communication device such as a router, etc.) to execute the method according to the embodiments or some parts of the embodiments of the present application.

All the embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from other embodiments. In particular, for the apparatus embodiment, since it is substantially similar to the method embodiment, it is relatively simple to describe, and reference may be made to some descriptions of the method embodiment for relevant points. The above-described embodiments of the apparatus are merely illustrative, and the modules described as separate parts may or may not be physically separate, and the parts displayed as modules may or may not be physical modules, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the goal of the solution of the embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.

The above description is only an exemplary embodiment of the present application, and is not intended to limit the scope of the present application.

Claims (12)

1. A method of managing a power device, applied to a digital twin engine, comprising:

receiving an access request of a first electrical device, the access request requesting deployment of the first electrical device into an electrical power system;

creating a first digital entity for the first power device, the first digital entity corresponding to the first power device in the digital twin engine;

managing the first power device based on the first digital entity, the interaction of the first power device with a business system being enabled by the first digital entity on the digital twin engine.

2. The method of claim 1, wherein creating the first digital entity of the first power device comprises:

providing a configuration interface to the first power device through a visual interface provided by the digital twin engine;

and responding to the configuration operation of the configuration interface to obtain the first digital entity.

3. The method of claim 2, wherein the configuration operation comprises a selection operation and an editing operation, the selection operation is an operation of selecting a first twin template in the configuration interface based on a property, a function, and a connection relationship of the first power device, and the editing operation is an operation of editing the first twin template.

4. The method of claim 1, wherein managing the first power device based on the first digital entity comprises:

receiving a first control message sent by the service system, wherein the first control message is used for indicating a first operation to be executed by the first power equipment;

updating the content of the first digital entity according to the first control message, wherein the updated content of the first digital entity is consistent with the content of the first electric power equipment after the first operation is carried out;

generating a second control message according to the updated content of the first digital entity;

and sending the second control message to the first electric power equipment, wherein the content of the first electric power equipment after the first electric power equipment processes the second control message is consistent with the updated content of the first digital entity.

5. The method of claim 1, wherein managing the first power device based on the first digital entity comprises:

receiving a first control message sent by the service system, wherein the first control message is used for indicating a first operation to be executed by the power system;

according to the first operation, obtaining a second operation corresponding to the first power device, wherein a plurality of power devices in the power system jointly complete the first operation, and the plurality of power devices comprise the first power device;

updating the content of the first digital entity according to the first control message, wherein the updated content of the first digital entity is consistent with the content of the first power equipment after the second operation is carried out;

generating a second control message according to the updated content of the first digital entity;

and sending the second control message to the first electric power equipment, wherein the content of the first electric power equipment after the first electric power equipment processes the second control message is consistent with the updated content of the first digital entity.

6. The method of claim 1, wherein managing the first power device based on the first digital entity comprises:

receiving a first request message sent by the service system, wherein the first request message is used for indicating to collect the content of the first power equipment;

obtaining the content of the first digital entity according to the first request message;

generating a first response message according to the content of the first digital entity, wherein the first response message comprises the content of the first digital entity;

and sending the first response message to the service system.

7. The method of claim 1, wherein managing the first power device based on the first digital entity comprises:

receiving the content of the first electric power equipment sent by the first electric power equipment;

and updating the content of the first digital entity according to the content of the first electric power equipment.

8. The method of any of claims 1-7, wherein the digital twin engine comprises a digital topology of the power system, wherein nodes in the digital topology represent power devices in the power system, and wherein connections between nodes in the digital topology represent connections between power devices in the power system.

9. The method according to any of claims 1-7, wherein the electrical equipment comprises an electrical terminal and/or an electrical meter.

10. An apparatus for managing electrical devices, the apparatus comprising:

a first receiving unit configured to receive an access request of a first electrical device, the access request requesting deployment of the first electrical device into an electrical power system;

a first processing unit to create a first digital entity of the first power device, the first digital entity corresponding to the first power device in the digital twin engine;

a second processing unit to manage the first power device based on the first digital entity, the interaction of the first power device with a business system being achieved through the first digital entity on the digital twin engine.

11. An apparatus for managing electric terminals and meters, characterized in that it comprises a memory and a processor for executing a program stored in said memory, for carrying out the method according to any one of claims 1 to 9.

12. A computer-readable storage medium, characterized in that the computer-readable storage medium is used to store a computer program for performing the method of any of claims 1-9.

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