CN111953771A - Power distribution Internet of things management system - Google Patents

Abstract

The invention discloses a power distribution Internet of things management system which comprises an Internet of things gateway module, an equipment twin module and a task management module, wherein the equipment twin module is respectively connected with the task management module and the Internet of things gateway module; the task management module is used for issuing a task instruction for updating the working state information of the power distribution terminal equipment to the equipment twin module, the equipment twin module sends the received task instruction to the corresponding power distribution terminal equipment, the internet of things gateway module is used for sending the working state information of the power distribution terminal equipment to the equipment twin module, and the equipment twin module is used for virtually mapping the working state information to realize monitoring control of the power distribution terminal equipment. According to the system provided by the invention, complete virtual mapping of the power distribution terminal equipment in the information space of the power distribution Internet of things management system is realized through the equipment twin module, so that power users can perform pre-operation and management on each power distribution terminal equipment in the information space.

Description

Power distribution Internet of things management system

Technical Field

The invention relates to the technical field of safety tool monitoring, in particular to a power distribution internet of things management system.

Background

The power distribution internet of things management system can achieve functions of link management, data processing, equipment management, application management, identification management and the like, and is a premise for supporting the application of the power distribution internet of things. The prior art lacks a power distribution internet of things management system which can realize plug-and-play and convenient and safe management of power distribution terminal equipment in the power distribution internet of things.

Disclosure of Invention

The purpose of the invention is as follows: the utility model provides a can carry out plug and play to the distribution terminal equipment in the distribution thing networking, and carry out the distribution thing networking management system of convenient safety control.

The technical scheme is as follows: the power distribution internet of things management system is used for managing each power distribution terminal device in the power distribution internet of things, each edge agent in the power distribution internet of things is connected with each power distribution terminal device in a one-to-one correspondence mode, and the power distribution internet of things management system is connected with the power distribution terminal devices corresponding to the edge agents through the edge agents; the power distribution internet of things management system is characterized by comprising an internet of things gateway module, an equipment twin module and a task management module;

the task management module is connected with the equipment twin module, and the equipment twin module is connected with the internet of things gateway module; the Internet of things gateway module forms a connecting end connected with each edge agent in the power distribution Internet of things management system;

the device twin module sends the received task instruction to the corresponding power distribution terminal device through the Internet of things gateway module and the corresponding edge agent; the IOT gateway module is used for sending twin retrieval instructions to the equipment twin module and sending the working state information of the power distribution terminal equipment to the equipment twin module, and the equipment twin module is used for virtually mapping the working state information of each power distribution terminal equipment to realize monitoring control of the power distribution terminal equipment.

The power distribution Internet of things management system also comprises an operation monitoring module; the operation monitoring module comprises a system monitoring submodule, an equipment twin monitoring submodule and a task monitoring submodule;

the system monitoring submodule is connected with the Internet of things gateway module and is used for acquiring the working state information of each power distribution terminal device through the Internet of things gateway module and monitoring the working state information of each power distribution terminal device;

the equipment twin monitoring submodule is connected with the equipment twin module and is used for monitoring the synchronous state between the equipment twin module and each power distribution terminal equipment;

the task monitoring submodule is connected with the task management module and is used for monitoring the execution state of the task instruction issued by the task management module.

The Internet of things gateway module comprises a safety authentication submodule and a load balancing submodule;

the safety certification submodule is used for carrying out safety certification on each power distribution terminal device accessed to the power distribution Internet of things management system; the safety certification comprises the certification of the equipment ID number of each power distribution terminal equipment;

the load balancing submodule is used for performing access service balancing control according to the equipment capacity of the power distribution terminal equipment accessed to the power distribution internet of things management system and the information capacity of the access information accessed to the power distribution internet of things management system; the equipment capacity comprises the total number and the concurrent number of the power distribution terminal equipment accessed to the power distribution Internet of things management system; the information capacity comprises the size of data information accessed into the power distribution internet of things management system.

The equipment twinning module comprises an equipment interaction submodule, a twinning management submodule and at least one equipment twinning submodule;

the equipment interaction submodule is used for realizing the interaction of data and information between each power distribution terminal equipment and the equipment twin module;

the number of the equipment twin submodules is the same as that of the power distribution terminal equipment, and the equipment twin submodules correspond to the power distribution terminal equipment one by one;

and the twin management submodule is used for realizing establishment and release of a virtual mapping relation between each power distribution terminal device and the corresponding device twin submodule.

The power distribution internet of things management system further comprises an application store module; and the equipment twin module calls the application from the application store module, distributes the called application to the corresponding equipment twin sub-module, and further performs application installation or update on the corresponding power distribution terminal equipment.

The power distribution internet of things management system also comprises a trace management module; the trace management module comprises an equipment connection submodule, an application installation submodule, an application updating submodule, a task execution submodule and an instruction issuing submodule;

the equipment connection submodule is used for recording connection information among all power distribution terminal equipment accessed into the power distribution Internet of things management system;

the application installation submodule is used for recording application installation information of each power distribution terminal device accessed into the power distribution internet of things management system;

the application updating submodule is used for recording application updating information of each power distribution terminal device accessed into the power distribution internet of things management system;

the task execution submodule is used for recording the execution condition of a task instruction of each power distribution terminal device accessed into the power distribution internet of things management system;

and the instruction issuing submodule is used for recording the task instruction issued by each equipment twin submodule to the corresponding power distribution terminal equipment.

Has the advantages that: compared with the prior art, the power distribution internet of things management system provided by the invention realizes plug and play of each power distribution terminal device accessed into the power distribution internet of things management system in the power distribution internet of things management system through the internet of things gateway; through the equipment twin module, the virtual reality digital twin technology is realized, complete virtual mapping on the power distribution terminal equipment in the information space of the power distribution internet of things management system is realized, and power users can perform pre-operation and management on each power distribution terminal equipment in the information space.

Drawings

Fig. 1 is a functional architecture diagram of a power distribution internet of things management system provided in an embodiment of the present invention.

Detailed Description

The invention is further described below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

Referring to fig. 1, the power distribution internet of things management system provided by the invention comprises an operation monitoring module, an internet of things gateway module, an equipment twin module, a task management module, an application store module, a data routing module, a twin data storage module and a trace management module.

The equipment twin module is in one-way or two-way communication with the operation monitoring module, the internet of things gateway module, the task management module, the application store module, the data routing module, the twin data storage module and the trace management module respectively.

The twin data storage module is in one-way or two-way communication with the data routing module and the trace management module respectively.

The power distribution internet of things management system is used for managing each power distribution terminal device in the power distribution internet of things, each edge agent in the power distribution internet of things is connected with each power distribution terminal device in a one-to-one correspondence mode, the power distribution internet of things management system is connected with each edge agent through an internet of things gateway module in the power distribution internet of things, and is connected with the power distribution terminal device corresponding to each edge agent through each edge agent.

The Internet of things gateway module comprises a safety authentication submodule, a load balancing submodule, a long connection service cluster submodule, a short connection service cluster submodule and a communication management submodule;

the safety authentication sub-module is used for carrying out access safety control on each power distribution terminal device accessed into the power distribution internet of things management system, and comprises the steps of verifying the ID number of each power distribution terminal device and verifying communication encryption and decryption;

the load balancing submodule is used for balancing and controlling access services of each power distribution terminal device, the device capacity of access information and the information capacity in the power distribution Internet of things management system; namely: the load balancing submodule is used for performing access service balancing control according to the equipment capacity of the power distribution terminal equipment accessed to the power distribution internet of things management system and the information capacity of the access information accessed to the power distribution internet of things management system; the equipment capacity comprises the total number and the concurrent number of the power distribution terminal equipment accessed to the power distribution Internet of things management system; the information capacity comprises the size of data information accessed into the power distribution internet of things management system.

The long connection service cluster submodule is used for monitoring and managing a service cluster which needs to be stably connected with the power distribution Internet of things management system for a long time;

the short connection service cluster submodule is used for monitoring and managing a service cluster which does not need to be stably connected with the power distribution Internet of things management system for a long time and only needs short message connection;

and the communication management submodule is used for monitoring and managing the communication of each power distribution terminal device and the edge agent in the power distribution Internet of things management system, and comprises communication frequency, bandwidth and rate configuration.

The equipment monitoring module comprises a system monitoring submodule, an alarm monitoring submodule, a communication monitoring submodule, a task monitoring submodule and an equipment twinning monitoring submodule;

the system monitoring submodule is butted with an Internet of things gateway module and is used for acquiring the running state information of each power distribution terminal device through an Internet of things gateway so as to acquire alarm information and state information, and therefore the running state of each power distribution terminal device in the Internet of things of power distribution is monitored; the system is also used for monitoring the running state of the system, including monitoring the thread, storage and display lamp information used or occupied in the running of the system, and monitoring the task scheduling of the system;

the alarm monitoring submodule is used for displaying various alarm information reported by each power distribution terminal device accessed into the power distribution Internet of things management system;

the communication monitoring submodule is used for monitoring the operation of various communication interfaces and communication modules in the power distribution Internet of things;

the task monitoring submodule is connected with the task management module and is used for monitoring the execution states of various tasks in the power distribution Internet of things, the occupation of task execution resources, the distribution of task resources and the like;

and the equipment twin monitoring submodule is used for monitoring the running conditions such as the consistency, the synchronous state and the like of the equipment twin module and each power distribution terminal equipment.

The equipment twin module comprises an equipment interaction submodule, a twin management submodule and N equipment twin submodules, wherein the N equipment twin submodules are numbered one by one according to 1, 2, 3, … … and N;

the number of the equipment twin submodules is equal to that of the power distribution terminal equipment; and each equipment twin submodule corresponds to each power distribution terminal equipment one to one.

The equipment interaction submodule is used for realizing the interaction of data and information between each power distribution terminal equipment and the corresponding twin submodule;

the twin management submodule is used for realizing the establishment and the release of the mapping association relationship between each power distribution terminal device and each corresponding twin submodule;

and the device twin sub-modules are used for realizing different functions of the virtual twin device, and the N device twin sub-modules form the whole device twin module.

The equipment twin module also comprises a protocol adaptation submodule, a data mapping submodule and an equipment monitoring submodule; and the protocol adaptation submodule performs protocol adaptation analysis according to the equipment working state information sent by the Internet of things gateway module, maps corresponding data through the data mapping module, and further realizes virtual mapping of the working state information of the power distribution terminal equipment through the equipment detection module.

The trace management module comprises an equipment connection submodule, an application installation submodule, an application updating submodule, a task execution submodule, an instruction issuing submodule and a data routing submodule;

the equipment connection submodule is used for recording the connection information of each power distribution equipment terminal accessed into the power distribution Internet of things management system;

the application installation submodule is used for recording application installation information of each power distribution equipment terminal accessed into the power distribution Internet of things management system;

the application updating submodule is used for recording the application updating condition of each power distribution equipment terminal accessed into the power distribution Internet of things management system;

the task execution submodule is used for recording the task execution condition of each power distribution equipment terminal accessed into the power distribution Internet of things management system;

the command issuing submodule is used for recording command issuing information of the power distribution internet of things management system to each managed power distribution equipment terminal;

and the data routing submodule is used for recording network routing information of data communication between each power distribution equipment terminal accessed into the power distribution Internet of things management system and the system.

The twin data storage module comprises a configuration state data submodule, an archive data submodule and an acquisition data temporary storage submodule;

the configuration state data submodule is used for storing various configuration state data of the twin equipment, and the data are consistent with the state data of the real internet of things equipment;

the archive data submodule is used for recording historical information of twin equipment state data;

and the collected data temporary storage sub-module is used for storing the current collected data of the physical equipment mapped by the twin equipment.

The Internet of things gateway sends a data query instruction and a control instruction to the edge equipment and receives configuration data of the equipment sent by each power distribution equipment terminal through the corresponding edge agent;

the IOT gateway module sends a twin retrieval instruction to the equipment twin module; the equipment twin module sends an equipment interaction instruction to the Internet of things gateway module, and the equipment interaction instruction is used for updating the association state of the synchronous twin equipment and each power distribution equipment terminal; the task management module sends the state information of the equipment twin module to the equipment twin module, needs a command for synchronous update with the state of each power distribution equipment terminal, sends a state update command to the equipment twin monitoring submodule and updates the state synchronous information of the equipment twin module and the internet of things equipment;

the equipment twin module acquires the APP from the application store and distributes the APP to the corresponding equipment twin sub-modules;

and the equipment twin module reports data to the data routing module.

The trace management module receives information recording information of the equipment twin module, and records information of physical equipment such as connection, application installation, application updating, task formulation, instruction issuing and the like of each power distribution equipment terminal accessed to the power distribution Internet of things management system;

the trace management module sends information of physical equipment such as connection, application installation, application updating, task formulation, instruction issuing and the like of the equipment to the twin data storage module, and the twin data storage module reports historical data of the equipment twin module recorded by the twin data storage module to the data routing module.

The power distribution internet of things management system also comprises a safety access management module; the safety access management module is mainly combined with the service safety requirements of the cloud, the pipe, the edge and the end of the power distribution internet of things, a power distribution internet of things network safety protection system framework is designed, a unified safety protection scheme and technical management measures are formulated, and the power distribution internet of things construction and technical evolution are comprehensively supported under the condition that the power industry related service application requirements and the safety protection requirements are met.

The safety access management module is based on a cryptographic technology and realizes identity authentication and data protection among 'cloud, management, edge and end' of the power distribution internet of things. And a unified identification system is established, and the full life cycle management of the power distribution Internet of things equipment is realized. And establishing a uniform key system to realize the safe key management of the power distribution internet of things. And a unified monitoring system is established, and the safety monitoring management of the power distribution Internet of things is realized. And defining a safety protection boundary, and strengthening the boundary safety protection of the power distribution Internet of things by adopting protection measures such as physical isolation, logic isolation and the like.

The security access management module mainly relates to the security access of the sensing equipment and the security access of the main station platform.

The secure access of the sensing equipment comprises two parts of identity authentication and key authentication:

identity authentication: the unified identification system is the foundation for the construction of the power distribution internet of things and is the key for realizing the plug and play, interconnection and intercommunication and unified management of the power distribution internet of things equipment. The unified identification system also needs to create conditions for realizing information interaction between cross-systems, cross-platforms and cross-regions, cooperation between heterogeneous systems and information sharing in the future. After all the terminal sensors are accessed to the edge computing gateway, the edge computing gateway performs identity authentication on the terminal sensors, and only the terminal sensors which pass the identity authentication can be accessed.

And (3) key authentication: the uniform key system of the power distribution internet of things is an important component for building the power distribution internet of things, is a safe foundation and is a necessary means for solving the problems of safe access, safe interconnection and intercommunication and perception information privacy protection of the power distribution internet of things equipment. And (4) configuring the app keys of all the sensors at the main station, and acquiring the app keys needing to be accessed into the device by the edge computing gateway. After the terminal sensor is accessed, the edge computing gateway conducts app key authentication on the terminal sensor, and the terminal sensor can be accessed only when the terminal sensor conforms to the authentication.

The power distribution internet of things management system provided by the invention realizes the plug and play technology of equipment through the internet of things gateway. The plug-and-play technology of the equipment comprises asset management and identity authentication of a field unit machine CPS and a system-level CPS, identity authentication and function configuration are carried out when the equipment is connected to the network according to an Internet of things communication protocol, a uniform data acquisition model is defined for different users and different types of field equipment, the full function adaptation of a software definition terminal is supported, network connection automatic configuration access is realized, and plug-and-play is realized.

The power distribution Internet of things management system provided by the invention realizes a high-concurrency connection management technology through the load balancing module in the Internet of things gateway. The high-concurrency connection management technology is responsible for maintaining communication connection management with field million-level CPS equipment, researching data high-throughput data routing service with high availability, high stability and easy expandability, and realizing uplink and downlink data transfer and receiving and distributing data messages among services.

The power distribution internet of things management system provided by the invention realizes a virtual reality digital twin technology through the equipment twin module. The virtual reality digital twin technology is used for realizing the virtual mapping of the on-site physical terminal equipment in an information space. Aiming at massive power distribution terminal equipment accessed and managed by a power internet of things platform, complete virtual mapping is carried out on the power distribution terminal equipment or a system in an information space of a power distribution internet of things management system, so that a power user can pre-operate each power distribution terminal equipment in the information space, performance evaluation of the power distribution terminal equipment is realized, real-time mapping of data sources such as sensors and the like in the virtual space is realized, and accurate and rapid diagnosis and prediction of faults are realized through abnormal data.

The power distribution internet of things management system provided by the invention realizes multi-source data aggregation. The method is characterized in that the method provides real-time monitoring capability of second-level data based on edge calculation and event pushing of field power utilization management equipment, monitors the operation states of local energy Internet of enterprise users and energy Internet of residential user areas, forms field operation memory images of a user side power grid on a platform, and provides real-time operation data for marketing power supply service and power distribution network/power transmission network operation scheduling. Compared with the prior art, the power distribution internet of things management system provided by the invention is additionally provided with functions of application APP management, operation and maintenance monitoring, platform management, scene display and the like on the basis of the existing internet of things management platform, and expands the functions of the existing user management, equipment management, foreground display and the like, the system is designed and researched for various experimental function verification application APPs aiming at the requirements of power distribution network experimental scene function verification, effect evaluation, improvement scheme design and the like, and the requirements of real-time data acquisition, information rapid processing, result accurate evaluation and the like of the experimental terminal equipment by function verification are met by adopting internet of things cloud service and edge cloud synergistic capability; the power distribution internet of things management system provided by the invention also has the functions of application elastic expansion, dynamic resource allocation, system intensive management and the like, and the intelligent management level of power distribution network experiments and function verification is comprehensively improved.

The above description is only a preferred embodiment of the present invention, and it will be apparent to those skilled in the art that various modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be considered as the protection scope of the present invention.

Claims (6)

1. A power distribution Internet of things management system is used for managing each power distribution terminal device in a power distribution Internet of things, each edge agent in the power distribution Internet of things is connected with each power distribution terminal device in a one-to-one correspondence mode, and the power distribution Internet of things management system is connected with the power distribution terminal devices corresponding to the edge agents through the edge agents; the power distribution internet of things management system is characterized by comprising an internet of things gateway module, an equipment twin module and a task management module;

the task management module is connected with the equipment twin module, and the equipment twin module is connected with the internet of things gateway module; the Internet of things gateway module forms a connecting end connected with each edge agent in the power distribution Internet of things management system;

the device twin module sends the received task instruction to the corresponding power distribution terminal device through the Internet of things gateway module and the corresponding edge agent; the IOT gateway module is used for sending twin retrieval instructions to the equipment twin module and sending the working state information of the power distribution terminal equipment to the equipment twin module, and the equipment twin module is used for virtually mapping the working state information of each power distribution terminal equipment to realize monitoring control of the power distribution terminal equipment.

2. The power distribution internet of things management system according to claim 1, further comprising an operation monitoring module; the operation monitoring module comprises a system monitoring submodule, an equipment twin monitoring submodule and a task monitoring submodule;

the system monitoring submodule is connected with the Internet of things gateway module and is used for acquiring the working state information of each power distribution terminal device through the Internet of things gateway module and monitoring the working state information of each power distribution terminal device;

the equipment twin monitoring submodule is connected with the equipment twin module and is used for monitoring the synchronous state between the equipment twin module and each power distribution terminal equipment;

the task monitoring submodule is connected with the task management module and is used for monitoring the execution state of the task instruction issued by the task management module.

3. The power distribution internet of things management system according to claim 1, wherein the internet of things gateway module comprises a security authentication sub-module and a load balancing sub-module;

the safety certification submodule is used for carrying out safety certification on each power distribution terminal device accessed to the power distribution Internet of things management system; the safety certification comprises the certification of the equipment ID number of each power distribution terminal equipment;

the load balancing submodule is used for performing access service balancing control according to the equipment capacity of the power distribution terminal equipment accessed to the power distribution internet of things management system and the information capacity of the access information accessed to the power distribution internet of things management system; the equipment capacity comprises the total number and the concurrent number of the power distribution terminal equipment accessed to the power distribution Internet of things management system; the information capacity comprises the size of data information accessed into the power distribution internet of things management system.

4. The power distribution internet of things management system according to claim 1, wherein the device twinning module comprises a device interaction submodule, a twinning management submodule, and at least one device twinning submodule;

the equipment interaction submodule is used for realizing the interaction of data and information between each power distribution terminal equipment and the equipment twin module;

the number of the equipment twin submodules is the same as that of the power distribution terminal equipment, and the equipment twin submodules correspond to the power distribution terminal equipment one by one;

and the twin management submodule is used for realizing establishment and release of a virtual mapping relation between each power distribution terminal device and the corresponding device twin submodule.

5. The power distribution internet of things management system as claimed in claim 4, further comprising an application store module; and the equipment twin module calls the application from the application store module, distributes the called application to the corresponding equipment twin sub-module, and further performs application installation or update on the corresponding power distribution terminal equipment.

6. The power distribution internet of things management system as claimed in claim 5, further comprising a trace management module; the trace management module comprises an equipment connection submodule, an application installation submodule, an application updating submodule, a task execution submodule and an instruction issuing submodule;

the equipment connection submodule is used for recording connection information among all power distribution terminal equipment accessed into the power distribution Internet of things management system;

the application installation submodule is used for recording application installation information of each power distribution terminal device accessed into the power distribution internet of things management system;

the application updating submodule is used for recording application updating information of each power distribution terminal device accessed into the power distribution internet of things management system;

the task execution submodule is used for recording the execution condition of a task instruction of each power distribution terminal device accessed into the power distribution internet of things management system;

and the instruction issuing submodule is used for recording the task instruction issued by each equipment twin submodule to the corresponding power distribution terminal equipment.

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