CN113452732A - Power Internet of things network management system and method - Google Patents

Abstract

The invention discloses a power Internet of things network management system, which comprises: the system comprises a routing platform management module, an Internet of things protocol management module and a TCP protocol management module; the routing platform management module is connected with the Internet of things equipment and the non-Internet of things equipment through the Internet of things protocol management module and the TCP protocol management module respectively; and the Internet of things equipment and the non-Internet of things equipment exchange data with the outside through the routing platform management module. Also discloses a power Internet of things network management method. The Internet of things equipment and the common equipment are respectively connected through the routing platform management module, the Internet of things protocol management module and the TCP protocol management module, so that the electric power Internet of things can be compatible with most electric power communication equipment which communicates with a master station system in a TCP mode, the existing electric power communication equipment can be allowed to be gradually upgraded, the cost pressure and the engineering period pressure brought to the Internet of things equipment due to one-time upgrading are avoided, and the reliability and the stability of the construction of the electric power Internet of things are improved.

Description

Power Internet of things network management system and method

Technical Field

The invention relates to the technical field of power equipment management, in particular to a power Internet of things management system and method.

Background

At present, most of electric power communication equipment communicates with a master station system based on a traditional TCP mode, and due to the fact that the equipment quantity is large, an existing service system is complex, upgrading or replacement of the equipment into Internet of things protocol equipment cannot be achieved in a short time.

With the push construction of the ubiquitous power internet of things, internet of things protocol equipment and traditional TCP protocol equipment can exist in a mixed mode within a certain time. The Internet of things protocol has the important characteristics that communication links are not concerned, and data transmission is managed through Internet of things agents; and a point-to-point Socket channel needs to be created based on the TCP protocol, and data reception and transmission are completed based on a channel corresponding to the device. Therefore, how to build an access scheme capable of meeting the Internet of things protocol and the TCP protocol at the same time is researched, uniform access management of multi-channel type equipment is realized, and the method has guiding reference significance for practical development and application.

Disclosure of Invention

The embodiment of the invention aims to provide an electric power internet of things network management system, which is characterized in that a routing platform management module, an internet of things protocol management module and a TCP protocol management module are respectively connected with internet of things equipment and common equipment, so that most electric power communication equipment which adopts a TCP mode to communicate with a master station system can be considered in the construction process of an electric power internet of things, the compatibility of the electric power internet of things is improved, the existing electric power communication equipment can be allowed to be gradually upgraded, the cost pressure and the engineering period pressure brought to the internet of things equipment by one-time upgrading are avoided, and the reliability and the stability of the construction of the electric power internet of things are improved.

In order to solve the above technical problem, a first aspect of an embodiment of the present invention provides an electric power internet of things network management system, including: the method comprises the following steps: the system comprises a routing platform management module, an Internet of things protocol management module and a TCP protocol management module;

the routing platform management module is connected with a plurality of Internet of things devices and a plurality of non-Internet of things devices through the Internet of things protocol management module and the TCP protocol management module respectively;

and the Internet of things equipment and the non-Internet of things equipment exchange data with the outside through the routing platform management module.

Further, the internet of things protocol management module comprises:

the proxy service unit is used for accessing the Internet of things equipment;

the subscription management unit is used for receiving information sent by the Internet of things equipment;

the first data processing unit is used for realizing the binding of the Internet of things agent and the Internet of things equipment and carrying out off-line judgment on the Internet of things equipment;

and the first synchronous interface unit is used for realizing the synchronization of the Internet of things equipment, the connecting channel thereof and the corresponding information of the Internet of things agent with the routing platform management module.

Further, the first data processing unit includes:

the information storage subunit is used for storing the equipment number and the channel type of the Internet of things equipment and the corresponding Internet of things agent information;

the first information pushing subunit is used for sending an update message to the routing platform management module when the local cache contains the device information of the internet of things device;

the second information pushing subunit is configured to send, when the local cache does not contain the device information of the internet of things device, the device information of the internet of things device to the routing platform management module;

and the third information pushing subunit is used for sending the offline information of the internet of things equipment to the routing platform management module when the equipment information of the internet of things equipment is not received within the preset time.

Further, the TCP protocol management module includes:

the multiplex Socket service unit is used for building multiplex Socket service based on Epoll;

the second data processing unit is used for registering and communicating and issuing the non-Internet of things equipment;

the timing task management unit is used for judging the effectiveness of the link of the non-Internet-of-things equipment;

and the second synchronous interface unit is used for realizing the synchronization of the information of the non-Internet-of-things equipment and the connecting channel thereof with the routing platform management module.

Further, the second data processing unit includes:

the message judging subunit is used for judging the legality of the received message according to a preset protocol library and matching the protocol type;

a service type judging subunit, configured to judge a service type according to the protocol type;

the link binding subunit is used for binding the communication link according to the equipment number in the message to realize the mutual inquiry of the equipment number and the channel information;

and the data forwarding subunit is configured to forward the data forwarded by the routing platform management module to the non-internet-of-things device through a designated channel, and forward the data returned by the non-internet-of-things device to the routing platform management module.

Further, the routing platform management module comprises:

the communication service access unit is used for recording the accessed Internet of things equipment and the accessed non-Internet of things equipment;

the service request unit is used for sending the TCP protocol format data to the TCP protocol management module and sending the Internet of things protocol data to the Internet of things protocol management module;

and the link monitoring unit is used for detecting the link of the Internet of things equipment and the link of the non-Internet of things equipment and counting the online information of the equipment.

Further, the communication service access unit includes:

the device channel model subunit is used for storing a device number, a channel type, an Internet of things agent, a communication link and/or login time;

and the routing synchronization interface subunit is used for receiving the equipment channel information sent by the internet of things protocol management module and the TCP protocol management module and storing the equipment channel information into a cache queue.

Further, the service request unit includes:

the business interception service subunit is used for receiving an external request;

the received data analysis subunit is used for defining a JSON request format, realizing the unified definition of equipment service operation and acquiring an equipment number and an equipment type in JSON request information;

and the communication link forwarding subunit is configured to search the device channel information according to the device number, send the data to the internet of things protocol management module for forwarding if the device is the internet of things device, and send the data to the TCP protocol management module for forwarding if the device is the non-internet of things device.

A first aspect of an embodiment of the present invention provides an electric power internet of things network management method, which is used for controlling any one of the electric power internet of things network management systems, and includes the following steps:

the construct networking protocol and the TCP protocol are accessed to the communication service, and the unified recording of the equipment information is realized;

an application service request interface is constructed, TCP protocol data are sent to a TCP protocol management module, and Internet of things protocol data are sent to the Internet of things protocol management module;

and constructing a link online monitoring function of the non-Internet of things equipment and the Internet of things equipment, and counting equipment online information.

Further, the unified recording of the device information achieved by the construct networking protocol and the TCP protocol access communication service includes:

creating a server interception based on a TCP protocol;

defining an equipment channel object, which comprises an equipment number, a channel type, a service type, an Internet of things agent, a communication link, a synchronization module number and/or login time;

defining a socket channel access management method, and completing return data processing in an asynchronous receiving mode;

defining a forwarding rule of the Internet of things protocol management module, and acquiring a device address, a service module address and a service type in received JSON request information;

defining the TCP protocol management module forwarding rule;

and receiving the equipment synchronization information sent by the Internet of things protocol management module or the TCP protocol management module.

Further, the constructing an application service request interface includes:

building an application service end for interception, designating a communication protocol type supported by the service end, and receiving a connection request of a service client;

receiving the service client registration event;

receiving service data transmitted by the service client, analyzing the service data according to a preset protocol, acquiring a device number in the protocol data, and searching channel information corresponding to the device;

and calling a preset protocol library for analysis according to the equipment information forwarded by the TCP protocol management module or the IOT protocol management module, searching the corresponding service client information according to the address of a service module, and completing data forwarding responded by the equipment.

Further, the constructing a link online monitoring function of the non-internet-of-things device and the internet-of-things device and counting device online information includes:

creating a timing processing thread;

and regularly pushing equipment channel information to the TCP protocol management module or the Internet of things protocol management module.

The technical scheme of the embodiment of the invention has the following beneficial technical effects:

the Internet of things equipment and the common equipment are respectively connected through the routing platform management module, the Internet of things protocol management module and the TCP protocol management module, so that most of electric power communication equipment which adopts a TCP mode to communicate with a master station system can be considered in the construction process of the electric power Internet of things, the compatibility of the electric power Internet of things is improved, the existing electric power communication equipment can be allowed to be gradually upgraded, the cost pressure and the engineering period pressure brought to the Internet of things equipment by one-time upgrading are avoided, and the reliability and the stability of the construction of the electric power Internet of things are improved.

Drawings

Fig. 1 is a functional architecture diagram of a power internet of things network management system provided by an embodiment of the invention;

fig. 2 is an access flow chart of an internet of things protocol management module according to an embodiment of the present invention;

fig. 3 is a flowchart of TCP protocol management module access provided by an embodiment of the present invention;

fig. 4 is a functional architecture diagram of a routing platform management module according to an embodiment of the present invention;

fig. 5 is a flowchart of a power internet of things network management method provided by the embodiment of the invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be understood that the description is intended to be exemplary only, and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

Fig. 1 is a functional architecture diagram of a power internet of things network management system according to an embodiment of the present invention.

Referring to fig. 1, a first aspect of the embodiments of the present invention provides an electric power internet of things network management system, including: the system comprises a routing platform management module, an Internet of things protocol management module and a TCP protocol management module; the routing platform management module is connected with the Internet of things equipment and the non-Internet of things equipment through the Internet of things protocol management module and the TCP protocol management module respectively; and the Internet of things equipment and the non-Internet of things equipment exchange data with the outside through the routing platform management module.

According to the technical scheme, the Internet of things equipment and the common equipment are respectively connected through the routing platform management module, the Internet of things protocol management module and the TCP protocol management module, so that the electric power Internet of things can take into account most electric power communication equipment which adopts a TCP mode to communicate with a main station system in the construction process, the compatibility of the electric power Internet of things is improved, the existing electric power communication equipment can be allowed to be gradually upgraded, the cost pressure and the engineering period pressure brought to the Internet of things equipment by one-time upgrading are avoided, and the reliability and the stability of the construction of the electric power Internet of things are improved.

Fig. 2 is an access flow chart of an internet of things protocol management module according to an embodiment of the present invention.

Optionally, referring to fig. 2, the internet of things protocol management module includes: the device comprises an agent service unit, a subscription management unit, a first data processing unit and a first synchronous interface unit. The proxy service unit is used for accessing the Internet of things equipment. The subscription management unit is used for receiving information sent by the Internet of things equipment. The first data processing unit is used for binding the Internet of things agent and the Internet of things equipment and performing off-line judgment on the Internet of things equipment. And the first synchronous interface unit is used for realizing the synchronization of the Internet of things equipment, the connecting channel thereof and the information of the corresponding Internet of things agent with the routing platform management module.

Specifically, the first data processing unit includes: the system comprises an information storage subunit, a first information pushing subunit, a second information pushing subunit and a third information pushing subunit. The information storage subunit is used for storing the equipment number, the channel type and the agent information of the Internet of things. The first information pushing subunit is used for sending an update message to the routing platform management module when the local cache contains the device information of the internet of things device. The second information pushing subunit is used for sending the device information of the internet of things device to the routing platform management module when the local cache does not contain the device information of the internet of things device. The third information pushing subunit is used for sending the offline information of the internet of things equipment to the routing platform management module when the equipment information of the internet of things equipment is not received within the preset time.

The first data processing unit can create a theme based on a wildcard mode and receive the information uploaded by the equipment; the device address and the service type can be acquired according to the received device data information or the received theme information: whether the device address is registered or not can be judged, if not, the device address is stored in a local cache, and meanwhile, the device information is pushed to a routing platform management module: the method can detect and judge whether the equipment is off-line or not at regular time according to the last communication time of the equipment, and if the equipment is off-line, the equipment information is pushed to the routing platform management module.

Fig. 3 is a flowchart of TCP protocol management module access provided by an embodiment of the present invention.

Optionally, referring to fig. 3, the TCP protocol management module includes: the system comprises a multiplexing Socket service unit, a second data processing unit, a timing task management unit and a second synchronous interface unit. The multiplex Socket service unit is used for building multiplex Socket service based on Epoll; the second data processing unit is used for registering and communicating and issuing non-Internet-of-things equipment; the timing task management unit is used for judging the effectiveness of the link of the non-Internet-of-things equipment; and the second synchronous interface unit is used for realizing the synchronization of the information of the non-Internet-of-things equipment and the connecting channel thereof with the routing platform management module.

Specifically, the second data processing unit includes: the system comprises a message judging subunit, a service type judging subunit, a link binding subunit and a data forwarding subunit. The message judging subunit is used for judging the legality of the received message according to a preset protocol library and matching the protocol type; the service type judging subunit is used for judging the service type according to the protocol type; the link binding subunit is used for binding the communication link according to the equipment number in the message to realize the mutual inquiry of the equipment number and the channel information; the data forwarding subunit is configured to forward the data forwarded by the routing platform management module to the non-internet-of-things device through the designated channel, and forward the data returned by the non-internet-of-things device to the routing platform management module.

The second data processing unit can receive the connection of the equipment socket, mark the unregistered state of the socket channel and add the unregistered channel list; the method can receive the equipment data transmitted by the socket channel, and caches the equipment data in the variable corresponding to the channel so as to ensure that multi-frame data processing can be carried out: the protocol library registered by the TCP protocol interface service can be called, and the protocol is matched and judged: the specific protocol message can be analyzed, the equipment information and the service type in the message are obtained, and whether an automatic response message is generated or not is judged; if the channel is the channel which is not registered, the channel is removed from the unregistered channel. If the message is a service response message, sending data to a routing platform management module: if the data is sent to the equipment, the channel information corresponding to the equipment is searched, and if the channel information exists, the request is sent: and judging the unregistered channel at regular time, and removing the unregistered channel within the specified time.

Fig. 4 is a functional architecture diagram of a routing platform management module according to an embodiment of the present invention.

Optionally, referring to fig. 4, the routing platform management module includes: the system comprises a communication service access unit, a service request unit and a link monitoring unit. The communication service access unit is used for recording accessed Internet of things equipment and accessed non-Internet of things equipment; the service request unit is used for sending the TCP protocol format data to the TCP protocol management module and sending the Internet of things protocol data to the Internet of things protocol management module; the link monitoring unit is used for detecting the link of the Internet of things equipment and the link of the non-Internet of things equipment and counting the online information of the equipment.

Specifically, the communication service access unit includes: a device channel model subunit and a route synchronization interface subunit. The device channel model subunit is used for storing a device number, a channel type, an internet of things proxy, a communication link and/or login time; the routing synchronization interface subunit is used for receiving the device channel information sent by the internet of things protocol management module and the TCP protocol management module, and storing the device channel information into the cache queue.

Specifically, the service request unit includes: the system comprises a service interception service subunit, a received data analysis subunit and a communication link forwarding subunit. The business interception service subunit is used for receiving an external request; the received data analysis subunit is used for defining a JSON request format, realizing the unified definition of equipment service operation and acquiring an equipment number and an equipment type in JSON request information; the communication link forwarding subunit is used for searching the device channel information according to the device number, sending the data to the internet of things protocol management module for forwarding if the device is an internet of things device, and sending the data to the TCP protocol management module for forwarding if the device is a non-internet of things device.

Fig. 5 is a flowchart of a power internet of things network management method provided by the embodiment of the invention.

Referring to fig. 5, a second aspect of the embodiment of the present invention provides a power internet of things network management method for controlling any one of the power internet of things network management systems, including the following steps:

s100, the building networking protocol and the TCP protocol access communication service, and unified recording of equipment information is achieved.

Under the condition that the quantity of equipment needing to be accessed is large, a plurality of internet of things protocol management modules and TCP protocol management modules can be deployed to support large-scale equipment quantity access, and each module needs to be connected with a route management platform to synchronize equipment information.

Specifically, step S100 specifically includes the following steps:

s110, adopting the technology of completing the port, and creating the server interception based on the TCP protocol. The management of the thread pool is provided in the completion port, the overhead of repeatedly creating the threads can be avoided, the number of the threads can be flexibly determined according to the number of CPUs (central processing units), and the thread scheduling times can be reduced, so that the performance is improved. And the IOCP model is adopted under Windows, and the Epoll model is adopted under Linux to complete the technical framework construction.

And S120, defining an equipment channel object, wherein the equipment channel object comprises an equipment number, a channel type, a service type, an Internet of things agent (aiming at the Internet of things), a communication link (aiming at TCP), a synchronization module number and/or login time. The related operation method comprises the following steps: adding a device channel, removing the device channel, searching the device channel, acquiring the number of the channels and emptying channel information.

S130, defining a socket channel access management method, and completing return data processing in an asynchronous receiving mode. The related operation method comprises the following steps: the protocol management module is connected with the event, and the protocol management module is registered and managed and is disconnected from the event processing.

S140, defining a forwarding rule of the Internet of things protocol management module, and acquiring the device address, the service module address and the service type in the received JSON request information. If the address of the service module is not 0, the data is data responding to a specific service request, whether channel information of the address of the service module exists is searched, and if the channel information does not exist, the data is considered to be data needing to be forwarded to a routing management platform; if the address of the service module is 0, the service type is that the equipment actively sends information, and the information is forwarded to the data processing module.

S150, defining a TCP protocol management module forwarding rule. Firstly, acquiring a service module address in an equipment message, if the service module address is not 0, indicating that the service module address is data responding to a specific service request, searching whether channel information of the service module address exists, and if the channel information does not exist, determining that the data needs to be forwarded to a routing management platform; if the address of the service module is 0, the service type is that the equipment actively sends information, and the information is forwarded to the data processing module.

And S160, receiving the equipment synchronization information sent by the Internet of things protocol management module or the TCP protocol management module, and finishing the relevant service processing. The related operation method comprises the following steps: receiving event trigger, judging data validity, analyzing data content, calling an equipment channel object according to the uploaded equipment information and finishing equipment channel information caching.

S200, an application service request interface is constructed, TCP protocol data are sent to a TCP protocol management module, and Internet of things protocol data are sent to the Internet of things management module.

Specifically, step S200 includes the following steps:

s210, building application service end interception, appointing a communication protocol type supported by the service end, and receiving a connection request of a service client. The related operation method comprises the following steps: the method comprises the steps of server side creation, loading of a protocol library, client side connection events, client side receiving events and client side disconnection events.

S220, receiving a service client registration event. And analyzing the received service request, and binding and managing the client address, the protocol type and the channel information.

And S230, receiving the service data transmitted by the service client, analyzing the service data according to a preset protocol, acquiring the equipment number in the protocol data, and searching channel information corresponding to the equipment. If the equipment is the Internet of things equipment, sending an Internet of things protocol management module; and if the equipment is TCP equipment, sending the equipment to a TCP protocol management module.

And S240, calling a preset protocol library for analysis according to the equipment information forwarded by the TCP protocol management module or the IOT protocol management module, searching corresponding service client information according to the service module address, and completing data forwarding responded by the equipment.

S300, constructing a link online monitoring function of the non-Internet of things equipment and the Internet of things equipment, and counting equipment online information.

Specifically, step S300 includes the following steps:

s310, a timing processing thread is created.

And S320, regularly pushing equipment channel information to the TCP protocol management module or the Internet of things protocol management module, wherein the equipment channel information comprises an equipment number, an online state, login time and offline time.

The embodiment of the invention aims to protect a power Internet of things management system and a method, and has the following effects:

the Internet of things equipment and the common equipment are respectively connected through the routing platform management module, the Internet of things protocol management module and the TCP protocol management module, so that most of electric power communication equipment which adopts a TCP mode to communicate with a master station system can be considered in the construction process of the electric power Internet of things, the compatibility of the electric power Internet of things is improved, the existing electric power communication equipment can be allowed to be gradually upgraded, the cost pressure and the engineering period pressure brought to the Internet of things equipment by one-time upgrading are avoided, and the reliability and the stability of the construction of the electric power Internet of things are improved.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims (12)

1. The utility model provides a power thing networking network management system which characterized in that includes: the system comprises a routing platform management module, an Internet of things protocol management module and a TCP protocol management module;

the routing platform management module is connected with a plurality of Internet of things devices and a plurality of non-Internet of things devices through the Internet of things protocol management module and the TCP protocol management module respectively;

and the Internet of things equipment and the non-Internet of things equipment exchange data with the outside through the routing platform management module.

2. The power internet of things network management system according to claim 1, wherein the internet of things protocol management module comprises:

the proxy service unit is used for accessing the Internet of things equipment;

the subscription management unit is used for receiving information sent by the Internet of things equipment;

the first data processing unit is used for realizing the binding of the Internet of things agent and the Internet of things equipment and carrying out off-line judgment on the Internet of things equipment;

and the first synchronous interface unit is used for realizing the synchronization of the Internet of things equipment, the connecting channel thereof and the corresponding information of the Internet of things agent with the routing platform management module.

3. The power internet of things network management system of claim 2, wherein the first data processing unit comprises:

the information storage subunit is used for storing the equipment number and the channel type of the Internet of things equipment and the corresponding Internet of things agent information;

the first information pushing subunit is used for sending an update message to the routing platform management module when the local cache contains the device information of the internet of things device;

the second information pushing subunit is configured to send, when the local cache does not contain the device information of the internet of things device, the device information of the internet of things device to the routing platform management module;

and the third information pushing subunit is used for sending the offline information of the internet of things equipment to the routing platform management module when the equipment information of the internet of things equipment is not received within the preset time.

4. The power internet of things network management system according to claim 1, wherein the TCP protocol management module comprises:

the multiplex Socket service unit is used for building multiplex Socket service based on Epoll;

the second data processing unit is used for registering and communicating and issuing the non-Internet of things equipment;

the timing task management unit is used for judging the effectiveness of the link of the non-Internet-of-things equipment;

and the second synchronous interface unit is used for realizing the synchronization of the information of the non-Internet-of-things equipment and the connecting channel thereof with the routing platform management module.

5. The power internet of things network management system of claim 4, wherein the second data processing unit comprises:

the message judging subunit is used for judging the legality of the received message according to a preset protocol library and matching the protocol type;

a service type judging subunit, configured to judge a service type according to the protocol type;

the link binding subunit is used for binding the communication link according to the equipment number in the message to realize the mutual inquiry of the equipment number and the channel information;

and the data forwarding subunit is configured to forward the data forwarded by the routing platform management module to the non-internet-of-things device through a designated channel, and forward the data returned by the non-internet-of-things device to the routing platform management module.

6. The power internet of things network management system of claim 1, wherein the routing platform management module comprises:

the communication service access unit is used for recording the accessed Internet of things equipment and the accessed non-Internet of things equipment;

the service request unit is used for sending the TCP protocol format data to the TCP protocol management module and sending the Internet of things protocol data to the Internet of things protocol management module;

and the link monitoring unit is used for detecting the link of the Internet of things equipment and the link of the non-Internet of things equipment and counting the online information of the equipment.

7. The power internet of things network management system according to claim 6, wherein the communication service access unit comprises:

the device channel model subunit is used for storing a device number, a channel type, an Internet of things agent, a communication link and/or login time;

and the routing synchronization interface subunit is used for receiving the equipment channel information sent by the internet of things protocol management module and the TCP protocol management module and storing the equipment channel information into a cache queue.

8. The power internet of things network management system according to claim 6, wherein the service request unit comprises:

the business interception service subunit is used for receiving an external request;

the received data analysis subunit is used for defining a JSON request format, realizing the unified definition of equipment service operation and acquiring an equipment number and an equipment type in JSON request information;

and the communication link forwarding subunit is configured to search the device channel information according to the device number, send the data to the internet of things protocol management module for forwarding if the device is the internet of things device, and send the data to the TCP protocol management module for forwarding if the device is the non-internet of things device.

9. A power internet of things network management method for controlling the power internet of things network management system of any one of claims 1 to 8, comprising the steps of:

the construct networking protocol and the TCP protocol are accessed to the communication service, and the unified recording of the equipment information is realized;

an application service request interface is constructed, TCP protocol data are sent to a TCP protocol management module, and Internet of things protocol data are sent to the Internet of things protocol management module;

and constructing the non-Internet of things equipment and a link online monitoring function of the Internet of things equipment, and counting equipment online information.

10. The power internet of things network management method according to claim 9, wherein the unified recording of the construct networking protocol and the TCP protocol access communication service implementation device information comprises:

creating a server interception based on a TCP protocol;

defining an equipment channel object, which comprises an equipment number, a channel type, a service type, an Internet of things agent, a communication link, a synchronization module number and/or login time;

defining a socket channel access management method, and completing return data processing in an asynchronous receiving mode;

defining a forwarding rule of the Internet of things protocol management module, and acquiring a device address, a service module address and a service type in received JSON request information;

defining the TCP protocol management module forwarding rule;

and receiving the equipment synchronization information sent by the Internet of things protocol management module or the TCP protocol management module.

11. The power internet of things network management method according to claim 9, wherein the constructing an application service request interface comprises:

building an application service end for interception, designating a communication protocol type supported by the service end, and receiving a connection request of a service client;

receiving the service client registration event;

receiving service data transmitted by the service client, analyzing the service data according to a preset protocol, acquiring a device number in the protocol data, and searching channel information corresponding to the device;

and calling a preset protocol library for analysis according to the equipment information forwarded by the TCP protocol management module or the IOT protocol management module, searching the corresponding service client information according to the address of a service module, and completing data forwarding responded by the equipment.

12. The power internet of things network management method according to claim 9, wherein the constructing of the device link online monitoring function completes device online information statistics, and comprises:

creating a timing processing thread;

and regularly pushing equipment channel information to the TCP protocol management module or the Internet of things protocol management module.

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