CN112165398A - System based on 5G wisdom lamp pole is measurement along separate routes - Google Patents

Abstract

The invention discloses a 5G intelligent lamp pole shunt metering-based system which comprises a server, an Internet of things gateway and intelligent air switch equipment, wherein the Internet of things gateway and the intelligent air switch equipment are installed on each 5G intelligent lamp pole; the intelligent air switch equipment comprises a power module, a main switch, more than one air switch and a communication module which are sequentially connected through a data pin header, and the communication module is connected with the gateway of the Internet of things; each air switch is connected with each loop, and each loop corresponds to one type of equipment. According to the invention, through the electricity utilization shunt metering method, the intelligent air switch device is additionally arranged in the 5G intelligent lamp pole box body, and multiple paths of electricity utilization devices can be freely expanded and connected as required, so that the electricity utilization of the multiple paths of the devices can be independently metered, the internal space of the box body is saved, and the accuracy and the reliability of electricity utilization metering of the multiple paths of the devices are improved.

Description

System based on 5G wisdom lamp pole is measurement along separate routes

Technical Field

The invention relates to the field of intelligent lamp poles, in particular to a branching metering system and method based on a 5G intelligent lamp pole.

Background

Under the national strategic development and the wave of new capital construction, the smart city develops very rapidly, and the smart lamp pole flowers all the time in the country. The wisdom lamp pole is last to be carried multiple equipment if municipal lighting street lamp, 5G basic station, control safety monitoring camera, weather station, fill electric pile, advertising screen etc, however the user attribution of these equipment is different, municipal lighting street lamp belongs to the illumination center, 5G basic station belongs to three big operators, control safety monitoring camera belongs to traffic police's army, the weather station belongs to weather bureau, the electric pile belongs to and fills electric pile operator, the advertising screen belongs to advertisement operator, how the measurement of the power consumption of different equipment, how the management of power consumption has a great deal of problem.

5G basic station, the advertising screen of carry on the lamp pole, fill electric pile's power consumption metering mode, mainly there are following two kinds:

the method comprises the following steps: an electric meter metering method is installed, and the steps are as follows:

1. the method comprises the following steps that engineering personnel install a plurality of small-sized electric meters in a case, and the small-sized electric meters are used for recording the electricity consumption of a 5G base station, the electricity consumption of an advertisement screen and the electricity consumption of a municipal lighting street lamp respectively;

2. a lamp post manager manually or remotely checks the electricity consumption conditions of several kinds of equipment (a 5G base station, an advertisement screen and a charging pile);

3. and comparing the last meter reading data by the lamp post manager to obtain the recent electricity consumption, and ending.

The second method comprises the following steps: equipment quota measuring method

The method adopts an equipment quota metering method, namely, according to the rated power of the electric equipment, the rated power is multiplied by the running time of the electric equipment and the loss coefficient of an electric line, so as to obtain the power consumption of the electric equipment, and the calculation formula is as follows:

rated power x running time x loss factor

Rated power: the power of the equipment in normal operation;

operating time: the normal running time of the equipment in one period;

loss factor: generally, 1.15 ~ 1.20 (depending on the negotiation).

No matter which of the above-mentioned methods is used to measure the used amount, the following problems also exist:

1. the operation cost is high: the method depends on manual meter reading, extensive management, random load increase, nonstandard power consumption, unbalanced load and insufficient intellectualization; the lamp poles are constructed in large quantity, the investment for configuring an independent electric meter for each device is huge, the manual meter reading of a manager is needed, the workload is large, the human resource cost is high, and the automation is insufficient;

2. the box body space is limited: the internal space of the intelligent lamp pole box body is limited, an electric meter cannot be installed without limitation, and too many electric meter devices cannot be installed;

3. difficult operation and maintenance: the intelligent lamp posts are large in number, scattered in position, long in distance, multiple in equipment model, few in professional personnel and high in operation and maintenance pressure, once a power failure occurs, the power failure cannot be processed in time, a failure positioning function is omitted, and after the failure occurs, the maintenance difficulty is high;

4. potential safety hazard: no professional personnel and professional equipment are used for carrying out periodic inspection and detection on the potential safety hazards of the lines, monitoring the power utilization condition of each circuit is not carried out, and early warning on electric fires cannot be achieved.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide a 5G intelligent lamp pole shunt metering-based system, intelligent air-break equipment is installed in a box body of the intelligent lamp pole, each loop of the intelligent air-break corresponds to one type of equipment (such as a 5G base station, an advertisement screen and a charging pile which correspond to 1, 2 and 3 loops of the intelligent air-break respectively), and the intelligent air-break system is in butt joint with a 5G intelligent lamp pole management platform, so that the opening and closing of each loop can be controlled remotely, the circuit condition of each circuit can be acquired, the ammeter installation space is saved, the electricity utilization accuracy of the shunt metering equipment is improved, and the labor cost and the construction cost are reduced.

The purpose of the invention is realized by the following technical scheme:

a system based on 5G intelligent lamp pole shunt metering comprises a server, and further comprises an Internet of things gateway and intelligent air switch equipment which are installed on each 5G intelligent lamp pole, wherein each intelligent air switch equipment is communicated with a 5G intelligent lamp pole management platform deployed in the server through the corresponding Internet of things gateway;

the intelligent air switch equipment is internet of things equipment arranged inside a 5G intelligent lamp pole box body, and comprises a power supply module, a main switch, more than one air switch and a communication module which are sequentially connected through a data pin header, wherein the communication module is connected with an internet of things gateway; each air switch is connected with each loop, each loop corresponds to one type of equipment, and the equipment comprises a 5G base station, an advertising screen and a charging pile, wherein the 5G base station, the advertising screen and the charging pile are arranged on the 5G intelligent lamp post;

the internet of things gateway is a hardware gateway for managing all internet of things sensing equipment in the lamp pole internal box body.

And the Internet of things gateway is connected with the intelligent air switch equipment through an RS485 port. A circuit 1 of the intelligent air switch device is connected with a 5G base station in an outgoing mode, a circuit 2 is connected with an advertisement screen in an outgoing mode, and a circuit 3 is connected with a charging pile device in an outgoing mode.

5G wisdom lamp pole management platform passes through operator's network and keeps long being connected with thing networking gateway. Simultaneously, the internet of things gateway and the intelligent air switch are communicated through RS485, so that real-time data acquisition and remote control of the intelligent air switch equipment by the 5G intelligent lamp pole management platform are realized.

The 5G intelligent lamp pole management platform adopts an open-source Netty service cluster and is in connection communication with the Internet of things gateway in a long connection mode, and the Internet of things gateway can request the 5G intelligent lamp pole management platform and can also send information to the 5G intelligent lamp pole management platform in real time; simultaneously, 5G wisdom lamp pole management platform can request the thing networking gateway, also can send information to the thing networking gateway in real time.

5G wisdom lamp pole management platform is as follows to the real-time data acquisition's of intelligent air switch equipment concrete process:

(1) the gateway of the Internet of things is connected with the intelligent air conditioner through an RS485 interface and then is electrified to be communicated with the network;

(2) the intelligent null switch is provided with a loop address code;

(3) the internet of things gateway is kept in long connection with the 5G intelligent lamp pole management platform through a TCP/IP protocol;

(4) a user inquires the power consumption of equipment in real time through a 5G intelligent lamp pole management platform, inquires the corresponding relation between the equipment and a loop and determines the loop corresponding to the equipment;

(5)5G wisdom lamp pole management platform passes through TCP/IP inquiry thing networking gateway data, and the real-time electric quantity of intelligent air-break circuit is inquired through RS485 inquiry to the thing networking gateway.

5G wisdom lamp pole management platform measures along separate routes concrete step as follows:

(1) the method comprises the steps that the internet of things gateway sets polling time (such as 1 hour), reads electric quantity data of each loop from an intelligent air switch device every 1 hour for storage, and calculates the summary date, the last acquisition time, the last electric quantity, the current acquisition time, the current electric quantity and the power consumption of interval time of each loop of equipment codes;

(2) the internet of things gateway pushes the calculation data to a 5G intelligent lamp pole management platform, and the 5G intelligent lamp pole management platform calculates the power consumption of each device in a time period according to the corresponding relation between the loop and the mounted device;

(3) the user selects to check the equipment power consumption of each time period through the 5G intelligent lamp pole management platform.

5G wisdom lamp pole management platform carries out solitary power on/outage operation to the empty circuit of opening of intelligence, specifically as follows:

(1) a user powers on/off equipment in real time through the 5G intelligent lamp pole management platform, and the 5G intelligent lamp pole management platform inquires the corresponding relation between the equipment and a loop and determines the loop corresponding to the equipment;

(2)5G wisdom lamp pole management platform passes through TCP/IP inquiry thing networking gateway data, and thing networking gateway passes through RS485 and goes up the power-on/cut off to intelligent air-open return circuit power.

The configuration process of the intelligent air switch device is as follows:

(1) configuring an alarm rule form on a 5G intelligent lamp pole management platform, and issuing an alarm rule to intelligent air switch equipment through an Internet of things gateway;

(2) the fault flow is configured on the 5G intelligent lamp pole management platform, automatic circulation of a supporting link is configured in each link (such as application, pre-acceptance, supervisor examination and verification, processing, delayed examination and approval and report and conclusion examination and verification), and elements of the supporting link comprise a transactor, custom operation, routing and events.

The supporting link comprises a plurality of configurable elements, and the elements of the supporting link are fixed.

The intelligent air switch standby alarm reporting automatic processing flow specifically comprises the following steps:

(1) the intelligent air switch equipment gives an alarm when abnormal conditions (such as electric leakage, overvoltage and the like) occur, the alarm is actively pushed to a 5G intelligent lamp pole management platform through an Internet of things gateway, and the platform records the alarm and generates a system work order;

(2) if no work order is generated in the 5G intelligent lamp pole management platform, automatically generating the work order according to the configured flow and transferring to a pre-acceptance link, and if the work order is generated, directly ending;

(3) the pre-acceptance link processor receives the work order and can perform distribution, transfer, rollback or termination operation, and if the work order is distributed to the personnel processing of the next link, the work order is transferred to the supervisor auditing link of the third-party operation and maintenance company;

(4) the supervisor audits the link and the processor receives the work order and transfers the work order to the next link, namely the actual processor processes the work order;

(5) in the processing step, a processing person actually processes the work order and then transfers to the next step for processing, at the moment, the intelligent air-traffic equipment self-check is carried out and a normal operation instruction is generated, and the 5G intelligent lamp post management platform receives and modifies the operation state of the equipment;

(6) and in the report and settlement auditing link, the processor audits the work order and completes system archiving, so that the full-flow closed-loop management is released from equipment alarm to automatic work order generation and from work order processing to system alarm state.

Compared with the prior art, the invention has the following advantages and beneficial effects:

1. according to the invention, through the electricity utilization shunt metering method, the intelligent air switch device is additionally arranged in the 5G intelligent lamp pole box body, and multiple paths of electricity utilization devices can be freely expanded and connected as required, so that the electricity utilization of the multiple paths of the devices can be independently metered, the internal space of the box body is saved, and the accuracy and the reliability of electricity utilization metering of the multiple paths of the devices are improved.

2. According to the intelligent lamp pole management platform, remote control, real-time data acquisition, shunt metering, active alarm reporting and automatic operation and maintenance can be performed through the intelligent 5G lamp pole management platform, so that the labor consumption and the construction cost are reduced, and the accuracy of the electricity utilization data of the equipment is improved.

Drawings

Fig. 1 is a circuit diagram of an intelligent air switch device.

Fig. 2 is a flow chart of 5G wisdom lamp pole management platform to intelligent air switch equipment's real-time data acquisition.

Fig. 3 is a flow chart of 5G smart light pole management platform branch metering.

Fig. 4 is a flow chart of a 5G smart light bar management platform performing separate power on/off operations on a 5G base station.

FIG. 5 is a flow chart of a 5G intelligent light pole management platform configuration fault.

Fig. 6 is a flowchart of automatic processing of intelligent air traffic alarm reporting.

Fig. 7 is a network topology diagram based on 5G smart light pole branch metering.

Fig. 8 is a timing diagram of electrical shunt metering data/remote control based on 5G smart light pole real-time acquisition.

Detailed Description

The present invention will be described in further detail with reference to examples and drawings, but the present invention is not limited thereto.

Referring to fig. 7 and 8, a system based on 5G intelligent lamp pole branch metering is mainly realized by the following parts:

firstly, equipment installation: install the thing networking gateway and the empty equipment of opening of intelligence on 5G wisdom lamp pole, the gateway passes through the RS485 mouth and the empty equipment of opening of intelligence is equipped with and links to each other, and the empty 1 line outgoing of return circuit of opening the equipment of intelligence connects 5G basic stations, and 2 line outgoing in return circuit connect the advertising screen, and 3 line outgoing in return circuit connect and fill electric pile equipment.

The intelligent air switch equipment is internet of things equipment arranged inside a 5G intelligent lamp pole box body, and comprises a power supply module, a main switch, more than one air switch and a communication module which are sequentially connected through a data pin header, wherein the communication module is connected with an internet of things gateway; each air switch is connected with each loop, each loop corresponds to one type of equipment, and the equipment comprises a 5G base station, an advertising screen and a charging pile, wherein the 5G base station, the advertising screen and the charging pile are arranged on the 5G intelligent lamp post;

as shown in fig. 1, the intelligent air switch device comprises a power module, a main switch, four air switches and a communication module which are connected sequentially through a data pin header, a plurality of circuits can be expanded, functions of shunt metering, overcurrent protection, short-circuit protection, leakage protection and the like are achieved, and the conventional installation sequence is in a form of the power module + the main switch + the air switch 1+ the air switch 2+ the air switch N + the communication module.

The internet of things gateway is a hardware gateway for managing all internet of things sensing equipment in the lamp pole internal box body.

And the Internet of things gateway is connected with the intelligent air switch equipment through an RS485 port. A circuit 1 of the intelligent air switch device is connected with a 5G base station in an outgoing mode, a circuit 2 is connected with an advertisement screen in an outgoing mode, and a circuit 3 is connected with a charging pile device in an outgoing mode.

II, communication: 5G wisdom lamp pole management platform passes through operator network and keeps long being connected with the gateway, and the gateway is equipped with through RS485 communication with the empty of seting up of intelligence to realize that the platform is to the real-time data acquisition and the remote control of the empty equipment of opening of intelligence.

The 5G intelligent lamp pole management platform is used for acquiring real-time data of the intelligent air switch device by adopting a Netty + RS485 mature technology, the server-side 5G intelligent lamp pole management platform is connected and communicated with the client-side Internet of things gateway in a long connection mode by adopting an open-source Netty service cluster, the client side can request the server side and can also send information to the server side in real time, and meanwhile, the server side can request the client side and can also send information to the client side in real time.

As shown in fig. 2, the specific process of the 5G intelligent lamp pole management platform for acquiring the real-time data of the intelligent air switch device is as follows:

(1) the gateway of the Internet of things is connected with the intelligent air conditioner through an RS485 interface and then is electrified to be communicated with the network;

(2) the intelligent null switch is provided with a loop address code;

(3) the internet of things gateway is kept in long connection with the 5G intelligent lamp pole management platform through a TCP/IP protocol;

(4) a user inquires the power consumption of equipment in real time through a 5G intelligent lamp pole management platform, inquires the corresponding relation between the equipment and a loop and determines the loop corresponding to the equipment;

(5)5G wisdom lamp pole management platform passes through TCP/IP inquiry thing networking gateway data, and the real-time electric quantity of intelligent air-break circuit is inquired through RS485 inquiry to the thing networking gateway.

Thirdly, branch metering: 5G wisdom lamp pole management platform looks over the empty power consumption of seting up each return circuit of current time intelligence through real-time collection, for example return circuit 1's power consumption has just represented the power consumption of 5G basic stations, and return circuit 2's power consumption has just represented the power consumption of advertisement screen, and return circuit 3's power consumption has just represented the power consumption of filling electric pile.

As shown in fig. 3, the specific steps of the branch measurement of the 5G intelligent lamp pole management platform are as follows:

(1) the method comprises the steps that the internet of things gateway sets polling time (such as 1 hour), reads electric quantity data of each loop from an intelligent air switch device every 1 hour for storage, and calculates the summary date, the last acquisition time, the last electric quantity, the current acquisition time, the current electric quantity and the power consumption of interval time of each loop of equipment codes;

(2) the internet of things gateway pushes the calculation data to a 5G intelligent lamp pole management platform, and the 5G intelligent lamp pole management platform calculates the power consumption of each device in a time period according to the corresponding relation between the loop and the mounted device;

(3) the user selects to check the equipment power consumption of each time period through the 5G intelligent lamp pole management platform.

At present wisdom lamp pole user electric quantity statistics, the tradition adopts the manual work mode of checking meter of unpacking, and remote meter reading, real-time data acquisition mode are adopted to this embodiment.

Fourthly, remote control: through 5G wisdom lamp pole management platform, can carry out solitary power on/outage operation to the empty circuit that opens of intelligence to the power on/off of single equipment (like the advertising screen) of control.

5G wisdom lamp pole management platform carries out solitary power on/outage operation to the empty circuit of opening of intelligence, specifically as follows:

(1) a user powers on/off equipment in real time through the 5G intelligent lamp pole management platform, and the 5G intelligent lamp pole management platform inquires the corresponding relation between the equipment and a loop and determines the loop corresponding to the equipment;

(2)5G wisdom lamp pole management platform passes through TCP/IP inquiry thing networking gateway data, and thing networking gateway passes through RS485 and goes up the power-on/cut off to intelligent air-open return circuit power.

Fig. 4 is a flow chart of a 5G smart light bar management platform performing separate power on/off operations on a 5G base station.

Fifthly, alarm reporting: the intelligent air switch is automatically powered off once abnormal conditions such as electric leakage, overload, overcurrent and the like occur, an alarm reporting platform is actively sent out through the gateway, the platform starts a corresponding emergency plan according to the alarm level to generate automatic work order circulation, and after the operation and maintenance personnel finish processing, the alarm is automatically released, remote switch-on is carried out, and full-process closed-loop processing of equipment problems is completed.

Leakage protection, namely detecting whether leakage occurs in real time by the intelligent air conditioner through a leakage protection device, and if the leakage of a loop is detected, directly carrying out power failure on a power supply and recording an alarm;

overvoltage protection (e.g. rated voltage 220V): and (4) setting 263V over, 10S inner loop power-off protection, 250V over and 190V under early warning.

The empty seting up of intelligence is equipped with and is taken place the electric leakage and report an emergency and ask for help or increased vigilance, carries out the return circuit outage automatically and pushes away the electric leakage and report an emergency and ask for help or increased vigilance and send 5G wisdom lamp pole management platform through thing networking gateway, and the platform generates corresponding work order according to the warning rank of configuration, sends the fortune dimension personnel cell-phone automatically and reminds the processing.

The specific process of automatic generation and automatic circulation of the work order is as follows:

1. configuration of

1) Configuring an alarm rule form on a 5G intelligent lamp pole management platform, and issuing an alarm rule to intelligent air switch equipment through an Internet of things gateway;

2) a fault flow is configured on a 5G intelligent lamp pole management platform, and automatic circulation of elements of support links such as a transactor, custom operation, routing and events is configured in each link (such as application, pre-acceptance, supervisor audit, processing, delayed approval and report and end audit). As shown in fig. 5.

2. Circulation (set up to be equipped with to report an emergency and ask for help or increased vigilance and report automatic handling flow based on the intelligence of 5G wisdom lamp pole), see fig. 6:

1) the intelligent air switch equipment gives an alarm (such as electric leakage, overvoltage and the like), actively pushes the alarm to a 5G intelligent lamp pole management platform through an Internet of things gateway, and the platform records the alarm and generates a system work order;

2) if no work order is generated in the platform, automatically generating the work order according to the flow configured in the step 2, and transferring to a pre-acceptance link, and if the work order is generated, directly ending;

3) the pre-acceptance link processor receives the work order and can perform distribution, transfer, rollback or termination operation, and if the work order is distributed to the personnel processing of the next link, the work order is transferred to the supervisor auditing link of the third-party operation and maintenance company;

4) the supervisor audits the link handler to receive the work order and transfer the work order to the next link (actual handler) for processing;

5) a processing link handler actually processes the work order and then transfers to the next link for processing, at the moment, the intelligent idle equipment performs self-checking and generates a normal operation instruction, and the platform receives and modifies the operation state of the equipment;

6) and in the report and settlement auditing link, the processor audits the work order and completes system archiving, so that the full-flow closed-loop management is released from equipment alarm to automatic work order generation and from work order processing to system alarm state.

The above embodiments are preferred embodiments of the present invention, but the present invention is not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be construed as equivalents thereof, and all such changes, modifications, substitutions, combinations, and simplifications are intended to be included in the scope of the present invention.

Claims (10)

1. The utility model provides a system based on measurement is divided to 5G wisdom lamp pole which characterized in that: the intelligent air switch comprises a server, and also comprises an Internet of things gateway and intelligent air switch equipment which are arranged on each 5G intelligent lamp pole, wherein each intelligent air switch equipment is communicated with a 5G intelligent lamp pole management platform arranged in the server through the corresponding Internet of things gateway;

the intelligent air switch equipment is internet of things equipment arranged inside a 5G intelligent lamp pole box body, and comprises a power supply module, a main switch, more than one air switch and a communication module which are sequentially connected through a data pin header, wherein the communication module is connected with an internet of things gateway; every air switch connects each return circuit, and each return circuit corresponds an equipment, equipment is including setting up 5G basic station, advertising screen, the electric pile that fills on 5G wisdom lamp pole.

2. The 5G smart light pole branch based metering system of claim 1, wherein: the internet of things gateway is a hardware gateway for managing all internet of things sensing equipment in the lamp pole internal box body.

3. The 5G smart light pole branch based metering system of claim 1, wherein: and the Internet of things gateway is connected with the intelligent air switch equipment through an RS485 port.

4. The 5G smart light pole branch based metering system of claim 1, wherein: 5G wisdom lamp pole management platform passes through operator's network and keeps long being connected with thing networking gateway.

5. The 5G smart light pole branch based metering system of claim 4, wherein: the 5G intelligent lamp pole management platform adopts an open-source Netty service cluster and is in connection communication with the Internet of things gateway in a long connection mode, and the Internet of things gateway can request the 5G intelligent lamp pole management platform and can also send information to the 5G intelligent lamp pole management platform in real time; simultaneously, 5G wisdom lamp pole management platform can request the thing networking gateway, also can send information to the thing networking gateway in real time.

6. The 5G smart light pole branch based metering system of claim 1, wherein: 5G wisdom lamp pole management platform is as follows to the real-time data acquisition's of intelligent air switch equipment concrete process:

(1) the gateway of the Internet of things is connected with the intelligent air conditioner through an RS485 interface and then is electrified to be communicated with the network;

(2) the intelligent null switch is provided with a loop address code;

(3) the internet of things gateway is kept in long connection with the 5G intelligent lamp pole management platform through a TCP/IP protocol;

(4) a user inquires the power consumption of equipment in real time through a 5G intelligent lamp pole management platform, inquires the corresponding relation between the equipment and a loop and determines the loop corresponding to the equipment;

(5)5G wisdom lamp pole management platform passes through TCP/IP inquiry thing networking gateway data, and the real-time electric quantity of intelligent air-break circuit is inquired through RS485 inquiry to the thing networking gateway.

7. The 5G smart light pole branch based metering system of claim 1, wherein: 5G wisdom lamp pole management platform measures along separate routes concrete step as follows:

(1) the method comprises the steps that the internet of things gateway sets polling time, reads electric quantity data of each loop from an intelligent air conditioner for storage, and calculates the summary date, the last acquisition time, the last electric quantity, the current acquisition time, the current electric quantity and the interval time power consumption of each loop of equipment codes;

(2) the internet of things gateway pushes the calculation data to a 5G intelligent lamp pole management platform, and the 5G intelligent lamp pole management platform calculates the power consumption of each device in a time period according to the corresponding relation between the loop and the mounted device;

(3) the user selects to check the equipment power consumption of each time period through the 5G intelligent lamp pole management platform.

8. The 5G smart light pole branch based metering system of claim 1, wherein: 5G wisdom lamp pole management platform carries out solitary power on/outage operation to the empty circuit of opening of intelligence, specifically as follows:

(1) a user powers on/off equipment in real time through the 5G intelligent lamp pole management platform, and the 5G intelligent lamp pole management platform inquires the corresponding relation between the equipment and a loop and determines the loop corresponding to the equipment;

(2)5G wisdom lamp pole management platform passes through TCP/IP inquiry thing networking gateway data, and thing networking gateway passes through RS485 and goes up the power-on/cut off to intelligent air-open return circuit power.

9. The 5G smart light pole branch based metering system of claim 1, wherein: the configuration process of the intelligent air switch device is as follows:

(1) configuring an alarm rule form on a 5G intelligent lamp pole management platform, and issuing an alarm rule to intelligent air switch equipment through an Internet of things gateway;

(2) the intelligent lamp pole management platform is provided with a fault flow at 5G, each link is provided with automatic circulation of a support link, and the elements of the support link comprise a transactor, custom operation, routing and events.

10. The 5G smart light pole branch based metering system of claim 1, wherein: the intelligent air switch standby alarm reporting automatic processing flow specifically comprises the following steps:

(1) the intelligent air switch standby equipment gives an alarm when an abnormal condition occurs, the alarm is actively pushed to a 5G intelligent lamp pole management platform through an Internet of things gateway, and the platform records the alarm and generates a system work order;

(2) if no work order is generated in the 5G intelligent lamp pole management platform, automatically generating the work order according to the configured flow and transferring to a pre-acceptance link, and if the work order is generated, directly ending;

(3) the pre-acceptance link processor receives the work order and can perform distribution, transfer, rollback or termination operation, and if the work order is distributed to the personnel processing of the next link, the work order is transferred to the supervisor auditing link of the third-party operation and maintenance company;

(4) the supervisor audits the link and the processor receives the work order and transfers the work order to the next link, namely the actual processor processes the work order;

(5) in the processing step, a processing person actually processes the work order and then transfers to the next step for processing, at the moment, the intelligent air-traffic equipment self-check is carried out and a normal operation instruction is generated, and the 5G intelligent lamp post management platform receives and modifies the operation state of the equipment;

(6) and in the report and settlement auditing link, the processor audits the work order and completes system archiving, so that the full-flow closed-loop management is released from equipment alarm to automatic work order generation and from work order processing to system alarm state.

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