CN114285158A - Operation method and system with platform extension function for power supply command - Google Patents

Abstract

The utility model provides a power supply commander is with operation method and system that has platform extension function, belongs to the power supply technology field, including perception layer, communication network layer, platform layer and application layer, the perception layer includes edge convergence, local network deployment and perception terminal, the perception terminal still includes humiture, current transformer, water logging, smoke detector, camera, intelligent helmet and patrols and examines the robot, local network deployment form includes micropower wireless, bluetooth, RS485, ethernet and WAPI form, data are carried out the data convergence through edge thing networking gateway to upload to cloud main website, insert electric power thing networking service network transmission to thing networking platform through 5G with video monitoring data, simultaneously, with guide rail type intelligent robot's video after the intelligent gateway of distribution handles, with video transmission to thing networking platform, whole journey is carried out the video without intermittence during cruising, The voice and positioning records are transmitted to the Internet of things platform in real time, so that traceability and trace management of the construction process and results are realized.

Description

Operation method and system with platform extension function for power supply command

Technical Field

The invention relates to the technical field of power supply, in particular to an operation method and system with a platform extension function for a power supply command.

Background

The safe operation of the power grid is closely related to the life of people, the power grid technology is changed day by day, and a power grid management unit always insists on improving the operation quality of the power grid as a principal task, so that a power supply service command system used by the power grid management unit is developed, and the aims of safe monitoring, planned budgeting and accurate fault processing are achieved through information management.

In the prior art, a patent with publication number CN213027543U discloses a power supply service command system, which includes a power consumption information acquisition system and a power distribution automation system; the electricity consumption information acquisition system comprises a concentrator, the concentrator is connected with an intelligent ammeter, and the intelligent ammeter is connected with an intelligent internet of things breaker; the power distribution automation system comprises an intelligent fusion terminal, wherein the intelligent fusion terminal is respectively connected with a low-voltage transformer area terminal sensing terminal (LTU), distribution transformer low-voltage side remote signaling telemetry data, a distribution transformer high-voltage temperature measuring sensor, a distribution transformer low-voltage temperature measuring sensor, a JP cabinet internal outlet connector temperature sensor, a JP cabinet internal temperature sensor, a drop fuse temperature sensor and a JP cabinet door magnetic sensor; intelligence thing allies oneself with circuit breaker still is connected with low pressure platform district terminal perception terminal (LTU), though, above-mentioned utility model can realize joining in marriage net unusual initiative and examine, and the trouble problem is dealt with voluntarily, and customer power consumption demand developments perception reaches the purpose that promotes the power supply reliability, nevertheless, the power supply command platform can't monitor the power supply condition in joining in marriage the electrical room, and the platform function is single, simultaneously, can't combine actual conditions, makes reasonable power supply command decision-making.

Disclosure of Invention

The invention aims to provide an operation method with a platform extension function for power supply command, and another aim to provide an operation system with a platform extension function for power supply command, which solves the problems in the background technology through the arrangement of a sensing layer and an application layer.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an operating system that power supply commander used has platform extension function, includes perception layer, communication network layer, platform layer and application layer, the perception layer includes that the edge assembles, local network deployment and perception terminal, the perception terminal still includes humiture, current transformer, water logging, smoke detector, camera, intelligent helmet and patrols and examines the robot, and local network deployment form includes that micropower is wireless, bluetooth, RS485, ethernet and WAPI form, and data are assembled through marginal thing networking switch to reach cloud master website on will data.

As a further scheme of the invention: humiture, current transformer, water logging, smoke detector, camera, intelligent helmet and patrol and examine the robot and carry out unified equipment access and management based on the thing networking platform, provide data service outward, the data interface that the power supply platform provided based on the thing networking platform realizes relevant business function.

As a still further scheme of the invention: still including the power distribution room, the power distribution room terminal passes through bluetooth, micropower is wireless, wired, RS485 and WAPI realizes that data gathers, and sensing data realizes analysis on the spot and intelligent control through marginal thing allies oneself with the gateway, and the result data is preferred to be sent to the cloud master station on the basis of the optic fibre mode, and through the middling pressure carrier wave under the condition that light does not possess, realizes data transfer to transformer substation nearby, realizes data transmission through the optic fibre of transformer substation.

As a still further scheme of the invention: the edge Internet of things gateway has 4G/5G capability, and realizes data uploading based on a wireless network under the condition that the wired network is abnormal.

As a still further scheme of the invention: the power supply command system comprises a distribution network data acquisition subsystem, an intelligent video monitoring subsystem, an environment monitoring subsystem, an intelligent inspection subsystem and a temporary power supply subsystem, wherein the distribution network data acquisition subsystem adopts an integrated structure of a temperature sensor, current sampling, wireless transmission and installation parts, acquires the current of a main loop and the temperature of a monitoring point, and directly converts the current of the main loop into a digital quantity.

As a still further scheme of the invention: the distribution network data acquisition subsystem is communicated with the concentrator through a 2.4GHz wireless communication protocol, the concentrator is provided with an RS485 communication interface, supports a Modbus RTU communication protocol to communicate with a distribution intelligent gateway, and reports acquired data to an Internet of things platform through the distribution intelligent gateway.

As a still further scheme of the invention: the intelligent video monitoring subsystem consists of a camera, a switch and a power distribution intelligent gateway, a gun-shaped camera is distributed in a wide visual field in a power distribution room, a spherical camera and a guide rail camera are added according to the actual size of the content, the camera is arranged outside the power distribution room and used for monitoring the outdoor environment and security, the service data and the video monitoring data of the emergency power generation car are connected into an APN service network of the power internet of things through 5G and transmitted to the internet of things platform, the video of the guide rail type intelligent robot is processed by the power distribution intelligent gateway and then transmitted to the internet of things platform, a scene super-fusion video monitoring system is arranged in the north direction of the internet of things platform and linked with the power distribution management platform, all monitoring images in the power distribution room are managed in a unified way, and the functions of intelligent security monitoring, personnel operation safety supervision, intelligent robot inspection and equipment fault pre-judgment are realized, the intelligent patrol inspection subsystem can realize monitoring switch room environmental parameters, reading various instrument parameters and intelligently patrol inspection through the intelligent patrol inspection robot, intelligently detects, can realize electrified monitoring, comprehensively replace manual work to realize remote routine patrol inspection, can realize special patrol inspection and customization patrol inspection tasks under accidents and special conditions, realize remote online monitoring, reduce manual work, greatly improve the content and frequency of operation and maintenance, realize the fine management target, improve the reliability of power supply, the monitoring backstage includes real-time supervision, the real-time state control of the robot, the management of the patrol inspection tasks of the robot, data query statistics, system interconnection, functional modules such as system configuration.

As a still further scheme of the invention: the temporary power supply subsystem comprises an emergency power supply vehicle, a data acquisition terminal, a GPS module and a master station platform, wherein the vehicle-mounted acquisition terminal is installed in the emergency power supply vehicle and connected with the generator set controller to acquire various data of the generator set. And simultaneously, GPS positioning information can be collected. The data after the collection pass through 4G network and the access point that corresponds, interim power supply subsystem includes fixed power supply station data acquisition module and interim power supply place data acquisition module, fixed power supply station data acquisition module realizes the power supply through joining in marriage electrical room and cable, interim power supply place data acquisition module supplies power through the power-generating cars.

An operation method with a platform extension function for power supply commanding comprises the following steps;

s1, accessing video monitoring data to an APN service network of the power Internet of things through 5G to transmit the video monitoring data to the Internet of things platform, processing the video of the guide rail type intelligent robot through a power distribution intelligent gateway, and transmitting the video to the Internet of things platform;

s2, recording the whole course operation, recording the video, voice and positioning in the whole course without interruption during cruising, and transmitting the recorded video, voice and positioning to the platform of the Internet of things in real time, thereby realizing traceable trace management of the construction process and the result;

s3, deploying a live-action super-fusion video monitoring system at a wide view angle of the platform of the Internet of things, linking with the distribution network management platform, and managing all monitoring images in the distribution room in a unified and intelligent manner;

s4, combining various AI algorithms special for electric power to realize local rapid analysis and feedback of results;

s5, performing intelligent security monitoring, personnel safety operation supervision, robot intelligent inspection and equipment fault prejudgment on the power distribution room;

s6, then, making a decision on the relevant pre-judging result in combination with the expert system, and storing the actual situation commanding process of power supply command into the historical analysis of the application layer in the decision making process, so that the decision making by the expert system in combination with the historical analysis is facilitated;

and S7, finally, analyzing the historical analysis decision command process of the application layer of the power supply command system again, fully considering the blind spot of video monitoring in the processing process in the analysis process, thereby being capable of pertinently improving the subsystems in the power supply command system, and recording the whole process after the completion of the analysis, thereby realizing real-time monitoring.

Compared with the prior art, the invention has the beneficial effects that:

1. video monitoring data is accessed to an APN service network of the power Internet of things through 5G to be transmitted to the Internet of things platform, meanwhile, after the video of the guide rail type intelligent robot is processed by the intelligent power distribution gateway, the video is transmitted to the Internet of things platform, the whole operation is recorded, video, voice and positioning are recorded and transmitted to the platform of the Internet of things in real time continuously in the whole process during cruising, so that the construction process and the result can be traced and the tracing management can be realized, a live-action super-fusion video monitoring system is deployed at a wide visual angle of an Internet of things platform, is linked with a distribution network management platform, unifies and intelligently manages all monitoring images in a power distribution room, combines a plurality of power-dedicated AI algorithms to realize local rapid analysis and feedback of results, therefore, intelligent security monitoring, personnel safety operation supervision, intelligent robot inspection and equipment fault prejudgment of the power distribution room are achieved.

2. In the process of power supply command, decision is made by combining an expert system to a related prejudgment result, in the decision making process, the actual situation command process of the power supply command is stored in historical analysis of an application layer, so that the decision making by combining the expert system with the historical analysis is facilitated, finally, the historical analysis decision making command process of the application layer of the power supply command system is reused for analysis, in the analysis process, blind points of video monitoring in the processing process are fully considered, subsystems in the power supply command system can be improved in a targeted manner, after the completion, the whole process is recorded, and the comprehensiveness in the real-time monitoring and monitoring process is realized.

3. The distribution network data acquisition subsystem adopts a temperature sensor, current sampling, wireless transmitting and mounting part integrated structure to acquire main loop current and monitoring point temperature and directly converts the main loop current and the monitoring point temperature into digital quantity, the distribution network data acquisition subsystem is communicated with the concentrator through a 2.4GHz wireless communication protocol, the concentrator is provided with an RS485 communication interface, supports a Modbus RTU communication protocol to communicate with a distribution intelligent gateway, reports the acquired data to an Internet of things platform through the distribution intelligent gateway, and a primary current value and a temperature value can be checked through corresponding application of a user, so that the intellectualization of the whole power supply process is realized.

4. Meanwhile, when the power supply process is interfered, the temporary power supply subsystem is used for supplying power and comprises an emergency power supply vehicle, a data acquisition terminal, a GPS module and a master station platform, the vehicle-mounted acquisition terminal is installed in the emergency power supply vehicle and connected with the generator set controller, various data of the generator set are acquired, GPS positioning information can be acquired at the same time, the acquired data pass through a 4G network and a corresponding access point, the temporary power supply subsystem comprises a fixed power supply plant data acquisition module and a temporary power supply place data acquisition module, the fixed power supply plant data acquisition module realizes power supply through a power distribution room and a cable, and the temporary power supply place data acquisition module supplies power through a generator vehicle.

Drawings

Fig. 1 is a block diagram of an operating system with a platform extension function for power supply command.

Fig. 2 is a block diagram of an operating system with platform extension function for power supply command.

Fig. 3 is a block diagram of an operating system with platform extension function for power supply command.

Fig. 4 is a flow chart illustrating an operation method of a power supply command with a platform extension function.

Detailed Description

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

In addition, an element of the present invention may be said to be "fixed" or "disposed" to another element, either directly on the other element or with intervening elements present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Referring to fig. 1 to 4, in an embodiment of the present invention, an operating system for a power supply command with a platform extension function includes a sensing layer, a communication network layer, a platform layer, and an application layer, where the sensing layer includes an edge aggregation, a local networking, and a sensing terminal, the sensing terminal further includes a temperature and humidity sensor, a current transformer, water immersion, a smoke sensor, a camera, an intelligent helmet, and an inspection robot, the local networking includes micro-power wireless, bluetooth, RS485, ethernet, and a WAPI form, data is aggregated through an edge internet of things gateway, and after local intelligent analysis is implemented, the data is uploaded to a cloud master station, the temperature and humidity sensor, the current transformer, the water immersion, the smoke sensor, the camera, the intelligent helmet, and the inspection robot perform unified device access and management based on an internet of things platform, provide data services for the outside, and the power supply platform is based on a data interface provided by the internet of things platform, the intelligent power supply system has the advantages of realizing related service functions, supporting the service of daily power supply protection, improving the intelligent level of power supply protection, an application layer, a platform layer, a communication network layer and a sensing layer, adopting standard interface connection among the layers, reasonably distributing tasks, clear software architecture, humanized interface, convenient operation and flexible system structure, being convenient for integrating other systems or equipment, fully meeting the requirements of different environments and applications on site, realizing data aggregation by a power distribution room terminal through Bluetooth, micropower wireless, wired, RS485 and WAPI, realizing on-site analysis and intelligent control of sensing data through an edge physical connection gateway, realizing data transmission to a nearby transformer substation through medium-voltage carrier waves on the premise that light does not exist, realizing data transmission through optical fibers of the transformer substation, and realizing 4G/5G capacity of the edge physical connection gateway in the transformer substation, under the condition of wired network abnormality, data uploading is realized based on a wireless network, meanwhile, the abnormal condition of a power supply protecting place is checked through the form of data expression, and alarm confirmation and alarm processing are carried out according to the requirement.

The power supply command system comprises a distribution network data acquisition subsystem, an intelligent video monitoring subsystem, an environment monitoring subsystem, an intelligent inspection subsystem and a temporary power supply subsystem, the extension of the platform function is realized through a network data acquisition subsystem, an intelligent video monitoring subsystem, an environment monitoring subsystem, an intelligent inspection subsystem and a temporary power supply subsystem, the distribution network data acquisition subsystem adopts an integrated structure of a temperature sensor, current sampling, wireless transmission and installation parts, acquires the current of a main loop and the temperature of a monitoring point, directly converts the current and the temperature into digital quantity, the distribution network data acquisition subsystem communicates with the concentrator via a 2.4GHz wireless communication protocol, the concentrator is provided with an RS485 communication interface, supports a Modbus RTU communication protocol to communicate with a power distribution intelligent gateway, and reports collected data to an Internet of things platform through the power distribution intelligent gateway, so that a user can check a primary current value and a temperature value through corresponding application.

The intelligent video monitoring subsystem consists of a camera, a switch and a power distribution intelligent gateway, a gun-shaped camera is distributed in a wide visual field in a power distribution room, a spherical camera and a guide rail camera are added according to the actual size of the content, the camera is arranged outside the power distribution room and used for monitoring the outdoor environment and security, the service data and the video monitoring data of the emergency power generation car are connected into an APN service network of the power internet of things through 5G and transmitted to the internet of things platform, the video of the guide rail type intelligent robot is processed by the power distribution intelligent gateway and then transmitted to the internet of things platform, a scene super-fusion video monitoring system is arranged in the north direction of the internet of things platform and linked with the power distribution management platform, all monitoring images in the power distribution room are managed in a unified way, and the functions of intelligent security monitoring, personnel operation safety supervision, intelligent robot inspection and equipment fault pre-judgment are realized, the internet of things platform provides external HTTP/REST interfaces and the like at the same time, interface calling and instruction sending of external service application are received, the platform transfers the data to the corresponding edge internet of things gateway, downlink instructions and control operation are achieved, and therefore power supply command operation is achieved.

The environment monitoring subsystem adopts an application layer, a typical Internet of things transmission framework of a network layer and a sensing layer, a northbound interface of the intelligent gateway is connected to a south network Internet of things platform through 4G/5G, various sensors wirelessly transmit information through UNB ultra-narrow channels, a southbound interface of the intelligent gateway wirelessly reads the indoor temperature and humidity, smoke sensation, oxygen, ozone, SF6 and other sensors through UNB, an industrial dehumidifier, a fan, a water pump and the like are started according to preset upper and lower limit values, timely intelligent management is carried out, standard exceeding projects are quickly recovered to be normal, the condition of a power distribution room is guaranteed to continuously reach the standard, and the normal working environment is met. Meanwhile, the monitoring host reports the current environmental parameters in real time, and reports an alarm signal to the intelligent electric room monitoring platform in time after the current environmental parameters exceed a preset value.

The intelligent patrol inspection subsystem can realize monitoring switch room environmental parameters, reading various instrument parameters and intelligently patrol inspection through the intelligent patrol inspection robot, intelligently detects, can realize electrified monitoring, comprehensively replace manual work to realize remote routine patrol inspection, can realize special patrol inspection and customization patrol inspection tasks under accidents and special conditions, realize remote online monitoring, reduce manual work, greatly improve the content and frequency of operation and maintenance, realize the fine management target, improve the reliability of power supply, the monitoring backstage includes real-time supervision, the real-time state control of the robot, the management of the patrol inspection tasks of the robot, data query statistics, system interconnection, functional modules such as system configuration.

The temporary power supply subsystem comprises an emergency power supply vehicle, a data acquisition terminal, a GPS module and a master station platform, wherein the vehicle-mounted acquisition terminal is installed in the emergency power supply vehicle and connected with the generator set controller to acquire various data of the generator set. Can gather GPS locating information simultaneously, the data after the collection pass through 4G network and the access point that corresponds, interim power supply subsystem includes fixed power supply station data acquisition module and interim power supply place data acquisition module, fixed power supply station data acquisition module realizes the power supply through joining in marriage electrical room and cable, interim power supply place data acquisition module supplies power through the power-generating cars.

An operation method with a platform extension function for power supply commanding comprises the following steps;

s1, accessing video monitoring data to an APN service network of the power Internet of things through 5G to transmit the video monitoring data to the Internet of things platform, processing the video of the guide rail type intelligent robot through a power distribution intelligent gateway, and transmitting the video to the Internet of things platform;

s2, recording the whole course operation, recording the video, voice and positioning in the whole course without interruption during cruising, and transmitting the recorded video, voice and positioning to the platform of the Internet of things in real time, thereby realizing traceable trace management of the construction process and the result;

s3, deploying a live-action super-fusion video monitoring system at a wide view angle of the platform of the Internet of things, linking with the distribution network management platform, and managing all monitoring images in the distribution room in a unified and intelligent manner;

s4, combining various AI algorithms special for electric power to realize local rapid analysis and feedback of results;

s5, performing intelligent security monitoring, personnel safety operation supervision, robot intelligent inspection and equipment fault prejudgment on the power distribution room;

s6, then, making a decision on the relevant pre-judging result in combination with the expert system, and storing the actual situation commanding process of power supply command into the historical analysis of the application layer in the decision making process, so that the decision making by the expert system in combination with the historical analysis is facilitated;

and S7, finally, analyzing the historical analysis decision command process of the application layer of the power supply command system again, fully considering the blind spot of video monitoring in the processing process in the analysis process, thereby being capable of pertinently improving the subsystems in the power supply command system, and recording the whole process after the completion of the analysis, thereby realizing real-time monitoring.

The working principle of the invention is as follows:

video monitoring data are accessed to an APN service network of an electric power Internet of things through 5G and transmitted to an Internet of things platform, meanwhile, after the video of a guide rail type intelligent robot is processed by a power distribution intelligent gateway, the video is transmitted to the Internet of things platform, the whole-course operation is recorded, the video, voice and positioning are recorded and transmitted to the Internet of things platform in real time in the whole course of the cruising period, the traceable and traceable management of the construction process and the result is realized, a real-scene super-fusion video monitoring system is deployed at the wide visual angle of the Internet of things platform and linked with a distribution network management platform, all monitoring images in a power distribution room are uniformly and intelligently managed, the local rapid analysis and result feedback are realized by combining various AI algorithms special for electric power, the intelligent security monitoring, the personnel safety operation supervision, the intelligent inspection of the robot and the pre-judgment of equipment faults are carried out on the power distribution room, and then, making a decision by combining an expert system, storing the actual situation commanding process of the power supply command in the historical analysis of an application layer in the decision making process, so that the decision making by combining the expert system with the historical analysis is facilitated, finally, analyzing by utilizing the historical analysis decision making command process of the application layer of the power supply command system again, fully considering the blind spot of video monitoring in the processing process in the analysis process, thus being capable of pertinently improving the subsystems in the power supply command system, and recording the whole process after the completion, thereby realizing the comprehensiveness in the real-time monitoring and monitoring process.

In the process of video monitoring, data are converged through an edge Internet of things gateway, after in-situ intelligent analysis is realized, the data are uploaded to a cloud master station, the temperature and humidity, a current transformer, water immersion, smoke sensation, a camera, an intelligent helmet and an inspection robot perform unified equipment access and management based on an Internet of things platform to provide data service for the outside, a power supply platform realizes related service functions based on a data interface provided by the Internet of things platform, supports daily service of power supply for security, improves the intelligent level of power supply for security, a power distribution room terminal realizes data convergence through Bluetooth, micropower wireless, wired, RS485 and WAPI, the sensing data are subjected to in-situ analysis and intelligent control through the edge Internet of things gateway, the result data are preferentially sent to the cloud master station based on an optical fiber mode, and the data are transmitted to a nearby substation through medium-voltage carrier waves under the condition that light is not available, the data transmission is realized through optical fibers of a transformer substation, meanwhile, the edge internet of things gateway in a station room has 4G/5G capacity, and data uploading is realized based on a wireless network under the condition of wired network abnormality, because the power supply command system comprises a distribution network data acquisition subsystem, an intelligent video monitoring subsystem, an environment monitoring subsystem, an intelligent inspection subsystem and a temporary power supply subsystem, the distribution network data acquisition subsystem adopts an integrated structure of a temperature sensor, current sampling, wireless transmitting and mounting parts, acquires the current of a main loop and the temperature of a monitoring point and directly converts the current into digital quantity, the distribution network data acquisition subsystem communicates with a concentrator through a 2.4GHz wireless communication protocol, the concentrator is provided with an RS485 communication interface, supports a Modbus RTU communication protocol to communicate with an intelligent network power distribution gateway, and the distribution intelligent gateway uploads the acquired data to an internet of things platform, the user can view the primary current value and the temperature value through the corresponding application.

The cameras, the switch and the gun-shaped cameras arranged on the intelligent power distribution gateway in the intelligent video monitoring subsystem are distributed in a wide visual field in a power distribution room, the spherical cameras and the guide rail cameras are added according to the actual size, the cameras arranged outside the power distribution room are used for monitoring the outdoor environment and security, the service data and the video monitoring data of the emergency power generation car are connected into an APN service network of the power internet of things through 5G and transmitted to the internet of things platform, the video of the guide rail type intelligent robot is processed by the intelligent power distribution gateway and then transmitted to the internet of things platform, a real-scene super-fusion video monitoring system is arranged in the north direction of the internet of things platform and linked with the distribution network management platform, all monitoring images in the intelligent power distribution room are unified, and the functions of intelligent security monitoring, personnel operation safety supervision, intelligent robot inspection and equipment fault pre-judgment are realized, when the power supply process receives the interference, utilize interim power supply subsystem to supply power, interim power supply subsystem includes emergency power source car, data acquisition terminal, GPS module and main website platform, and on-vehicle acquisition terminal installs in emergency power source car, is connected with the unit controller, gathers generating set's each item data. Can gather GPS locating information simultaneously, the data after the collection pass through 4G network and the access point that corresponds, interim power supply subsystem includes fixed power supply station data acquisition module and interim power supply place data acquisition module, fixed power supply station data acquisition module realizes the power supply through joining in marriage electrical room and cable, interim power supply place data acquisition module supplies power through the power-generating cars.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (9)

1. The utility model provides an operating system that power supply commander used has platform extension function, includes perception layer, communication network layer, platform layer and application layer, its characterized in that, the perception layer is assembled, local network deployment and perception terminal including the edge, the perception terminal still includes humiture, current transformer, water logging, smoke, camera, intelligent helmet and patrols and examines the robot, and local network deployment form includes that micropower is wireless, bluetooth, RS485, ethernet and WAPI form, and data are assembled through marginal thing networking switch to reach the cloud master station on will data.

2. The operating system with the platform extension function for the power supply command of claim 1, wherein the temperature and humidity, the current transformer, the water immersion, the smoke sensing, the camera, the intelligent helmet and the inspection robot perform unified equipment access and management based on the platform of the internet of things to provide data services for the outside, and the power supply platform realizes related service functions based on a data interface provided by the platform of the internet of things.

3. The operating system with the platform extension function for the power supply command of claim 2, further comprising a power distribution room, wherein a terminal of the power distribution room realizes data aggregation through bluetooth, micropower wireless, wired, RS485 and WAPI, the sensing data realizes local analysis and intelligent control through an edge Internet of things gateway, the result data is preferentially sent to a cloud master station based on an optical fiber mode, the data is transmitted to a nearby substation through medium voltage carrier waves under the condition that light does not exist, and the data transmission is realized through optical fibers of the substation.

4. The operating system with the platform extension function for the power supply command according to claim 1 or 3, wherein the edge internet of things gateway has a 4G/5G capability, and data uploading is realized based on a wireless network in case of a wired network anomaly.

5. The operating system with the platform extending function for the power supply command of claim 4, wherein the power supply command system comprises a distribution network data acquisition subsystem, an intelligent video monitoring subsystem, an environment monitoring subsystem, an intelligent inspection subsystem and a temporary power supply subsystem, wherein the distribution network data acquisition subsystem adopts an integrated structure of a temperature sensor, current sampling, wireless transmission and installation parts, acquires the current of a main loop and the temperature of a monitoring point, and directly converts the current and the temperature of the monitoring point into digital quantity.

6. The operating system with the platform extending function for the power supply command of claim 5, wherein the distribution network data acquisition subsystem communicates with the concentrator through a 2.4GHz wireless communication protocol, the concentrator is provided with an RS485 communication interface and supports a Modbus RTU communication protocol to communicate with a distribution intelligent gateway, and the distribution intelligent gateway uploads the acquired data to the platform of the Internet of things.

7. The operating system with the platform extension function for the power supply command of claim 6, wherein the intelligent video monitoring subsystem is composed of cameras, switches and intelligent power distribution gateways, gun-type cameras are distributed in a wide visual field in a power distribution room, spherical cameras and guide rail cameras are added according to actual sizes, the cameras are installed outside the power distribution room for outdoor environment and security monitoring, the service data and the video monitoring data of the emergency power generation car are transmitted to the internet of things platform through 5G access power internet of things APN service network, the video of the guide rail type intelligent robot is processed by the intelligent power distribution gateway and then transmitted to the internet of things platform, a scene super-fusion video monitoring system is deployed in the north direction of the internet of things platform and linked with the power distribution network management platform to uniformly manage all monitoring images in the power distribution room, realize intelligent security protection control, personnel operation safety supervision, the function that robot intelligence was tourd, equipment trouble is prejudged, the intelligence patrols and examines the subsystem and can realize through the intelligence patrols and examines the robot that the environmental parameter monitoring of switch room, all kinds of instrument parameter reading, the intelligence is patrolled and examined, intellectual detection system can realize electrified monitoring, replace artifical long-range routine inspection of realization comprehensively, can realize specially patrolling and customization nature and patrol and examine the task under accident and special circumstances, realize long-range on-line monitoring, when reducing artifically, promote the content and the frequency of fortune dimension greatly, realize meticulous management target, improve the power supply reliability, the control backstage includes real-time supervision, robot real-time state control, the management of robot tour task, data query statistics, system interconnection, functional module such as system configuration.

8. The operating system with the platform extension function for the power supply commander as claimed in claim 7, wherein the temporary power supply subsystem comprises an emergency power supply vehicle, a data acquisition terminal, a GPS module and a master station platform, and the vehicle-mounted acquisition terminal is installed in the emergency power supply vehicle, is connected with the generator set controller and acquires various data of the generator set. And simultaneously, GPS positioning information can be collected. The data after the collection pass through 4G network and the access point that corresponds, interim power supply subsystem includes fixed power supply station data acquisition module and interim power supply place data acquisition module, fixed power supply station data acquisition module realizes the power supply through joining in marriage electrical room and cable, interim power supply place data acquisition module supplies power through the power-generating cars.

9. An operation method of a power supply command with a platform extension function for operating the operation system of claim 8, comprising the steps of;

s1, accessing video monitoring data to an APN service network of the power Internet of things through 5G to transmit the video monitoring data to the Internet of things platform, processing the video of the guide rail type intelligent robot through a power distribution intelligent gateway, and transmitting the video to the Internet of things platform;

s2, recording the whole course operation, recording the video, voice and positioning in the whole course without interruption during cruising, and transmitting the recorded video, voice and positioning to the platform of the Internet of things in real time, thereby realizing traceable trace management of the construction process and the result;

s3, deploying a live-action super-fusion video monitoring system at a wide view angle of the platform of the Internet of things, linking with the distribution network management platform, and managing all monitoring images in the distribution room in a unified and intelligent manner;

s4, combining various AI algorithms special for electric power to realize local rapid analysis and feedback of results;

s5, performing intelligent security monitoring, personnel safety operation supervision, robot intelligent inspection and equipment fault prejudgment on the power distribution room;

s6, then, making a decision on the relevant pre-judging result in combination with the expert system, and storing the actual situation commanding process of power supply command into the historical analysis of the application layer in the decision making process, so that the decision making by the expert system in combination with the historical analysis is facilitated;

and S7, finally, analyzing the historical analysis decision command process of the application layer of the power supply command system again, fully considering the blind spot of video monitoring in the processing process in the analysis process, thereby being capable of pertinently improving the subsystems in the power supply command system, and recording the whole process after the completion of the analysis, thereby realizing real-time monitoring.

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