CN111221308A

CN111221308A - Industrial Internet of things control system and operation method thereof

Info

Publication number: CN111221308A
Application number: CN202010069130.6A
Authority: CN
Inventors: 于兴华; 陈华斌; 陈小奇; 王海燕
Original assignee: Nanjing Xingcheng Intelligent Manufacturing Research Institute Co ltd
Current assignee: Nanjing Xingcheng Intelligent Manufacturing Research Institute Co ltd
Priority date: 2020-01-21
Filing date: 2020-01-21
Publication date: 2020-06-02
Also published as: WO2021147345A1

Abstract

The invention belongs to the technical field of Internet of things, and particularly relates to an industrial Internet of things control system and an operation method thereof. The invention realizes that the real-time monitoring and the remote monitoring of the pipe network temperature, the pressure, the flow, the water quality parameters and the wastewater treatment video information of the wastewater are difficult to carry out based on the technology of the Internet of things, can timely acquire the sudden change of the temperature and the pressure in the wastewater pipeline or carry out the video monitoring to acquire the emergency situation, carry out the on-site alarm and the remote equipment supervision, make the corresponding emergency scheme according to the emergency and carry out the emergency scheduling treatment on the related personnel, have the timely and efficient decision-making performance, greatly improve the real-time performance and the universality, and ensure the safety and the reliability of.

Description

Industrial Internet of things control system and operation method thereof

Technical Field

The invention relates to the technical field of Internet of things, in particular to an industrial Internet of things control system and an operation method thereof.

Background

The industrial wastewater comprises production wastewater, production sewage and cooling water, and refers to wastewater and waste liquid generated in the industrial production process, wherein the wastewater and the waste liquid contain industrial production materials, intermediate products, byproducts and pollutants generated in the production process, which are lost along with water. The industrial wastewater has various types and complex components. For example, the waste water from electrolytic salt industry contains mercury, the waste water from heavy metal smelting industry contains various metals such as lead and cadmium, the waste water from electroplating industry contains various heavy metals such as cyanide and chromium, the waste water from petroleum refining industry contains phenol, and the waste water from pesticide manufacturing industry contains various pesticides. Because industrial wastewater contains various toxic substances and pollutes the environment, the environment is harmful to human health, so that the industrial wastewater is developed to be comprehensively utilized and turn the harmful into the beneficial, and can be discharged after being treated by adopting corresponding purification measures according to the components and the concentration of pollutants in the wastewater.

At present, the industrial wastewater treatment system is poor in perfection, in the wastewater treatment process, the pipe network temperature, pressure, flow and water quality parameters of wastewater and wastewater treatment video information are difficult to monitor in real time and monitor remotely, when the temperature and pressure sudden change or video monitoring in a wastewater pipe acquire emergency, relevant information cannot be acquired in time, a corresponding emergency scheme cannot be made in time, and emergency scheduling processing can not be performed on relevant personnel, so that the safety and the reliability are not enough.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides an industrial Internet of things control system and an operation method thereof, and solves the problems that the industrial wastewater treatment system is poor in integrity, the pipe network temperature, pressure, flow and water quality parameters of wastewater and wastewater treatment video information are difficult to monitor in real time and remotely in the wastewater treatment process, relevant information cannot be obtained in time when sudden temperature and pressure changes or video monitoring in a wastewater pipeline acquire emergency situations, corresponding emergency schemes cannot be made in time, and relevant personnel cannot be subjected to emergency scheduling treatment, and the safety and reliability are insufficient.

(II) technical scheme

In order to achieve the purpose, the invention provides the following technical scheme: an industrial Internet of things control system comprises the following components:

the industrial field acquisition node comprises a sensor group, a video monitoring unit, a terminal device group, a node controller, a storage module and a field alarm module, wherein the node controller is respectively connected with the sensor group, the video monitoring unit, the terminal device group, the storage module and the field alarm module, the sensor group is used for monitoring the temperature, the pressure, the flow and the water quality of a sewage conveying pipeline in the industrial sewage treatment process, the video monitoring unit is used for monitoring the industrial sewage treatment video, the node controller is used for acquiring and controlling the state of field parameters, the storage module is used for storing the acquired field parameters, and the field alarm module is used for carrying out field alarm when the temperature, the pressure mutation or the video monitoring in the pipeline acquire emergency.

The intelligent gateway is in wireless communication with the industrial field acquisition node and is used for acquiring and forwarding the parameter information, remote data and commands of the industrial sewage treatment field node.

And the cloud server is in communication connection with the intelligent gateway through the local area network, acquires the industrial sewage treatment site node parameter data acquired by the industrial site acquisition node, and stores, analyzes and calculates the data.

The central monitoring platform is in communication connection with the intelligent gateway through a local area network, acquires industrial sewage treatment site node parameter data acquired by industrial site acquisition nodes, performs primary processing and third-party information sharing uploading processing, performs monitoring, monitoring and early warning, and sends commands to node controllers of the industrial site acquisition nodes, and forwards the data to the cloud server through the Internet.

The mobile terminal is in communication connection with the intelligent gateway through a local area network, and the mobile terminal is used for a user to connect with the Internet to access the cloud server, and receiving and inquiring and browsing related data according to the access authority.

As a preferred technical scheme of the invention, the sensor group comprises a temperature sensor for monitoring the temperature of the pipe network, a pressure sensor for monitoring the pressure of the pipe network, a flow sensor for monitoring the flow of the pipe network and a water quality sensor for monitoring the water quality in the pipe network.

As a preferred technical solution of the present invention, the video monitoring unit is composed of a plurality of monitoring cameras, a digital matrix module and a video encoder, the digital matrix module is respectively connected to the plurality of monitoring cameras, the digital matrix module is configured to receive a plurality of video signals collected by the plurality of monitoring cameras and perform distributed design and layout on the video signals, the digital matrix module is connected to the node controller through the video encoder, and the video encoder is configured to encode and compress video sources input through the digital matrix module into network streams and output the network streams.

As a preferable technical scheme of the invention, the terminal equipment group comprises water pump equipment, mechanical equipment and aeration equipment for industrial sewage treatment.

As a preferred technical solution of the present invention, the industrial field acquisition node further includes a wireless transmission module connected to the node controller, and the wireless transmission module adopts one of a Zigbee wireless transmission module, a GPRS wireless transmission module, and a LoRa wireless transmission module.

As a preferred technical solution of the present invention, the central monitoring platform is composed of a central monitoring server, a command terminal, a video server and a monitoring television wall, the central monitoring server is connected to the command terminal, the video server is connected to the monitoring television wall, the central monitoring server is configured to receive a final data result obtained by analysis and calculation by the cloud server, and output the data result to the command terminal, and perform input of emergency and early warning instructions and network output by the command terminal, and the video server performs matrix display by the monitoring television wall according to received processed video data.

As a preferred technical scheme of the invention, the mobile terminal comprises a PC, a mobile phone or a Pad.

The invention also provides an operation method of the industrial Internet of things control system, which comprises the following steps:

s1, acquiring temperature, pressure, flow and water quality field parameter data of a sewage conveying pipeline through a sensor group in an industrial field acquisition node, acquiring field video data of industrial sewage treatment through a video monitoring unit, performing distributed design, layout and coding compression on a plurality of acquired video sources to form network flow, transmitting the acquired field parameter data to a node controller, analyzing and processing whether the acquired field parameters are abnormal or not through the node controller, when the temperature and pressure mutation or video monitoring in the pipeline obtains an emergency, sending an alarm instruction to a field alarm module by the node controller for field alarm processing, and when the data are normal, correspondingly controlling a terminal equipment group through the node controller according to a set programming program to implement sewage treatment;

s2, reading and carrying out protocol conversion and processing on field parameter data acquired by an industrial field acquisition node through an intelligent gateway, uploading the data to a central monitoring platform through a local area network, and primarily processing the data by the central monitoring platform and then forwarding the data to a cloud server through the Internet;

s3, the cloud server stores, analyzes and calculates the data uploaded by the Internet, and then transmits the calculation result and the decision instruction back to the central monitoring platform;

s4, the central monitoring platform performs remote video wall monitoring display according to the data processing operation result and the decision instruction returned by the cloud server and transmits a control and early warning instruction to an industrial field acquisition node through a local area network;

and S5, the node controller controls the action of the executing mechanism of the terminal equipment group according to the received control command, and implements remote supervision.

As a preferred technical solution of the present invention, in S3, the user may access the cloud server by connecting the mobile terminal to the internet.

(III) advantageous effects

Compared with the prior art, the invention provides an industrial Internet of things control system and an operation method thereof, and the industrial Internet of things control system has the following beneficial effects:

the industrial Internet of things control system and the operation method thereof realize that real-time monitoring and remote monitoring of the temperature, pressure, flow, water quality parameters and wastewater treatment video information of a waste water pipe network are difficult to perform based on the Internet of things technology, can timely acquire the temperature, pressure sudden change or video monitoring in the waste water pipe network to acquire emergency situations, perform on-site alarm and remote equipment supervision, make corresponding emergency schemes according to the emergency events and perform emergency scheduling processing on related personnel, have timely and efficient decision-making performance, greatly improve the instantaneity and universality, and are safe and reliable.

Drawings

FIG. 1 is a schematic block diagram of the system of the present invention;

FIG. 2 is a schematic block diagram of a system for collecting nodes in an industrial field according to the present invention;

FIG. 3 is a schematic block diagram of a system for sensor groups in accordance with the present invention;

FIG. 4 is a system schematic block diagram of a video surveillance unit of the present invention;

fig. 5 is a system schematic block diagram of the central monitoring platform of the present invention.

In the figure: 100. collecting nodes on an industrial site; 101. a sensor group; 1011. a temperature sensor; 1012. a pressure sensor; 1013. a flow sensor; 1014. a water quality sensor; 102. a video monitoring unit; 1021. a surveillance camera; 1022. a digital matrix module; 1023. a video encoder; 103. a terminal device group; 104. a node controller; 105. a storage module; 106. a field alarm module; 200. an intelligent gateway; 300. a cloud server; 400. a central monitoring platform; 401. a central monitoring server; 402. a command terminal; 403. a video server; 404. monitoring a television wall; 500. a mobile terminal.

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.

Examples

Referring to fig. 1-5, the present invention provides the following technical solutions: an industrial Internet of things control system comprises the following components:

an industrial field acquisition node 100, wherein the industrial field acquisition node 100 is composed of a sensor group 101, a video monitoring unit 102, a terminal equipment group 103, a node controller 104, a storage module 105 and a field alarm module 106, the node controller 104 is respectively connected with the sensor group 101, the video monitoring unit 102, the terminal equipment group 103, the storage module 105 and the field alarm module 106, the sensor group 101 is used for monitoring the temperature, pressure, flow and water quality of a sewage conveying pipeline in the industrial sewage treatment process, the video monitoring unit 102 is used for industrial sewage treatment video monitoring, the node controller 104 is used for acquiring and controlling the state of field parameters, the storage module 105 is used for storing the acquired field parameters, and the field alarm module 106 is used for carrying out field alarm when the temperature, pressure mutation or video monitoring in the pipeline acquires an emergency.

The intelligent gateway 200 is in wireless communication with the industrial field acquisition node 100, and the intelligent gateway 200 is used for acquiring and forwarding industrial sewage treatment field node parameter information and remote data and commands;

in this embodiment, the intelligent gateway 200 reads the node device data in a 2.4GHz or 433MHz manner.

The cloud server 300 is in communication connection with the intelligent gateway 200 through the local area network, and acquires the industrial sewage treatment site node parameter data acquired by the industrial site acquisition node 100, and stores, analyzes and calculates the data.

The central monitoring platform 400 is in communication connection with the intelligent gateway 200 through a local area network, acquires industrial sewage treatment site node parameter data acquired by the industrial site acquisition nodes 100, performs primary processing and third-party information sharing uploading processing, performs monitoring, monitoring and early warning, and sends commands to the node controllers 104 of the industrial site acquisition nodes 100, and the central monitoring platform 400 forwards the data to the cloud server 300 through the Internet.

The mobile terminal 500 is in communication connection with the intelligent gateway 200 through a local area network, and the mobile terminal 500 is used for a user to connect to the internet to access the cloud server 300, and receive and inquire and browse related data according to access authority.

Specifically, the sensor group 101 includes a temperature sensor 1011 for monitoring the temperature of the pipe network, a pressure sensor 1012 for monitoring the pressure of the pipe network, a flow sensor 1013 for monitoring the flow rate of the pipe network, and a water quality sensor 1014 for monitoring the water quality in the pipe network.

In the embodiment, the temperature sensor 1011 can be a WZC-270 copper thermal resistance sensor, has good waterproof and anticorrosion performance, and is convenient to mount and dismount by adopting a threaded mounting structure; the pressure sensor 1012 adopts an instrument of BRY series pressure sensors, and the BRY pressure sensor is a pressure sensor which receives pressure variables, converts the pressure variables into standard output signals in proportion, converts physical pressure parameters of sewage into standard electric signals and supplies the standard electric signals to secondary instruments such as an indicating alarm instrument, a recorder and a regulator for measurement, indication and process regulation; the flow sensor 1013 adopts one of the LDC series plug-in electromagnetic flowmeters, has the characteristics of simple installation, no influence of fluid density, viscosity, temperature, pressure and conductivity change in measurement, good anti-interference performance and long service life; the water quality sensor 1014 adopts an online water quality monitoring sensor with the model of AMT-COD300, the online water quality monitoring sensor of AMT-COD300 is a full spectrum water quality electrode, the absorbance of the whole wave band of 190-720nm is measured, the characteristic absorption spectral lines of different pollutants are contrastively analyzed, the Chemical Oxygen Demand (COD) factor can be measured, the measurement time is less than 5s, the change trend of a water sample is monitored in real time, the in-situ measurement is carried out, the pretreatment is not needed, the reagent is not consumed, the interference of chloride ions is avoided, and the method is a new direction for the development of the current water quality monitoring.

Specifically, the video monitoring unit 102 is composed of a plurality of monitoring cameras 1021, a digital matrix module 1022 and a video encoder 1023, the digital matrix module 1022 is respectively connected with the plurality of monitoring cameras 1021, the digital matrix module 1022 is configured to receive a plurality of video signals collected by the plurality of monitoring cameras 1021 and perform distributed design and layout on the video signals, the digital matrix module 1022 is connected with the node controller 104 through the video encoder 1023, and the video encoder 1023 is configured to compress video source codes input through the digital matrix module 1022 into network streams and output the network streams.

In this embodiment, during use, the digital matrix module 1022 receives a plurality of video signals acquired by the plurality of monitoring cameras 1021, performs distributed design and layout on the video signals, encodes and compresses the video source input by the digital matrix module 1022 into a network stream through the video encoder 1023, outputs the network stream, transmits video data to the central monitoring platform 400 through the local area network, and shares the network stream with the cloud server 300 of the third-party system to assist in operation processing, thereby realizing remote video monitoring.

Specifically, the terminal equipment group 103 includes water pump equipment, mechanical equipment and aeration equipment for industrial sewage treatment.

In the embodiment, remote monitoring is realized through the internet of things, when the temperature and pressure in the pipeline suddenly change or video monitoring is carried out to obtain an emergency, the system automatically sends alarm information to remind workers to investigate potential safety hazard places, emergency treatment measures are taken to avoid accidents, and corresponding equipment control instructions can be sent through the central monitoring platform 400 to carry out remote operation on equipment; wherein, water pump equipment includes water intaking pump, water feeding pump, force (forcing) pump, flush pump, dosing pump, vacuum pump etc. and mechanical equipment includes agitated vessel, row's mud equipment, sludge dewatering equipment, drags or opens and close mechanical equipment etc. and aeration equipment includes air-blast equipment, aerator and corresponding accessory equipment etc. still includes electrical equipment and instrument class automatic control equipment.

Specifically, the industrial field acquisition node 100 further includes a wireless transmission module connected to the node controller 104, and the wireless transmission module is one of a Zigbee wireless transmission module, a GPRS wireless transmission module, and a LoRa wireless transmission module.

In this embodiment, one of the Zigbee wireless transmission module, the GPRS wireless transmission module, and the LoRa wireless transmission module is used as the wireless transmission module, and the Zigbee wireless transmission, and the LoRa wireless transmission mode can implement medium-long distance wireless communication.

Specifically, the central monitoring platform 400 is composed of a central monitoring server 401, a command terminal 402, a video server 403 and a monitoring television wall 404, the central monitoring server 401 is connected with the command terminal 402, the video server 403 is connected with the monitoring television wall 404, the central monitoring server 401 is used for receiving a final data result obtained by analysis and calculation of the cloud server 300 and outputting the data result to the command terminal 402, emergency and early warning instruction input and network output are performed through the command terminal 402, and meanwhile, the video server 403 performs matrix display through the monitoring television wall 404 according to received processed video data.

In this embodiment, the cloud server 300 performs data operation analysis processing, and shares the data with the central monitoring server 401 through the Internet, the central monitoring server 401 responds quickly and transmits the processed information to the command terminal 402, the worker can input and output emergency and early warning instructions through the command terminal 402 to remotely control the terminal device group 103, and the video server 403 responds quickly and transmits video information to the monitoring television wall 404, so that the monitoring television wall 404 performs remote monitoring.

Specifically, the mobile terminal 500 includes a PC, a handset, or a Pad.

s1, acquiring temperature, pressure, flow and water quality field parameter data of a sewage conveying pipeline through a sensor group 101 in an industrial field acquisition node 100, acquiring field video data of industrial sewage treatment through a video monitoring unit 102, performing distributed design, layout and coding compression on a plurality of acquired video sources to form network flow, transmitting the acquired field parameter data to a node controller 104, analyzing and processing whether the acquired field parameters are abnormal or not through the node controller 104, when the temperature, pressure mutation or video monitoring in the pipeline obtains an emergency, sending an alarm instruction to a field alarm module 106 by the node controller 104 for field alarm processing, and when the data are normal, correspondingly controlling a terminal equipment group 103 according to a set program by the node controller 104 to implement sewage treatment;

s2, after the field parameter data acquired by the industrial field acquisition node 100 are read through the intelligent gateway 200 and subjected to protocol conversion and processing, the data are uploaded to the central monitoring platform 400 through the local area network, and the central monitoring platform 400 primarily processes the data and forwards the data to the cloud server 300 through the Internet;

s3, the cloud server 300 stores, analyzes and calculates the data uploaded via the Internet, and then transmits the calculation result and decision instruction back to the central monitoring platform 400;

s4, the central monitoring platform 400 performs remote video wall monitoring and displaying according to the data processing operation result and the decision instruction returned by the cloud server 300, and transmits a control and early warning instruction to the industrial field acquisition node 100 through the local area network;

and S5, the node controller 104 controls the action of the executing mechanism of the terminal equipment group 103 according to the received control command, and implements remote supervision.

Specifically, in S3, the user may access the cloud server 300 by connecting to the internet through the mobile terminal 500.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. An industry thing networking control system which characterized in that: comprises the following steps:

an industrial field acquisition node (100), wherein the industrial field acquisition node (100) is composed of a sensor group (101), a video monitoring unit (102), a terminal equipment group (103), a node controller (104), a storage module (105) and a field alarm module (106), the node controller (104) is respectively connected with the sensor group (101), the video monitoring unit (102), the terminal equipment group (103), the storage module (105) and the field alarm module (106), the sensor group (101) is used for monitoring the temperature, the pressure, the flow and the water quality of a sewage conveying pipeline in the industrial sewage treatment process, the video monitoring unit (102) is used for monitoring the industrial sewage treatment video, the node controller (104) is used for acquiring and controlling the state of field parameters, and the storage module (105) is used for storing the acquired field parameters, the on-site alarm module (106) is used for carrying out on-site alarm when the temperature and pressure in the pipeline suddenly change or the video monitoring obtains an emergency;

the intelligent gateway (200) is in wireless communication with the industrial field acquisition node (100), and the intelligent gateway (200) is used for acquiring and forwarding the parameter information and remote data and commands of the industrial sewage treatment field node;

the cloud server (300) is in communication connection with the intelligent gateway (200) through a local area network, and is used for acquiring industrial sewage treatment site node parameter data acquired by the industrial site acquisition node (100) and storing, analyzing and calculating the data;

the system comprises a central monitoring platform (400), the central monitoring platform (400) is in communication connection with an intelligent gateway (200) through a local area network, industrial sewage treatment site node parameter data acquired by industrial site acquisition nodes (100) are acquired, primary processing and third-party information sharing uploading processing are carried out, monitoring and early warning are carried out, commands are sent to node controllers (104) of the industrial site acquisition nodes (100), and the central monitoring platform (400) forwards the data to a cloud server (300) through the Internet;

the mobile terminal (500) is in communication connection with the intelligent gateway (200) through a local area network, and the mobile terminal (500) is used for a user to connect with the Internet to access the cloud server (300) and receive and inquire and browse related data according to access authority.

2. The industrial internet of things control system according to claim 1, wherein: the sensor group (101) comprises a temperature sensor (1011) for monitoring the temperature of a pipe network, a pressure sensor (1012) for monitoring the pressure of the pipe network, a flow sensor (1013) for monitoring the flow of the pipe network and a water quality sensor (1014) for monitoring the water quality in the pipe network.

3. The industrial internet of things control system according to claim 1, wherein: the video monitoring unit (102) is composed of a plurality of monitoring cameras (1021), a digital matrix module (1022) and a video encoder (1023), wherein the digital matrix module (1022) is respectively connected with the monitoring cameras (1021), the digital matrix module (1022) is used for receiving a plurality of video signals collected by the monitoring cameras (1021) and performing distributed design and layout on the video signals, the digital matrix module (1022) is connected with the node controller (104) through the video encoder (1023), and the video encoder (1023) is used for compressing codes input through the digital matrix module (1022) into network streams and outputting the network streams.

4. The industrial internet of things control system according to claim 1, wherein: the terminal equipment group (103) comprises water pump equipment, mechanical equipment and aeration equipment for industrial sewage treatment.

5. The industrial internet of things control system according to claim 1, wherein: the industrial field acquisition node (100) further comprises a wireless transmission module connected with the node controller (104), and the wireless transmission module adopts one of a Zigbee wireless transmission module, a GPRS wireless transmission module and a LoRa wireless transmission module.

6. The industrial internet of things control system according to claim 1, wherein: the central monitoring platform (400) is composed of a central monitoring server (401), a command terminal (402), a video server (403) and a monitoring television wall (404), the central monitoring server (401) is connected with the command terminal (402), the video server (403) is connected with the monitoring television wall (404), the central monitoring server (401) is used for receiving a final data result obtained through analysis and calculation of the cloud server (300) and outputting the data result to the command terminal (402), emergency and early warning instructions are input and network output through the command terminal (402), and meanwhile the video server (403) performs matrix display through the monitoring television wall (404) according to received processed video data.

7. The industrial internet of things control system according to claim 1, wherein: the mobile terminal (500) comprises a PC, a mobile phone or a Pad.

8. The operation method of the industrial internet of things control system according to any one of claims 1 to 7, wherein: the method comprises the following steps:

s1, collecting the temperature, pressure, flow and water quality field parameter data of the sewage conveying pipeline through a sensor group (101) in an industrial field collecting node (100), the video monitoring unit (102) is used for collecting field video data of industrial sewage treatment, the collected video sources are subjected to distributed design, layout and coding compression to form network flow, then the collected field parameter data are transmitted to the node controller (104), the node controller (104) is used for analyzing and processing whether the collected field parameters are abnormal or not, when the temperature and pressure in the pipeline suddenly change or the video monitoring obtains an emergency, the node controller (104) sends an alarm instruction to the field alarm module (106) to carry out field alarm processing, when the data is normal, the node controller (104) correspondingly controls the terminal equipment group (103) according to a set programming program to implement sewage treatment;

s2, after the field parameter data acquired by the industrial field acquisition node (100) are read through the intelligent gateway (200) and subjected to protocol conversion and processing, the data are uploaded to the central monitoring platform (400) through the local area network, and the central monitoring platform (400) primarily processes the data and forwards the data to the cloud server (300) through the Internet;

s3, the cloud server (300) stores, analyzes and calculates the data uploaded through the Internet, and then transmits the calculation result and the decision instruction back to the central monitoring platform (400);

s4, the central monitoring platform (400) performs remote video wall monitoring display according to the data processing operation result and the decision instruction returned by the cloud server (300) and transmits a control and early warning instruction to the industrial field acquisition node (100) through the local area network;

and S5, controlling the action of the executing mechanism of the terminal equipment group (103) by the node controller (104) according to the received control instruction, and implementing remote supervision.

9. The operation method of the industrial internet of things control system according to claim 8, characterized in that: in S3, the user may access the cloud server (300) by connecting to the internet through the mobile terminal (500).