CN112964847A - Big data sewage monitoring system based on thing networking - Google Patents

Abstract

The invention discloses a big data sewage monitoring system based on the Internet of things, which belongs to the technical field of sewage treatment monitoring and comprises an Internet of things communication module and a cloud treatment center, wherein the output end of the cloud treatment center is connected with a sewage treatment unit, the input end of the sewage treatment unit is connected with a change intervention unit, the input end of the change intervention unit is connected with the Internet of things communication module, and the input end of the Internet of things communication module is connected with the output end of the cloud treatment center. According to the invention, multiple data can be accurately judged through an algorithm, when an enterprise steals, arranges and leaks, the routing inspection alarm module of the change intervention unit drives the linkage routing inspection personnel to carry out parking sudden inspection on a plant area, the power control module can carry out remote power-off treatment on the discharge equipment when an alarm is obtained, the environmental pollution caused by continuous steal and arrangement of sewage is avoided, the judgment precision is obviously improved by matching the algorithm with the big data water level database, and the integral use requirement is met.

Description

Big data sewage monitoring system based on thing networking

Technical Field

The invention belongs to the technical field of sewage treatment monitoring, and particularly relates to a big data sewage monitoring system based on the Internet of things.

Background

The internet of things is that any object or process needing monitoring, connection and interaction is collected in real time through various devices and technologies such as various information sensors, radio frequency identification technologies, global positioning systems, infrared sensors, laser scanners and the like, and has an indispensable effect in system monitoring and processing of sewage treatment.

Chinese patent document CN106249676A discloses a water pollution treatment facility monitoring system based on internet and a method thereof, belonging to the technical field of sewage monitoring. The system solves the problem that the sewage supervision difficulty is high in the prior art, the Internet-based water pollution treatment facility monitoring system is composed of a cloud data center, a plurality of sewage monitoring terminals and a remote monitoring center, a regional water environment pollution treatment strategy is formed, the supervision difficulty of the sewage discharge condition is reduced, but when the system is in actual use, certain shortage still exists, image data is observed only through the sewage monitoring terminals, the gathering and analyzing capacity of a large amount of data is lacked, the judgment efficiency is influenced, management and control means are lacked, only responsibility treatment can be carried out after monitoring is detected, the stealing, draining and leaking conditions cannot be timely prevented, and the sewage monitoring requirement cannot be well met.

Disclosure of Invention

The invention aims to: the big data sewage monitoring system based on the Internet of things aims to solve the problems that image data are observed only through a sewage monitoring terminal, the gathering and analyzing capacity of a large amount of data is lacked, the judging efficiency is influenced, meanwhile, a management and control means is lacked, only responsibility tracing processing can be carried out after monitoring is detected, the situations of stealing, draining, leaking and discharging cannot be prevented in time, and the sewage monitoring needs cannot be well met.

In order to achieve the purpose, the invention adopts the following technical scheme:

a big data sewage monitoring system based on the Internet of things comprises an Internet of things communication module and a cloud processing center, wherein the output end of the cloud processing center is connected with a sewage processing unit, the input end of the sewage processing unit is connected with a change intervention unit, the input end of the change intervention unit is connected with the Internet of things communication module, the input end of the Internet of things communication module is connected with the output end of the cloud processing center, the output end of the cloud processing center is connected with a database unit, the output end of the database unit is communicated with a comparison module, and the output end of the comparison module is connected with the input end of the cloud;

the cloud processing center is used for calling and processing the database unit, the internet of things communication module is used for providing internet of things communication support, the change intervention unit is used for giving an alarm through internet of things communication to carry out emergency treatment on the sewage treatment unit, the comparison module is used for comparing and judging historical data of the database unit, and the database unit is used for providing data support.

As a further description of the above technical solution:

the sewage treatment unit comprises a drain outlet remote sensing camera, a sludge thickness monitor, a pH value monitoring module, a water level data monitoring module, an operation parameter module, a flow monitoring module and a sewage discharge device monitoring module, wherein the drain outlet remote sensing camera, the sludge thickness monitor, the pH value monitoring module, the water level data monitoring module, the operation parameter module, the flow monitoring module and the sewage discharge device monitoring module are fixedly assembled at the corresponding position of a sewage treatment pipeline of an enterprise, the input ends of the drain outlet remote sensing camera, the sludge thickness monitor, the pH value monitoring module, the water level data monitoring module, the operation parameter module, the flow monitoring module and the sewage discharge device monitoring module are connected with the output end of the cloud treatment center, and the input ends of the drain outlet remote sensing camera, the sludge thickness monitor, the pH value monitoring module, the water level data monitoring module, the operation parameter module, the pH, The flow monitoring module and the input end of the sewage disposal equipment monitoring module are connected with the output end of the change intervention unit, the drain remote sensing camera is used for carrying out camera monitoring on a drain, the sludge thickness monitor is used for detecting the sludge deposition thickness of the drain, the pH value monitoring module is used for detecting the pH value monitoring module of sewage of the drain, the water level data monitoring module is used for detecting the water level of a water outlet, and the operation parameter module is used for detecting the operation parameters of the sewage disposal equipment.

As a further description of the above technical solution:

the unit is intervene in the change is including patrolling and examining alarm module and electric control module, electric control module is connected with sewage treatment unit's input, and patrols and examines alarm module input and electric control module input and all be connected with thing networking communication module output, it is connected with electric control module communication to patrol and examine alarm module, it is used for carrying out quick response to patrolling and examining the warning to patrol and examine alarm module, electric control module is used for controlling sewage treatment unit's waste fitting discharging equipment and carries out electric control.

As a further description of the above technical solution:

the database unit comprises a comparison strategy base, wherein the input end of the comparison strategy base is respectively connected with a water level database, a tide data module, a season classification module and a critical value judgment module, the input end of the comparison strategy base is connected with the output end of the comparison module, the comparison strategy base, the water level database, the tide data module, the season classification module and the critical value judgment module are all connected with the output end of the cloud processing center, the comparison strategy base is used for collecting data in the database to provide a comparison analysis strategy, the water level database is used for collecting water level data of a discharge position, the tide data module is used for collecting tide fluctuation data, the season classification module is used for analyzing the season data, and the critical value judgment module is used for judging a dangerous discharge critical value.

As a further description of the above technical solution:

the comparison module is a big data analysis algorithm model.

As a further description of the above technical solution:

the comparison strategy library is an algorithm database.

As a further description of the above technical solution:

the cloud processing center is a cloud computing center and is used for improving processing computing resources.

As a further description of the above technical solution:

the internet of things communication module is a zigbee module.

As a further description of the above technical solution:

the patrol inspection alarm module patrol inspection personnel are also provided with a mobile terminal alarm App, and the patrol inspection alarm module is communicated with the cloud processing center through the Internet of things communication module.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. according to the invention, through the designed database unit, when data detected in the sewage treatment unit can be processed through the rear cloud processing center and then transmitted to the database unit, the database unit stores daily data and then is networked to obtain other auxiliary judgment data, meanwhile, the judgment data is compared with a comparison strategy library in the database through a comparison module, so that multiple data can be accurately judged through an algorithm, when an enterprise steals, drains and leaks, a routing inspection alarm module of a change intervention unit drives a linkage routing inspection worker to stop and inspect suddenly in a plant area, and an electric control module can carry out remote power-off treatment on a discharge device when obtaining an alarm, so that the environmental pollution caused by continuous steal and drain of sewage is avoided, the judgment precision is remarkably improved through the algorithm matched with a large data water level database, and the integral use requirement is met.

2. In the invention, the remote sensing contrast detection can be rapidly and conveniently carried out by a cloud processing center through the drain remote sensing camera, the sludge thickness monitor can calculate and judge the particle deposition rate after sewage treatment through a calculation center, the pH value monitoring module is used for detecting the pH value of sewage at the drain, and whether the output discharge reaches the standard or not can be conveniently judged through the acid-base change, and the water level data monitoring module is used for detecting the water level of the water outlet and judging whether the discharge flow exceeds the standard or not, the operation parameter module can collect the operation parameters of the enterprise sewage discharge equipment and judge whether the load is carried or not by uploading the operation parameters to the database unit, meanwhile, the communication cost and the communication delay are reduced through the communication module of the Internet of things, the alarm precision is improved, and then can detect through the multiple data to enterprise's discharge gate department to can improve and judge that it leaks to arrange the precision and restrict the judgement condition, effectively improve judgement efficiency.

Drawings

FIG. 1 is a system block diagram of a big data sewage monitoring system based on the Internet of things, which is provided by the invention;

FIG. 2 is a system diagram of a change intervention unit of a big data sewage monitoring system based on the Internet of things, which is provided by the invention;

FIG. 3 is a system diagram of a database unit of a big data sewage monitoring system based on the Internet of things, which is provided by the invention;

FIG. 4 is a system diagram of a sewage treatment unit of the big data sewage monitoring system based on the Internet of things.

Illustration of the drawings:

1. the Internet of things communication module; 2. a sewage treatment unit; 201. a drain remote sensing camera; 202. a sludge thickness monitor; 203. a pH value monitoring module; 204. a water level data monitoring module; 205. an operating parameter module; 206. a flow monitoring module; 207. a waste monitoring module; 3. a change intervention unit; 301. a patrol alarm module; 302. a power control module; 4. a cloud processing center; 5. a database unit; 501. Comparing the strategy library; 502. a water level database; 503. a season classification module; 504. a tidal data module; 505. a critical value judging module; 6. and a comparison module.

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.

Example one

Referring to fig. 1-4, the present invention provides a technical solution: a big data sewage monitoring system based on the Internet of things comprises an Internet of things communication module 1 and a cloud processing center 4, wherein the output end of the cloud processing center 4 is connected with a sewage processing unit 2, the input end of the sewage processing unit 2 is connected with a change intervention unit 3, the input end of the change intervention unit 3 is connected with the Internet of things communication module 1, the input end of the Internet of things communication module 1 is connected with the output end of the cloud processing center 4, the output end of the cloud processing center 4 is connected with a database unit 5, the output end of the database unit 5 is communicated with a comparison module 6, and the output end of the comparison module 6 is connected with the input end of the cloud processing;

cloud processing center 4 is used for calling and handling database unit 5, thing networking communication module 1 is used for and provides thing networking communication support, change intervention unit 3 is used for reporting an emergency to sewage treatment unit 2 through thing networking communication, contrast module 6 is used for contrasting the judgement to 5 years 'data of database unit, database unit 5 is used for providing data support, change intervention unit 3 is including patrolling and examining alarm module 301 and power control module 302, power control module 302 is connected with sewage treatment unit 2's input, and patrols and examines alarm module 301 input and power control module 302 input and all be connected with thing networking communication module 1 output, it is connected with power control module 302 communication to patrol and examine alarm module 301, it is used for patrolling and examining alarm module 301 and is patrolling and examining the warning and carry out quick response, the power control module 302 is used for controlling the sewage disposal equipment of the sewage treatment unit 2 to perform power control, the database unit 5 comprises a comparison strategy library 501, the input end of the comparison strategy library 501 is respectively connected with a water level database 502, a tide data module 504, a season classification module 503 and a critical value judgment module 505, the input end of the comparison strategy library 501 is connected with the output end of the comparison module 6, the comparison strategy library 501, the water level database 502, the tide data module 504, the season classification module 503 and the critical value judgment module 505 are all connected with the output end of the cloud processing center 4, the comparison strategy library 501 is used for collecting data in the database to provide a comparison analysis strategy, the water level database 502 is used for collecting water level data at a discharge position, the tide data module 504 is used for collecting tide rise and fall data, the season classification module 503 is used for analyzing the season data, the critical value judgment module 505 is configured to judge a critical value of the hazardous discharge, the comparison module 6 is a big data analysis algorithm model, the comparison policy library 501 is an algorithm database, and the cloud processing center 4 is a cloud computing center and is configured to improve processing computing resources.

The implementation mode is specifically as follows: when data detected in the sewage treatment unit 2 can be processed by the rear cloud processing center 4 and then transmitted to the database unit 5, the database unit 5 stores daily data and then networks to obtain other auxiliary judgment data, the comparison strategy library 501 in the database unit 5 can collect multiple comparison algorithms to improve multiple data of discharge amount, discharge acidity and alkalinity, sludge precipitation, discharge water level and equipment operation parameters, the water level database 502 can store multiple judgment data input by the sewage treatment unit 2, the season classification module 503 and the tide data module 504 can obtain the annual season data and multiple data of the tide data auxiliary water level database 502 through networking to classify a sieve plate, the monitoring precision of sewage discharge treatment is prevented from being influenced by seasons and tide factors, and the critical value judgment module 505 can facilitate background personnel to set critical value alarm, and can be updated in real time through the algorithm of the comparison strategy library 501, so that data adaptation is convenient to be carried out when the emission changes are generated in the enterprise replacement production process, the monitoring adaptability is improved, whether the emission data obtained through the algorithm by the comparison module 6 component comparison model is normal or not is convenient, the real-time monitoring precision of the emission data is improved, the comparison module 6 is used for comparing the judgment data with the comparison strategy library 501 in the database in an algorithm manner, so that the multiple data can be accurately judged by the algorithm, when the enterprise steals and discharges the sewage, the routing inspection alarm module 301 of the change intervention unit 3 drives the linkage routing inspection personnel to perform parking sudden inspection in a factory, the power control module 302 can perform remote power-off treatment on the discharge equipment when the alarm is obtained, thereby avoiding environmental pollution caused by continuous steal and discharge of the sewage, the judgment precision is obviously improved by matching the algorithm with a big data database, and the integral use requirement is met.

Example two

Different from the embodiment 1, the embodiment further discloses a big data sewage monitoring system based on the internet of things, which further comprises a sewage treatment unit 2, wherein the sewage treatment unit 2 comprises a sewage draining port remote sensing camera 201, a sludge thickness monitor 202, a pH value monitoring module 203, a water level data monitoring module 204, an operation parameter module 205, a flow monitoring module 206 and a sewage discharging equipment monitoring module 207, the sewage draining port remote sensing camera 201, the sludge thickness monitor 202, the pH value monitoring module 203, the water level data monitoring module 204, the operation parameter module 205, the flow monitoring module 206 and the sewage discharging equipment monitoring module 207 are fixedly assembled at corresponding positions of an enterprise sewage treatment pipeline, and the input ends of the sewage draining port remote sensing camera 201, the sludge thickness monitor 202, the pH value monitoring module 203, the water level data monitoring module 204, the operation parameter module 205, the flow monitoring module 206 and the sewage discharging equipment monitoring module 207 are connected with the output end of the cloud treatment center 4, and drain remote sensing camera 201, mud thickness monitor 202, pH value monitoring module 203, water level data monitoring module 204, operating parameter module 205, flow monitoring module 206 and sewage discharging equipment monitoring module 207 input are intervene the unit 3 output with the change and are connected, drain remote sensing camera 201 is used for making a video recording the control to the drain, mud thickness monitor 202 is used for detecting drain sludge deposit thickness, pH value monitoring module 203 is used for detecting drain sewage pH value monitoring module 203, water level data monitoring module 204 is used for detecting the outlet water level, operating parameter module 205 is used for detecting sewage discharging equipment operating parameter, change and intervene unit 3 including patrolling and examining alarm module 301 and electric control module 302, electric control module 302 is connected with sewage treatment unit 2's input, and patrols and examines alarm module 301 input and electric control module 302 input and all with 1 output of thing networking communication module 1 Connect, it is connected with electric control module 302 communication to patrol and examine alarm module 301, it is used for carrying out quick response to patrolling and examining the warning to patrol and examine alarm module 301, electric control module 302 is used for controlling sewage treatment unit 2's waste fitting discharging equipment and carries out electric control, thing networking communication module 1 is the zigbee module, it still is equipped with the removal end and reports an emergency and asks for help or increased vigilance App to patrol and examine alarm module 301, and patrol and examine alarm module 301 and pass through thing networking communication module 1 and cloud processing center 4 intercommunication.

The implementation mode is specifically as follows: the remote sensing comparison detection can be rapidly and conveniently carried out by the cloud processing center 4 through the drain remote sensing camera 201, the detection requirement on leakage discharge is improved, the sludge thickness monitor 202 can calculate and judge the particle deposition rate after sewage treatment through a calculation center and further can judge the sewage treatment condition, the pH value monitoring module 203 is used for detecting the pH value of sewage at the drain, whether the output discharge reaches the standard or not is conveniently judged through acid-base change, the water level data monitoring module 204 is used for detecting the water level of a water outlet and judging whether the discharge flow exceeds the standard or not, the operation parameter module 205 can collect the operation parameters of the sewage discharge equipment of an enterprise and judge whether overload carrying is carried out or not through uploading to the database unit 5, the inspection alarm module 301 is a man-defense linkage patrol person, and can remotely alarm when the theft discharge phenomenon is found through self patrol through the mobile terminal App and rapidly respond to the inspection alarm, meanwhile, the communication cost and the communication delay are reduced through the internet of things communication module 1, the alarm precision is improved, and then multiple data of the discharge port of an enterprise can be detected, so that the discharge missing judgment precision and the limiting judgment condition can be improved, and the judgment efficiency is effectively improved.

The working principle is as follows: when the system is used, data detected in the sewage treatment unit 2 can be processed by the rear cloud processing center 4 and then transmitted to the database unit 5, the database unit 5 stores daily data and then is networked to obtain other auxiliary judgment data, the comparison strategy library 501 in the database unit 5 can collect multiple comparison algorithms to improve multiple data of discharge amount, discharge acidity and alkalinity, sludge precipitation, discharge water level and equipment operation parameters, the water level database 502 can store multiple judgment data input by the sewage treatment unit 2, the seasonal classification module 503 and the tide data module 504 can obtain annual seasonal data and multiple data of the tide data auxiliary water level database 502 through networking to classify a sieve plate, the influence of seasonal and tide factors on the monitoring precision of sewage discharge treatment is avoided, and the critical value judgment module 505 can facilitate background personnel to set alarm critical values, and can carry out real-time update through comparison strategy storehouse 501 algorithm, conveniently change the production technology at the enterprise and produce the data adaptation when discharging the change, improve the control suitability, it is normal whether convenient contrast module 6 component contrast model reachs the emission data through the algorithm, improve the real-time monitoring precision to the emission data, carry out the algorithm contrast to comparison strategy storehouse 501 in judgement data and the database through comparison module 6, and then can carry out accurate judgement to multiple data through the algorithm, change when the enterprise steals and arranges that the row leaks and patrol inspection alarm module 301 of intervention unit 3 drives the linkage and patrol inspection personnel and carry out the parking and examine suddenly, power control module 302 can carry out long-range outage to emission equipment when obtaining reporting an emergency and asking for help or increased vigilance and handle.

The remote sensing comparison detection can be rapidly and conveniently carried out by the cloud processing center 4 through the drain remote sensing camera 201, the detection requirement on leakage discharge is improved, the sludge thickness monitor 202 can calculate and judge the particle deposition rate after sewage treatment through a calculation center and further can judge the sewage treatment condition, the pH value monitoring module 203 is used for detecting the pH value of sewage at the drain, whether the output discharge reaches the standard or not is conveniently judged through acid-base change, the water level data monitoring module 204 is used for detecting the water level of a water outlet and judging whether the discharge flow exceeds the standard or not, the operation parameter module 205 can collect the operation parameters of the sewage discharge equipment of an enterprise and judge whether overload carrying is carried out or not through uploading to the database unit 5, the inspection alarm module 301 is a man-defense linkage patrol person, and can remotely alarm when the theft discharge phenomenon is found through self patrol through the mobile terminal App and rapidly respond to the inspection alarm, meanwhile, the communication cost and the communication delay are reduced through the internet of things communication module 1.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (9)

1. The big data sewage monitoring system based on the Internet of things comprises an Internet of things communication module (1) and a cloud processing center (4), and is characterized in that the output end of the cloud processing center (4) is connected with a sewage processing unit (2), the input end of the sewage processing unit (2) is connected with a change intervention unit (3), the input end of the change intervention unit (3) is connected with the Internet of things communication module (1), the input end of the Internet of things communication module (1) is connected with the output end of the cloud processing center (4), the output end of the cloud processing center (4) is connected with a database unit (5), the output end of the database unit (5) is communicated with a comparison module (6), and the output end of the comparison module (6) is connected with the input end of the cloud processing center (4;

cloud processing center (4) are used for transferring database unit (5) and handle, thing networking communication module (1) is used for and provides thing networking communication support, change intervention unit (3) are used for reporting an emergency to sewage treatment unit (2) through thing networking communication and handle, contrast module (6) are used for comparing the judgement to database unit (5) calendar year data, database unit (5) are used for providing data support.

2. The big data sewage monitoring system based on the Internet of things as claimed in claim 1, wherein the sewage treatment unit (2) comprises a sewage draining outlet remote sensing camera (201), a sludge thickness monitor (202), a pH value monitoring module (203), a water level data monitoring module (204), an operation parameter module (205), a flow monitoring module (206) and a sewage discharging equipment monitoring module (207), the sewage draining outlet remote sensing camera (201), the sludge thickness monitor (202), the pH value monitoring module (203), the water level data monitoring module (204), the operation parameter module (205), the flow monitoring module (206) and the sewage discharging equipment monitoring module (207) are fixedly assembled at corresponding positions of an enterprise sewage treatment pipeline, and the sewage draining outlet remote sensing camera (201), the sludge thickness monitor (202), the pH value monitoring module (203), The input ends of a water level data monitoring module (204), an operation parameter module (205), a flow rate monitoring module (206) and a sewage discharge equipment monitoring module (207) are connected with the output end of a cloud processing center (4), and the input ends of a sewage drain remote sensing camera (201), a sludge thickness monitor (202), a pH value monitoring module (203), the water level data monitoring module (204), the operation parameter module (205), the flow rate monitoring module (206) and the sewage discharge equipment monitoring module (207) are connected with the output end of a change intervention unit (3), the sewage drain remote sensing camera (201) is used for carrying out camera monitoring on a sewage drain, the sludge thickness monitor (202) is used for detecting the sludge deposition thickness of the sewage drain, the pH value monitoring module (203) is used for detecting the pH value monitoring module (203) of sewage of the sewage drain, and the water level data monitoring module (204) is used for detecting the water level, the operating parameter module (205) is used for detecting operating parameters of the sewage draining equipment.

3. The big data sewage monitoring system based on thing networking of claim 1, characterized in that, change intervention unit (3) including patrolling and examining alarm module (301) and electric control module (302), electric control module (302) is connected with sewage treatment unit's (2) input, and patrols and examines alarm module (301) input and electric control module (302) input and all be connected with thing networking communication module (1) output, it is connected with electric control module (302) communication to patrol and examine alarm module (301), it is used for patrolling and examining alarm module (301) and carrying out quick response to patrolling and examining the warning, electric control module (302) are used for controlling sewage treatment unit's (2) waste fitting discharging equipment and carry out electric control.

4. The big data sewage monitoring system based on the Internet of things as claimed in claim 1, wherein the database unit (5) comprises a comparison strategy base (501), the input end of the comparison strategy base (501) is respectively connected with a water level database (502), a tide data module (504), a season classification module (503) and a critical value judgment module (505), the input end of the comparison strategy base (501) is connected with the output end of a comparison module (6), the comparison strategy base (501), the water level database (502), the tide data module (504), the season classification module (503) and the critical value judgment module (505) are all connected with the output end of a cloud processing center (4), the comparison strategy base (501) is used for collecting the data in the database to provide a comparison analysis strategy, the water level database (502) is used for collecting the water level data at the discharge position, the tide data module (504) is used for collecting tide fluctuation data, the season classification module (503) is used for analyzing the season data, and the critical value judgment module (505) is used for judging a dangerous discharge critical value.

5. The Internet of things-based big data sewage monitoring system according to claim 4, wherein the comparison module (6) is a big data analysis algorithm model.

6. The big data sewage monitoring system based on the internet of things as claimed in claim 4, wherein the comparison strategy database (501) is an algorithm database.

7. The big data sewage monitoring system based on the internet of things as claimed in claim 1, wherein the cloud processing center (4) is a cloud computing center for improving processing computing resources.

8. The big data sewage monitoring system based on the internet of things as claimed in claim 1, wherein the communication module (1) of the internet of things is a zigbee module.

9. The big data sewage monitoring system based on the Internet of things according to claim 3, wherein the patrol inspection personnel of the patrol inspection alarm module (301) are also provided with a mobile terminal alarm App, and the patrol inspection alarm module (301) is communicated with the cloud processing center (4) through the Internet of things communication module (1).

Images