CN110694218A - Fire hydrant monitored control system based on thing networking - Google Patents

Abstract

The invention provides a fire hydrant monitoring system based on the Internet of things, which comprises: the system comprises a fire hydrant monitoring system, a control system, a mobile terminal, a cloud platform, a server and a base station; and wireless communication among the fire hydrant monitoring system, the control system, the cloud platform and the mobile terminal is realized by adopting an NB-IoT wireless communication technology. The fire hydrant system based on the Internet of things is arranged on the basis of the LB-IoT wireless communication technology, the state information and the distance of each fire hydrant can be collected and sent to the fire center and the mobile terminals opened on the fire fighting truck, so that the fire center can schedule and rescue in time, and the fire truck can find the corresponding fire hydrant position in time. The invention can more conveniently and quickly monitor the state of the fire hydrant, accurately acquire information and realize the aim of high-efficiency fire extinguishing.

Description

Fire hydrant monitored control system based on thing networking

Technical Field

The invention relates to the technical field of fire fighting, in particular to a fire hydrant monitoring system based on the Internet of things.

Background

A fire is a combustion that is out of control in time or space. Most often, one of the most important disasters threatening public safety and social development most generally occurs in the case of fire. The human being can utilize and control the fire, which is an important mark of the civilization progress. So the history of human use of fire is concomitant with the history of fighting against fire. People need to be safe, escape and property to the lowest possible extent when encountering fire. Along with the development of human beings, life safety and property protection are more prominent at present.

A large amount of manpower and material resources are invested in the fire fighting field every year by China for fire fighting infrastructure. Although the water tank is greatly improved, when the water tank of the fire truck is used up; it is still difficult to find the nearest fire hydrant in time. Related departments need to adjust a construction map and look up basic construction, and whether the fire hydrant is intact or not is difficult to judge. This introduces a lot of uncertainty and unreliability. In time, namely life, it is very important to find the fire hydrant in time to judge the integrity of the fire hydrant. At present, all fire hydrants are not subjected to pressure testing and position calibration, and when a fire disaster occurs in a certain region, a fireman cannot find the nearest fire hydrant at the first time after using up the self-contained water tank. The life is higher than all, and people can be put out of a fire and saved in time; the national property and the properties of the people are protected, and the loss of the properties of the people and the national property is reduced to the minimum.

The internet of things is applicable to a fire fighting system, which is a technical means for solving the problems in the current society, however, the fire fighting system in the current market is mainly built based on a bus or a local area network, and has the defects of complex wiring, poor network function, complex maintenance and high cost. The intelligent fire hydrant system of the internet of things comprises an RFID monitoring system of a fire hydrant, a regional RFID control system, a fire truck handheld RFID system and a fire center RFID control system, wherein the RFID monitoring system is 201710541895.3; the ZIGBEE2.4G technology is adopted for communication among all parts of the system, so that the operation is simple and the control is easy; but it cannot satisfy wide-range, long-distance communication.

Disclosure of Invention

The invention aims to solve the problems and provides a fire hydrant monitoring system based on the internet of things technology and the LB-IoT wireless network communication technology, which meets the requirements of low power consumption, low bandwidth and long-distance wireless communication and can more efficiently treat fire disasters. The following technical scheme is adopted:

a fire hydrant monitoring system based on the Internet of things comprises: the system comprises a fire hydrant monitoring system, a control system, a mobile terminal, a cloud platform, a server and a base station;

the fire hydrant monitoring system adopts an RFID monitoring system and is used for monitoring the state information of the fire hydrant, and comprises a first data acquisition module and a first communication module, wherein the first data acquisition module is used for acquiring the real-time data of the fire hydrant and sending the real-time data to the base station through the first communication module;

the mobile terminal comprises a second data acquisition module and a second communication module, and is used for acquiring real-time data of the fire fighting truck and sending the real-time data to the base station through the second communication module;

the base station is connected with the mobile terminal and the fire hydrant monitoring system and used for receiving and sending real-time data information collected by the mobile terminal and the fire hydrant monitoring system;

the server is connected with the base station and used for receiving the real-time data information sent by the base station and transmitting the real-time data information to the cloud platform;

the cloud platform is used for storing and managing the real-time data information collected by the mobile terminal and the fire hydrant monitoring system in a centralized manner and analyzing the real-time data information;

the control system comprises a third communication module, a data analysis module, a human-computer interaction module, background software and a control module, and is connected with the cloud platform through the third communication module; the control system receives real-time data information of the cloud platform through a third communication module, the real-time data information is analyzed and processed through the data analysis module, the control module sends the fire position and the information of a nearby fire hydrant to the mobile terminal through the cloud platform, and workers obtain the information of the nearby fire hydrant and the information of the mobile terminal through a man-machine interaction module and background software;

the first communication module, the second communication module and the third communication module all adopt NB-IoT wireless communication technology to realize wireless communication among the fire hydrant monitoring system, the control system, the cloud platform and the mobile terminal.

The fire hydrant system based on the Internet of things is arranged on the basis of the LB-IoT wireless communication technology, the state information and the distance of each fire hydrant can be collected and sent to the fire center and the mobile terminals which are started on the fire fighting truck, so that the fire center can schedule and rescue in time, and the fire fighting truck can find out the corresponding fire fighting calculation position in time. The invention can more conveniently and quickly monitor the state of the fire hydrant, accurately acquire information and realize the aim of high-efficiency fire extinguishing.

Further, the first data collection module comprises a fire hydrant ID, a fire hydrant pressure collection module and a first positioning module. Every fire hydrant is the unique ID number of whole world, and the purpose is that prevent that the fire hydrant from repeating, leads to fire engine judgement mistake to influence the rescue. The fire hydrant pressure acquisition module acquires gas pressure in the fire hydrant, and accordingly whether the fire hydrant is in a normal state or not is judged.

Further, the first positioning module collects geographic information, the geographic information comprises a three-dimensional map and fire hydrant position distribution, and position information and distance of the fire hydrant are obtained.

Further, the second data acquisition module comprises a second positioning module for positioning the geographical position of the fire fighting truck.

Further, the first positioning module and the second positioning module adopt GPS positioners.

Furthermore, the first communication module, the second communication module and the third communication module adopt an MQTT protocol, and the MQTT protocol has excellent real-time performance and reverse control performance.

Further, the cloud platform comprises an equipment management module, a user management module, a data transmission management module and a data management module;

the equipment management module is used for managing the fire hydrant monitoring system;

the user management module is used for controlling login authority and checking the real-time data information authority;

the data transmission management module is used for acquiring the real-time data information from the server, analyzing the real-time data information according to a protocol and ensuring that the real-time data information is accurately stored to the data management module;

and the data management module is used for managing the safety of the real-time data information during loading and storing, counting or carrying out visual analysis on the real-time data information.

Furthermore, the human-computer interaction module and the background software log in the cloud platform to obtain the real-time data information, check analysis on the real-time data information, obtain states of the mobile terminal and the fire hydrant monitoring system, and further process the states according to an analysis result.

Further, the specific working content of the wireless communication module is as follows:

the base station is responsible for receiving and transmitting the real-time data information transmitted by the mobile terminal and the fire hydrant monitoring system, and gathering the real-time data information to a single return connection, so that the problem of multi-channel data concurrence is solved, and data collection and forwarding are realized;

and the server receives the real-time data information forwarded by the base station, eliminates repeated data packets, selects a self-adaptive rate, manages and selects a gateway, confirms a process and manages safety, and transmits the real-time data information to the cloud platform.

Furthermore, the control module adopts a PLC controller, so that the signal processing time is short, the speed is high, the real-time performance is strong, the reliability is high, the installation is simple, and the quality and the price are high.

The invention can obtain the following beneficial effects:

1. the fire hydrant system based on the Internet of things is arranged on the basis of the LB-IoT wireless communication technology, so that the state of the fire hydrant can be monitored more conveniently and rapidly, information can be acquired accurately, and the aim of efficiently extinguishing fire is fulfilled.

2. Compared with the prior art, the LB-IoT wireless communication technology can be reused with the existing cellular base station without re-networking; the method can realize remote communication with lower power, and has the advantages of wide coverage, mass connection, low power consumption, stability, reliability and the like.

3. According to the invention, a map and position information can be drawn according to information and regional information of the fire hydrant and sent to the on-road fire truck, and the fire center can send out related department cooperative rescue information through the control system; meanwhile, the detection information of the fire hydrant at ordinary times can be recorded, and the fire hydrant is convenient to maintain in time.

4. The invention can update the state of the fire fighting equipment in time, is convenient for knowing the state of the fire fighting equipment and makes timely adjustment.

5. The system of the invention has the characteristics of simple operation, easy control, high reliability and low cost.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

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 1:

as shown in fig. 1, a fire hydrant monitoring system based on internet of things includes: fire hydrant monitoring system, control system, mobile terminal, cloud platform, server and basic station.

The fire hydrant monitoring system adopts an RFID monitoring system and is used for monitoring state information of the fire hydrant, and comprises a first data acquisition module and a first communication module, wherein the first data acquisition module is used for acquiring real-time data of the fire hydrant and sending the real-time data to the base station through the first communication module.

The mobile terminal comprises a second data acquisition module and a second communication module, and is used for acquiring real-time data of the fire fighting truck and sending the real-time data to the base station through the second communication module.

The base station is connected with the mobile terminal and the fire hydrant monitoring system and used for receiving and sending real-time data information acquired by the mobile terminal and the fire hydrant monitoring system; the server is connected with the base station and used for receiving the real-time data information sent by the base station and transmitting the real-time data information to the cloud platform; the cloud platform is used for storing and managing the real-time data information collected by the mobile terminal and the fire hydrant monitoring system in a centralized mode and analyzing the real-time data information.

The control system comprises a third communication module, a data analysis module, a human-computer interaction module, background software and a control module, and is connected with the cloud platform through the third communication module; the control system receives real-time data information of the cloud platform through the wireless communication module, the real-time data information is analyzed and processed through the data analysis module, the control module sends fire positions and nearby fire hydrant information to the mobile terminal through the cloud platform, and workers acquire the nearby fire hydrant information and the mobile terminal information through the man-machine interaction module and the background software.

The first communication module, the second communication module and the third communication module all adopt NB-IoT wireless communication technology to realize wireless communication among the fire hydrant monitoring system, the control system, the cloud platform and the mobile terminal. The NB-IoT wireless communication technology adopts a cellular network, does not need to be rebuilt, can be reused with the existing cellular base station, such as selecting the NB-IoT network of China Mobile, and transmits all data to the OneNet Internet of things platform of China Mobile through wireless.

The fire hydrant system based on the Internet of things is arranged on the basis of the LB-IoT wireless communication technology, the state information and the distance of each fire hydrant can be collected and sent to the fire center and the mobile terminals which are started on the fire fighting truck, so that the fire center can schedule and rescue in time, and the fire fighting truck can find out the corresponding fire fighting calculation position in time. The invention can more conveniently and quickly monitor the state of the fire hydrant, accurately acquire information and realize the aim of high-efficiency fire extinguishing.

Example 2:

the fire hydrant monitoring system based on the internet of things is further improved on the basis of the embodiment 1. The first data acquisition module comprises a fire hydrant ID, a fire hydrant pressure acquisition module and a first positioning module. Every fire hydrant is the unique ID number of whole world, and the purpose is that prevent that the fire hydrant from repeating, leads to fire engine judgement mistake to influence the rescue. The fire hydrant pressure acquisition module acquires gas pressure in the fire hydrant, and accordingly whether the fire hydrant is in a normal state or not is judged. The first positioning module adopts a GPS positioner to acquire geographic information, comprises a three-dimensional map and fire hydrant position distribution and acquires position information and distance of the fire hydrant, and the second data acquisition module comprises a second positioning module and adopts the GPS positioner to position the geographic position of the fire truck; so that fire control center and fire engine in time acquire the nearest, normal fire hydrant of state of distance, save time realizes high-efficient putting out a fire, guarantees the security of the lives and property.

Example 3:

the fire hydrant monitoring system based on the internet of things is further improved on the basis of the embodiment 2. The control module of the control system adopts a PLC controller, so that the signal processing time is short, the speed is high, the real-time performance is strong, the reliability is high, the installation is simple, and the quality and the price are high; the man-machine interaction module and the background software log in a cloud platform to acquire real-time data information, wherein the real-time data information comprises state information such as internal pressure, position and distance of a fire hydrant and position information of a fire truck; the human-computer interaction module and the background software also check the analysis of the cloud platform on the real-time data information, acquire the states of the fire truck and the fire hydrant, and further process the states according to the analysis result so as to determine the fire hydrant closest to the fire truck and the fire place and shorten the rescue time.

Example 4:

the fire hydrant monitoring system based on the internet of things is further improved on the basis of the embodiment 3. The first communication module, the second communication module and the third communication module adopt an MQTT protocol, the MQTT protocol has excellent real-time performance and reverse control performance, the communication among all parts of the system is real-time and accurate, and a user can conveniently deal with the fire situation in time; the cloud platform manages all parts of the whole system and comprises an equipment management module, a user management module, a data transmission management module and a data management module. The equipment management module is used for managing a fire hydrant ID, a fire hydrant pressure acquisition module and a first positioning module of the fire hydrant monitoring system; the user management module is used for controlling login authority and checking the real-time data information authority; the data transmission management module is used for acquiring the real-time data information from the server, analyzing the real-time data information according to a protocol and ensuring that the real-time data information is accurately and unmistakably stored in the data management module; and the data management module is used for managing the safety of the real-time data information during loading and storing, counting or carrying out visual analysis on the real-time data information. A user can log in the human-computer interaction module and the background software to obtain cloud platform management data, and data of all parts of the whole system can be checked in real time.

Example 5:

the fire hydrant monitoring system based on the internet of things is further improved on the basis of the embodiment 4. In the fire hydrant monitoring system based on the internet of things, the specific communication process between the base station and the server is as follows: the base station is responsible for receiving and transmitting real-time data information transmitted by the mobile terminal and the fire hydrant monitoring system, and gathering the real-time data information to separate return connections, so that the problem of multi-channel data concurrence is solved, and data collection and forwarding are realized; the server receives the real-time data information forwarded by the base station, eliminates repeated data packets, selects a self-adaptive rate, manages and selects a gateway, confirms a process and manages safety, transmits the real-time data information to the cloud platform, ensures the accuracy of the real-time data information, and coordinates fire-fighting rescue work to the maximum extent.

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 modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (10)

1. The utility model provides a fire hydrant monitored control system based on thing networking which characterized in that includes: the system comprises a fire hydrant monitoring system, a control system, a mobile terminal, a cloud platform, a server and a base station;

the fire hydrant monitoring system adopts an RFID monitoring system and is used for monitoring the state information of the fire hydrant, and comprises a first data acquisition module and a first communication module, wherein the first data acquisition module is used for acquiring the real-time data of the fire hydrant and sending the real-time data to the base station through the first communication module;

the mobile terminal comprises a second data acquisition module and a second communication module, and is used for acquiring real-time data of the fire fighting truck and sending the real-time data to the base station through the second communication module;

the base station is connected with the mobile terminal and the fire hydrant monitoring system and used for receiving and sending real-time data information collected by the mobile terminal and the fire hydrant monitoring system;

the server is connected with the base station and used for receiving the real-time data information sent by the base station and transmitting the real-time data information to the cloud platform;

the cloud platform is used for storing and managing the real-time data information collected by the mobile terminal and the fire hydrant monitoring system in a centralized manner and analyzing the real-time data information;

the control system comprises a third communication module, a data analysis module, a human-computer interaction module, background software and a control module, and is connected with the cloud platform through the third communication module; the control system receives real-time data information of the cloud platform through a wireless communication module, the real-time data information is analyzed and processed through the data analysis module, the control module sends the fire position and the information of nearby fire hydrants to the mobile terminal through the cloud platform, and workers obtain the information of the nearby fire hydrants and the information of the mobile terminal through a man-machine interaction module and background software;

the first communication module, the second communication module and the third communication module all adopt NB-IoT wireless communication technology to realize wireless communication among the fire hydrant monitoring system, the control system, the cloud platform and the mobile terminal.

2. The internet of things-based fire hydrant monitoring system of claim 1, wherein the first data collection module comprises a fire hydrant ID, a fire hydrant pressure collection module, and a first location module.

3. The internet of things-based fire hydrant monitoring system according to claim 2, wherein the first location module collects geographical information including a three-dimensional map and a fire hydrant location distribution.

4. The internet of things-based fire hydrant monitoring system of claim 3, wherein the second data collection module includes a second location module for locating the geographical location of the fire engine.

5. The internet of things-based fire hydrant monitoring system according to claim 4, wherein the first positioning module and the second positioning module employ GPS locators.

6. The internet of things-based fire hydrant monitoring system according to claim 1, wherein the first communication module, the second communication module and the third communication module adopt MQTT protocol.

7. The internet of things-based fire hydrant monitoring system according to claim 1, wherein the cloud platform includes an equipment management module, a user management module, a data transmission management module and a data management module;

the equipment management module is used for managing the fire hydrant monitoring system;

the user management module is used for controlling login authority and checking the real-time data information authority;

the data transmission management module is used for acquiring the real-time data information from the server, analyzing the real-time data information according to a protocol and ensuring that the real-time data information is accurately stored to the data management module;

and the data management module is used for managing the safety of the real-time data information during loading and storing, counting or carrying out visual analysis on the real-time data information.

8. The internet-of-things-based fire hydrant monitoring system according to claim 1, wherein the human-computer interaction module and background software log on the cloud platform to obtain the real-time data information, check analysis of the real-time data information, obtain states of the mobile terminal and the fire hydrant monitoring system, and perform further processing according to the analysis result.

9. The internet-of-things-based fire hydrant monitoring system according to claim 1, wherein the wireless communication module specifically works as follows:

the base station is responsible for receiving and transmitting the real-time data information transmitted by the mobile terminal and the fire hydrant monitoring system, and gathering the real-time data information to a single return connection, so that the problem of multi-channel data concurrence is solved, and data collection and forwarding are realized;

and the server receives the real-time data information forwarded by the base station, eliminates repeated data packets, selects a self-adaptive rate, manages and selects a gateway, confirms a process and manages safety, and transmits the real-time data information to the cloud platform.

10. The internet of things-based fire hydrant monitoring system according to claim 1, wherein the control module employs a PLC controller.

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