CN111192476A - Public safety protection system of wisdom city - Google Patents

Abstract

The invention discloses a public safety protection system for a smart city, and relates to the field of smart city construction, wherein the public safety protection system comprises an Internet of things cloud platform, a database server, mobile terminal equipment, a gateway, a traffic monitoring system, a weather monitoring system and a fire monitoring system; the traffic monitoring system, the weather monitoring system and the fire monitoring system are all connected with the Internet of things cloud platform through gateways by adopting a WiFi technology; the data information collected by the traffic monitoring system, the weather monitoring system and the fire monitoring system is uploaded to an Internet of things cloud platform through a wireless network, the data information is screened and analyzed through the Internet of things cloud platform, and the information is forwarded or stored in a database server according to corresponding rule logic for storage and subsequent operation; the mobile terminal equipment sends and receives data information forwarded by the Internet of things cloud platform; the mobile terminal device communicates with the database server through a wireless network. The security system is high in convenience and safety, and solves the problem that the existing security system is single in mode.

Description

Public safety protection system of wisdom city

Technical Field

The invention relates to the technical field of smart city construction, in particular to a public safety protection system for a smart city.

Background

With the rapid development of national economy and the continuous acceleration of urbanization process, the construction of smart cities becomes an important content in the urbanization construction. A smart city is a complex system that includes mainly education, medical, traffic, logistics, energy, and environmental protection, among others. In the future, the infrastructure of the smart city mainly comprises cloud, Internet of things, a data lake, artificial intelligence and video networking, so that the island construction of the city is broken, and ubiquitous connection and inexhaustible intelligence are realized. The construction of smart cities is not supported by advanced scientific technologies, such as the internet of things technology. With the development and maturity of the internet of things technology, the internet of things technology has been deeply involved in all links of smart city construction. The internet of things is a network example that intelligent entities continuously generate data, objects and interconnection among the objects, and realize data transmission through the internet.

With the continuous improvement of the living standard of people, safety has become one of the focus of people's attention. People pay more and more attention to various public safety problems and put forward higher and higher requirements. Such as public transportation safety, fire warnings, weather forecasts, and the like. At present, the protection mode of the existing public safety protection system is single, the functions of traffic monitoring, weather monitoring, fire monitoring and the like cannot be simultaneously considered, most of the public safety protection systems are wired safety protection systems, and the problems of line aging, short service life and cost increase exist.

Disclosure of Invention

The invention provides a public safety protection system for a smart city, which aims to solve the problems of the conventional public safety protection system.

The technical scheme adopted by the invention for solving the technical problem is as follows:

the invention discloses a public safety protection system for a smart city, which mainly comprises: the system comprises an Internet of things cloud platform, a database server, mobile terminal equipment, a gateway, a traffic monitoring system, a weather monitoring system and a fire monitoring system; the traffic monitoring system, the weather monitoring system and the fire monitoring system are all connected with the Internet of things cloud platform through gateways by adopting a WiFi technology; the data information collected by the traffic monitoring system, the weather monitoring system and the fire monitoring system is uploaded to an Internet of things cloud platform through a wireless network, the received data information is screened and analyzed through the Internet of things cloud platform, and the information is forwarded or transferred to a database server for storage and subsequent operation according to corresponding rule logic; the mobile terminal equipment sends and receives data information forwarded by the Internet of things cloud platform; the mobile terminal device communicates with a database server through a wireless network.

Further, a multi-user mutual-aid safety feedback mechanism is constructed through social attributes of the APP and the WeChat applet in the mobile terminal equipment, when the subsystems at all levels upload alarm data to the Internet of things cloud platform, the APP and the WeChat applet in the corresponding mobile terminal equipment are notified through a message forwarding mechanism, and the user is waited to relieve the alarm; when the user is not processed within a certain time, the alarm data is forwarded to other closer users through the Internet of things cloud platform, a higher-level response strategy is realized, and a multi-user mutual-help security feedback mechanism is realized.

Furthermore, the traffic monitoring system comprises a traffic command center, a display, an electronic map, a voice broadcaster, a central processing unit, a monitor, an alarm, a vehicle-mounted GPS positioning module and a first wireless network data transmission module;

the electronic map is arranged in a display, and the display, the alarm, the voice broadcaster and the first wireless network data transmission module are all connected with the central processing unit;

the monitoring devices are respectively arranged on two sides of a road, image information of the vehicle is obtained through the monitoring devices, and the image information of the vehicle is transmitted to the central processing unit through the first wireless network data transmission module;

the vehicle-mounted GPS positioning modules are respectively arranged on the vehicle, acquire the position information of the vehicle through the vehicle-mounted GPS positioning modules and transmit the position information of the vehicle to the central processing unit through the first wireless network data transmission module;

the central processing unit processes the received vehicle information, converts the vehicle information into a data format which can be displayed by an electronic map, and transmits the data format to the display to display the vehicle information through the electronic map; meanwhile, the central processing unit forms an electronic fence and a dredging strategy through image information and position information of the vehicle, and the central processing unit carries out voice broadcast on the established electronic fence and the dredging strategy;

the central processing unit processes the received vehicle information and uploads the vehicle information to the traffic command center and the Internet of things cloud platform through the first wireless network data transmission module.

Further, the weather monitoring system comprises a weather station, a wind sensor, a light intensity sensor, a temperature sensor, a humidity sensor, a rainfall monitoring module, a PM2.5 sensor, an SO₂The system comprises a sensor, a NO sensor, a CO sensor, an air pressure sensor, a microprocessor, a second wireless network data transmission module and an alarm module;

the wind sensor, the light intensity sensor, the temperature sensor, the humidity sensor, the water quantity monitoring module, the PM2.5 sensor and the SO₂The sensor, the NO sensor, the CO sensor and the air pressure sensor are all connected with the microprocessor through a second wireless network data transmission module, the alarm module is connected with the microprocessor, and the microprocessor is connected with the weather station through the second wireless network data transmission module;

wind speed data collected by the wind sensor, illumination intensity data collected by the light intensity sensor, air temperature data collected by the temperature sensor, air humidity data collected by the humidity sensor, rainfall data collected by the rainfall monitoring module, concentration data of fine particulate matters in air collected by the PM2.5 sensor, and SO₂SO in air collected by sensor₂The concentration data, the NO concentration data in the air collected by the NO sensor, the CO concentration data in the air collected by the CO sensor and the atmospheric pressure data collected by the air pressure sensor are transmitted to the microprocessor through the second wireless network data transmission module, the microprocessor processes various weather information, converts the weather information into a displayable data format, uploads the displayable data format to the weather station through the second wireless network data transmission module, and uploads the data format to the Internet of things cloud platform through the second wireless network data transmission module and the gateway, so that information interaction, data transmission, data reporting and storage are realized; meanwhile, the microprocessor judges various weather information, and if the numerical value of the weather information is greater than a set threshold value, the microprocessor sends a trigger signal to the alarm module to enable the alarm module to alarm; setting thresholds of various weather information in a microprocessor, comparing and calculating when the weather information is received, and controlling an alarm module according to a comparison result; if the wind speed data acquired by the wind sensor is greater than the set wind speed threshold, the microprocessor triggers a first alarm in the alarm module to alarm; if the illumination intensity data acquired by the light intensity sensor is greater than the set illumination intensity threshold value, the microprocessor triggers a second alarm in the alarm module to alarm; if the air temperature data acquired by the temperature sensor is greater than the set air temperature threshold, the microprocessor triggers a third alarm in the alarm module to alarm; if the air humidity data acquired by the humidity sensor is greater than the set air humidity threshold value, the microprocessor triggers a fourth alarm in the alarm module to alarm; if the rainfall data collected by the rainfall monitoring module is larger than the set rainfall threshold, the microprocessor triggers a fifth alarm in the alarm module to alarm; if the concentration data of the fine particulate matters in the air collected by the PM2.5 sensor is greater than the set concentration threshold of the fine particulate matters, the microprocessor triggers a sixth alarm in the alarm module to alarm; if SO₂SO in air collected by sensor₂Concentration data greater than set SO₂If the concentration is the threshold value, the microprocessor triggers a seventh alarm in the alarm module to alarm; if the NO concentration data in the air collected by the NO sensor is larger than the set NO concentration thresholdIf the value is positive, the microprocessor triggers an eighth alarm in the alarm module to alarm; if the CO concentration data in the air collected by the CO sensor is larger than the set CO concentration threshold, the microprocessor triggers a ninth alarm in the alarm module to alarm; and if the atmospheric pressure data acquired by the atmospheric pressure sensor is greater than the set atmospheric pressure threshold value, the microprocessor triggers a tenth alarm in the alarm module to alarm.

Furthermore, the fire monitoring system comprises a fire alarm command center, a main controller, a buzzer alarm module, a 2.4GHz wireless transceiver module, a smoke sensor, a temperature monitoring module, and CO₂The device comprises a sensor and an image acquisition module;

the smoke particle signals collected by the smoke sensor are sent to the main controller through the 2.4GHz wireless transceiving module, the temperature data collected by the temperature monitoring module are sent to the main controller through the 2.4GHz wireless transceiving module, and CO is₂CO collected by sensor₂The concentration data is sent to the main controller through the 2.4GHz wireless transceiving module, the field image data acquired by the image acquisition module is sent to the main controller through the 2.4GHz wireless transceiving module, and the main controller receives the smoke particle signal, the temperature data and the CO₂The concentration data and the field image data are respectively processed, and then the converted data are uploaded to a fire alarm command center and an Internet of things cloud platform through a 2.4GHz wireless transceiver module; at the same time, the main controller processes the smoke particle signal, temperature data, and CO₂The concentration data are respectively compared and judged, and when the smoke particle signal is greater than a set threshold value, a first buzzer alarm in a buzzer alarm module is triggered by the main controller to alarm; when the temperature is higher than a set threshold value, a second buzzer alarm in the buzzer alarm module is triggered by the main controller to alarm; when CO is present₂When the concentration is greater than the set threshold value, a third buzzer alarm in the buzzer alarm module is triggered by the main controller to alarm.

The invention has the beneficial effects that: the invention discloses a public safety protection system for a smart city, which mainly comprises an Internet of things cloud platform, a database server, mobile terminal equipment, a gateway, a traffic monitoring system, a weather monitoring system and a fire monitoring system. The invention adopts flexible design, has better convenience and safety, integrates the functions of traffic monitoring, weather monitoring, fire monitoring and the like, and can solve the problem of single functionality of other security systems. Meanwhile, the invention constructs a multi-user mutual-help security feedback mechanism by utilizing the social attributes of APP, WeChat small programs and the like in the mobile terminal equipment. After the subsystems at all levels upload alarm data to the Internet of things cloud platform, informing the corresponding APP and the WeChat applet in the mobile terminal equipment through a message forwarding mechanism, and waiting for the user to remove the alarm. When the user does not process the alarm data within a certain time, the alarm data is forwarded to other closer users through the Internet of things cloud platform, a higher-level response strategy is realized, and a multi-user mutual-help security feedback mechanism is realized.

Compared with other security systems, the smart city public safety protection system has higher safety and higher market application value.

Drawings

Fig. 1 is a block diagram of a public safety protection system of a smart city according to the present invention.

Fig. 2 is a block diagram of a traffic monitoring system.

FIG. 3 is a block diagram of a weather monitoring system.

Fig. 4 is a block diagram of a fire monitoring system.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, the public safety protection system for smart city of the present invention mainly includes: the system comprises an Internet of things cloud platform, a database server, mobile terminal equipment, a gateway, a traffic monitoring system, a weather monitoring system and a fire monitoring system.

The invention takes a traffic monitoring system, a weather monitoring system and a fire monitoring system as the most basic perception layers, and utilizes the sensing technology to acquire various dynamic information in real time to form technical information for network transmission. The perception layer can better adapt to different places and different security and protection needs in daytime and at night.

The invention takes an internet of things cloud platform, a database server and a gateway as network layers and transmits technical information in real time through a wired or wireless network.

The invention takes the mobile terminal equipment as an application layer, can provide real-time services such as equipment information inquiry display, fault reminding, safety condition alarm and push and the like for clients through application, and can also construct a safety feedback mechanism in a multi-stage mutual assistance mode by utilizing an APP or a WeChat applet in the mobile terminal equipment so as to improve the public safety feedback efficiency.

The traffic monitoring system, the weather monitoring system and the fire monitoring system are all connected with the Internet of things cloud platform through gateways by adopting a mature WiFi technology, all data information collected by the traffic monitoring system, the weather monitoring system and the fire monitoring system is uploaded to the Internet of things cloud platform through a wireless network, the received data information is screened and analyzed through the Internet of things cloud platform, and message forwarding or transferring is carried out according to corresponding rule logic to a database server for storage and subsequent operation; the mobile terminal equipment can send and receive data information forwarded by the Internet of things cloud platform, and management, distribution, forwarding and the like of the data information are achieved through the Internet of things cloud platform. The mobile terminal device can also directly communicate with the database server through the wireless network to perform corresponding data operation, for example, the generated new data information is stored in the database server, and the internet of things cloud platform and the mobile terminal device can call the data information from the database server for use.

The invention constructs a multi-user mutual-assistance security feedback mechanism by utilizing the social attributes of APP, WeChat small programs and the like in the mobile terminal equipment. After the subsystems at all levels upload alarm data to the Internet of things cloud platform, informing the corresponding APP and the WeChat applet in the mobile terminal equipment through a message forwarding mechanism, and waiting for the user to remove the alarm. When the user does not process the alarm data within a certain time, the alarm data is forwarded to other closer users through the Internet of things cloud platform, a higher-level response strategy is realized, and a multi-user mutual-help security feedback mechanism is realized.

As shown in fig. 2, the traffic monitoring system mainly comprises a traffic command center, a display, an electronic map, a voice broadcaster, a central processing unit, a monitor, an alarm, a vehicle-mounted GPS positioning module, and a first wireless network data transmission module.

The electronic map is arranged in the display. The display, the alarm, the voice broadcast device and the first wireless network data transmission module are all connected with the central processing unit. The voice broadcast device is used for voice broadcast.

The monitoring devices are respectively arranged on two sides of the road, acquire image information of the vehicle through the monitoring devices and transmit the image information of the vehicle to the central processing unit through the first wireless network data transmission module.

The vehicle-mounted GPS positioning modules are respectively arranged on the vehicle, acquire the position information of the vehicle through the vehicle-mounted GPS positioning modules and transmit the position information of the vehicle to the central processing unit through the first wireless network data transmission module.

The central processing unit processes the received vehicle information, converts the vehicle information into a data format which can be displayed by the electronic map, and transmits the data format to the display to display the vehicle information through the electronic map; meanwhile, the central processing unit forms an electronic fence and a dredging strategy through the image information and the position information of the vehicle, and the central processing unit carries out voice broadcast on the established electronic fence and the dredging strategy.

The central processing unit processes the received vehicle information and uploads the vehicle information to the traffic command center and the Internet of things cloud platform through the first wireless network data transmission module.

As shown in FIG. 3, the weather monitoring system mainly comprises a weather station, a wind sensor, a light intensity sensor, a temperature sensor, a humidity sensor, a rainfall monitoring module, a PM2.5 sensor, an SO₂The device comprises a sensor, a NO sensor, a CO sensor, an air pressure sensor, a microprocessor, a second wireless network data transmission module and an alarm module.

Wind sensor, light intensity sensor, temperature sensor, humidity sensor, water quantity monitoring module, PM2.5 sensor, SO₂SensingThe device, the NO sensor, the CO sensor and the air pressure sensor are all connected with the microprocessor through a second wireless network data transmission module. The alarm module is connected with the microprocessor. The microprocessor is connected with the weather station through a second wireless network data transmission module.

The wind sensor is used for collecting wind speed data, the light intensity sensor is used for collecting illumination intensity data, the temperature sensor is used for collecting air temperature data, the humidity sensor is used for collecting air humidity data, the rainfall monitoring module is used for monitoring rainfall data, the PM2.5 sensor is used for collecting fine particle concentration data in the air, and SO₂The sensor is used for collecting SO in the air₂The concentration data, NO sensor is used for gathering NO concentration data in the air, CO sensor is used for gathering CO concentration data in the air, and atmospheric pressure sensor is used for gathering atmospheric pressure data.

Wind speed data collected by a wind sensor, illumination intensity data collected by a light intensity sensor, air temperature data collected by a temperature sensor, air humidity data collected by a humidity sensor, rainfall data collected by a rainfall monitoring module, concentration data of fine particulate matters in air collected by a PM2.5 sensor, and SO₂SO in air collected by sensor₂Concentration data, NO concentration data in the air collected by the NO sensor, CO concentration data in the air collected by the CO sensor and atmospheric pressure data collected by the air pressure sensor are transmitted to the microprocessor through the second wireless network data transmission module, the microprocessor processes various weather information, the weather information is converted into a displayable data format and uploaded to the weather station through the second wireless network data transmission module, the weather information is uploaded to the Internet of things cloud platform through the second wireless network data transmission module and the gateway, information interaction and data transmission, reporting and storage are achieved. Meanwhile, the microprocessor judges various weather information, and if the numerical value of the weather information is larger than a set threshold value, the microprocessor sends a trigger signal to the alarm module to enable the alarm module to alarm. And setting threshold values of all weather information in the microprocessor according to needs, comparing and calculating when all weather information is received, and controlling the alarm module according to a comparison result. If collected by the wind sensorIf the wind speed data is greater than the set wind speed threshold value, the microprocessor triggers a first alarm in the alarm module to alarm; if the illumination intensity data acquired by the light intensity sensor is greater than the set illumination intensity threshold value, the microprocessor triggers a second alarm in the alarm module to alarm; if the air temperature data acquired by the temperature sensor is greater than the set air temperature threshold, the microprocessor triggers a third alarm in the alarm module to alarm; if the air humidity data acquired by the humidity sensor is greater than the set air humidity threshold value, the microprocessor triggers a fourth alarm in the alarm module to alarm; if the rainfall data collected by the rainfall monitoring module is larger than the set rainfall threshold, the microprocessor triggers a fifth alarm in the alarm module to alarm; if the concentration data of the fine particulate matters in the air collected by the PM2.5 sensor is greater than the set concentration threshold of the fine particulate matters, the microprocessor triggers a sixth alarm in the alarm module to alarm; if SO₂SO in air collected by sensor₂Concentration data greater than set SO₂If the concentration is the threshold value, the microprocessor triggers a seventh alarm in the alarm module to alarm; if the NO concentration data in the air collected by the NO sensor is larger than the set NO concentration threshold, the microprocessor triggers an eighth alarm in the alarm module to alarm; if the CO concentration data in the air collected by the CO sensor is larger than the set CO concentration threshold, the microprocessor triggers a ninth alarm in the alarm module to alarm; and if the atmospheric pressure data acquired by the atmospheric pressure sensor is greater than the set atmospheric pressure threshold value, the microprocessor triggers a tenth alarm in the alarm module to alarm.

As shown in figure 4, the fire monitoring system mainly comprises a fire alarm command center, a main controller, a buzzer alarm module, a 2.4GHz wireless transceiver module, a smoke sensor, a temperature monitoring module, a CO₂The device comprises a sensor and an image acquisition module.

A smoke sensor, a temperature monitoring module and CO are arranged according to requirements₂The installation place and the installation number of the sensors and the image acquisition modules. After the equipment is started, the smoke sensor, the temperature monitoring module and the CO are used₂Sensor and image acquisition module are oppositeAnd monitoring the surrounding situation, and acquiring related data.

Smoke particle signals collected by the smoke sensor are sent to the main controller through the 2.4GHz wireless transceiving module, temperature data collected by the temperature monitoring module are sent to the main controller through the 2.4GHz wireless transceiving module, and CO is₂CO collected by sensor₂The concentration data is sent to the main controller through the 2.4GHz wireless transceiving module, the field image data acquired by the image acquisition module is sent to the main controller through the 2.4GHz wireless transceiving module, and the main controller receives the smoke particle signal, the temperature data and the CO₂The concentration data and the field image data are respectively processed, the converted data are uploaded to a fire alarm command center and an Internet of things cloud platform through a 2.4GHz wireless transceiver module, and meanwhile, the main controller is used for processing smoke particle signals, temperature data and CO₂The concentration data are respectively compared and judged, and when the smoke particle signal is greater than a set threshold value, a first buzzer alarm in a buzzer alarm module is triggered by the main controller to alarm; when the temperature is higher than a set threshold value, a second buzzer alarm in the buzzer alarm module is triggered by the main controller to alarm; when CO is present₂When the concentration is greater than the set threshold value, a third buzzer alarm in the buzzer alarm module is triggered by the main controller to alarm.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (5)

1. The utility model provides a public safety protection system in wisdom city which characterized in that includes: the system comprises an Internet of things cloud platform, a database server, mobile terminal equipment, a gateway, a traffic monitoring system, a weather monitoring system and a fire monitoring system; the traffic monitoring system, the weather monitoring system and the fire monitoring system are all connected with the Internet of things cloud platform through gateways by adopting a WiFi technology; the data information collected by the traffic monitoring system, the weather monitoring system and the fire monitoring system is uploaded to an Internet of things cloud platform through a wireless network, the received data information is screened and analyzed through the Internet of things cloud platform, and the information is forwarded or transferred to a database server for storage and subsequent operation according to corresponding rule logic; the mobile terminal equipment sends and receives data information forwarded by the Internet of things cloud platform; the mobile terminal device communicates with a database server through a wireless network.

2. The public safety protection system for the smart city according to claim 1, wherein a multi-user mutual safety feedback mechanism is constructed through social attributes of the APP and the WeChat applet in the mobile terminal device, when the subsystems at all levels upload alarm data to the Internet of things cloud platform, the APP and the WeChat applet in the corresponding mobile terminal device are notified through a message forwarding mechanism, and the user is waited to remove the alarm; when the user is not processed within a certain time, the alarm data is forwarded to other closer users through the Internet of things cloud platform, a higher-level response strategy is realized, and a multi-user mutual-help security feedback mechanism is realized.

3. The system according to claim 1, wherein the traffic monitoring system comprises a traffic command center, a display, an electronic map, a voice broadcaster, a central processing unit, a monitor, an alarm, a vehicle-mounted GPS positioning module, and a first wireless network data transmission module;

the electronic map is arranged in a display, and the display, the alarm, the voice broadcaster and the first wireless network data transmission module are all connected with the central processing unit;

the monitoring devices are respectively arranged on two sides of a road, image information of the vehicle is obtained through the monitoring devices, and the image information of the vehicle is transmitted to the central processing unit through the first wireless network data transmission module;

the vehicle-mounted GPS positioning modules are respectively arranged on the vehicle, acquire the position information of the vehicle through the vehicle-mounted GPS positioning modules and transmit the position information of the vehicle to the central processing unit through the first wireless network data transmission module;

the central processing unit processes the received vehicle information, converts the vehicle information into a data format which can be displayed by an electronic map, and transmits the data format to the display to display the vehicle information through the electronic map; meanwhile, the central processing unit forms an electronic fence and a dredging strategy through image information and position information of the vehicle, and the central processing unit carries out voice broadcast on the established electronic fence and the dredging strategy;

the central processing unit processes the received vehicle information and uploads the vehicle information to the traffic command center and the Internet of things cloud platform through the first wireless network data transmission module.

4. The public safety system of smart city according to claim 1, wherein the weather monitoring system comprises weather station, wind sensor, light intensity sensor, temperature sensor, humidity sensor, rainfall monitoring module, PM2.5 sensor, SO₂The system comprises a sensor, a NO sensor, a CO sensor, an air pressure sensor, a microprocessor, a second wireless network data transmission module and an alarm module;

the wind sensor, the light intensity sensor, the temperature sensor, the humidity sensor, the water quantity monitoring module, the PM2.5 sensor and the SO₂The sensor, the NO sensor, the CO sensor and the air pressure sensor are all connected with the microprocessor through a second wireless network data transmission module, the alarm module is connected with the microprocessor, and the microprocessor is connected with the weather station through the second wireless network data transmission module;

wind speed data collected by the wind sensor, illumination intensity data collected by the light intensity sensor, air temperature data collected by the temperature sensor, air humidity data collected by the humidity sensor, rainfall data collected by the rainfall monitoring module, concentration data of fine particulate matters in air collected by the PM2.5 sensor, and SO₂SO in air collected by sensor₂Concentration data, NO concentration data in air collected by NO sensor, and CO concentration in air collected by CO sensorThe data and atmospheric pressure data acquired by the air pressure sensor are transmitted to the microprocessor through the second wireless network data transmission module, the microprocessor processes various weather information, converts the weather information into a displayable data format, uploads the displayable data format to the weather station through the second wireless network data transmission module, and uploads the displayable data format to the Internet of things cloud platform through the second wireless network data transmission module and the gateway, so that information interaction, data transmission, reporting and storage are realized; meanwhile, the microprocessor judges various weather information, and if the numerical value of the weather information is greater than a set threshold value, the microprocessor sends a trigger signal to the alarm module to enable the alarm module to alarm; setting thresholds of various weather information in a microprocessor, comparing and calculating when the weather information is received, and controlling an alarm module according to a comparison result; if the wind speed data acquired by the wind sensor is greater than the set wind speed threshold, the microprocessor triggers a first alarm in the alarm module to alarm; if the illumination intensity data acquired by the light intensity sensor is greater than the set illumination intensity threshold value, the microprocessor triggers a second alarm in the alarm module to alarm; if the air temperature data acquired by the temperature sensor is greater than the set air temperature threshold, the microprocessor triggers a third alarm in the alarm module to alarm; if the air humidity data acquired by the humidity sensor is greater than the set air humidity threshold value, the microprocessor triggers a fourth alarm in the alarm module to alarm; if the rainfall data collected by the rainfall monitoring module is larger than the set rainfall threshold, the microprocessor triggers a fifth alarm in the alarm module to alarm; if the concentration data of the fine particulate matters in the air collected by the PM2.5 sensor is greater than the set concentration threshold of the fine particulate matters, the microprocessor triggers a sixth alarm in the alarm module to alarm; if SO₂SO in air collected by sensor₂Concentration data greater than set SO₂If the concentration is the threshold value, the microprocessor triggers a seventh alarm in the alarm module to alarm; if the NO concentration data in the air collected by the NO sensor is larger than the set NO concentration threshold, the microprocessor triggers an eighth alarm in the alarm module to alarm; if the CO concentration data in the air collected by the CO sensor is larger than the set CO concentrationIf the degree is the threshold value, the microprocessor triggers a ninth alarm in the alarm module to alarm; and if the atmospheric pressure data acquired by the atmospheric pressure sensor is greater than the set atmospheric pressure threshold value, the microprocessor triggers a tenth alarm in the alarm module to alarm.

5. The system of claim 1, wherein the fire monitoring system comprises a fire alarm command center, a main controller, a buzzer alarm module, a 2.4GHz wireless transceiver module, a smoke sensor, a temperature monitoring module, and a CO₂The device comprises a sensor and an image acquisition module;

the smoke particle signals collected by the smoke sensor are sent to the main controller through the 2.4GHz wireless transceiving module, the temperature data collected by the temperature monitoring module are sent to the main controller through the 2.4GHz wireless transceiving module, and CO is₂CO collected by sensor₂The concentration data is sent to the main controller through the 2.4GHz wireless transceiving module, the field image data acquired by the image acquisition module is sent to the main controller through the 2.4GHz wireless transceiving module, and the main controller receives the smoke particle signal, the temperature data and the CO₂The concentration data and the field image data are respectively processed, and then the converted data are uploaded to a fire alarm command center and an Internet of things cloud platform through a 2.4GHz wireless transceiver module; at the same time, the main controller processes the smoke particle signal, temperature data, and CO₂The concentration data are respectively compared and judged, and when the smoke particle signal is greater than a set threshold value, a first buzzer alarm in a buzzer alarm module is triggered by the main controller to alarm; when the temperature is higher than a set threshold value, a second buzzer alarm in the buzzer alarm module is triggered by the main controller to alarm; when CO is present₂When the concentration is greater than the set threshold value, a third buzzer alarm in the buzzer alarm module is triggered by the main controller to alarm.

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