Air monitoring system and monitoring method thereof
阅读说明:本技术 一种空气监测系统及其监测方法 (Air monitoring system and monitoring method thereof ) 是由 刘斐 林迅 于 2019-12-20 设计创作,主要内容包括:本发明公开了一种空气监测系统及其监测方法,包括空气检测装置、空气监测控制平台以及通过云服务器网络连接空气监测控制平台的空气监测APP;所述空气检测装置,用于对空气中有害成分进行检测;所述空气监测控制平台,用于接收空气检测装置检测到空气中有害成分的含量信息,并将该信息通过云服务器传递给空气监测APP;所述云服务器,用于接收空气监测APP发送的空气情况查询请求,并将该请求传递给空气监测控制平台,空气监测控制平台接收该请求后,获得空气检测装置的空气检测结果,并反馈给云服务器,云服务器为空气监测APP提供空气情况查询内容;所述空气监测APP安装在使用者移动终端上,用于使用者查看空气监测内容。(The invention discloses an air monitoring system and a monitoring method thereof, wherein the air monitoring system comprises an air detection device, an air monitoring control platform and an air monitoring APP connected with the air monitoring control platform through a cloud server network; the air detection device is used for detecting harmful components in the air; the air monitoring control platform is used for receiving content information of harmful ingredients in the air detected by the air detection device and transmitting the information to the air monitoring APP through the cloud server; the cloud server is used for receiving an air condition query request sent by the air monitoring APP and transmitting the request to the air monitoring control platform, the air monitoring control platform receives the request, obtains an air detection result of the air detection device and feeds the air detection result back to the cloud server, and the cloud server provides air condition query contents for the air monitoring APP; air monitering APP installs on user's mobile terminal for the user looks over the air monitoring content.)
1. An air monitoring system is characterized by comprising air detection devices (1), an air monitoring control platform (2) used for collecting detection results of the air monitoring devices, and an air monitoring APP (4) connected with the air monitoring control platform (2) through a cloud server (3) in a network manner;
the air detection device (1) comprises a formaldehyde gas-sensitive detection device, a benzene detection device, an ammonia detection device, a radon detection device, a carbon monoxide detection device, a sulfur dioxide detection device and a total volatile organic compound detection device, and is used for respectively detecting formaldehyde, benzene, ammonia, radon and total volatile organic compounds in the air;
the air monitoring control platform (2) is used for receiving content information of formaldehyde, benzene, ammonia, radon and total volatile organic compounds in the air detected by the air detection device (1) and transmitting the information to the air monitoring APP (4) through the cloud server (3);
the cloud server (3) is used for receiving an air condition query request sent by the air monitoring APP (4) and transmitting the request to the air monitoring control platform (2), the air monitoring control platform (2) receives the air condition query request information, then obtains an air detection result through the air detection device (1) and feeds the air detection result back to the cloud server (3), and the cloud server (3) receives the air condition query request fed back by the air monitoring control platform (2) and provides air condition query contents for the air monitoring APP (4);
air monitering APP (4) are installed on user's mobile terminal for the user looks over the air monitoring content.
2. The air monitoring system according to claim 1, wherein the air monitoring control platform (2) comprises an air detection information acquisition module (21) and an air monitoring request transceiver module (22), and the air detection information acquisition module (21) and the air monitoring request transceiver module (22) are connected through a network.
3. The air monitoring system according to claim 2, wherein the air detection information acquisition module (21) comprises an air detection information acquisition unit (211), an air detection information processing unit (212) and an air detection information transmission unit (213), and the air detection information acquisition unit (211), the air detection information processing unit (212) and the air detection information transmission unit (213) are sequentially connected with each other.
4. The air monitoring system according to claim 1, wherein the air monitoring APP (4) comprises a setting module (41), an air monitoring request module (42), an air monitoring obtaining module (43), an air monitoring analysis module (44), an air monitoring comparison module (45), an alarm module (46), a display module (47) and a storage module (48);
the setting module (41) is used for setting a target place for air monitoring of the air monitoring APP (4) and adjusting set data information of the target place formaldehyde safe content, benzene safe content, ammonia safe content, radon safe content and total volatile organic compound safe content;
the air monitoring request module (42) is used for sending a request for acquiring the air monitoring information content of the target site to the cloud server (3) of the target site according to the instruction of the user;
the air monitoring acquisition module (43) is used for acquiring air monitoring information of a target place according to an instruction of a user;
the air monitoring and analyzing module (44) is used for analyzing and processing the air monitoring information acquired by the air monitoring and acquiring module (43);
the air monitoring comparison module (45) is used for comparing the air monitoring information analyzed and processed by the air monitoring analysis module (44) with the set safe content of formaldehyde, safe content of benzene, safe content of ammonia, safe content of radon and the safe content of total volatile organic compounds;
the alarm module (46) gives an alarm when the content of each component of the air monitoring information analyzed and processed by the air monitoring and analyzing module (44) in the air monitoring and comparing module (45) is higher than the set information of the safe content of formaldehyde, the safe content of benzene, the safe content of ammonia, the safe content of radon and the safe content of total volatile organic compounds;
the display module (47) is used for displaying the air monitoring content information and displaying the air monitoring content information on a mobile terminal;
and the storage module (48) is used for storing air monitoring content information and generating a report file.
5. An air monitoring system according to claim 1, characterized in that the air detecting device (1) is provided with a GPS positioning device, and has a GPS positioning function.
6. The method of claim 1, comprising the steps of:
s1, opening an air monitoring APP (4) to set an air monitoring target site and information of safe content of each component of air of the target site;
s2, sending a request for acquiring air monitoring information to a target site;
s3, the mobile terminal sends the request to the cloud server (3) according to the instruction of the user;
s4, the cloud server (3) receives an air condition query request sent by an air monitoring APP (4), and transmits the request to the air monitoring control platform (2), after receiving the air condition query request information, the air monitoring control platform (2) obtains an air detection result detected by the air detection device (1) and feeds the air detection result back to the cloud server (3), and the cloud server (3) receives the air condition query request fed back by the air monitoring control platform (2) and provides air information query content for the air monitoring APP (4);
s5, the air monitoring acquisition module (43) acquires the air monitoring information of the target site;
s6, the monitoring and analyzing module (44) analyzes and processes the air monitoring information acquired by the air monitoring and acquiring module (43);
s7, the air monitoring comparison module (45) compares the air monitoring information analyzed and processed by the air monitoring analysis module (44) with the safe content of formaldehyde, safe content of benzene, safe content of ammonia, safe content of radon and the safe content of total volatile organic compounds set in the step S1;
s8, when the content of each component of the air monitoring information analyzed and processed by the air monitoring and analyzing module (44) is higher than the set information of formaldehyde safe content, benzene safe content, ammonia safe content, radon safe content and total volatile organic compound safe content, the alarm module (46) gives an alarm;
and S9, displaying the air monitoring content information by a display module (47), and displaying the air monitoring content information on the mobile terminal for a user to view.
7. The monitoring method of the air monitoring system according to claim 6, wherein the air monitoring information displayed by the display module (47) is displayed in the form of pictures or characters.
Technical Field
The invention relates to the technical field of air monitoring, in particular to an air monitoring system and a monitoring method thereof.
Background
Air monitoring refers to the fixed-point, continuous, or timed sampling and measurement of pollutants present in the air. The air detection aims to timely, accurately and comprehensively reflect the current situation and the development trend of air quality and provide scientific basis for air management, pollution source control, air planning and air evaluation.
However, in the conventional air monitoring system, the air condition of the detection site can be known only by observing the detection data on the air detection device at the detection site, and the air monitoring system cannot be remotely watched, so that the user cannot conveniently check the air condition.
Disclosure of Invention
The present invention is directed to an air monitoring system and a monitoring method thereof, so as to solve the problems in the background art.
In order to achieve the purpose, the invention provides the following technical scheme: an air monitoring system and a monitoring method thereof comprise air detection devices, an air monitoring control platform used for collecting detection results of the air monitoring devices, and an air monitoring APP connected with the air monitoring control platform through a cloud server network;
the air detection device comprises a formaldehyde gas-sensitive detection device, a benzene detection device, an ammonia detection device, a radon detection device, a carbon monoxide detection device, a sulfur dioxide detection device and a total volatile organic compound detection device, and is used for respectively detecting formaldehyde, benzene, ammonia, radon and total volatile organic compounds in the air;
the air monitoring control platform is used for receiving content information of formaldehyde, benzene, ammonia, radon and total volatile organic compounds in the air detected by the air detection device and transmitting the information to the air monitoring APP through the cloud server;
the cloud server is used for receiving an air condition query request sent by the air monitoring APP and transmitting the request to the air monitoring control platform, the air monitoring control platform receives the air condition query request information, obtains an air detection result through the air detection device and feeds the air detection result back to the cloud server, and the cloud server receives the air condition query request fed back by the air monitoring control platform and provides air condition query contents for the air monitoring APP;
air monitering APP installs on user's mobile terminal for the user looks over the air monitoring content.
As a preferred technical solution of the present invention, the air monitoring control platform includes an air detection information acquisition module and an air monitoring request transceiver module, and the air detection information acquisition module is connected to the air monitoring request transceiver module via a network.
As a preferred technical solution of the present invention, the air detection information acquisition module includes an air detection information acquisition unit, an air detection information processing unit, and an air detection information transmission unit, and the air detection information acquisition unit, the air detection information processing unit, and the air detection information transmission unit are sequentially connected to each other.
As a preferred technical solution of the present invention, the air monitoring APP comprises a setting module, an air monitoring request module, an air monitoring acquisition module, an air monitoring analysis module, an air monitoring comparison module, an alarm module, a display module and a storage module;
the setting module is used for setting a target site for air monitoring of the air monitoring APP and adjusting set data information of formaldehyde safety content, benzene safety content, ammonia safety content, radon safety content and total volatile organic compound safety content of the target site;
the air monitoring request module sends a request for acquiring the air monitoring information content of the target site to a cloud server of the target site according to an instruction of a user;
the air monitoring acquisition module acquires air monitoring information of a target site according to a user instruction;
the air monitoring and analyzing module is used for analyzing and processing the air monitoring information acquired by the air monitoring and acquiring module;
the air monitoring comparison module is used for comparing the air monitoring information analyzed and processed by the air monitoring analysis module with the set safety content of formaldehyde, the safety content of benzene, the safety content of ammonia, the safety content of radon and the safety content of total volatile organic compounds;
the alarm module gives an alarm when the content of each component of the air monitoring information analyzed and processed by the air monitoring and analyzing module in the air monitoring comparison module is higher than the set information of the safe content of formaldehyde, the safe content of benzene, the safe content of ammonia, the safe content of radon and the safe content of total volatile organic compounds;
the display module is used for displaying the air monitoring content information and displaying the air monitoring content information on a mobile terminal;
the storage module is used for storing air monitoring content information and generating a report file.
As a preferred technical solution of the present invention, the air detection device is provided with a GPS positioning device, and has a GPS positioning function.
A monitoring method of an air monitoring system comprises the following steps:
s1, opening an air monitoring APP to set an air monitoring target site and information of safe content of each component of air of the target site;
s2, sending a request for acquiring air monitoring information to a target site;
s3, the mobile terminal sends the request to a cloud server according to the instruction of the user;
s4, the cloud server receives an air condition query request sent by an air monitoring APP and transmits the request to the air monitoring control platform, the air monitoring control platform receives the air condition query request information, obtains an air detection result detected by the air detection device and feeds the air detection result back to the cloud server, and the cloud server receives the air condition query request fed back by the air monitoring control platform and provides air information query content for the air monitoring APP;
s5, the air monitoring acquisition module acquires air monitoring information of a target site;
s6, the monitoring and analyzing module analyzes and processes the air monitoring information acquired by the air monitoring and acquiring module;
s7, the air monitoring comparison module compares the air monitoring information analyzed and processed by the air monitoring analysis module with the safe content of formaldehyde, safe content of benzene, safe content of ammonia, safe content of radon and the safe content of total volatile organic compounds set in the step S1;
s8, when the content of each component of the air monitoring information analyzed and processed by the air monitoring and analyzing module is higher than the set information of formaldehyde safe content, benzene safe content, ammonia safe content, radon safe content and total volatile organic compound safe content, the alarm module gives an alarm;
and S9, the display module displays the air monitoring content information, and the air monitoring content information is displayed on the mobile terminal for a user to view.
As a preferred technical scheme of the invention, the air monitoring information of the display module is displayed in the form of pictures or characters.
Compared with the prior art, the invention has the beneficial effects that: according to the air monitoring system and the monitoring method thereof, the air monitoring APP is installed on the mobile terminal, the air monitoring APP is in network connection with the air monitoring control platform, and the air monitoring control platform is in network connection with the air detection device, so that a user can remotely monitor the air quality information of a target place through the mobile terminal, and the air monitoring system and the monitoring method thereof are convenient to use and high in efficiency.
Drawings
FIG. 1 is a flow chart of the air monitoring of the present invention.
Reference numbers in the figures: 1. an air detection device; 2. an air monitoring control platform; 21. an air detection information acquisition module; 211. an air detection information acquisition unit; 212. an air detection information processing unit; 213. an air detection information transmission unit; 22. an air monitoring request transceiver module; 3. a cloud server; 4. monitoring the APP in the air; 41. setting a module; 42. an air monitoring request module; 43. an air monitoring acquisition module; 44. an air monitoring and analyzing module; 45. an air monitoring and comparing module; 46. an alarm module; 47. a display module; 48. and a storage 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.
In the description of the present invention, it should be noted that the terms "vertical", "upper", "lower", "horizontal", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.
In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.
Referring to fig. 1, the present invention provides a technical solution: an air monitoring system and a monitoring method thereof comprise an air detection device 1, an air
the air detection device 1 comprises a formaldehyde gas-sensitive detection device, a benzene detection device, an ammonia detection device, a radon detection device, a carbon monoxide detection device, a sulfur dioxide detection device and a total volatile organic compound detection device, and is used for respectively detecting formaldehyde, benzene, ammonia, radon and total volatile organic compounds in the air;
the air
the
the air monitoring APP4 is installed on a user mobile terminal and used for a user to check air monitoring contents.
Further, the air
Further, the air detection
Further, the air monitoring APP4 includes a
the
the air
the air
the air monitoring and analyzing
the air
the
the
the
Furthermore, the air detection device 1 is provided with a GPS positioning device, and has a GPS positioning function.
A monitoring method of an air monitoring system comprises the following steps:
s1, opening the air monitoring APP4 to set an air monitoring target site and information of safe content of each component of air of the target site;
s2, sending a request for acquiring air monitoring information to a target site;
s3, the mobile terminal sends the request to the
s4, the
s5, the air monitoring obtaining
s6, the monitoring and analyzing
s7, the air
s8, when the content of each component of the air monitoring information analyzed and processed by the air monitoring and analyzing
and S9, the
Further, the
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
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