CN111521224B - Intelligent air quality monitor and application system thereof - Google Patents

Abstract

The invention relates to the technical field of air monitoring, in particular to an intelligent air quality monitor, which comprises a control assembly, a pumping and discharging chamber, an elastic air bag arranged in the pumping and discharging chamber, a bidirectional fan communicated with the elastic air bag, a monitoring chamber communicated with the pumping and discharging chamber, a monitoring assembly arranged in the monitoring chamber and an anemoscope used for detecting the wind speed of external air, wherein the monitoring chamber is provided with a first air inlet used for allowing air to be detected to enter, the first air inlet is provided with a first opening and closing valve, and the monitoring chamber is provided with an exhaust port used for exhausting the detected air; the pump drainage room is equipped with the second air inlet that is used for supplying to wait to detect the air admission, and the second air inlet is equipped with the second on-off valve, and the pump drainage room is equipped with the third on-off valve with the intercommunication department of monitoring room, and two-way fan, monitoring component, first on-off valve, second on-off valve, third on-off valve and anemoscope all with control assembly electric connection. The intelligent air quality monitor can improve the accuracy and the reference value of monitoring data.

Description

Intelligent air quality monitor and application system thereof

Technical Field

The invention relates to the technical field of air monitoring, in particular to an intelligent air quality monitor.

Background

With the improvement of the living standard of people, the use of various decoration materials and more daily chemicals enter the room, so that the sources and the types of indoor pollutants are increased; meanwhile, the emission of tail gas of an airplane and an automobile, accidental combustion of forests and petroleum, wind and sand, stealing of certain unqualified gases and the like all affect the outdoor air quality. Therefore, whether indoor or outdoor, the air quality needs to be monitored, and air quality data is provided for users and environmental protection departments.

Air quality monitors have emerged to enable users and environmental protection departments to obtain air quality data at any time. However, the air quality monitor in the prior art has the following disadvantages:

1. most air monitors adopt the mode of passive monitoring air quality, and the detection is flowing along with outside air promptly, but indoor or the indoor that the wind speed is lower, and the air flow velocity is slower, and the detection data lag that the air monitor obtained is comparatively serious, and the reference value is not big.

2. Also through the mode of increasing the ventilation blower for through air monitor air velocity, improve air monitor's detection data response speed. However, since the air passing through the air monitor inevitably expands or compresses by the ventilator, the accuracy of the detection data of the air monitor exceeds the deviation range, and the reference value is not large.

Disclosure of Invention

The invention aims to solve the technical problem of providing an intelligent air quality monitor, which can improve the accuracy and reference value of monitoring data.

In order to solve the technical problem, the invention discloses an intelligent air quality monitor which comprises a control assembly, a pumping and discharging chamber, an elastic air bag arranged in the pumping and discharging chamber, a bidirectional fan communicated with the elastic air bag, a monitoring chamber communicated with the pumping and discharging chamber, a monitoring assembly arranged in the monitoring chamber and an anemoscope used for detecting the wind speed of external air, wherein the monitoring chamber is provided with a first air inlet used for allowing air to be detected to enter, the first air inlet is provided with a first opening and closing valve, and the monitoring chamber is provided with an air outlet used for discharging detected air; the pump drainage room is equipped with the second air inlet that is used for supplying to wait to detect the air admission, the second air inlet is equipped with the second on-off valve, the pump drainage room is equipped with the third on-off valve with the intercommunication department of monitoring room, two-way fan, monitoring component, first on-off valve, second on-off valve, third on-off valve and anemoscope all with control assembly electric connection.

As a modification of the above, a plurality of the first opening/closing valves for communicating the outside air in different directions are provided at the first air inlet.

As the improvement of the scheme, a first mounting plate for mounting a first opening and closing valve is arranged at the first air inlet, the first mounting plate is in threaded connection with the first air inlet, and a first sealing ring is arranged at the lap joint of the first mounting plate and the monitoring chamber.

As a modification of the above, a plurality of the second opening/closing valves for communicating the outside air in different directions are provided at the second air inlet.

As an improvement of the scheme, a second mounting plate for mounting a second opening and closing valve is arranged at the second air inlet, the second mounting plate is in threaded connection with the second air inlet, and a second sealing ring is arranged at the lap joint of the second mounting plate and the pumping and exhausting chamber.

As an improvement of the scheme, the exhaust port is provided with a fourth opening and closing valve electrically connected with the control assembly.

As an improvement of the above scheme, the intelligent air quality monitor of the present invention further includes a first barometer installed in the pumping chamber and a second barometer installed in the monitoring chamber, and both the first barometer and the second barometer are electrically connected to the control assembly.

As the improvement of above-mentioned scheme, the monitoring subassembly is including setting up in the monitoring room and all with controller electric connection's temperature and humidity sensor, carbon monoxide sensor, carbon dioxide sensor, PM2.5 sensor, TVOC sensor and formaldehyde sensor.

As the improvement of the above scheme, the control assembly comprises a controller, a display screen, a communication module, a positioning module, an ultrasonic detection module, an expansion interface and a power supply assembly, wherein the display screen, the communication module, a temperature and humidity sensor, the ultrasonic detection module, the expansion interface, the power supply assembly, a two-way fan, a monitoring assembly, a first opening and closing valve, a second opening and closing valve, a third opening and closing valve and an anemoscope are electrically connected with the controller.

The invention also discloses an application system of the intelligent air quality monitor, which comprises an application terminal, intelligent equipment, the Internet, a user and the intelligent air quality monitor in the scheme, wherein the application terminal is installed and stored in the intelligent equipment, the intelligent equipment is connected with the intelligent air quality monitor through an Internet distribution network, the application terminal receives and stores the air quality data acquired by the intelligent air quality monitor through a control assembly, the application terminal can acquire geographical position information and air quality conditions through accessing the Internet, and the application terminal displays the acquired data of the intelligent air quality monitor and the air quality data to the user through audio-visual hardware of the intelligent equipment.

The implementation of the invention has the following beneficial effects:

1. the intelligent air quality monitor has the advantages that the air quality monitor has the active air suction mode and the passive air suction mode, the air suction mode is intelligently switched through the detection value of the anemograph, the passing monitoring components of the active air suction mode and the passive air suction mode are consistent, and the structure of the intelligent air quality monitor is optimized;

2. when the air is actively sucked, the air to be detected can rapidly enter or leave the pumping chamber under the action of negative pressure or positive pressure of the pumping chamber, so that the air to be detected can pass through the monitoring assembly in a nearly continuous mode, and the air monitoring function is ensured;

3. the expansion or compression degree of air entering or leaving the pumping chamber and the monitoring chamber is very low or even negligible, so that the detection data of the monitoring assembly is accurate, and meanwhile, the hysteresis degree of the detection data is greatly reduced;

4. the air quality detection system can realize the multi-class and high-precision air quality detection of multiple places remotely at the same time, and has the characteristics of wide application range and simple and convenient operation; meanwhile, the air can be automatically regulated and controlled by matching with applicable air conditioning equipment according to the data setting of a user, and the intelligent degree is high; in addition, the system also has the functions of user data delivery, air quality early warning and people flow statistics, and has high technical advancement.

Drawings

FIG. 1 is a schematic structural diagram of an intelligent air quality monitor according to an embodiment of the present invention;

fig. 2 is a schematic view showing the mounting of a first opening/closing valve to a first intake port in the embodiment of the present invention;

FIG. 3 is a schematic view of the second opening/closing valve mounted to the second intake port in the embodiment of the present invention;

FIG. 4 is a circuit diagram of a monitoring assembly in an embodiment of the present invention;

FIG. 5 is a circuit configuration diagram of a control unit according to an embodiment of the present invention;

fig. 6 is a schematic diagram of an application system of the intelligent air quality monitor according to the embodiment of the invention.

In the figure: 1. a control component; 2. a pumping chamber; 3. an elastic air bag; 4. a bidirectional fan; 5. a monitoring room; 6. a monitoring component; 7. an anemometer; 8. a first air inlet; 9. a first opening and closing valve; 10. an exhaust port; 11. a second air inlet; 12. a second opening and closing valve; 13. a third opening and closing valve; 14. a first mounting plate; 15. a first seal ring; 16. a second mounting plate; 17. a second seal ring; 18. a fourth opening and closing valve; 19. a first barometer; 20; a second barometer; 601. a temperature and humidity sensor; 602. a carbon monoxide sensor; 603. a carbon dioxide sensor; 604. a PM2.5 sensor; 605. a TVOC sensor; 606. a formaldehyde sensor; 101. a controller; 102. a display screen; 103. a communication module; 104. a positioning module; 105. an ultrasonic detection module; 106. expanding an interface; 107. a power supply component; 100. an application terminal; 200. an intelligent device; 300. the internet; 400. a user; 500. intelligent air quality monitor.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments so as to more clearly understand the technical idea of the invention claimed. It is only noted that the invention is intended to be limited to the specific forms set forth herein, including any reference to the drawings, as well as any other specific forms of embodiments of the invention.

As shown in fig. 1 to 5, the intelligent air quality monitor disclosed in the embodiment of the present invention includes a control module 1, a pumping chamber 2, an elastic air bag 3 installed in the pumping chamber 2, a bidirectional fan 4 communicated with the elastic air bag 3, a monitoring chamber 5 communicated with the pumping chamber 2, a monitoring module 6 installed in the monitoring chamber 5, and an anemometer 7 for detecting an external air wind speed, where the external air refers to air outside the pumping chamber 2 and the monitoring chamber 5. Wherein, two-way fan 4 can be installed on the outer wall of pump drainage room 2, and the opening cover of elasticity gasbag 3 is in the output of two-way fan 4 and installs in pump drainage room 2, and two-way fan 4 can the elasticity gasbag 3 let in air or take out the air, makes elasticity gasbag 3 inflation or shrink, increases or reduces the volume that elasticity gasbag 3 took up in pump drainage room 2. The anemoscope 7 can be arranged on the outer wall of the monitoring room 5, and the intelligent air quality monitor is judged to adopt an active air suction mode or a passive air suction mode by detecting the wind speed of the external air; if the reference wind speed value is 5m/s, when the anemoscope 7 detects that the wind speed of the outside air is less than or equal to 5m/s, the active air suction mode is adopted, and when the anemoscope 7 detects that the wind speed of the outside air is greater than 5m/s, the passive air suction mode is adopted.

Monitoring room 5 is equipped with and is used for supplying the first air inlet 8 that waits to detect the air admission, first air inlet 8 is equipped with first on-off valve 9, monitoring room 5 is equipped with and supplies to detect back air escape's gas vent 10. The air inlet direction of the first air inlet 8 is the same as the wind direction detected by the anemoscope 7, when the intelligent air quality monitor adopts a passive air suction mode, the first opening and closing valve 9 is opened, the first air inlet 8 is communicated with the monitoring chamber 5, and air to be detected enters the monitoring assembly 6 through the first air inlet 8 and is then discharged from the air outlet 10; when the intelligent air quality monitor adopts the active air suction mode, the first opening and closing valve 9 is closed, and the first air inlet 8 is closed.

The pump drainage chamber 2 is equipped with the second air inlet 11 that is used for supplying the air that awaits measuring to get into, second air inlet 11 is equipped with second on-off valve 12, the intercommunication department of pump drainage chamber 2 and monitoring room 5 is equipped with third on-off valve 13, two-way fan 4, monitoring component 6, first on-off valve 9, second on-off valve 12, third on-off valve 13 and anemoscope 7 all with control assembly 1 electric connection. The air inlet direction of the second air inlet 11 is the same as the wind direction detected by the anemoscope 7, when the intelligent air quality monitor adopts a passive air suction mode, the second opening and closing valve 12 is closed, and the second air inlet 11 is closed.

First air inlet 8, gas vent 10 and second air inlet 11 can also pass through pipeline and outside air intercommunication, reach the effect that can adjust air inlet direction and air-out direction.

The specific working principle of the intelligent air quality monitor in the active air suction mode is as follows: the elastic air bag 3 is in an expansion state initially, the second opening and closing valve 12 is opened, the third opening and closing valve 13 is closed, the bidirectional fan 4 is started to pump air to the elastic air bag 3, the elastic air bag 3 contracts, the volume occupied by the pumping and exhausting chamber 2 is reduced, and gas to be detected is pumped in from the second air inlet 11 under the action of negative pressure; the second opening and closing valve 12 is closed, the third opening and closing valve 13 is opened, the bidirectional fan 4 is opened to inflate the elastic air bag 3, the elastic air bag 3 expands, the volume occupied by the pumping and exhausting chamber 2 is increased, and under the action of positive pressure, gas to be detected enters the monitoring chamber 5 from the third opening and closing valve 13, passes through the monitoring assembly 6, is exhausted from the exhaust port 10 and enters the next working cycle; repeating the steps, and realizing active inspiration.

Because the passing wind speed of the bidirectional fan 4 can be far greater than the judging wind speed of the air to be detected passing through the monitoring component 6, the time occupied by the expansion and contraction of the elastic air bag 3 is short, and the air to be detected can pass through the monitoring component 6 in a nearly continuous mode.

Because the original air in the pumping chamber 2 and the monitoring chamber 5 can influence the monitoring precision, in order to improve the monitoring precision, the air quality data obtained by the first 2-6 working cycles of active air suction can not be counted into data statistics, and most of the original air in the pumping chamber 2 and the monitoring chamber 5 is firstly drained and then subjected to data statistics; meanwhile, the volume difference value of the elastic air bag 3 which expands to the maximum and contracts to the minimum is 3-5 times of the volume of the monitoring chamber 5, so that the original air in the pumping chamber 2 and the original air in the monitoring chamber 5 can be exhausted quickly.

The intelligent air quality monitor has the following beneficial effects:

1. the air quality monitoring system has the advantages that the air quality monitoring system has the active air suction mode and the passive air suction mode, the air suction mode is intelligently switched through the detection value of the anemograph 7, the active air suction mode and the passive air suction mode are consistent through the monitoring component 6, and the structure of the intelligent air quality monitoring system is optimized;

2. when the air is actively sucked, the air to be detected can rapidly enter or leave the pumping chamber 2 under the action of negative pressure or positive pressure of the pumping chamber 2, so that the air to be detected can pass through the monitoring component 6 in a nearly continuous mode, and the air monitoring function is ensured;

3. the expansion or compression degree of the air entering or leaving the pumping chamber 2 and the monitoring chamber 5 is very low or even negligible, so that the detection data of the monitoring component 6 is relatively accurate, and meanwhile, the hysteresis degree of the detection data is greatly reduced.

Further, it is preferable that a plurality of the first opening and closing valves 9 for communicating the outside air in different directions are provided at the first air inlet 8. For places with dense pedestrian flows, such as bus stations, shopping malls, office buildings and the like, the air quality in different directions, such as the south, east and north directions, needs to be detected, the same number of anemometers 7 need to be correspondingly matched to correspondingly monitor the air speed in each direction, and the air inlet directions are sequentially switched to realize the passive air inlet monitoring in each direction. If the number of the first opening and closing devices is 4, the first opening and closing devices correspond to 4 directions of east, south, west and north, or 8 directions of east, south, west, north, southeast, southwest, northeast and northwest.

Specifically, a first mounting plate 14 for mounting the first opening and closing valve 9 is preferably arranged at the first air inlet 8, the first mounting plate 14 is in threaded connection with the first air inlet 8, and a first sealing ring 15 is arranged at the joint of the first mounting plate 14 and the monitoring chamber 5. The first opening and closing valve 9 is quickly assembled and disassembled in a mode that the first mounting plate 14 is in threaded connection with the first air inlet 8, and meanwhile, the first sealing ring 15 is used for realizing new sealing.

Further, it is preferable that a plurality of the second opening and closing valves 12 for communicating the outside air in different directions are provided at the second air intake port 11. The second air inlet 11 is preferably provided with a second mounting plate 16 for mounting the second opening and closing valve 12, the second mounting plate 16 is in threaded connection with the second air inlet 11, and a second sealing ring 17 is arranged at the lap joint of the second mounting plate 16 and the pumping and exhausting chamber 2. The operation principle of the second plurality of on-off valves 12 is similar to that of the first plurality of on-off valves 9, except that the second plurality of on-off valves 12 are used for active inspiration in a plurality of different directions, and the operation principle thereof will not be described in detail.

Specifically, the exhaust port 10 is further preferably provided with a fourth opening/closing valve 18 electrically connected to the control assembly 1. When intelligence air quality monitor detected the state, intelligence air quality monitor fourth on-off valve 18 is in normally open state, and when need not detect, fourth on-off valve 18 closed.

Correspondingly, the intelligent air quality monitors can roughly track the emission source and the propagation route of a monitoring target with an overproof numerical value through multi-point and multi-direction arrangement, provide corresponding reference data for environmental protection departments, and simultaneously remind that the quality of air blown from the direction is relatively good or poor.

It should be mentioned that the intelligent air quality monitor of the present invention further includes a first barometer 19 installed in the pumping chamber 2 and a second barometer 20 installed in the monitoring chamber 5, and both the first barometer 19 and the second barometer 20 are electrically connected to the control module 1. The first barometer 19 and the second barometer 20 both have data output ports, and can obtain the detected air pressure value by the control assembly 1. The detection data can be further corrected by monitoring the air pressures in the pumping chamber 2 and the monitoring chamber 5 by the first pressure gauge 19 and the second pressure gauge 20.

Specifically, monitoring subassembly 6 is preferred including setting up in monitoring room 5 and all with controller 101 electric connection's temperature and humidity sensor 601, carbon monoxide sensor 602, carbon dioxide sensor 603, PM2.5 sensor 604, TVOC sensor 605 and formaldehyde sensor 606, can realize detecting the multiple quality data of air, satisfies more users, cooperates anemoscope 7, first barometer 19 and second barometer 20 to derive air flow rate and atmospheric pressure simultaneously.

Specifically, the control assembly 1 preferably includes a controller 101, a display screen 102, a communication module 103, a positioning module 104, an ultrasonic detection module 105, an expansion interface 106 and a power supply assembly 107, and the display screen 102, the communication module 103, a temperature and humidity sensor 601, the ultrasonic detection module 105, the expansion interface 106, the power supply assembly 107, the bidirectional fan 4, the monitoring assembly 6, the first opening and closing valve 9, the second opening and closing valve 12, the third opening and closing valve 13 and the anemoscope 7 are all electrically connected to the controller 101.

The controller 101 is preferably a PLC, and can perform logic operation, sequence control, timing and counting, and control the operation of each electrical component by changing the connection mode between the input end and the output end, so that each electrical component can automatically operate, and the display screen 102 can display the monitoring data of the monitoring component 6; the communication module 103 sends the monitoring data of the monitoring component 6 to the network and transmits the monitoring data to a designated application terminal, or transmits execution data issued by the application terminal to the control module for the user to refer to, and the monitor can be connected with a PC, a mobile phone and an intelligent television in a high-compatibility output transmission mode; the positioning module 104 can detect the position data; the ultrasonic detection module 105 analyzes by collecting high-frequency radio transmitted by the mobile phone, roughly analyzes the current environmental people stream density according to nearby mobile phone data, and is convenient for an application terminal to analyze the environment; the expansion interface 106 is prepared for function expansion.

As shown in fig. 6, an embodiment of the present invention further discloses an application system of an intelligent air quality monitor, including an application terminal 100, an intelligent device 200, an internet 300, a user 400, and an intelligent air quality monitor 500 in the foregoing scheme, where the application terminal 100 is installed and stored in the intelligent device 200, the intelligent device 200 is connected to the intelligent air quality monitor 500 through a distribution network of the internet 300, the application terminal 100 receives and stores air quality data acquired by the intelligent air quality monitor 500 through a control component 1, the application terminal 100 can obtain geographical location information and air quality conditions of corresponding locations by accessing the internet 300, and the application terminal 100 displays data acquired by the intelligent air quality monitor 500 and the air quality data to the user 400 through audio-visual hardware of the intelligent device 200.

The operation of the application system of the invention is described as follows:

taking an intelligent television as an example, the user 400 installs the application terminal 100 of the application system on the intelligent television, establishes a site in the application terminal 100, and after the intelligent air quality monitor 500 is started, ensures that the intelligent television and the intelligent air quality monitor 500 are accessed into the same network environment, logs in the application terminal 100 and adds equipment for binding, and then the binding of the application system and the intelligent air quality monitor 500 can be completed.

After the equipment binding is completed, the intelligent air quality monitor 500 transmits the collected monitoring data collected by the monitoring component 6 to the application terminal 100 of the intelligent television through the control component 1, and meanwhile, the application terminal 100 acquires local air quality data information through accessing the internet and then displays the monitoring data and the outdoor air quality data through the interactive interface of the intelligent television.

The application terminal 100 has a data storage function, and can store short-term air quality data and draw a change curve, so that the user 400 can conveniently know the air quality change condition.

The user 400 can set alarm data for related monitoring items in the application terminal 100, and when the application system monitors that a certain monitoring item exceeds the alarm data, the application terminal 100 pops up an alarm prompt on the intelligent television exchange interface and performs an alarm by using a loudspeaker of the intelligent television; the application terminal 100 may also be configured to bind suitable air conditioning devices, such as a fresh air machine and an air purifier, and the user 400 may set an upper limit for the associated entry to control the start of the fresh air machine and the air purifier.

It is worth mentioning that the user 400 can plan a corresponding travel path by using the air quality data of different locations and even different directions; alternatively, the application system automatically plans the travel path for the user 400 through big data analysis.

The user 400 may perform the calibration by monitoring the component 6 via the application terminal 100 interactive interface.

In addition, the number of the mobile phones reflects the people flow density of the place to a certain extent, and on the basis of the modern big data era, the change characteristics of the people flow density of different places with respect to time are counted. The intelligent air quality monitor 500 is applied to places such as bus stations, shopping malls, office buildings and the like, can be used as a comprehensive analysis basis for the development of public places or shops and the like, and is favorable for promoting the development of social economy; when the user 400 goes out, it is possible to acquire air quality data of a destination to be reached, make an early warning, and make a response.

In conclusion, the application system of the intelligent air quality monitor disclosed by the invention can realize multi-class and high-precision air quality detection at multiple places remotely at the same time, and has the characteristics of wide application range and simplicity and convenience in operation; meanwhile, the air can be automatically regulated and controlled by matching with suitable air conditioning equipment according to the data setting of the user 400, and the intelligent degree is high; in addition, the system also has the functions of data delivery to the user 400, air quality early warning and people flow statistics, and has high technical advancement.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. Intelligent air quality monitor, its characterized in that: the device comprises a control assembly, a pumping and discharging chamber, an elastic air bag arranged in the pumping and discharging chamber, a bidirectional fan communicated with the elastic air bag, a monitoring chamber communicated with the pumping and discharging chamber, a monitoring assembly arranged in the monitoring chamber and an anemoscope used for detecting the wind speed of external air, wherein the monitoring chamber is provided with a first air inlet used for allowing air to be detected to enter, the first air inlet is provided with a first opening and closing valve, and the monitoring chamber is provided with an exhaust port used for exhausting the detected air; the pump drainage room is equipped with the second air inlet that is used for supplying to wait to detect the air admission, the second air inlet is equipped with the second on-off valve, the pump drainage room is equipped with the third on-off valve with the intercommunication department of monitoring room, two-way fan, monitoring component, first on-off valve, second on-off valve, third on-off valve and anemoscope all with control assembly electric connection.

2. The intelligent air quality monitor of claim 1, wherein: the first opening and closing valves for communicating external air in different directions are arranged at the first air inlet.

3. The intelligent air quality monitor of claim 2, wherein: first air inlet department is equipped with the first mounting panel that is used for installing first on-off valve, first mounting panel and first air inlet threaded connection, just first mounting panel is equipped with first sealing washer with the overlap joint department of monitoring room.

4. The intelligent air quality monitor of claim 1, wherein: and a plurality of second opening and closing valves for communicating external air in different directions are arranged at the second air inlet.

5. The intelligent air quality monitor of claim 4, wherein: the second air inlet is provided with a second mounting plate for mounting a second opening and closing valve, the second mounting plate is in threaded connection with the second air inlet, and a second sealing ring is arranged at the lap joint of the second mounting plate and the pumping and exhausting chamber.

6. The intelligent air quality monitor of claim 1, wherein: the exhaust port is provided with a fourth opening and closing valve electrically connected with the control assembly.

7. The intelligent air quality monitor of claim 1, wherein: the device is characterized by further comprising a first barometer arranged in the pumping and exhausting chamber and a second barometer arranged in the monitoring chamber, wherein the first barometer and the second barometer are electrically connected with the control assembly.

8. The intelligent air quality monitor of claim 1, wherein: the monitoring subassembly is including setting up in the monitoring room and all with controller electric connection's temperature and humidity sensor, carbon monoxide sensor, carbon dioxide sensor, PM2.5 sensor, TVOC sensor and formaldehyde sensor.

9. The intelligent air quality monitor of claim 1, wherein: the control assembly includes controller, display screen, communication module, orientation module, ultrasonic detection module, expands interface and power supply module, display screen, communication module, temperature and humidity sensor, ultrasonic detection module, expand interface, power supply module, two-way fan, monitoring components, first on-off valve, second on-off valve, third on-off valve and anemoscope all with controller electric connection.

10. The utility model provides an intelligence air quality monitor's application system which characterized in that: the intelligent air quality monitor comprises an application terminal, intelligent equipment, the Internet, a user and the intelligent air quality monitor as claimed in any one of claims 1 to 9, wherein the application terminal is installed and stored in the intelligent equipment, the intelligent equipment is connected with the intelligent air quality monitor through the Internet distribution network, the application terminal receives and stores the air quality data collected by the intelligent air quality monitor through a control assembly, the application terminal can acquire geographical position information and air quality conditions through accessing the Internet, and the application terminal displays the collected data and the air quality data of the intelligent air quality monitor to the user through audio-visual hardware of the intelligent equipment.

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