CN107830611A - Air quality monitoring device, air filter and air quality monitoring method - Google Patents

Abstract

The embodiment of the present application discloses air quality monitoring device, air filter and air quality monitoring method.One embodiment of this method includes：The air quality data of current location is gathered, above-mentioned air quality data includes at least one of following：Dust data, carbon dioxide data, temperature data, humidity data and barometric information；Obtain air quality setup parameter；Control instruction is built by the difference between above-mentioned air quality data and air quality setup parameter, and control instruction is sent to air filter, above-mentioned control instruction is used to be adjusted the working condition of air filter.This embodiment improves air filtration effect.

Description

Air quality monitoring device, air filter and air quality monitoring method

Technical field

The invention relates to technical field of air purification, and in particular to air filtration technical field, more particularly to it is empty Gas quality inspection device, air filter and air quality monitoring method.

Background technology

Air is the necessary condition of human survival, and the existence and production to the mankind have material impact.With global environment Change and local pollution exacerbation, the scope of air pollution is also increasing.Air filter unit can be in air All kinds of harmful materials filtered, can be provided for people cleaning air, become the weight in daily life Want equipment.

After the parameter setting of air filter unit, when the air of air filter unit position reaches parameter request When, air filter unit can be with standby or closing.

The content of the invention

The purpose of the embodiment of the present application is to propose air quality monitoring device, air filter and air quality prison Prosecutor method, to solve the technical problem that background section above is mentioned.

In a first aspect, the embodiment of the present application provides a kind of air quality monitoring device, the air quality monitoring device bag Include：Air quality monitoring module, for monitoring air quality data；First network module, for connecting network；First control Device, for sending control instruction to air filter by above-mentioned first network module, above-mentioned control instruction is used to control sky The working condition of gas filter.

In certain embodiments, above-mentioned air quality monitoring unit includes at least one of following：Dust sensor, titanium dioxide Carbon sensor, temperature sensor, humidity sensor and pressure sensor.

In certain embodiments, above-mentioned first network module includes at least one of following：3G module, 4G modules, WI-FI moulds Block, bluetooth module.

In certain embodiments, above-mentioned air quality monitoring device also includes：

Range sensor, electrically connected with above-mentioned first controller, for measuring air quality monitoring device and air filtration The distance between device.

Second aspect, the embodiment of the present application provide a kind of air filter, and the above-mentioned air filter includes：It is empty Gas filtering module, for being filtered to air, above-mentioned air filtration module includes air inlet, air filtering core and gas outlet；Wind Machine, the air inlet of above-mentioned air filtration module is arranged on, for directing the air into above-mentioned air filtration module；Direction controlling mould Block, the gas outlet of above-mentioned air filtration module is arranged on, for controlling the flow direction of air；Second mixed-media network modules mixed-media, for even Connect network；Second controller, for receiving control instruction by the second mixed-media network modules mixed-media, and blower fan is controlled according to above-mentioned control instruction Rotating speed and direction controlling module deflection angle.

The third aspect, the embodiment of the present application provide a kind of air quality monitoring method, and this method includes：Gather present bit The air quality data put, above-mentioned air quality data include at least one of following：Dust data, carbon dioxide data, temperature Data, humidity data and barometric information；Obtain air quality setup parameter；Set by above-mentioned air quality data and air quality Determine the difference structure control instruction between parameter, and control instruction is sent to air filter, above-mentioned control instruction is used for The working condition of air filter is adjusted.

In certain embodiments, above by the difference structure between above-mentioned air quality data and air quality setup parameter Building control instruction includes：Obtain the relative position information between above-mentioned air quality monitoring device and air filter；Calculate Difference between above-mentioned air quality data and air quality setup parameter；Ginseng is determined according to above-mentioned relative position relation and difference Number adjustment information, and control instruction is built by parameter adjustment information.

In certain embodiments, the relative position between the above-mentioned air quality monitoring device of above-mentioned acquisition and air filter Confidence breath includes：Coordinate system is built by the origin of coordinates of above-mentioned air filter position；Calculate air quality monitoring dress Put range information and angle information on above-mentioned coordinate system with air filter.

In certain embodiments, it is above-mentioned to determine that parameter adjustment information includes according to above-mentioned relative position relation and difference：Root According to the range information in above-mentioned position relationship, the first additional parameter is set, above-mentioned first additional parameter and above-mentioned range information away from It is directly proportional from being worth；Angle information in above-mentioned position relationship sets the second additional parameter, above-mentioned second additional parameter with it is upper The distance value for stating angle information is directly proportional；Above-mentioned first additional parameter, the second additional parameter and difference sum structure parameter are adjusted Whole information.

In certain embodiments, the above method also includes：Weather forecast information is received, according to weather forecast information to air The step of quality settings parameter is adjusted.

Air quality monitoring device, air filter and the air quality monitoring method that the embodiment of the present application provides, lead to Air quality monitoring device monitoring is crossed to the air quality data of current position, passes through air quality data and air matter afterwards The difference structure control instruction between setup parameter is measured, the working condition of air filter is adjusted by control instruction, so as to Improve air filtration effect.

Brief description of the drawings

By reading the detailed description made to non-limiting example made with reference to the following drawings, the application's is other Feature, objects and advantages will become more apparent upon：

Fig. 1 is according to the structural representation of one embodiment of the air quality monitoring device of the application；

Fig. 2 is according to the structural representation of one embodiment of the air filter of the application；

Fig. 3 is the flow chart according to one embodiment of the air quality monitoring method of the application；

Fig. 4 is adapted for the structural representation of the computer system of the server for realizing the embodiment of the present application.

Embodiment

The application is described in further detail with reference to the accompanying drawings and examples.It is understood that this place is retouched The specific embodiment stated is used only for explaining related invention, rather than the restriction to the invention.It also should be noted that in order to Be easy to describe, illustrate only in accompanying drawing to about the related part of invention.

It should be noted that in the case where not conflicting, the feature in embodiment and embodiment in the application can phase Mutually combination.Describe the application in detail below with reference to the accompanying drawings and in conjunction with the embodiments.

Fig. 1 shows the structural representation that can apply the air quality monitoring device of the application.

As shown in figure 1, air quality monitoring device 100 can include air quality monitoring module 101, first network module 102 and first controller 103.Wherein, air quality monitoring module 101 is used for the air quality data for monitoring current location；The One mixed-media network modules mixed-media 102 is used to connect network；First controller 103 is used for by above-mentioned first network module to air filter Control instruction is sent, above-mentioned control instruction is used for the working condition for controlling air filter.The He of air quality monitoring module 101 First network module 102 electrically connects with the first controller 103 respectively.

Wherein, air quality monitoring module 101 is used for the air quality for monitoring the current location of air quality monitoring device 100 Data.Air quality data can generally pass through PM2.5, PM10, ozone, carbon monoxide, sulfur dioxide, temperature, humidity and pressure The parameters such as difference characterize.Therefore, the air quality monitoring module 101 of the application can include dust sensor, carbon dioxide passes The multiple sensors such as sensor, temperature sensor, humidity sensor and pressure sensor, to monitor air quality monitoring device 100 The air quality data of current location.

Air quality monitoring device 100 can only monitor air quality data, after air quality data is obtained, it is necessary to by sky Gas qualitative data is sent to air filter or other control terminals, to control the working condition of air filter.Therefore, Air quality monitoring device 100 also includes first network module 102, is filled according to air quality monitoring device 100 and air filtration The distance between terminal is put and/or controls, first network module 102 can include 3G module, 4G modules, WI-FI modules, bluetooth Module, can also be WiMAX connections, Zigbee connections, UWB (ultra wideband) connections and other it is currently known or The radio connection of exploitation in the future.

After obtaining air quality data, user can be instructed with editor control, and sent and controlled by the first controller 103 Instruction.After first controller 103 receives control instruction, control instruction is sent to air mistake by first network module 102 Filter device and/or control terminal.

In addition, air quality monitoring device 100 can also include touch control display module, for showing air quality data And/or the working condition of air filter.So that user intuitively obtains relevant information, or the operation such as editor control instruction.

Air quality monitoring device 100 can be moved freely, and the position of air filter is relatively fixed.To be each to measure The distance between the air quality of individual position, air quality monitoring device 100 and air filter also change therewith.For The air quality of a certain opening position is reached certain requirement, distance is also provided with air quality monitoring device 100 and is passed Sensor, range sensor electrically connect with the first controller 103, for measuring air quality monitoring device 100 and air filtration dress The distance between put.

Air quality monitoring device 100 can also include Wireless charging coil, and the Wireless charging coil can be with air matter Measure the lithium battery connection built in supervising device 100.When Wireless charging coil is placed on the wireless charger of air filter When, can be the lithium cell charging built in air quality monitoring device 100 by Wireless charging coil.

Fig. 2 shows the structural representation that can apply the air filter of the application.

As shown in Fig. 2 air filter 200 can include air filtration module 201, blower fan 202, direction controlling module 203rd, the second mixed-media network modules mixed-media 204 and second controller 205.Wherein, air filtration module 201 is used to filter air, on Stating air filtration module includes air inlet, air filtering core and gas outlet；Blower fan 202 is arranged on the air inlet of above-mentioned air filtration module Mouthful, for directing the air into above-mentioned air filtration module；Direction controlling module 203 is arranged on the outlet of above-mentioned air filtration module Mouthful, for controlling the flow direction of air；Second mixed-media network modules mixed-media 204, for connecting network；Second controller 205, for passing through Second mixed-media network modules mixed-media receives control instruction, and the rotating speed of blower fan and the deflection of direction controlling module are controlled according to above-mentioned control instruction Angle.Air filtration module 201, blower fan 202, the mixed-media network modules mixed-media 204 of direction controlling module 203 and second respectively with second controller 205 electrical connections.

Air filtering core in air filtration module 201 can filter to pollutants such as dust, sulfur dioxide, formaldehyde. In order to realize to air to filtering, it is necessary to which blower fan 202 directs the air into air filtration module 201, generally, blower fan 202 is arranged on The air inlet of air filtration module 201.Air filter 200 also includes direction controlling module 203, direction controlling module 203 For being controlled to the flow direction of air, the flow direction of air both horizontally and vertically can be generally controlled. Air filter 200 also includes the second mixed-media network modules mixed-media 204, to enter with air quality monitoring device 100 and/or control terminal Row communication.Corresponding with the first network module 102 of air quality monitoring device 100, the second mixed-media network modules mixed-media 204 can also wrap 3G module, 4G modules, WI-FI modules, bluetooth module are included, can also be WiMAX connections, Zigbee connections, UWB (ultra Wideband) connection and other currently known or exploitation in the future radio connections.

Air filter 200 also includes second controller 205, and user can be by second controller 205 to air mistake Filter device 200 is controlled to blower fan 202 to rotating speed and direction controlling module 203 to deflection angle, can also be to air to temperature The parameters such as degree, humidity are set.

In order to receive the range information that air quality monitoring device 100 is sent, air filter 200 can also include letter Number receiver.Air filter 200 can be adjusted by range information to parameter so that air quality monitoring device The air quality of 100 positions reaches sets requirement.

According to being actually needed, air filter 200 can also include heat-exchange apparatus, filter screen etc., herein no longer one by one Repeat.

Air filter 200 can be with wireless charger, for passing through the wireless charging on air quality monitoring device 100 Electric coil is the lithium cell charging in air quality monitoring device 100.Optionally, wireless charger can be arranged on air filtration The top of device 200.

With continued reference to Fig. 3, the flow 300 of one embodiment of air quality monitoring method according to the application is shown. The air quality monitoring method comprises the following steps：

Step 301, the air quality data of current location is gathered.

In the present embodiment, the equipment (air quality monitoring device 100) of air quality monitoring method operation thereon can To gather the air quality data of current location.Wherein, above-mentioned air quality data includes at least one of following：Dust data, Carbon dioxide data, temperature data, humidity data and barometric information.

Air quality monitoring device 100 can by including dust sensor, carbon dioxide sensor, temperature sensor, The multiple sensors such as humidity sensor and pressure sensor gather the air quality data of current location.

Step 302, air quality setup parameter is obtained.

Air quality setup parameter is typically the parameter of user's setting, and air quality setup parameter can be to being wrapped in air The setting that the parameters such as the PM2.5, PM10, ozone, carbon monoxide, sulfur dioxide, temperature, humidity and the pressure difference that contain are carried out, works as air When meeting air quality setup parameter, air filter 200 can be shut down.Air quality monitoring device 100 can be from local Air quality setup parameter is obtained, or is obtained by wired or wireless mode from air filter 200.

Step 303, control instruction is built by the difference between above-mentioned air quality data and air quality setup parameter, And control instruction is sent to air filter.

, can be by air quality data and sky after air quality monitoring device 100 monitors local air quality data Makings amount setup parameter is compared, and then builds control instruction.After the completion of control instruction structure, control instruction can be sent To air filter 200, air filter 200 is adjusted according to control instruction to parameters, until air quality The air of the position of supervising device 100 meets air quality setup parameter.Wherein, above-mentioned control instruction is used for air filtration The working condition of device is adjusted.

In some optional implementations of the present embodiment, set above by above-mentioned air quality data and air quality Determine the structure control instruction of the difference between parameter may comprise steps of：

The first step, obtain the relative position information between above-mentioned air quality monitoring device and air filter.

Air filter 200 is used to filter air, air quality monitoring device 100 and air filter 200 have a certain distance.The air for wanting the position of air quality monitoring device 100 meets air quality setup parameter, Just need to determine the relative position information between air quality monitoring device and air filter first, so as to air filtration Device 200 is targetedly adjusted to parameter.

Second step, calculate the difference between above-mentioned air quality data and air quality setup parameter.

Parameters and air quality setup parameter in the air quality data that air quality monitoring device 100 monitors With corresponding relation, i.e. the parameters in air quality data can correspond with air quality setup parameter.In this base On plinth, the difference between air quality data and the setting value of air quality setup parameter can be calculated.

3rd step, parameter adjustment information is determined according to above-mentioned relative position relation and difference, and pass through parameter adjustment information Build control instruction.

Relative position between difference obtained above and air quality monitoring device 100 and air filter 200 is closed System is closely related.Therefore, parameter adjustment information can be determined by relative position relation and difference, is believed afterwards by parameter adjustment Breath structure control instruction.Wherein, parameter adjustment information is used to be adjusted the working condition of air filter 200.

In some optional implementations of the present embodiment, the above-mentioned air quality monitoring device of above-mentioned acquisition and air mistake Relative position information between filter device may comprise steps of：

The first step, coordinate system is built by the origin of coordinates of above-mentioned air filter position.

Want to determine the relative position information between air quality monitoring device and air filter, it is necessary to build one It is individual to refer to space.The application builds coordinate system by the origin of coordinates of the position of air filter 200.The coordinate system can be Plane coordinate system or space coordinates.Assuming that initial air-out direction of the air from the air outlet of air filter 200 For horizontal direction, coordinate system now can be plane coordinate system.The longitudinal axis that can be using initial air-out direction as plane coordinate system Positive axis, parallel to the ground and direction with axis oriented normal builds plane coordinate system for transverse axis；When air fills from air filtration The initial air-out direction for putting 200 air outlet is vertical direction, and coordinate system now can be space coordinates.Can be with initial Air-out direction is the positive axis of the longitudinal axis of space coordinates, and the straight line in plane parallel to the ground builds space for transverse axis Coordinate system.

Second step, calculate the range information and angle of air quality monitoring device and air filter on above-mentioned coordinate system Spend information.

After building coordinate system, it may be determined that the position of the position of air quality monitoring device 100 in a coordinate system, enter And range information and angle information corresponding to obtaining.

It is above-mentioned that ginseng is determined according to above-mentioned relative position relation and difference in some optional implementations of the present embodiment Number adjustment information may comprise steps of：

The first step, the range information in above-mentioned position relationship set the first additional parameter.

Under normal circumstances, after air quality setup parameter has been set, air filter 200 can will be a range of Setting value of the air filtration to air quality setup parameter.But due to reasons such as distance, angle or barriers, in some positions The air quality at place is not easy the setting value for reaching air quality setup parameter.At this point it is possible to according to air quality monitoring device 100 The distance between air filter 200 determines the first additional parameter.Wherein, above-mentioned first additional parameter is believed with above-mentioned distance The distance value of breath is directly proportional.First additional parameter can be understood as due to air caused by reason such as distance, angle or obstacles The compensation that Quality Down is carried out.The distance between air quality monitoring device 100 and air filter 200 are bigger, and first is attached Add the value of parameter bigger, conversely, the distance between air quality monitoring device 100 and air filter 200 are smaller, first The value of additional parameter is smaller.

It should be noted that the first additional parameter is for specific parameter, in air quality setup parameter Parameters for, the value of the first additional parameter is different.For example, at a time, for temperature, the first additional ginseng Number can be+0.5 DEG C, and for humidity, the first additional parameter can be+5%.

Second step, the angle information in above-mentioned position relationship set the second additional parameter.

Set the first additional parameter similar according to range information with above-mentioned, can also be by angle information to the second additional ginseng Number is configured.It should be noted that the first additional parameter is mainly used in adjusting the distance in more sensitive parameter, second is additional Parameter is mainly used in the parameter more sensitive to angle.Wherein, above-mentioned second additional parameter and above-mentioned angle information away from It is directly proportional from being worth.

3rd step, above-mentioned first additional parameter, the second additional parameter and difference sum are built into parameter adjustment information.

Parameter adjustment information, parameter adjustment information are built by the first additional parameter, the second additional parameter and difference sum Contain the parameter area for the parameters that the needs of air filter 200 adjust.

In some optional implementations of the present embodiment, the air quality monitoring method of the present embodiment can also wrap Include：Weather forecast information is received, the step of being adjusted according to weather forecast information to air quality setup parameter.

Daily weather condition is generally in the state of dynamic change.In order to avoid Changes in weather is to air filter 200 and air quality monitoring device 100 residing for space cause large effect, weather forecast information can be obtained, according to day Gas forecast information is configured to some parameters in advance, to ensure air filter 200 and the institute of air quality monitoring device 100 The parameters in the space at place are in relatively steady state.

The present embodiment additionally provides a kind of server, including：One or more processors；Memory, for storing one Or multiple programs, when said one or multiple programs are by said one or multiple computing devices so that said one is more The above-mentioned air quality monitoring method of individual computing device.

The present embodiment additionally provides a kind of computer-readable recording medium, is stored thereon with computer program, the program quilt Above-mentioned air quality monitoring method is realized during computing device.

Below with reference to Fig. 4, it illustrates suitable for for realizing the computer system 400 of the server of the embodiment of the present application Structural representation.Server shown in Fig. 4 is only an example, should not be to the function and use range band of the embodiment of the present application Carry out any restrictions.

As shown in figure 4, computer system 400 includes CPU (CPU) 401, it can be read-only according to being stored in Program in memory (ROM) 402 or be loaded into program in random access storage device (RAM) 403 from storage part 408 and Perform various appropriate actions and processing.In RAM 403, also it is stored with system 400 and operates required various programs and data. CPU 401, ROM 402 and RAM 403 are connected with each other by bus 404.Input/output (I/O) interface 405 is also connected to always Line 404.

I/O interfaces 405 are connected to lower component：Importation 406 including keyboard, mouse etc.；Penetrated including such as negative electrode The output par, c 407 of spool (CRT), liquid crystal display (LCD) etc. and loudspeaker etc.；Storage part 408 including hard disk etc.； And the communications portion 409 of the NIC including LAN card, modem etc..Communications portion 409 via such as because The network of spy's net performs communication process.Driver 410 is also according to needing to be connected to I/O interfaces 405.Detachable media 411, such as Disk, CD, magneto-optic disk, semiconductor memory etc., it is arranged on as needed on driver 410, in order to read from it Computer program be mounted into as needed storage part 408.

Especially, in accordance with an embodiment of the present disclosure, it may be implemented as computer above with reference to the process of flow chart description Software program.For example, embodiment of the disclosure includes a kind of computer program product, it includes being carried on computer-readable medium On computer program, the computer program include be used for execution flow chart shown in method program code.In such reality To apply in example, the computer program can be downloaded and installed by communications portion 409 from network, and/or from detachable media 411 are mounted.When the computer program is performed by CPU (CPU) 401, perform what is limited in the present processes Above-mentioned function.

It should be noted that the above-mentioned computer-readable medium of the application can be computer-readable signal media or meter Calculation machine readable storage medium storing program for executing either the two any combination.Computer-readable recording medium for example can be --- but not Be limited to --- electricity, magnetic, optical, electromagnetic, system, device or the device of infrared ray or semiconductor, or it is any more than combination.Meter The more specifically example of calculation machine readable storage medium storing program for executing can include but is not limited to：Electrical connection with one or more wires, just Take formula computer disk, hard disk, random access storage device (RAM), read-only storage (ROM), erasable type and may be programmed read-only storage Device (EPROM or flash memory), optical fiber, portable compact disc read-only storage (CD-ROM), light storage device, magnetic memory device, Or above-mentioned any appropriate combination.In this application, computer-readable recording medium can any include or store journey The tangible medium of sequence, the program can be commanded the either device use or in connection of execution system, device.And at this In application, computer-readable signal media can include in a base band or as carrier wave a part propagation data-signal, Wherein carry computer-readable program code.The data-signal of this propagation can take various forms, including but unlimited In electromagnetic signal, optical signal or above-mentioned any appropriate combination.Computer-readable signal media can also be that computer can Any computer-readable medium beyond storage medium is read, the computer-readable medium, which can send, propagates or transmit, to be used for By instruction execution system, device either device use or program in connection.Included on computer-readable medium Program code can be transmitted with any appropriate medium, be included but is not limited to：Wirelessly, electric wire, optical cable, RF etc., or it is above-mentioned Any appropriate combination.

Flow chart and block diagram in accompanying drawing, it is illustrated that according to the system of the various embodiments of the application, method and computer journey Architectural framework in the cards, function and the operation of sequence product.At this point, each square frame in flow chart or block diagram can generation The part of one module of table, program segment or code, the part of the module, program segment or code include one or more use In the executable instruction of logic function as defined in realization.It should also be noted that marked at some as in the realization replaced in square frame The function of note can also be with different from the order marked in accompanying drawing generation.For example, two square frames succeedingly represented are actually It can perform substantially in parallel, they can also be performed in the opposite order sometimes, and this is depending on involved function.Also to note Meaning, the combination of each square frame and block diagram in block diagram and/or flow chart and/or the square frame in flow chart can be with holding Function as defined in row or the special hardware based system of operation are realized, or can use specialized hardware and computer instruction Combination realize.

As on the other hand, present invention also provides a kind of computer-readable medium, the computer-readable medium can be Included in device described in above-described embodiment；Can also be individualism, and without be incorporated the device in.Above-mentioned calculating Machine computer-readable recording medium carries one or more program, when said one or multiple programs are performed by the device so that should Device：The air quality data of current location is gathered, above-mentioned air quality data includes at least one of following：Dust data, two Carbonoxide data, temperature data, humidity data and barometric information；Obtain air quality setup parameter；Pass through above-mentioned air quality Difference structure control instruction between data and air quality setup parameter, and control instruction is sent to air filter, Above-mentioned control instruction is used to be adjusted the working condition of air filter.

Above description is only the preferred embodiment of the application and the explanation to institute's application technology principle.People in the art Member should be appreciated that invention scope involved in the application, however it is not limited to the technology that the particular combination of above-mentioned technical characteristic forms Scheme, while should also cover in the case where not departing from foregoing invention design, carried out by above-mentioned technical characteristic or its equivalent feature The other technical schemes for being combined and being formed.Such as features described above has similar work(with (but not limited to) disclosed herein The technical scheme that the technical characteristic of energy is replaced mutually and formed.

Claims (10)

1. a kind of air quality monitoring device, it is characterised in that the air quality monitoring device includes：

Air quality monitoring module, for monitoring the air quality data of current location；

First network module, for connecting network；

First controller, for sending control instruction to air filter by the first network module, the control refers to Make the working condition for controlling air filter.

2. device according to claim 1, it is characterised in that the air quality monitoring unit includes following at least one ：Dust sensor, carbon dioxide sensor, temperature sensor, humidity sensor and pressure sensor.

3. device according to claim 1, it is characterised in that the first network module includes at least one of following：3G Module, 4G modules, WI-FI modules, bluetooth module.

4. device according to claim 1, it is characterised in that the air quality monitoring device also includes：

Range sensor, electrically connected with first controller, for measuring air quality monitoring device and air filter The distance between.

5. a kind of air filter, it is characterised in that the air filter includes：

Air filtration module, for being filtered to air, the air filtration module includes air inlet, air filtering core and outlet Mouthful；

Blower fan, the air inlet of the air filtration module is arranged on, for directing the air into the air filtration module；

Direction controlling module, the gas outlet of the air filtration module is arranged on, for controlling the flow direction of air；

Second mixed-media network modules mixed-media, for connecting network；

Second controller, for receiving control instruction by the second mixed-media network modules mixed-media, and blower fan is controlled according to the control instruction The deflection angle of rotating speed and direction controlling module.

A kind of 6. air quality monitoring method, it is characterised in that methods described includes：

The air quality data of current location is gathered, the air quality data includes at least one of following：Dust data, dioxy Change carbon number evidence, temperature data, humidity data and barometric information；

Obtain air quality setup parameter；

Control instruction is built by difference between the air quality data and air quality setup parameter, and by control instruction Send to air filter, the control instruction is used to be adjusted the working condition of air filter.

7. according to the method for claim 6, it is characterised in that described to be set by the air quality data and air quality Determining the structure control instruction of the difference between parameter includes：

Obtain the relative position information between the air quality monitoring device and air filter；

Calculate the difference between air quality data and the air quality setup parameter；

Parameter adjustment information is determined according to the relative position relation and difference, and control is built by parameter adjustment information and referred to Order.

8. according to the method for claim 7, it is characterised in that described to obtain the air quality monitoring device and air mistake Relative position information between filter device includes：

Coordinate system is built by the origin of coordinates of the air filter position；

Calculate the range information and angle information of air quality monitoring device and air filter on the coordinate system.

9. according to the method for claim 8, it is characterised in that described that ginseng is determined according to the relative position relation and difference Number adjustment information includes：

Range information in the position relationship sets the first additional parameter, and first additional parameter is believed with the distance The distance value of breath is directly proportional；

Angle information in the position relationship sets the second additional parameter, and second additional parameter is believed with the angle The distance value of breath is directly proportional；

First additional parameter, the second additional parameter and difference sum are built into parameter adjustment information.

10. according to the method for claim 6, it is characterised in that methods described also includes：

Weather forecast information is received, the step of being adjusted according to weather forecast information to air quality setup parameter.