CN205536374U - Air purifier system - Google Patents

Abstract

The embodiment of the utility model discloses air purifier system has realized the operation of high in the clouds clarifier system, the follow -up whole management and control to user, ambient air quality etc. Of being convenient for, and it is single host computer to have solved present air purifier, and its mode is comparatively single, can't satisfy masses' demand, and is intelligent inadequately, the technical problem that experience nature is low that causes. The utility model discloses a: air purifier host computer, control terminal and cloud ware, the air purifier host computer is connected with control terminal radio communication, and control terminal and cloud ware radio communication connect, the air purifier host computer carries out corresponding command execution operation according to the control command of control terminal transmission, and control terminal is with the air quality data of its inside air matter level sensor detection to and reach the cloud ware on the working state data that returns of air purifier host computer and carry out the record.

Description

A kind of air purifier system

Technical field

This utility model relates to technical field of air purification, particularly relates to a kind of air purifier system.

Background technology

Air purifier is also known as " air cleaner ", air cleaner, depurator, refer to absorption, decompose or convert various air pollutants (generally comprising the finishing pollution of PM2.5, dust, pollen, abnormal flavour, formaldehyde etc, antibacterial, anaphylactogen etc.), it is effectively improved the product of air cleanliness, is broadly divided into domestic, commercialization, industry, building.

Air purifier has multiple different technology and medium, enables it to provide a user with cleaning and the air of safety.Conventional air purifying process has: adsorption technology, negative (just) ion technology, catalysis technique, photocatalyst technology, superstructure light mineralising technology, HEPA high efficiency filter technology, electrostatic precipitation technology etc.；Material technology mainly has: the efficient material of photocatalyst, activated carbon, synthetic fibers, HEAP, anion generator etc..Existing air purifier is adopted as compound more, have employed multiple purification techniques and material medium the most simultaneously.

Current air purifier is single main frame, and its mode of operation is the most single, cannot meet the demand of masses, intelligent not, causes the technical problem that experience property is low.

Utility model content

A kind of air purifier system that this utility model embodiment provides, achieve the operation of high in the clouds purifier system, it is easy to the follow-up overall management and control for user, ambient air quality etc., solving current air purifier is single main frame, its mode of operation is the most single, cannot meet the demand of masses, intelligent not, technical problem that the experience property that causes is low.

A kind of air purifier system that this utility model embodiment provides, including:

Air purifier main frame, control terminal and Cloud Server；

Described air purifier main frame is connected with described control terminal wireless communication, and described control terminal and described Cloud Server radio communication connect；

The instruction that described air purifier main frame carries out correspondence according to the control instruction of described control terminal transmission performs operation, described control terminal is by the air quality data of its internal air mass sensor detection, and the operating state data of described air purifier main frame return is uploaded to described Cloud Server and carries out record.

Alternatively, described air purifier system also includes:

Mobile terminal, is connected with described control terminal wireless communication by described Cloud Server.

Alternatively, described mobile terminal, for getting described control terminal and the described all feedback data of air purifier main frame by described Cloud Server.

Alternatively, described control terminal includes:

Shell, manipulation unit and main control unit；

Described manipulation unit and described main control unit are electrically connected with, and described main control unit is arranged on described enclosure, and described manipulation unit is arranged on described case surface；

Described main control unit includes:

Master control borad, communication module and Detection of Air Quality sensor；

Described communication module and described Detection of Air Quality sensor are electrically connected with described master control borad

Alternatively, described Detection of Air Quality sensor includes carbon dioxide sensor, formaldehyde sensor, PM2.5 sensor.

Alternatively, it is provided with temperature sensor and humidity sensor in described air purifier main frame.

Alternatively, the top of the housing of described air purifier main frame is provided with touch ring, and described touch ring is provided with sensing pcb board, and described sensing pcb board is electrically connected with described motor.

Alternatively, described sensing pcb board is provided with a plurality of touch sensing；

Described touch sensing, for the control unit touching the touch signal transmission extremely described air purifier main frame that ring obtains described in touch-control being carried out the determination of the angle change of described touch, and mate with preset wind speed change rank according to the change of described angle so that described control unit controls blower fan and carries out the operation of air output according to matching result.

Alternatively, described communication module includes bluetooth communication means and wifi communication component；

Described bluetooth communication means and the communications module wireless connections of described air purifier main frame；

Described wifi communication component is connected with Cloud Server, described mobile terminal radio communication.

Alternatively, described manipulation unit includes touching display screen, is electrically connected with light sensor and position sensor.

As can be seen from the above technical solutions, this utility model embodiment has the advantage that

A kind of air purifier system that this utility model embodiment provides, wherein, air purifier system includes: air purifier main frame, control terminal and Cloud Server；Air purifier main frame is connected with controlling terminal wireless communication, controls terminal and Cloud Server radio communication connects；The instruction that air purifier main frame carries out correspondence according to the control instruction controlling terminal transmission performs operation, control the terminal air quality data by its internal air mass sensor detection, and the operating state data of air purifier main frame return is uploaded to Cloud Server and carries out record.In the present embodiment, the instruction carrying out correspondence according to the control instruction controlling terminal transmission by air purifier main frame performs operation, control the terminal air quality data by its internal air mass sensor detection, and the operating state data of air purifier main frame return is uploaded to Cloud Server and carries out record, achieve the operation of high in the clouds purifier system, it is easy to follow-up for user, the overall management and control of ambient air quality etc., solving current air purifier is single main frame, its mode of operation is the most single, cannot meet the demand of masses, intelligent not, the technical problem that the experience property that causes is low.

Accompanying drawing explanation

In order to be illustrated more clearly that this utility model embodiment or technical scheme of the prior art, the accompanying drawing used required in embodiment or description of the prior art will be briefly described below, apparently, accompanying drawing in describing below is only embodiments more of the present utility model, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

The structural representation of one embodiment of a kind of air purifier system that Fig. 1 provides for this utility model embodiment；

Fig. 2 is for controlling terminal structure schematic diagram；

Fig. 3 is air purifier main machine structure schematic diagram；

Fig. 4 is for controlling exterior of terminal structural representation.

Detailed description of the invention

A kind of air purifier system that this utility model embodiment provides, achieve the operation of high in the clouds purifier system, it is easy to the follow-up overall management and control for user, ambient air quality etc., solving current air purifier is single main frame, its mode of operation is the most single, cannot meet the demand of masses, intelligent not, technical problem that the experience property that causes is low.

For making utility model purpose of the present utility model, feature, the advantage can be the most obvious and understandable, below in conjunction with the accompanying drawing in this utility model embodiment, technical scheme in this utility model embodiment is clearly and completely described, obviously, the embodiments described below are only a part of embodiment of this utility model, and not all embodiment.Based on the embodiment in this utility model, all other embodiments that those of ordinary skill in the art are obtained under not making creative work premise, broadly fall into the scope of this utility model protection.

Referring to Fig. 1 to Fig. 4, an embodiment of a kind of air purifier system that this utility model embodiment provides includes:

Air purifier main frame 01, control terminal 02 and Cloud Server 03；

Air purifier main frame 01 is connected with controlling terminal 02 radio communication, controls terminal 02 and Cloud Server 03 radio communication connects；

The instruction that air purifier main frame 01 carries out correspondence according to the control instruction controlling terminal 02 transmission performs operation, control the terminal 02 air quality data by its internal air mass sensor detection, and the operating state data of air purifier main frame 01 return is uploaded to Cloud Server 03 and carries out record.

Alternatively, air purifier system also includes:

Mobile terminal 04, is connected with controlling terminal 02 radio communication by Cloud Server 03.

Alternatively, mobile terminal 04, for getting control terminal 02 and all feedback data of air purifier main frame 01 by Cloud Server 03.

Alternatively, control terminal 04 to include:

Shell 3, manipulation unit 1 and main control unit 2；

Manipulation unit 1 and main control unit 2 are electrically connected with, and it is internal that main control unit 2 is arranged on shell 3, and manipulation unit 1 is arranged on shell 3 surface；

Main control unit 2 includes:

Master control borad 21, communication module 22 and Detection of Air Quality sensor 23；

Communication module 22 and Detection of Air Quality sensor 23 are electrically connected with master control borad 21；

Wherein, communication module 22 is connected with air purifier hosi wireless communication, Detection of Air Quality sensor 23 is for showing the air quality detected at the display screen of manipulation unit 1 by master control borad 21, master control borad 21 for carrying out the signal processing of correspondence according to the signal of manipulation unit 1 feedback so that the instruction that air purifier main frame sends by getting communication module 22 carries out the operation of correspondence and processes.

Further, Detection of Air Quality sensor 23 includes carbon dioxide sensor, formaldehyde sensor, PM2.5 sensor, temperature sensor and humidity sensor.

Further, it is provided with temperature sensor and humidity sensor in air purifier main frame 01.

Further, the top of the housing of air purifier main frame 01 is provided with touch ring 20, touch ring 20 and be provided with sensing pcb board 22, sensing pcb board 22 is electrically connected with motor, such as shown in Fig. 3, touch ring 20 and be provided with sensing pcb board 22, sensing pcb board 22 is electrically connected with motor, motor is for driving the flabellum of air ducting to rotate, when air purifier main frame 01 is in mode of operation, when the sensing pcb board 22 touched on ring 20 receives the touch signal of certain speed, sensing pcb board 22 controls electric machine rotation, and then driven by motor flabellum rotates with certain speed.

Further, sensing pcb board is provided with a plurality of touch sensing；

Touch sensing, the control unit of the transmission of touch signal to air purifier main frame 01 for touch-control touches ring acquisition carries out the determination of the angle change of touch, and mate with preset wind speed change rank according to angle change so that control unit controls blower fan and carries out the operation of air output according to matching result.

Further, alternatively, communication module includes bluetooth communication means and wifi communication component；

Bluetooth communication means and the communications module wireless connections of air purifier main frame；

Wifi communication component is connected with Cloud Server 03, mobile terminal 04 radio communication.

Further, manipulation unit 1 includes touching display screen, is electrically connected with light sensor and position sensor.

It is built into multiple sensors it should be noted that this utility model is based on control terminal 02 and the full Intelligent air purifier of cloud manipulation can be carried out.It is made up of air purifier main frame 01, independent control terminal 02 and mobile terminal 04 (such as mobile phone).The built-in temperature and relative humidity of air purifier main frame 01, is equipped with wireless telecommunications module and is used for and monitor controller communication；Control the built-in PM2.5 of terminal 02 (monitoring passage containing independent PM10), formaldehyde, carbon dioxide, VOC sensor, for monitoring the air quality of its position.Be also equipped with inside it wireless telecommunications module for depurator host communication, WiFi communication module for being connected to high in the clouds by WiFi network, then descend into intelligent terminal's (such as mobile phone) of pre-company.Control terminal 02 is also equipped with touch screen and interacts operation, is equipped with light sensor and regulates its screen intensity according to ambient light.Control terminal 02 and be also equipped with rechargeable battery, can independently use as monitor, monitor the demand of air quality whenever and wherever possible for realizing user；APP on mobile terminal 04 (such as mobile phone) can realize remotely checking and controlling.

In the present embodiment, the instruction carrying out correspondence according to the control instruction controlling terminal 02 transmission by air purifier main frame 01 performs operation, control the terminal 02 air quality data by its internal air mass sensor detection, and the operating state data of air purifier main frame 01 return is uploaded to Cloud Server 03 and carries out record, achieve the operation of high in the clouds purifier system, it is easy to follow-up for user, the overall management and control of ambient air quality etc., solving current air purifier is single main frame, its mode of operation is the most single, cannot meet the demand of masses, intelligent not, the technical problem that the experience property that causes is low.

As shown in Figure 2 and Figure 4, the main control unit 2 controlling terminal 02 also includes:

Timing control unit 24, is used for controlling Detection of Air Quality sensor 22 and ambient air quality carries out continuous detecting or preset time period detection.

Main control unit 2 also includes:

Mode selection module 25, for getting the mode instruction selected by manipulation unit 1, and mode instruction is transferred to master control borad 21 controls air purifier main frame and carry out the mode of operation relative with mode instruction, mode instruction includes intelligent mode, sleep pattern, high wind pattern and manual mode.

Main control unit 2 also includes:

Criteria selection module 26, for getting the standard work order selected by manipulation unit 1, and is transferred to standard work order master control borad 21 and controls air purifier main frame and carry out the work of corresponding with standard work order standard.

It should be noted that, it can be to carry out pairing by matching method to connect that communication module 22 is connected with air purifier hosi wireless communication, such as watch-dog (main control unit 2) and main frame, by special bluetooth radio connection collaborative work, use and need Joint and partnership method as follows:

1, long watch-dog on off key of pressing is started shooting, and main frame plugs in and shows green light.

2, the touch ring of slip air purifier main frame counterclockwise makes main frame green light slowly flash, Dan Zhichang presses labelling more than five seconds on the touch ring of air purifier main frame, until green light removes finger after flashing the most continuously, now main frame enters the pairing mode of 30 seconds when being.

3, automatic matching flow process is entered；

4, after successful matching, host power supply/status indicator lamp becomes white, air purifier system prompting " successful matching ".

The detection mode of carbon dioxide sensor, formaldehyde sensor, PM2.5 sensor, temperature sensor and humidity sensor can be as follows:

Monitor carbon dioxide (CO2) concentration, concentration of formaldehyde, PM2.5 concentration, and PM2.5 and concentration of formaldehyde are controlled in healthy scope by automatic remote control depurator main frame.Temperature and humidity can also be monitored after matching with main frame.

The air quality of monitoring is divided into six grades by this watch-dog: excellent, good, in, poor, bad, danger.

Clicking on " CO2 " is gas concentration lwevel.< 1000ppm is excellent, windows ventilation beyond suggestion.Stablizing of numerical value takes around 40 seconds.

Click on the real-time measurement values that " PM2.5 " is display PM2.5.Stablizing of numerical value takes around 20 seconds.Chinese Industrial Standards (CIS) 75 below μ g/m3 is good；Unite States Standard is 35 below μ g/m.

Note: the upper left behind of monitor screen is the air inlet of PM2.5 sensor, as the PM2.5 concentration in air-flow need to be measured, this mouthful of alignment should be made and meet to airflow direction.

Clicking on " formaldehyde " is concentration of formaldehyde.Chinese Industrial Standards (CIS)≤0.08mg/m3 is qualified；The U.S. then requires≤0.06mg/m.

Click on the temperature that " temperature " is display depurator main frame position.

Click on the relative humidity that " humidity " is display depurator main frame position.

Clicking on " measuring continuously ", watch-dog can be monitored 5 minutes continuously, otherwise clicks on screen monitor device and only measures 1 minute.

The switching of intelligent mode, sleep pattern, high wind pattern and manual mode is as follows:

Intelligent mode: according to real-time IAQ (indoor air quality), complete intelligent automatic regulated main frame wind speed；

Sleep pattern: super low noise runs, builds comfortable sleeping environment (non intelligent pattern, main frame continues to run) with this speed；

High wind pattern: full speed running, fast purification (non intelligent pattern automatically switches to middling speed and runs after quickly running 90 minutes)；

Manual mode: manually adjustable main frame wind speed returns to model selection interface and returns watch-dog

Standard selects: select air quality standard (GB or Unite States Standard) to be used as controlling the standard of depurator work as required.Selecting Unite States Standard, depurator will more strongly work, especially at night.

In the present embodiment, it is connected with air purifier hosi wireless communication by communication module 22, Detection of Air Quality sensor 23 is for showing the air quality detected at the display screen of manipulation unit 1 by master control borad 21, master control borad 21 for carrying out the signal processing of correspondence according to the signal of manipulation unit 1 feedback, the instruction that air purifier main frame is sent by getting communication module 22 carries out the operation of correspondence and processes, solving the control parts of current air purifier is all to be integral type structure with depurator main frame, and Detection of Air Quality sensor is also correspondingly disposed in depurator main frame, the control caused is inconvenient, experience property is low, the detection of air quality the technical problem of fict current environment air quality.

In actual application, the function controlling terminal 02 has multiple, is described separately below:

One, working sensor method；

201, the current slot of the RTC clock instruction of inside is got；

In the present embodiment, so that the sensor service intermittent of air purifier, it is necessary first to get the current slot of the RTC clock instruction of inside.

202, working sensor pattern is determined according to current slot, if the time period on daytime, then controlling sensor to work continuously to 2 minutes sections according to 1 minute, controlled sensor power down according to 4 minutes to 6 minutes sections and quit work, the reciprocal control in 10 cycles that worked per hour processes；

After the current slot of RTC clock instruction getting inside, need to determine working sensor pattern according to current slot, if the time period on daytime, then control sensor to work continuously to 2 minutes sections according to 1 minute, controlling sensor power down according to 4 minutes to 6 minutes sections to quit work, the reciprocal control in 10 cycles that worked per hour processes.

203, the air quality judging sensor to work continuously the 3rd during cycle being detected whether less than preset threshold value, the most then performs step 204；

When for the time period on daytime, then control sensor to work continuously to 2 minutes sections according to 1 minute, controlled sensor power down according to 4 minutes to 6 minutes sections to quit work, work per hour 10 cycles reciprocal control process after, whether the air quality needing to judge sensor to work continuously the 3rd during cycle being detected is less than preset threshold value, the most then perform step 204.

204, controlling sensor to work continuously to 2 minutes sections according to 1 minute, controlled sensor power down according to 10 minutes to 12 minutes sections and quit work, the reciprocal control in 5 cycles that worked per hour processes；

The air quality that 3rd during cycle detected when judging sensor to work continuously is less than preset threshold value, then control sensor to work continuously to 2 minutes sections according to 1 minute, controlling sensor power down according to 10 minutes to 12 minutes sections to quit work, the reciprocal control in 5 cycles that worked per hour processes.

If 205 evening hours sections, then controlling sensor and worked continuously to 2 minutes sections according to 1 minute, controlled sensor power down according to 10 minutes to 12 minutes sections and quit work, the reciprocal control in 5 cycles that worked per hour processes；

When determining working sensor pattern according to current slot, if evening hours section, then controlling sensor to work continuously to 2 minutes sections according to 1 minute, controlled sensor power down according to 10 minutes to 12 minutes sections and quit work, the reciprocal control in 5 cycles that worked per hour processes.

206, the air quality judging sensor to work continuously the 3rd during cycle being detected whether less than preset threshold value, the most then performs step 207；

When for evening hours section, then control sensor to work continuously to 2 minutes sections according to 1 minute, controlled sensor power down according to 10 minutes to 12 minutes sections to quit work, work per hour 5 cycles reciprocal control process after, whether the air quality needing to judge sensor to work continuously the 3rd during cycle being detected is less than preset threshold value, the most then perform step 207.

207, controlling sensor to work continuously to 2 minutes sections according to 1 minute, controlled sensor power down according to 18 minutes to 20 minutes sections and quit work, the reciprocal control in 3 cycles that worked per hour processes.

The air quality that 3rd during cycle detected when judging sensor to work continuously is less than preset threshold value, then control sensor to work continuously to 2 minutes sections according to 1 minute, controlling sensor power down according to 18 minutes to 20 minutes sections to quit work, the reciprocal control in 3 cycles that worked per hour processes.

Two, the filter screen life-span judges

301, getting the PM10 value detected by PM10 sensor, and the PM2.5 value detected by PM2.5 sensor, with the formolite number detected by formaldehyde sensor；

In the present embodiment, when it needs to be determined that the filter screen of depurator is the need of when changing, it is necessary first to getting the PM10 value detected by PM10 sensor, and the PM2.5 value detected by PM2.5 sensor, with the formolite number detected by formaldehyde sensor.

302, the blower fan air output of unit interval is got；

When getting the PM10 value detected by PM10 sensor, after the PM2.5 value detected by PM2.5 sensor, with the formolite number detected by formaldehyde sensor, need to get the blower fan air output of unit interval.

303, the actual dust containing capacity of corresponding for PM2.5 first is calculated according to the blower fan air output × preset PM2.5 absorptiometer of first preset formula PM2.5 value × unit interval；

After step 302 and step 303, need to calculate the actual dust containing capacity of corresponding for PM2.5 first according to the blower fan air output × preset PM2.5 absorptiometer of first preset formula PM2.5 value × unit interval.

304, filter element this consumption ratio is calculated according to the 3rd preset formula first actual dust containing capacity ÷ filter screen dust containing capacity；

After calculating the actual dust containing capacity of corresponding for PM2.5 first according to the blower fan air output × preset PM2.5 absorptiometer of first preset formula PM2.5 value × unit interval, need to calculate filter element this consumption ratio according to the 3rd preset formula first actual dust containing capacity ÷ filter screen dust containing capacity.

If 305 HEPA filter screen this consumption ratio meet changes HEPA filter screen threshold value, then carry out HEPA screen replacing prompting；

After calculating filter element this consumption ratio according to the 3rd preset formula first actual dust containing capacity ÷ filter screen dust containing capacity, if needing HEPA filter screen this consumption ratio to meet change HEPA filter screen threshold value, then carry out HEPA screen replacing prompting.

306, the actual dust containing capacity of corresponding for PM10 second is calculated according to the blower fan air output × preset PM10 absorptiometer of second preset formula PM10 value × unit interval；

After step 302 and step 303, need to calculate the actual dust containing capacity of corresponding for PM10 second according to the blower fan air output × preset PM10 absorptiometer of second preset formula PM10 value × unit interval.

307, just filter screen this consumption ratio is calculated according to the 4th preset formula second actual dust containing capacity ÷ filter screen dust containing capacity；

After calculating the actual dust containing capacity of corresponding for PM10 second according to the blower fan air output × preset PM10 absorptiometer of second preset formula PM10 value × unit interval, need to calculate just filter screen this consumption ratio according to the 4th preset formula second actual dust containing capacity ÷ filter screen dust containing capacity.

If 308 first filter screen this consumption ratio meet just filter screen cleaning threshold, then carry out just filter screen clean prompting；

After calculate first filter screen this consumption ratio according to the 4th preset formula second actual dust containing capacity ÷ filter screen dust containing capacity, if just filter screen this consumption ratio meets just filter screen cleaning threshold, then carry out just filter screen clean prompting.

309, calculate, according to the blower fan air output × preset formolite number absorptiometer of the 5th preset formula formolite number × unit interval, the activated carbon adsorption amount that formaldehyde is corresponding；

After step 302 and step 303, need to calculate, according to the blower fan air output × preset formolite number absorptiometer of the 5th preset formula formolite number × unit interval, the activated carbon adsorption amount that formaldehyde is corresponding.

310, activated carbon this consumption ratio is calculated according to the 6th preset formula activated carbon adsorption total adsorbance of amount ÷ activated carbon；

After calculating, according to the blower fan air output × preset formolite number absorptiometer of the 5th preset formula formolite number × unit interval, the activated carbon adsorption amount that formaldehyde is corresponding, need to calculate activated carbon this consumption ratio according to the 6th preset formula activated carbon adsorption total adsorbance of amount ÷ activated carbon.

311, activated carbon this consumption ratio meets replacing activated carbon threshold value, then carry out active carbon filter screen and change prompting.

After calculating activated carbon this consumption ratio according to the 6th preset formula activated carbon adsorption total adsorbance of amount ÷ activated carbon, activated carbon this consumption ratio meets changes activated carbon threshold value, then carry out active carbon filter screen and change prompting.

Monitor controller is by parameters such as monitoring PM2.5, PM10, more accurate dust amount can be calculated in conjunction with the real-time air quantity of depurator, it is appreciated that the consume ratio of HEPA filter screen with this again according to the dust containing capacity of HEPA filter screen the most at any time, reaches to set and then point out user to change HEPA filter screen service life；The monitor controller monitoring by PARA FORMALDEHYDE PRILLS(91,95) content, coordinates real-time air quantity and the total adsorbance of activated carbon just can learn the service life state of active carbon filter screen, accurately reminds user to change；Monitor controller, by the monitoring to PM10, just can learn the use state of just filter screen in conjunction with the real-time air quantity of depurator, accurately and timely reminds user to clean pre-filter screen.

The computational methods in PM2.5 filter screen life-span are: the total dust containing capacity of total adsorbance ÷ of substantial activity charcoal=filter screen this consumption ratio.

Air quantity × PM2.5 the absorbance of actual dust containing capacity=environment PM2.5 reading × unit interval；

When main frame is connected with detection controller, environment PM2.5 reading is obtained by controller test, and returns to main frame；When main frame and detection controller disconnect and working alone, main frame can estimate actual dust containing capacity with fixing PM2.5 reading.

The computational methods in active carbon filter screen filter screen life-span are: the total adsorbance of substantial activity charcoal adsorbance ÷ activated carbon=active carbon filter screen this consumption ratio.

Air quantity × formaldehyde absorption the rate of actual adsorbance=environment formaldehyde reading × unit interval；

When main frame is connected with detection controller, environment formaldehyde reading is obtained by controller test, and returns to main frame；When main frame and detection controller disconnect and working alone, main frame can estimate actual adsorbance with fixing formaldehyde reading.It should be noted that the active carbon filter screen life-span has the restriction of 2 years, actual working on power by main frame to start to add up, no longer than 2 years.

It should be noted that this consumption ratio of the filter screen in the present embodiment can calculate according to filter screen this consumption ratio formula (filter screen running time/filter screen life-span limits the time) the * the first proportionality coefficient+(actual absorption amount/integral dose) the * the second proportionality coefficient further and obtain；

Wherein, the first proportionality coefficient is 0-100%, and the second proportionality coefficient is 100%-0, and the first proportionality coefficient and the second proportionality coefficient sum are 1.

Illustrate as a example by active carbon filter screen below.

The restriction life-span of the active carbon filter screen in the present embodiment is 2 years, estimates with the working time of 12 hours every days, then be 12 hours * 365 days * 2 years=8000 hours；

Total adsorbance that in this example, active carbon filter screen can reach in the ideal situation is 2800mg；

The replacing threshold value of active carbon filter screen is 95%；

So this consumption ratio of active carbon filter screen is (∑ working time/8000) * 60%-(∑ adsorbance/2800) * 40%, and therein 60% and 40% is our empirical value.

When this this consumption ratio reaches 95%, air purifier sends active carbon filter screen and changes prompting.

Solve the technical problem that:

Filter screen itself has the life-span to limit, if air quality is melancholy for a long time, although filter screen does not has active adsorption pollutant within a very long time, but elapse over time, filter screen itself also can be lossy, is therefore modified with the working time of air purifier.

Such as, environmental contaminants are formaldehyde, but PM2.5 is 0 always, then air purifier can work always, and active carbon filter screen carries out adsorbing work always, and HEPA filter screen does not filter, but also can be lossy.

Three, window detection method

401, get open air purifier window detection instruction；

In the present embodiment, when it needs to be determined that currently whether window, it is necessary first to get and open air purifier and window the instruction of detection.

402, determine that air purifier is in running order；

When get open air purifier window detection instruction after, it is thus necessary to determine that air purifier is in running order.

403, present air environment is carried out the detection of the carbon dioxide content of preset time period, and the carbon dioxide content every time detected is preserved；

After determining that air purifier is in running order, need present air environment is carried out the detection of the carbon dioxide content of preset time period, and the carbon dioxide content every time detected is preserved.

404, to carbon dioxide content being detected, the rate of change of carbon dioxide content is calculated in conjunction with preset time period；

When the detection of the carbon dioxide content that present air environment is carried out preset time period, and after the carbon dioxide content detected is preserved every time, need carbon dioxide content being detected, calculate the rate of change of carbon dioxide content in conjunction with preset time period.

405, increase when carbon dioxide content, and meet preset increasing value, it is determined that door and window is not opened, and continues to air purifier in running order；

When carbon dioxide content increases, and meet preset increasing value, it is determined that door and window is not opened, and continues to air purifier in running order.

406, when carbon dioxide content declines, it is judged that whether the rate of change of carbon dioxide content reaches preset fall off rate, the most then carry out the early warning of opening of doors and windows, and after the preset early warning time period, control air purifier shutdown.

When carbon dioxide content declines, it is judged that whether the rate of change of carbon dioxide content reaches preset fall off rate, the most then carry out the early warning of opening of doors and windows, and after the preset early warning time period, control air purifier shutdown.

The above, above example only in order to the technical solution of the utility model to be described, is not intended to limit；Although this utility model being described in detail with reference to previous embodiment, it will be understood by those within the art that: the technical scheme described in foregoing embodiments still can be modified by it, or wherein portion of techniques feature is carried out equivalent；And these amendments or replacement, do not make the essence of appropriate technical solution depart from the spirit and scope of this utility model each embodiment technical scheme.

Claims (10)

1. an air purifier system, it is characterised in that including:

Air purifier main frame, control terminal and Cloud Server；

Described air purifier main frame is connected with described control terminal wireless communication, and described control terminal and described Cloud Server radio communication connect；

The instruction that described air purifier main frame carries out correspondence according to the control instruction of described control terminal transmission performs operation, described control terminal is by the air quality data of its internal air mass sensor detection, and the operating state data of described air purifier main frame return is uploaded to described Cloud Server and carries out record.

Air purifier system the most according to claim 1, it is characterised in that described air purifier system also includes:

Mobile terminal, is connected with described control terminal wireless communication by described Cloud Server.

Air purifier system the most according to claim 2, it is characterised in that described mobile terminal, for getting described control terminal and the described all feedback data of air purifier main frame by described Cloud Server.

Air purifier system the most according to claim 3, it is characterised in that described control terminal includes:

Shell, manipulation unit and main control unit；

Described manipulation unit and described main control unit are electrically connected with, and described main control unit is arranged on described enclosure, and described manipulation unit is arranged on described case surface；

Described main control unit includes:

Master control borad, communication module and Detection of Air Quality sensor；

Described communication module and described Detection of Air Quality sensor are electrically connected with described master control borad.

Air purifier system the most according to claim 4, it is characterised in that described Detection of Air Quality sensor includes carbon dioxide sensor, formaldehyde sensor, PM2.5 sensor.

Air purifier system the most according to claim 1, it is characterised in that be provided with temperature sensor and humidity sensor in described air purifier main frame.

Air purifier system the most according to claim 4, it is characterised in that the top of the housing of described air purifier main frame is provided with touch ring, described touch ring is provided with sensing pcb board, and described sensing pcb board is electrically connected with motor.

Air purifier system the most according to claim 7, it is characterised in that be provided with a plurality of touch sensing on described sensing pcb board；

Described touch sensing, for the control unit touching the touch signal transmission extremely described air purifier main frame that ring obtains described in touch-control being carried out the determination of the angle change of described touch, and mate with preset wind speed change rank according to the change of described angle so that described control unit controls blower fan and carries out the operation of air output according to matching result.

Air purifier system the most according to claim 4, it is characterised in that described communication module includes bluetooth communication means and wifi communication component；

Described bluetooth communication means and the communications module wireless connections of described air purifier main frame；

Described wifi communication component is connected with Cloud Server, described mobile terminal radio communication.

Air purifier system the most according to claim 9, it is characterised in that described manipulation unit includes touching display screen, is electrically connected with light sensor and position sensor.