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WO2016150368A1 - Appareil et procédé de purification d'air - Google Patents

Appareil et procédé de purification d'air Download PDF

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Publication number
WO2016150368A1
WO2016150368A1 PCT/CN2016/076887 CN2016076887W WO2016150368A1 WO 2016150368 A1 WO2016150368 A1 WO 2016150368A1 CN 2016076887 W CN2016076887 W CN 2016076887W WO 2016150368 A1 WO2016150368 A1 WO 2016150368A1
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WO
WIPO (PCT)
Prior art keywords
air
air purification
filter
intelligent control
purification system
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Ceased
Application number
PCT/CN2016/076887
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English (en)
Chinese (zh)
Inventor
罗瑞真
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Individual
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Individual
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Publication date
Application filed by Individual filed Critical Individual
Priority to CN201680017203.9A priority Critical patent/CN107636392B/zh
Publication of WO2016150368A1 publication Critical patent/WO2016150368A1/fr
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F3/00Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems
    • F24F3/12Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems characterised by the treatment of the air otherwise than by heating and cooling
    • F24F3/16Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems characterised by the treatment of the air otherwise than by heating and cooling by purification, e.g. by filtering; by sterilisation; by ozonisation
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F11/00Control or safety arrangements
    • F24F11/89Arrangement or mounting of control or safety devices
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B30/00Energy efficient heating, ventilation or air conditioning [HVAC]
    • Y02B30/70Efficient control or regulation technologies, e.g. for control of refrigerant flow, motor or heating

Definitions

  • the present invention relates to the field of environmental protection, and more particularly to an intelligent system that can be used for air purification, air quality (Air Quality Health Index, AQHI).
  • the air purification treatment method is an air purification device using various filtering functions to solve the problems of poor air quality and different pollution sources. These air purifiers are generally equipped with different types of air net filters. When faced with different pollutant levels, they can effectively process the purified air according to the data measured by their own sensors.
  • the type and size of the required air purifier are generally evaluated according to the size of the place where it is applied.
  • the evaluated standards are based on the size of the air purifier, the air volume, and the air.
  • the recommendations of the purifier manufacturer are also based on the data of the American AHAM (Association Of Home Appliance Manufacturers) standard, CADR (Clean Air Delivery Rate). If the scope of the application of the air purifier is small, an air purifier with a small volume or a small amount of air is generally purchased. On the contrary, if the range of places where the air purifier is applied is large, the user tends to purchase an air purifier having a larger volume or a larger air volume.
  • the general air purifier lacks flexibility. .
  • Air purifiers if they operate independently, fail to respond to changes in the concentration of pollutants, Or the types of pollutants change, and they work together flexibly.
  • air quality and quality treatment devices such as heaters, air coolers, air purifiers, dehumidifiers, humidifiers, etc.
  • the devices, applications and functions are close to each other. They are all equipped with fans, sensors, and filter cartridges. They are large in size and used in quite a few places. In many cases, the functions are repeated. These devices cannot be automatically adjusted or used together.
  • the invention patents address the above problems, including providing an intelligent air purifier with the problems of different pollutant concentration, different pollutant sources, lack of flexibility, benefit problems, and inflexibility control when applied in different local scales. solution.
  • the air purifying device can be equipped with different types, quantities, and air purifying filters for different contaminant categories, and the air purifying device can recognize different types of air purifying devices. Filter and purification components. Together with a total intelligent control unit, a number of air purifiers equipped with different types and/or quantities of air filters can be used in accordance with the changing environment and air quality. Achieve a separate and individual operation than all of the air purification devices, more effective and synergistic effects.
  • a plurality of air purifying devices work together to improve the purification efficiency, and also according to the position of the user indoors or the environmental factors such as noise level, day and night, type of pollutant type, operation time of the air purifying device
  • the noise emitted by the fan, etc. affects the user and makes all air purification devices work in harmony.
  • the present invention is practiced as such, and the present invention includes an air purification system comprising:
  • At least two air purification devices at least one total intelligent control device, at least one air quality sensor;
  • the air purification device includes at least one fan, at least one air purifying filter, and implant a wireless data output and receiving component in the air cleaning device;
  • the total intelligent control device includes a central controller, a program or a computer program pre-implanted in the central controller to instruct the operation of the air cleaning device, and a wireless data output and receiving component implanted in the total intelligent control device;
  • the air quality sensor senses an air quality of an environment in which the air purification system is applied to generate air quality data
  • the air quality data is input to a central controller of the total intelligent control device, and the total intelligent control device outputs an operation command to the at least according to the sensed air quality or the air quality data.
  • Two air purifying devices operate the at least two air purifying devices in cooperation with each other.
  • the total intelligent control device outputs an operational command to cause the at least two air cleaning devices to enter an interoperable mode of operation, the interoperable mode of operation enabling the at least two air purifying devices to achieve an air purification performance,
  • the sum of the purification performances that operate independently of the at least two air purification devices ie, the common purification performance of the at least two air purification devices operating independently is high.
  • the mode of operation in which the at least two air purifying devices cooperate with each other produces a synergistic effect in the air purifying system.
  • the purifying performance refers to the speed at which pollutants are purified and the required energy comparison in the environment in which the air purifying system is applied.
  • the efficiency the rate at which the pollutant is depleted / the energy required
  • the air purification system also includes one or more of the following environmental sensors: an occupancy sensor, a dynamic sensor, a noise level sensor, an optical sensor, and a clock.
  • the occupancy sensor, the dynamic sensor, the noise level sensor, and the optical sensor detect the location of the user indoors (ie, related to the room in which the air purification system is applied), and/or the activity of the user, and/or the application The indoor environment of the air purification system.
  • the operational command causes the at least two air purifying devices to enter an interoperable mode of operation, the interoperable mode of operation, depending on the location of the user in the room, and/or the activity of the user, and/or
  • the indoor environment is in a harmonious mode of operation. For example, avoiding other situations caused by the operation of the air purification device, such as noise from the fan, affecting The user, the air purifying device in the vicinity of the user operates in a mode of operation at a relatively noisy level, and the air purifying device far away from the user can be matched with different types and concentrations of pollutants in the vicinity of the user, correspondingly
  • the mode of operation works.
  • the operational command causes the at least two air cleaning devices to enter an interoperable mode of operation, the interoperable mode of operation, and further depending on the remaining life of the filter, and/or the amount of contaminant the filter can hold
  • the different locations of the air purification device and their distribution in the application space operate in a corresponding mode of operation.
  • the at least two air purification devices are primarily directed to purifying different contaminants, and/or contaminant levels in the air.
  • the air purification device further includes one or more of the following air purification components: an anion component, a high voltage electrostatic precipitator, an ultraviolet germicidal lamp, or a component.
  • the air purifying device further includes a shutter or an organ, and the flow path of the air in the air purifying device can be controlled by the shutter or the mechanism.
  • the air purifying device further includes a shutter or a mechanism by which the air containing the contaminant can be controlled to enter the air purifying device and flow through the designated air purifying filter.
  • the mode of operation of the air purification device includes one or more of the following modes of operation:
  • the air that controls the combined pollutants by using the organ or the valve passes through the different air purifying filters after entering the air purifying device;
  • V Adjust one or more of the following air purification components: negative ion components, high-voltage electrostatic precipitator components, ultraviolet germicidal lamps or component operating voltages to achieve different air purification effects, or to remove or reduce different types of pollution The purpose of the object.
  • the air purification device also includes an independent intelligent control component that is pre-implanted with a default operational program.
  • the default operating procedure for controlling the air purifying device to operate independently or to control the air The purifying device cooperates with at least one other air purifying device according to the operation instruction of the total intelligent control device.
  • the independent intelligent control unit when the air purification device has not received the operation instruction of the total intelligent control device, the pre-implanted default operation program outputs an instruction to control the air purification device to operate independently .
  • the independent intelligent control unit causes the air purifier to perform one of the following operations when the air purification device has received an operation instruction of the total intelligent control device:
  • Any independent operation command issued by the independent intelligent control component of the air purification device to the air purification device may be overridden by the cooperative operation command issued by the total intelligent control device, and the two or more air purification devices
  • the instructions issued by the independent intelligent control components of the air cleaning device are operated directly according to the instructions issued by the total intelligent control device.
  • the at least two air purifying devices have different specifications of different air purifying filters that can be accommodated therein; or the at least two air purifying devices have different specifications and include different numbers and/or types Air purification filters, different quantities, and/or types of air purification filters are directed to treating different types, and/or levels of contaminants.
  • Different quantities, and/or types of air purifying filters may be housed in the at least two air purifying devices.
  • the one of the air cleaning devices comprises at least one filter for removing gaseous contaminants, and/or a purifying device, the other air purifying device comprising at least one filter for removing particulate contaminants, and/or a purifying device.
  • the one of the air cleaning devices includes a filter for removing particulate contaminants and degassing contaminants, and/or a purifying device, and the other air purifying device includes a filter and/or a purifying device that removes particulate contaminants.
  • the air purifying device further includes a reader to identify characteristics of the associated air purifying filter; Includes features identifying one or more of the following air purification filters:
  • the air purifying filter contains a corresponding label to mate with the reader.
  • the reader includes a radio frequency identification reader, the air purification filter including a corresponding radio frequency identification tag.
  • the reader is a reader comprising a near field communication technology, the air purification filter comprising a corresponding near field communication identification tag.
  • the radio frequency identification reader automatically identifies the category of the air purifying filter when an air purifying filter containing a radio frequency identification tag is placed in the air purifying device.
  • the reader automatically recognizes whether the air purifying filter has been used in any of the air purifiers.
  • the reader automatically recognizes the capacity of the contaminant, and calculates the air purifying filter that can be used in the air purifying device. the remaining time.
  • the method senses ambient air quality data to sense a level of particulate contaminants in the air, and if the level of the particulate contaminants is above a predetermined level, the total intelligent control device command includes particulate removal
  • the air purifying device of the contaminant filter operates at a higher wind speed and instructs the air purifying device containing the filter for removing the gaseous contaminant to operate at a lower wind speed or suspend operation until the level of the particulate contaminant Has been reduced to another preset level, the total intelligent control device commands the air purification device containing the filter to remove particulate contaminants to operate at a lower wind speed, and instructs the filter containing the removal of gaseous contaminants according to the gas contamination
  • the wind speed of the object level operates.
  • the total intelligent control device will instruct the filter containing the removed gas contaminant and An air purifying device for removing a particulate pollutant filter, operating at a higher wind speed until the level of particulate contaminants has reached a satisfactory level, the total intelligent control device Let all air purification units operate at lower wind speeds.
  • the total intelligent control device is a computer computer, or a tablet computer, or a mobile electronic communication device or a mobile phone.
  • the air quality sensor is implanted in one or more of the following devices:
  • a separate device with an independent power source and a wireless data output and receiving component; after sensing the air quality of the environment, the air quality sensor outputs the air quality data through a wireless data output component of the independent device;
  • the air purification device after the air quality sensor senses an air quality of the environment, outputting air quality data through a wireless data output component of the air purification device;
  • the total intelligent control device after the air quality sensor senses the air quality of the environment, outputs the air quality data through the wireless data output component of the total intelligent control device.
  • the air purification device also includes an air purification component.
  • the air purification device also includes an air treatment component.
  • the over-air purification filter includes a filter component for purifying air by filtering or adsorbing to a filter, such as activated carbon as adsorbent gas pollutant, primary filter paper, High Efficiency Particulate Air (HEPA), High voltage electrostatic precipitator.
  • a filter component for purifying air by filtering or adsorbing to a filter such as activated carbon as adsorbent gas pollutant, primary filter paper, High Efficiency Particulate Air (HEPA), High voltage electrostatic precipitator.
  • the air purifying unit further includes an air purifying component that purifies the air in a non-filtering manner, such as an anion generator and an ultraviolet germicidal lamp.
  • an air purifying component that purifies the air in a non-filtering manner, such as an anion generator and an ultraviolet germicidal lamp.
  • the air treatment component also includes any processing component that improves the environmental quality in a non-purifying manner and a non-filtering component, including a pump, a heat generating component, a dehumidifying component, a humidifying component, and a cold air component.
  • the air quality sensor senses the air quality of the environment and inputs the air quality data to the total intelligent control device.
  • the total intelligent control device acquires the condition of the air purification device in the air purification system via (1) via the wireless data output and receiving component; (2) the air quality measured by the air quality sensor And (3) a pre-implanted program that outputs an operational command to the at least two air cleaning devices to control an operation mode of the at least two air cleaning devices to cause the at least two air cleaning devices to cooperate with each other Operation, an air purification effect that is achieved, the air purification effect being more cost effective and/or air than the total air purification effect of each of the at least two air purification devices independently operating Purification efficiency.
  • the air purification device condition of the piece of air cleaning device transmitted to the total intelligent control device via the wireless data output and receiving component includes one or more of the following conditions:
  • the filter can accommodate the amount of contaminants and/or the amount of capacity consumed
  • the program or computer program pre-implanted in the total intelligent control device includes sensing certain air quality of the environment according to the air quality sensor, and/or intercepting from the Internet Data on air quality in all environments, and/or air quality data measured in the past, and/or daily activity patterns of users, and/or time and date. An assessment of the relevant environment of the air purification system; and directing the air purification device to perform a corresponding interoperable mode of operation.
  • the relevant environmental assessment includes the operation of the relevant environment (ie, the environment in which the air purification system is applied), the measured air quality status level, the prediction of the unmeasured air quality level, and a plurality of air parameters. Trend forecast, total air quality rating.
  • the instructions issued by the total intelligent control device to control the cooperative operation mode of the air purification device in the entire air purification system further comprising:
  • the at least two air purifying devices are provided with different filters, the at least two air purifying devices mainly aiming at purifying different pollutants in the air, the air purifying devices each operating to remove the same
  • the optimal airflow speed is different when the pollutants are targeted; when the at least two air purifying devices work together in a coordinated mode, the speed of removing the pollutants is compared with the independent individual operating air purifying device The best air flow speed, the matching mode has a faster rate of removal of pollutants.
  • the air purifying filter is disposed in the air purifying device, either upstream of the fan or downstream of the fan. If the filter is placed upstream of the fan, air containing contaminants is drawn into the filter, and air containing contaminants is drawn into the filter in a laminar flow; if the filter is Disposed in a downstream position of the fan, air containing contaminants is blown into the filter, and air containing contaminants is blown into the filter in a disorderly manner, and therefore, different air purifying devices are made to specifications, even if The same air purification filters) have different purification efficiencies and must be matched to each other for optimum purification or efficacy.
  • the at least two air purification devices comprise identical air purification filters.
  • the at least two air purification devices comprise completely different air purification filters.
  • the at least two air purification devices comprise partially identical air purification filters.
  • the air purifying filters in the at least two air purifying devices have different capacities for accommodating contaminants.
  • the one of the air purification devices includes a bulky particulate filter that removes a volume
  • the other air purification device includes a filter that removes micro-sized, smaller particulate contaminants.
  • the particulate particulate filter is removed as a high voltage electrostatic precipitator filter or a high efficiency dust filter paper.
  • the total intelligent control device is a smart portable telephone device, or a computer calculator, or a laptop computer; the total intelligent control device can be arbitrarily or conditionally connected to apply the air a computer Internet outside the environment of the purification system; transmitting information about the condition of the air purification device, and/or the environmental assessment package, or/and the instructions issued by the total intelligent control device to another total intelligent control device or transmission
  • the computer software, the hardware or software of the running server-side software can issue a remote command, so that the at least two air-purifying devices work together to achieve an air purification effect, and the remote command can override the remote command
  • the instructions issued by the total intelligent control device can be arbitrarily or conditionally connected to apply the air a computer Internet outside the environment of the purification system; transmitting information about the condition of the air purification device, and/or the environmental assessment package, or/and the instructions issued by the total intelligent control device to another total intelligent control device or transmission
  • the total intelligent control device can be automatically or arbitrarily automatically linked to the air purification system via a wireless data output and receiving component; if the total intelligent control device is a user portable smart portable a telephone device, or a computer calculator, or a laptop computer, which can also be used as a device to predict the location of the user; if the total intelligent control device is linked to air purification in the air purification system Means indicating that the user is within range of the air purification system, the total intelligent control device issuing an instruction to cause the air cleaning device to automatically start or enter an interworking mode; if the total intelligent control device cannot link to the An air purifying device in the air purifying system, or if the link between the total intelligent control device and the air purifying device in the air purifying device is interrupted, indicating that the user is not within the range of the air purifying system or has left the air purifying The scope of the system, the air purifier will automatically shut down, or enter Outside a low-power mode energy operations.
  • the total intelligent control device is a wireless router, or A computer, server, or hardware or software containing server-side software, server-side software that is running, connected to a wireless signal.
  • the total intelligent control is equipped with a distance sensing component or a photographing component, and the distance distribution of the air cleaning device in an environment can be detected by the distance sensing component or the photographing component.
  • the air quality sensor includes a sensor that measures particulate contaminants and/or measures gaseous contaminants.
  • the air quality sensor includes sensors measuring the same or multiple types of components: temperature, humidity, volatile organic compounds, formaldehyde, carbon dioxide, carbon monoxide, dust, ozone, nitrogen oxides, bacteria, helium, wind speed, wind, air pressure, At least one of ambient lightness, sound, and various levels of radiation in the air.
  • the air quality sensor is disposed in the air purification device, and the sensor measures and records the air quality of the environment even if the air cleaning device does not enter the operational decontamination mode.
  • the air quality sensor is disposed in the air purifying device, and the total air quality in the environment in which the air purifying system is applied is an average of the levels measured by the air quality sensors in the plurality of air purifying devices.
  • the regional air quality in the environment in which the air purification system is applied is the level measured by the air quality sensor in each of the air purification devices.
  • the air purifying device further includes a radio frequency identification reader, and the air purifying device can be arbitrarily placed into an air purifying filter containing different radio frequency identification tags, wherein the air purifying filter includes different radio frequency
  • the tagged filter is a different type of air purifying filter for different contaminants
  • the radio frequency identification reader is when the filter containing different radio frequency identification tags is placed in the air purifying device Automatically identifying the category of the air purifying filter and transmitting the identified category data to the independent intelligent control unit of the air purifying device; further, the air purifying device transmits the identified category data to the total intelligence Control device.
  • the RFID reader identifies whether the filter has been used in the air cleaner, if the filter was used in the air cleaner, the total
  • the intelligent control device or the independent intelligent control component calculates the remaining time that the filter can be used by the air purifying device according to the time when it is used, the level of the contaminant used, and the amount of contaminant it can be used. .
  • the at least two air purification devices comprise fans of different sizes.
  • one of the air purification devices comprises a centrifugal fan and the other air purification device comprises an axial fan.
  • the one air purification device comprises a high wind pressure and high air flow fan
  • the other air purification device comprises a low wind pressure and high air flow fan
  • the at least two air purification devices comprise fans of the same power consumption.
  • the at least two air purification devices comprise fans that do not consume the same amount of power.
  • the angle and direction of the air outlet and the air inlet of the air purifying device may be used by the total intelligent control device
  • the instructions sent are adjusted.
  • the present invention also includes an air purification method for inputting air quality data of an environment detected by an air quality sensor to a total intelligent control device, wherein the total intelligent control device is pre-implanted to control different
  • the air purifying device operates in a coordinated operation of air quality in different environments, and the total intelligent control device pre-reads and recognizes the types of filters of different air purifying devices, according to the air quality of the environment Data and pre-implanted operating procedures, the total intelligent control device issuing operational commands for wireless input to different air purification devices to cause the same or different types of air purification devices, or
  • the air purifying devices for the same or different types of pollutants cooperate with each other, and the efficiency of the interoperable operation and the speed of removing the pollutants from the environment are compared with the effects of the air purifying device simultaneously simultaneously removing environmental pollutants. The sum of the higher efficiency and faster removal of environmental pollutants.
  • the present invention also includes an air purification method that senses an air quality data of an environment to sense a level of particulate contaminants in the air if the level of the particulate contaminant is higher than a preset Level, or, the level of particulate contaminants reaches a level that may destroy the filter of the gas contaminant, which directs the air purifier containing the filter to remove particulate contaminants to operate at a higher wind speed, And instructing the air purifying device containing the filter for removing gaseous contaminants to operate at a lower wind speed, or even stop working; until the level of the particulate contaminant has been lowered to another predetermined level, or The level of contaminant has been satisfactory and does not destroy the level of the gas contaminant filter, which instructs the air purifying device containing the filter to remove particulate contaminants to operate at a lower wind speed, and the instructions include Filters that remove gaseous contaminants operate at wind speeds based on gas contaminant levels.
  • the present invention also includes an air purification method that senses an air quality data of an environment to sense a level of particulate contaminants in the air, if the level of the particulate contaminants is above a predetermined level, or The level of particulate contaminants reaches a level that may damage the gas contaminant filter, which instructs the air purifying device other than the gas contaminant-containing filter to operate at a higher wind speed and instructs the removal of the gas
  • the filter of the contaminant at a lower wind speed, or even stop working; until the level of the particulate contaminant has been reduced to another predetermined level, or the level of particulate contaminants has been satisfactory, Or may not destroy the level of the gas contaminant filter, which instructs the air purifying device containing the filter to remove particulate contaminants to operate at a lower wind speed, and instructs the filter containing the gas contaminant removed
  • the air purification unit operates at a wind speed based on the level of gas contaminants.
  • the present invention also includes an air purification method that senses an air quality data of an environment to sense a level of particulate contaminants in the air, if the level of the particulate contaminants is above a predetermined level, or The level of particulate contaminants reaches a level that may damage the gas contaminant filter, which instructs the air purifying device other than the gas contaminant-containing filter to operate at a higher wind speed and instructs the removal of the gas
  • the air purifying device of the filter of the contaminant at a lower wind speed, or even stopped operation; however, if the adsorption amount of the filter containing the gas contaminant in the air purifying device containing the filter for removing the gas contaminant Already near saturation, its ability to remove gaseous contaminants has been exhausted or nearly exhausted, and the total intelligent control device will instruct the air purifier containing the filter to remove gas contaminants to operate at a higher wind speed.
  • the purification device is made to filter particulate contaminants more efficiently until the level of particulate contaminants has reached a satisfactory level, and the total intelligent control device instructs all air purification devices to operate at a lower wind speed.
  • the present invention also includes an air purification method that senses an air quality data of an environment to sense a level of gas contaminants in the air, and if the level of the gas contaminant is above a predetermined level, the total intelligence
  • the control device instructs all air purifying devices other than the gas contaminant-containing filter to operate at a higher wind speed, enhances the convection of the air, and instructs the air purifying device containing the filter for removing the gaseous contaminants to operate at a gentler wind speed; When the level of the gaseous pollutant has been reduced to a satisfactory level.
  • the present invention also includes an air purification method that senses the air quality data of the environment to sense the level of particulate pollutants and gaseous pollutants in the air, if the levels of particulate pollutants and gaseous pollutants are higher than one
  • the total intelligent control device commands preferential removal of particulate contaminants, ie, the total intelligent control device instructs an air purification device other than a gas contaminant-containing filter to operate at a higher wind speed, and instructs removal An air purifying device for a filter of gaseous contaminants, at a lower wind speed, or even stopped operating; until the level of the particulate contaminant has been reduced to another predetermined level, or particulate particulate matter The level has been satisfactory, or does not destroy the level of the gas contaminant filter, which instructs all air purification devices other than the gas contaminant-containing filter to operate at a higher wind speed, enhancing the convection of the air, And instructing an air purifying device containing a filter for removing gaseous contaminants to operate at a
  • the present invention also includes an air purification method that senses air quality data of an environment to sense different volumetric contaminants in the air; in one embodiment, the method senses an air quality data sense of the environment Measure particulate contaminants of 10 micrometers (PM10) or less in the air, and particulate contaminants of 2.5 micrometers (PM2.5) or less in diameter; in one embodiment; when different sizes of air
  • the total intelligent control device when the level of the pollutants is high
  • the filter that instructs the particulate pollutants to be placed in the upstream position of the fan operates at a higher wind speed, so as not to accumulate large contaminants such that the filter is placed downstream of the fan.
  • the fan in the air purifying device is contaminated by pollutants and reduces the life of the fan due to its relationship with the upstream position of the filter.
  • Figure 1 shows a corresponding map of an air purification system in a particular embodiment.
  • Figure 2 shows a comparison of the co-purification of two air-purifying devices and the independent purification of two air-purifying devices.
  • the air purification system includes:
  • the air purifying device includes a fan 101, an air purifying filter 102, a wireless data output 103 implanted in the air purifying device, and a receiving component 104; the air purifying device draws air 14 containing pollutants, and discharges the air Purified air 18.
  • the total intelligent control device 200 is a mobile phone device, including a central controller 201, a program or a computer program pre-implanted in the central controller to instruct the operation of the air cleaning device, and is implanted in the total intelligent control device.
  • the air quality sensor 300 senses an air quality of the environment to generate air quality data relating to the application of the air purification system
  • the air quality data is input 322 to the central controller 201 of the total intelligent control device 200, and the total intelligent control device outputs an operation command 222 according to the sensed air quality or the air quality data.
  • the two air purifying devices 100A, 100B cooperate with each other 111.
  • the total intelligent control device 200 outputs operational commands to cause the two air cleaning devices 100A, 100B to enter an interoperable mode of operation (as shown in FIG. 2).
  • the interoperable mode of operation is such that the air purification performance 501 achieved by the at least two air cleaning devices is greater than the sum 502 of the purifying performances of the at least two air purifying devices (ie, the at least two The common purification performance of the air purification unit operating independently is even higher.

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Air Conditioning Control Device (AREA)
  • Filtering Of Dispersed Particles In Gases (AREA)
  • Disinfection, Sterilisation Or Deodorisation Of Air (AREA)

Abstract

L'invention concerne un système de purification d'air, comprenant : au moins deux appareils de purification d'air (100A, 100B), au moins un appareil de commande intelligente totale (200) et au moins un capteur de qualité d'air (300). Le capteur de qualité d'air (300) détecte la qualité de l'air d'un environnement, et fournit des données de qualité d'air en entrée dans l'appareil de commande intelligente totale (200). L'appareil de commande intelligente totale (200) commande des modes de fonctionnement des au moins deux appareils de purification d'air (100A, 100B) en fournissant en sortie une instruction de commande aux au moins deux appareils de purification d'air (100A, 100B), de sorte que les au moins deux appareils de purification d'air (100A, 100B) fonctionnent de manière coopérative.
PCT/CN2016/076887 2015-03-20 2016-03-21 Appareil et procédé de purification d'air Ceased WO2016150368A1 (fr)

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EP3367183A1 (fr) 2017-02-22 2018-08-29 Taurus Research and Development S.L.U. Procédé de commande à distance d'un dispositif de purification d'air
US20220412597A1 (en) * 2019-11-27 2022-12-29 Blueair Ab Air purifier
EP4151917A1 (fr) * 2021-09-17 2023-03-22 Carrier Corporation Unité de filtrage d'air
US20240001278A1 (en) * 2022-06-30 2024-01-04 Microjet Technology Co., Ltd. Central controller for completely cleaning indoor air pollution
WO2025157683A1 (fr) * 2024-01-23 2025-07-31 Zehnder Group International Ag Procédé de fonctionnement d'un système d'épuration d'air industriel

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