CN106287976A - Multilamellar ionization dedusting combination type new wind air cleaning system - Google Patents

Multilamellar ionization dedusting combination type new wind air cleaning system Download PDF

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Publication number
CN106287976A
CN106287976A CN201610798008.6A CN201610798008A CN106287976A CN 106287976 A CN106287976 A CN 106287976A CN 201610798008 A CN201610798008 A CN 201610798008A CN 106287976 A CN106287976 A CN 106287976A
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China
Prior art keywords
air
electrostatic precipitation
framework
ionized region
electrode
Prior art date
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CN201610798008.6A
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Chinese (zh)
Inventor
刘慧根
Original Assignee
格林韦尔(北京)科技发展有限公司
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Priority to CN201610532121X priority Critical
Priority to CN201610532121 priority
Application filed by 格林韦尔(北京)科技发展有限公司 filed Critical 格林韦尔(北京)科技发展有限公司
Publication of CN106287976A publication Critical patent/CN106287976A/en

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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
    • F24F7/00Ventilation
    • F24F7/04Ventilation with ducting systems also by double walls; with natural circulation
    • F24F7/06Ventilation with ducting systems also by double walls; with natural circulation with forced air circulation, e.g. by fan positioning of a ventilator in or against a conduit
    • F24F7/08Ventilation with ducting systems also by double walls; with natural circulation with forced air circulation, e.g. by fan positioning of a ventilator in or against a conduit with separate ducts for supplied and exhausted air with provisions for reversal of the input and output systems
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D50/00Combinations of devices for separating particles from gases or vapours
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D53/00Separation of gases or vapours; Recovering vapours of volatile solvents from gases; Chemical or biological purification of waste gases, e.g. engine exhaust gases, smoke, fumes, flue gases, aerosols
    • B01D53/02Separation of gases or vapours; Recovering vapours of volatile solvents from gases; Chemical or biological purification of waste gases, e.g. engine exhaust gases, smoke, fumes, flue gases, aerosols by adsorption, e.g. preparative gas chromatography
    • B01D53/04Separation of gases or vapours; Recovering vapours of volatile solvents from gases; Chemical or biological purification of waste gases, e.g. engine exhaust gases, smoke, fumes, flue gases, aerosols by adsorption, e.g. preparative gas chromatography with stationary adsorbents
    • 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
    • F24F11/0001Control or safety arrangements for ventilation
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F13/00Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F13/00Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
    • F24F13/08Air-flow control members, e.g. louvres, grilles, flaps or guide plates
    • F24F13/10Air-flow control members, e.g. louvres, grilles, flaps or guide plates movable, e.g. dampers
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F13/00Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
    • F24F13/24Means for preventing or suppressing noise
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F13/00Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
    • F24F13/28Arrangement or mounting of filters
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F7/00Ventilation
    • F24F7/007Ventilation with forced flow
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F8/00Treatment, e.g. purification, of air supplied to human living or working spaces otherwise than by heating, cooling, humidifying or drying
    • F24F8/10Treatment, e.g. purification, of air supplied to human living or working spaces otherwise than by heating, cooling, humidifying or drying by separation, e.g. by filtering
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F8/00Treatment, e.g. purification, of air supplied to human living or working spaces otherwise than by heating, cooling, humidifying or drying
    • F24F8/10Treatment, e.g. purification, of air supplied to human living or working spaces otherwise than by heating, cooling, humidifying or drying by separation, e.g. by filtering
    • F24F8/15Treatment, e.g. purification, of air supplied to human living or working spaces otherwise than by heating, cooling, humidifying or drying by separation, e.g. by filtering by chemical means
    • F24F8/158Treatment, e.g. purification, of air supplied to human living or working spaces otherwise than by heating, cooling, humidifying or drying by separation, e.g. by filtering by chemical means using active carbon
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F8/00Treatment, e.g. purification, of air supplied to human living or working spaces otherwise than by heating, cooling, humidifying or drying
    • F24F8/10Treatment, e.g. purification, of air supplied to human living or working spaces otherwise than by heating, cooling, humidifying or drying by separation, e.g. by filtering
    • F24F8/192Treatment, e.g. purification, of air supplied to human living or working spaces otherwise than by heating, cooling, humidifying or drying by separation, e.g. by filtering by electrical means, e.g. by applying electrostatic fields or high voltages
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F8/00Treatment, e.g. purification, of air supplied to human living or working spaces otherwise than by heating, cooling, humidifying or drying
    • F24F8/20Treatment, e.g. purification, of air supplied to human living or working spaces otherwise than by heating, cooling, humidifying or drying by sterilisation
    • F24F8/24Treatment, e.g. purification, of air supplied to human living or working spaces otherwise than by heating, cooling, humidifying or drying by sterilisation using sterilising media
    • F24F8/26Treatment, e.g. purification, of air supplied to human living or working spaces otherwise than by heating, cooling, humidifying or drying by sterilisation using sterilising media using ozone
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F8/00Treatment, e.g. purification, of air supplied to human living or working spaces otherwise than by heating, cooling, humidifying or drying
    • F24F8/30Treatment, e.g. purification, of air supplied to human living or working spaces otherwise than by heating, cooling, humidifying or drying by ionisation
    • 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
    • F24F11/0001Control or safety arrangements for ventilation
    • F24F2011/0002Control or safety arrangements for ventilation for admittance of outside air
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F13/00Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
    • F24F13/24Means for preventing or suppressing noise
    • F24F2013/247Active noise-suppression
    • 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
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A50/00TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE in human health protection, e.g. against extreme weather
    • Y02A50/20Air quality improvement or preservation, e.g. vehicle emission control or emission reduction by using catalytic converters

Abstract

The present invention " multilamellar ionization dedusting combination type new wind air cleaning system ", relates to fresh air purifying technology, including housing, for the first air handling assemblies being arranged in housing and the second air handling assemblies;Being provided with air inlet and air outlet on described housing, described air inlet is arranged on housing rear, for the introducing of outdoor air;Described first air handling assemblies includes driven fan;Described second air handling assemblies includes dust arrester;Described dust arrester refers to that high efficiency electrostatic dust removal filter, described high efficiency electrostatic dust removal filter are included in X the ionized region and Y electrostatic precipitation district that in inlet air flow path, free overlapping combinations is arranged.This New-air purifying system, by repeating to arrange ionized region and/or purification efficiency is improved in electrostatic precipitation district, will not increase windage, noise and energy consumption, and be easy to clean and safeguard.

Description

Multilamellar ionization dedusting combination type new wind air cleaning system
Technical field
The present invention relates to indoor environment purification techniques, particularly multilamellar ionization dedusting combination type new wind air cleaning system.
Background technology
Currently, China's State of Air pollution is extremely serious, and outdoor air pollution is mainly rendered as coal smoke and automobile pollution Feature.In city atmospheric environment, TSP concentration generally exceeds standard;Sulfur dioxide pollution is maintained at higher level;Motor vehicles Exhaust pollutant total emission volumn increases sharply;Nitrogen oxides pollution is in increasing the weight of trend;According to statistics, within 2013, new standard monitoring is pressed In 74 city PM2.5 rankings, the average annual concentration of air PM2.5 in the city close to 92% does not reaches national standard, wherein 32 The average annual concentration of PM2.5 in city is more than 2 times of national standard, and ranks the average annual concentration of city PM2.5 of top ten list almost More than 3 times of national standard, and the serious haze that Recent Years in Beijing often occurs winter, reach the degree of quick-fried table.
Room air pollution is even more serious, and it pollutes and not only only has from outdoor PM2.5 particulate matter, owing to space is relative Narrow and small, ventilation condition limited (during outdoor pollution, winter be unsuitable for ventilating), cause pollutant to be concentrated, various, profoundly damage Healthy and the quality of life of people.In room air, harmful substance main source has cooking fume carcinogen, and sensitization is micro- Biological such as dust mite, mycete, pathogen, the ozone of the electrical equipment generation such as copy machine, cleaner unit;The high concentration produced in the case of closing window Carbon dioxide;The formaldehyde discharged in the radioactive substance of effusion, insulation material in construction material;Furniture release formaldehyde, go out Benzene,toluene,xylene, CS2, chloroform, trichloro ethylene, chlorobenzene etc. not under over one hundred kind.Most of work of most people every day Make, live, move, learn all to carry out in indoor, along with producing and the more modernization of life style, more work and entertainment Sports all can be carried out in indoor, and shopping also need not be gone into the street every day, and the most indoor microclimate makes people often to arrive Open air is gone to regulate heat effect, and so, the indoor activity time of people is the most more, and even as high as more than 93%.Room air pollution Increasingly endangering the health of people, induction respiratory system disease, disease of immune system, hepatopathy, endocrine disturbance, children's intelligence are sent out It is slow etc. to open up.
Due to the improvement that outside atmosphere is polluted, it is long-term and difficult task, needs the effort of the whole society, government master Lead, and purifying room air is feasible method, existing indoor air purification means, can be divided into employing room air Depurator or two kinds of approach of VMC (Ventilation Mechanical Control System), but use and all there are some problems, have much room for improvement.
For air purifier, the performance of its defect is as follows: (1), without indoor, outdoor ventilation ventilatory, is to room The cycle that carries out interior air repeats to filter, and removes indoor PM2.5 suspended particulate substance pollution effects preferable, but cannot solve indoor dioxy Change the problem that carbon exceeds standard and oxygen content is low;(2) indoor toxic and harmful effect is removed extremely limited, the charcoal absorption that it is taked Can only be effective to some gas with the method for photolysis, to tens kinds of indoor existence, even hundreds of toxic and harmful be Cannot remove.Moreover the effect removing some gas fails also as the increase of the time of use, even loses efficacy;(3) work Room air is simply filtered by pattern repeatedly, and the dust containing capacity of its filter screen is very limited, if outdoor air is filtered, its Filter screen quickly blocks inefficacy;Needing to change filter screen, use cost is high;(4) an existing air purifier filterability to PM2.5 Relatively low, typically at 30%-80%, it be by room air is filtered repeatedly just realize higher proportion purify;And new wind air Clearing machine is not owing to being circulating filtration pattern, therefore it is required that a filterability height to PM2.5, its filterability up to arrives 80% 99% (5) existing air purifiers cannot change the problem that airtight indoor oxygen content is not enough;(6) existing air is clean Change device and cannot change the problem that airtight indoor carbon dioxide content is higher and removes various toxic and harmful;(7) existing sky Gas purifier cannot bear the bad air such as outdoor low temperature, Gao Chen, high humidity;(8) existing air purifier housing construction, air channel and Air inlet/outlet structure, the composition of filter screen, automatically controlled mode, material select, install and use mode etc. and all cannot meet Leads to new breeze room Requirement that is interior and that purified.
Central type VMC (Ventilation Mechanical Control System) can solve to be taken a breath in indoor and the air entered is carried out a certain degree of only Change function, but still have following defect: (1) needs open multiple wall-through hole in indoor and arrange ventilation shaft, and system is installed multiple Miscellaneous, installation cost height;(2) indoor layout ventilation shaft and blower fan, need furred ceiling, takies the chamber height space of preciousness;(3) by Being arranged in above furred ceiling in ventilation shaft, renovated room cannot be mounted directly this system, otherwise affects attractive in appearance;(4) should The air channel of system is encased by furred ceiling and finishing material, causes the cleaning of ducting system later stage, maintenance the most inconvenient, even cannot clean dimension Protect;(5) due to air duct cleaning difficulty, easily room air is caused secondary pollution, such as when the north of china in winter temperature difference is bigger, new wind Pipeline easily condenses and drips, and easy breed bacteria in destroying house ornamentation, and the pipeline of humidity, these antibacterials flow to room along with air In.;(6) current, it is the most acceptable that office building and hotel central hollow formula VMC (Ventilation Mechanical Control System) install initial stage noise, runs noise after 1-2 Universal relatively big, be therefore not suitable for household bedroom and use;(7) energy consumption is higher;(8) its filtering material needs irregular dimension Protecting, change, user needs to pay the artificial and material cost of bigger replacing filter material.It will thus be seen that central type VMC (Ventilation Mechanical Control System) Equipment manufacturing cost is high, installation difficulty is big, mounting cost is high, clean and maintenance costly, energy consumption is high, change filter material costly, noise is big, Unavoidably there is secondary pollution.
In prior art, employing ionization dedusting method of also reporting for work carries out air cleaning, and the advantage of ionization dust arrester exists In cleaning Reusability, it is not necessary to change filter element, thus reduce use cost.The such as utility model of inventor's early stage application 201420621707.X " the new blower fan of integral type electrostatic precipitation " and 201320700098.2 " high-tension electricity dedusting aeration devices " are public Opened a kind of can be to the new wind of indoor feeding and promote indoor from moving wind, need not to change drainage screen, the wall of suspension can be installed On new blower fan, be characterized in including shell, driven fan, intake stack and electrostatic precipitation combination unit;Described driven fan It is arranged in described shell with described electrostatic precipitation combination unit;Described intake stack is arranged on outside described shell, and with described Connection in shell;It is provided with gas outlet, for utilizing above-mentioned intake stack to take out from wall described driven fan on described shell To new wind through electrostatic precipitation combination unit dedusting laggard enter indoor.And electrostatic precipitation combination unit also optimal design-aside has just effect The assemblies such as drainage screen, ionization type high efficiency electrostatic filter screen filtration device and ozone filter.The wind of entrance housing first passes through ionization to be made In air, micronic dust is electrically charged, subsequently enters electrostatic precipitation district, and the most charged microgranule includes that PM2.5 is attracted to collecting plate On, the air through electrostatic precipitation is discharged into indoor thus realizes a certain degree of purification.The shortcoming of this depurator is, in order to Ensureing that particulate matter can be by active adsorption, the air channel in electrostatic precipitation assembly can not be the widest, and is easy to clean and prevent to take into account Blocking, air channel again can not be oversize.This restriction makes the purification efficiency of the depurator in prior art only with ionization dedusting Not ideal enough.In order to improve purification efficiency, this kind of depurator the most also arranges high-effective dust-removing filter screen i.e. in the downstream of ionization dedusting HEAP net, this setup, due to the high windage characteristic of HEAP net, although purification efficiency improves, but is the use of consumptive material HEAP net, and windage, noise and energy consumption all have to increase therewith.
Summary of the invention
Defect that the present invention exists based on above-mentioned field and demand, it is provided that one can be to the new wind of indoor feeding and promote room It is interior that oneself moves wind, PM2.5 primary purification percent of pass is high, purifying and dedusting is effective, convenient for installation and maintenance, without changing filter screen, making Ionizing dedusting multi-layer combined type new wind air cleaning system by the multilamellar of low cost, reliable in quality, technical scheme is as follows:
Multilamellar ionization dedusting combination type new wind air cleaning system, it is characterised in that include housing, be used for being arranged on housing The first interior air handling assemblies and the second air handling assemblies;Be provided with air inlet and air outlet on described housing, described in enter Air port is arranged on housing rear, for the introducing of outdoor air;
Described first air handling assemblies includes driven fan, for outdoor air is incorporated into institute via described air inlet It is discharged into indoor through described air outlet again in stating housing and after flowing into described dust arrester;
Described second air handling assemblies can maintain the repeatedly used dust arrester of purifying property after including cleaning, uses Electrically charged and by electric field, electrically charged particulate matter is adsorbed in flowing through particulate in air therein;
Described dust arrester refers to that high efficiency electrostatic dust removal filter, described high efficiency electrostatic dust removal filter are included in air flowing On path overlapping combinations arrange X ionized region and Y electrostatic precipitation district;Described ionized region carries for the air that flows through Grain thing is electrically charged, and described electrostatic precipitation district is used for adsorbing static electrification lotus particulate matter;
X is and/or Y is the integer more than or equal to 2, and described ionized region and electrostatic precipitation district press in inlet air flow path According to " 1 ionized region-M1Individual electrostatic precipitation district-N1Individual ionized region-M2Individual electrostatic precipitation district ... NnIndividual ionized region-MmIndividual electrostatic Accumulation area " mode overlapping combinations arrange,
Wherein N1、N2。。。NnIt is all integer and less than or equal to X-1, and N1+N2+…Nn=X-1,
Wherein M1、M2。。。MmIt is all integer and less than or equal to Y, and M1+M2+…Mm=Y.
In the multilamellar ionization dedusting combination type new wind air cleaning system that the present invention provides, by inlet air flow path Overlapping combinations arranges at least two ionized region and/or electrostatic precipitation district increases the length ionized with dust air channel, and it is right to add The ionization number of times of particulate in air and time, and/or extend electrically charged particulate matter at described high efficiency electrostatic dust removal filter In holdup time, thus improve purification efficiency.
It is different from prior art the means improving purification efficiency, and the present invention is to set 26S Proteasome Structure and Function by overlapping combinations Purification efficiency is improved in all the same ionized region and/or electrostatic precipitation district.Owing to the windage of electrostatic precipitation filter own is the least, can Not remembering to ignore, therefore, the raising of purification efficiency can't be along with the increase of windage, noise and energy consumption.
Ionized region is set by overlapping combinations and/or electrostatic precipitation district increases the length in air channel, i.e. can extend air channel Length, but will not be difficult to because air channel is long and narrow clear up again, and air channel total length is made up of electrostatic precipitation section length one by one, It is cleaned separately.
In the present invention, in inlet air flow path overlapping combinations arrange X ionized region and Y electrostatic precipitation district, X and/or Y For the integer more than or equal to 2, described ionized region and electrostatic precipitation district in inlet air flow path according to " 1 ionized region-M1 Individual electrostatic precipitation district-N1Individual ionized region-M2Individual electrostatic precipitation district ... NnIndividual ionized region-MmIndividual electrostatic precipitation district " mode weight Stacked group is closed and is arranged, wherein N1、N2。。。NnIt is all integer and less than or equal to X, and N1+N2+…Nn=X-1, wherein M1、M2。。。MmAll It is integer and less than or equal to Y, and M1+M2+…Mm=Y.X ionized region and Y that i.e. in inlet air flow path, overlapping combinations is arranged are individual Electrostatic precipitation district, can be any compound mode, as long as meeting first is ionized region;
Assuming that X, Y are 2, compound mode may is that
" ionized region-1 electrostatic precipitation district of-1-1, electrostatic precipitation district of 1 ionized region "
"-2 electrostatic precipitation districts of-1 ionized region of 1 ionized region "
Assuming that X is 1, Y is 2, and compound mode may is that
"-2 electrostatic precipitation districts of 1 ionized region "
Assuming that X is 2, Y is 3, and compound mode may is that
" ionized region-2 electrostatic precipitation district of-1-1, electrostatic precipitation district of 1 ionized region "
" ionized region-1 electrostatic precipitation district of-2-1, electrostatic precipitation districts of 1 ionized region "
" ionized region-2 electrostatic precipitation district of-1-1, electrostatic precipitation district of 1 ionized region "
Preferably, described high efficiency electrostatic dust removal filter be included in that overlapping combinations in inlet air flow path is arranged at least two Individual electrostatic precipitation filter cartridge, wherein said electrostatic precipitation filter cartridge is according to air stream by 1 ionized region and 1 electrostatic precipitation district The integral structure that dynamic path direction overlapping combinations is integrated.I.e. ionized region is identical with electrostatic precipitation district quantity, and interval is arranged, The electrostatic precipitation of the integral structure that inlet air flow path direction, 1 adjacent ionized region and 1 electrostatic precipitation district are integrated filters Box.
Preferably, in any of the above-described multilamellar ionization dedusting combination type new wind air cleaning system, the plurality of electrostatic precipitation District's length sum on air-flow direction is 1-200cm.According to using the size purifying area, and wind velocity can be changed Demand, the length of flexible configuration electrostatic precipitation.When in order to take into account the clean-up effect in the case of Wind Volume, can configure longer Electrostatic precipitation district.
Preferably, the structure of described ionized region is electrode wire form ionized region or electrode pin type ionized region;Including framework, it is extremely Few bottom and top are that opening is penetrating, be arranged in contact in described housing with inner walls, and beneficially air is from institute State bottom flow into and flow out from top;
Described electrode wire form ionized region, including described framework, multiple wire electrode, multiple battery lead plate;Described wire electrode and institute Stating battery lead plate to be disposed in described framework, the plurality of battery lead plate is adjacent to be parallel to each other and be arranged on described with having spacing In framework, the distance having between adjacent electrode plates forms air channel, and described air channel is conducive to air to flow into air channel bottom framework And flow out through described top;Described wire electrode and described battery lead plate are parallel to each other and have distance;Adjacent wire electrode and electrode The indirect Different electrodes of plate;
Described electrode pin type ionized region, including described framework, wind deflector, sparking electrode pin, electrode suppor;Described wind deflector It is arranged at the bottom of described framework, is provided with through hole for importing air;The top of described framework is provided with electrode suppor, described electricity Pole support is used for fixing described sparking electrode pin, and the placement position of described electrode suppor makes the sparking electrode pin being fixed thereon With the described through hole energy one_to_one corresponding on wind deflector;Described wind deflector and sparking electrode pin connect positive and negative electrode respectively.
Preferably, the material of described wire electrode is tungsten filament, and its diameter is between 0.1mm to 5mm;And/or
A diameter of 1mm to 20mm of described sparking electrode pin;And/or described sparking electrode pin is just in described through hole The heart, and be 10mm-100mm apart from the center of through hole.These parameters are arranged so that the purification effect of the microgranule that PM2.5 is the least Rate is up to more than 95%.
Preferably, the structure in described electrostatic precipitation district is metal plate type electrostatic precipitation district or electret-type electrostatic precipitation district, Including framework, its at least bottom and top is that opening is penetrating, is arranged in contact in described housing with inner walls, and has It is beneficial to air flow into from described bottom and flow out from top;
Described metal plate type electrostatic precipitation district, including framework, polylith metal collecting plate, top and the bottom of described framework are Opening is penetrating, and described polylith metal collecting plate is parallel and is arranged on having spacing in described framework;Adjacent described metal Spacing between collecting plate forms air channel, and the favourable air in described air channel flows into air channel the opening through described top bottom framework Flowing out, described metal collecting plate interval adjacent during work connects both positive and negative polarity;
Described electret-type accumulation area, including framework, electret, metal electrode board;Multiple described metal electrode boards have Being fixed on to spacing in described framework, adjacent described metal electrode board connects from different electrodes;Between metal electrode board Space is used for arranging electret, is provided with fresh air channel in described electret, and the direction air of described fresh air channel is from the bottom of framework Portion flows into described fresh air channel and the opening through described top flows out.
Preferably, in described fresh air channel, there is the fin protruded inwardly from, in order to increase internal surface area;And/or described electret In body formula accumulation area, the spacing range between described metal electrode board is: 1mm to 50mm
Preferably, the plate face of described metal collecting plate is flat board or corrugated.
Preferably, described metal collecting plate and air-flow direction are that 5-20 degree angle is obliquely installed, and are beneficial to intercept and capture Mode collects electrically charged particulate matter.
Preferably, the spacing between described metal collecting plate is 1mm to 50mm.
Preferably, described housing pre-sets for installing multiple described ionized region and the installation position in electrostatic precipitation district, The described ionized region installed in housing and the quantity scalable in electrostatic precipitation district be beneficial to the use demand according to user oneself and Regulate described ionized region and the quantity in electrostatic precipitation district.
Preferably, wind deflector is set at air outlet.For by purification air conduction to the interior space.
Preferably, the driven fan used in the present invention is centrifugal blower.
It is additionally provided with primary filter screen, for first being filtered out by the pollutant such as foreign material such as Semen Salicis babylonicae cum pilus, blade of large volume.Primary Filter screen may be mounted in described housing, and/or is arranged on outside housing, such as, is arranged in intake stack through walls, described Intake stack is connected with described air inlet.
Compared with existing general room air purifier, the new blower fan system of the present invention is clean in not relying on the unit interval Change this index of air capacity i.e. CADR, therefore need not driven fan and run up, with tradition indoor air cleaner research and development mark Accurate different with direction.Existing indoor enter indoor in order to avoid outdoor contaminated air, need to close the doors and windows to entering during air pollution Row indoor purifying, therefore the unit interval produces the volume CADR of pure air(2)One that is measurement indoor air cleaner the heaviest The index wanted, next to that CCM(3), refer to pollutant purification ability and the service life of filter screen.CADR value is the highest, and purifying property is described The best.In up-to-date air purifier GB, (GB/T18801-2015) is main to CADR, CCM, noise and four aspects of efficiency Proposition standard.Owing to CADR is the highest, inevitable requirement machine fan inside improves rotating speed, and noise the most just increases.So at present The R&D direction of indoor air cleaner is all how to reach higher CADR value, CCM value, high purification efficiency and low noise. And the present invention is to purify the air that outdoor entrance is indoor, form pressure-fired by controlled wind speed, room air is dirty Air is discharged, and is to replace room air, and user can open machine for a long time, makes pure air the most constantly flow into room Interior constantly being discharged by foul indoor air, after full room to be discharged air pollution, indoor air purification degree can be clean with air outlet Clean wind is consistent, therefore, purifies this index of air capacity i.e. CADR, the most therefore need not driven fan in not relying on the unit interval Run up, different from tradition indoor air cleaner research and development standard and direction.
In terms of CCM value, the present invention is repeatedly used ionization dust arrester after using cleaning, consumptive material class filter screen Service life does not has comparability therewith, in terms of purifying property, prior art has had can realize high purification efficiency can The dust arrester that cleaning and purifying property do not reduce, in this as alternative of the present invention.Main filter Reusability capable of washing, Free of replacement, every consumptive material expense that can save expense about 1500-2000 unit every year.
Described air cleaning system, it is also possible to include intelligent automatic control assembly, intelligent control function includes: sensing chamber Interior air cleaning degree or accept remote control signal, and then control described integral type new wind air cleaning system and open, close Close, the operation time, air quantity regulation stall machine gear and/or pattern.
As it has been described above, the advantage of the VMC (Ventilation Mechanical Control System) of the present invention be can, low energy consumption little with inletting fresh air, noise, without changing filter Net, primary purification percent of pass is high, and owing to mode of operation is to discharge foul indoor air by clean air, pure air total amount is i.e. CADR value does not has comparability with the CADR index of indoor air cleaner in terms of purification speed.In order to user flexibility controls this it is System, the present invention arranges intelligent automatic control assembly the most in systems, can be with air cleaning degree or acceptance in sensing chamber Remote control signal, so control described integral type new wind air cleaning system open, close, operation time and/or pattern.? The when that air pollution being serious, can open in advance or long-time open system, release continuously purifies air and discharges Air pollution, and do not worry indoor anoxia gas.
Described new wind air cleaning system, described ionized region be suitable for operating voltage range be DC2000V extremely DC10000V;The operating voltage range that described electrostatic precipitation district is suitable for is DC3000V to DV20000V;Or
The operating voltage range that described ionized region is suitable for is DC3000V to DC9000V;The work that described electrostatic precipitation district is suitable for It is DC3000V to DV6000V as voltage range, or 3500V to DV4000V.
Suitably voltage guarantees that all particulates is electrically charged at ionized region, and is adsorbed by accumulation area, will not put simultaneously Electricity, it is preferred to use produce height and force down the Power Supply fittings of stream.
Arbitrary described new wind air cleaning system, also includes the 3rd air handling assemblies, for ozone processing unit.This Bright new wind air cleaning system, in the case of there was dampness in the air, and ionization voltage is slightly higher, can produce a certain amount of ozone, After testing, less than national standard 100ppb.But in order to improve the safety in utilization of this system further, preferably increase deodorization oxygen Processing unit.
Described new wind air cleaning system, it is characterised in that described ozone processing unit includes for catalytic decomposition The metal oxide catalyst of deodorization oxygen and the carrier of described catalyst.
Described new wind air cleaning system, it is characterised in that described metal-oxide refer to titanium, silver, copper, manganese, ferrum and/or The oxide of cobalt;Or the composite oxides of combination in any between titanium, silver, copper, manganese, ferrum and/or cobalt;And/or described carrier is honeybee Nest shape pottery, honeycomb metal, activated carbon.
Described new wind air cleaning system, it is characterised in that: described heating unit uses PTC-ceramic to be heating material.
Any of the above-described described new wind air cleaning system, it is characterised in that also include the 5th air handling assemblies, be negative Oxonium ion generator;Preferably, negative oxygen ion generator electric power output voltage is-5000V to-40000V;Further preferably, The negative ion emission head number of anion generator is 1-8.For providing anion to air, improve air after purifying further Quality.
Arbitrary described new wind air cleaning system, it is characterised in that: described driven fan is that noise is not higher than 45 decibels Blower fan centrifugal blower.
Existing indoor air cleaner is typically all, due to filter type, the drainage screen that windage is bigger, and is anti-in indoor Multiple purification, it is impossible to both low noise and high purification efficiency, wants to purify as early as possible, it is necessary to open top grade, but noise is the biggest. The new wind air purifier of the present invention, is not to purify air in indoor circulation, is to the cleaned air of indoor release, and passes through Foul indoor air is actively discharged by the pressure-fired formed from the gap such as crack between a door and its frame, window, and therefore, wind speed need not the highest, needs When to be purified, can to indoor release new wind thus indoor air purification with continuous service.Add the purification side of employing Formula is Electrostatic Absorption mode, and almost without windage, therefore, except driven fan, remaining component is nearly free from noise.
Owing to windage is little, energy consumption is little, and the new wind air cleaning system of the present invention can use direct current generator, it is achieved low-power High purification percent of pass under state, also makes air outlet noise be not higher than new 45 decibels, greatly optimizes the use of depurator Performance.And the output of the most existing indoor air cleaner 20-50W, significantly reduce energy consumption, it is achieved energy-conserving and environment-protective.
Any of the above-described described new wind air cleaning system, it is characterised in that: the supporting part of indoor set and wind wheel use The material of low temperature resistant to Celsius-30 degree;Preferably employ modified ABS plastics, nylon.
Any of the above-described described new wind air cleaning system, described housing is set to module drawer-type structure, each drawer Control at least one the described assembly in housing accordingly, make described assembly to be drawn out of, change, keep in repair or reduction is installed. It is conveniently adjusted the use number in ionized region and electrostatic precipitation district, keeps in repair, maintain each assembly.
Any of the above-described described air cleaning system, it is characterised in that described air inlet is arranged on the rear wall of described housing Bottom, described air outlet is arranged on the top of described housing, to form the described air from housing rear bottom to housing upper Flow path.
Term is explained or definition:
PM2.5 primary purification rate: before referring to that air once flows through the PM2.5 value after air cleaning facility and processes The minimizing ratio that PM2.5 value is compared.Such as outdoor air PM2.5 is 500, in air-out after the cleaning system of the present invention processes The air PM2.5 detected at Kou is 25, then primary purification percent of pass is then (500-25)/500=0.95, i.e. 95%.
CADR: according to the GB " GB/T18801-2015 " of the indoor air cleaner that on March 1st, 2016 performs, define: After CADR refers to that the unit interval filtered by depurator, the pure air total amount of output, unit is m3/ h, comprises particulate matter CADR With formaldehyde CADR.
CCM: new national standard defines: when CADR value decays to 50%, the gross weight of accumulation purifying contaminated thing (particulate matter or formaldehyde) Amount, unit is mg.CCM represents pollutant purification ability, and only CADR mono-is high is not meant to that air purifier is effective, only When CCM is the highest, just can prove that this air purifier not only purification efficiency is fast, and detergent power is also strong, filter screen makes The longest with the life-span.
Accompanying drawing explanation
Fig. 1. the present invention ionizes dedusting multi-layer combined type new wind air cleaning system general structure schematic diagram;
Fig. 2. the present invention ionizes dedusting multi-layer combined type new wind air cleaning system and is provided with intelligent automatic control assembly Schematic diagram;
Fig. 3. the present invention ionizes in dedusting multi-layer combined type new wind air cleaning system and uses in high efficiency electrostatic dedusting filter The multiple combination mode in ionized region and electrostatic precipitation district;
Fig. 4. the present invention ionizes the electrode wire form ionized region knot used in dedusting multi-layer combined type new wind air cleaning system Structure schematic diagram;
Fig. 5. the present invention ionizes the electrode pin type ionized region used in dedusting multi-layer combined type new wind air cleaning system system Structural representation;
Fig. 6. the present invention ionizes the metal plate type electrostatic precipitation used in dedusting multi-layer combined type new wind air cleaning system Plot structure schematic diagram;
Fig. 7. the present invention ionizes the electret-type electrostatic precipitation used in dedusting multi-layer combined type new wind air cleaning system District's end face schematic cross-section;
Fig. 8. the present invention ionizes the electret-type electrostatic precipitation used in dedusting multi-layer combined type new wind air cleaning system District's end face schematic cross-section;
Fig. 9. the present invention ionizes dedusting multi-layer combined type new wind air cleaning system, including ozone processing unit, heating list Unit, the structural representation of negative oxygen ion generator;
Figure 10. the present invention ionizes dedusting multi-layer combined type new wind air cleaning system, and housing is set to module drawer type knot The schematic diagram of structure;
Wherein: 1-housing, 2-air inlet, 3-air outlet, 4-driven fan, 5-dust arrester, 51 ionized regions, 511-case Body, 512-wire electrode, 513-battery lead plate, 514-wind deflector, 515-sparking electrode pin, 516 electrode suppors, 517-through hole;52-is quiet Electric precipitation district, 521-casing, 522-metal collecting plate, 523-framework, 524 electrets, 525-metal electrode board, the new wind of 526-are logical Road, 527-fin, 6-ozone processing unit, 7-heating unit, 8-negative oxygen ion generator, 9-primary filter screen, 10-intelligence is automatically Control assembly, 11-front shroud, 12-wind deflector.
Detailed description of the invention
Below in conjunction with the drawings and the specific embodiments, the present invention is described, but these contents are not as to scope Restriction.
As shown in drawings, the present invention provides a kind of ionization dedusting multi-layer combined type new wind air cleaning system, and its feature exists In, including housing 1, for the first air handling assemblies being arranged in housing and the second air handling assemblies;On described housing Being provided with air inlet 2 and air outlet 3, described air inlet 2 is arranged on the rear wall of described housing 1, for the introducing of outdoor air;
Described first air handling assemblies includes driven fan 4, for being incorporated into via described air inlet by outdoor air It is discharged into indoor through described air outlet again in described housing and after flowing into described dust arrester;
Described second air handling assemblies can maintain the repeatedly used dust arrester 5 of purifying property after including cleaning, Electrically charged and by electric field, electrically charged particulate matter is adsorbed for flowing through particulate in air therein;Described dedusting fills Putting finger high efficiency electrostatic dust removal filter, described high efficiency electrostatic dust removal filter is included in overlapping combinations in inlet air flow path and arranges Multiple ionized regions 51 and multiple electrostatic precipitation district 52;Described ionized region is electrically charged for the airborne particles thing flowed through, Described electrostatic precipitation district is used for adsorbing static electrification lotus particulate matter;
Described purifying property can be maintained to refer to primary purification efficiency does not reduces, dust containing capacity does not declines, and windage does not increases.
Integral type of the present invention new wind air cleaning system, processed before air enters indoor, and to indoor, offer is clean The air changed.Air handling assemblies uses and cleans the repeatedly used dust arrester that do not declines of after-purification performance, described removes It is electrically charged and adsorbed electrically charged particulate matter by electric field that dirt device is used for flowing through particulate in air therein, i.e. removes Dirt principle is ionization dedusting, some detailed description of the invention of this dust-cleaning principle patent 201420621707.X before inventor Disclosing in " the new blower fan of integral type electrostatic precipitation " and 201320700098.2, those skilled in the art can adjust described The parameter of dust arrester can by flow through particulate in air therein electrically charged and by electric field to electrically charged particulate matter Carry out adsorbing thus reach the purpose of air cleaning.
Described ionized region and described electrostatic precipitation district are set to Combined detachable formula and install by the present invention, can be according to need Stacked system to be passed through realizes dust arrester length (air channel) on air-flow direction to be increased.On the other hand, this area skill Art personnel know, in order to realize preferably ionizing and dustproof function, and metallic plate in described ionized region and described electro-static precipitation district Between the air channel that formed will not be the widest, use the mode of multiple-layer stacked, be conducive to cleaning that dust arrester is carried out and maintenance.This Plant the mode increasing Dustproof air flue, windage and energy consumption will not be increased.And the indoor air cleaner of this area routine needs to pass through Increase the filter number of plies or density, in order to improve purification, be generally difficult to noise and the energy consumption avoiding raising.
In some preferred embodiments, described ionized region and described electro-static precipitation district are that Combined detachable formula is installed;X is And/or Y is the integer more than or equal to 2, described ionized region and electrostatic precipitation district in inlet air flow path according to " 1 ionization District-M1Individual electrostatic precipitation district-N1Individual ionized region-M2Individual electrostatic precipitation district ... NnIndividual ionized region-MmIndividual electrostatic precipitation district " side Formula overlapping combinations is arranged,
Wherein N1、N2。。。NnIt is all integer and less than or equal to X-1, and N1+N2+…Nn=X-1, wherein M1、M2。。。MmIt is all Integer and less than or equal to Y, and M1+M2+…Mm=Y.-1-1, electrostatic precipitation district-1 electrostatic of ionized region of i.e. 1 ionized region Ground, accumulation area interval overlapping is arranged, or one or more ionized regions-one or more electrostatic precipitation districts-one or more ionized regions-1 Individual or interval, ground, multiple electrostatic precipitation district is arranged;Or the overlapping all of ionized region of elder generation, in the most overlapping all of electrostatic precipitation district.
B and C in Fig. 3 illustrates two of which compound mode.So that needing or various places user's request spirit according to using Work adjusts the ionized region in high efficiency electrostatic dedusting filter and the number in described electro-static precipitation district and compound mode, such as sky Between relatively big and occasion to noise-sensitive, for ensureing that PM2.5 primary purification efficiency reaches higher level, then can extend described electricity From district, the particularly thickness in electro-static precipitation district, make quickly through air particle go through in electro-static precipitation district time foot Enough long, so that it is guaranteed that high-caliber purifying rate.Described ionized region and described electro-static precipitation district are preferably set to combination by the present invention The detachable installation of formula, can realize dust arrester length (wind on air-flow direction as desired by stacked system Road) increase.On the other hand, one skilled in the art will appreciate that to realize preferably ionizing and dustproof function, described ionized region With the air channel formed between metallic plate in described electro-static precipitation district will not be the widest, use the mode of multiple-layer stacked, be conducive to removing Cleaning that dirt device is carried out and maintenance.The mode of this increase Dustproof air flue, will not increase windage and energy consumption.And this area is conventional Depurator need by increasing the filter number of plies or density, in order to improve purification, it is difficult to avoid noise and the energy consumption raised.
Deforming as one, described high efficiency electrostatic dust removal filter includes to arrange by overlapping combinations in inlet air flow path Multiple electrostatic precipitation filter cartridges, wherein said electrostatic precipitation filter cartridge is to be flowed according to air by ionized region and electrostatic precipitation district The overlapping integrated integral structure of path direction.
In certain embodiments, the most described electrostatic precipitation district length sum on air-flow direction is at least 1cm; And/or the length sum that described electrostatic precipitation district is on air-flow direction is 1-200cm.
According to using the size purifying area, and the demand of wind velocity, the length of flexible configuration electrostatic precipitation can be changed. In order to take into account the clean-up effect in the case of Wind Volume, longer electrostatic precipitation district can be configured.
In further embodiment, Fig. 3 preferably as described in dust arrester refer to high efficiency electrostatic dust removal filter, described the most quiet Electric precipitation filter includes that at least one ionized region 51 in inlet air flow path and at least one electrostatic precipitation district 52 are (in Fig. 3 A);The air that described ionized region 51 flows through for ionization makes particulate matter therein electrically charged, and described electrostatic precipitation district 52 is used for Absorption static electrification lotus particulate matter.
Use high efficiency electrostatic dedusting filter, effectively reduce windage, noise and energy consumption and significantly reduce.Test data show: when Per hour when 20 cubic metres of new wind of indoor supply, noise is about 20 decibels, is 45 decibels when maximum 200 cubic metres.Sleep gear Time (30 cubic metres per hour), be 22 decibels.Quiet design, when per hour to 20 cubic metres of new wind of indoor supply, noise is about It is 20 decibels, power about 8W;Maximum is 45 decibels when for 200 cubic metres, 25W;During sleep gear, 30 cubic metres of purifications per hour Air quantity, no better than quiet;Minimum electricity charge every day only 0.1 yuan.
In some preferred embodiments, described ionized region 51 includes casing 511, and its sidewall is parallel with air-flow direction, Top and bottom are just to flow of air direction;The structure of described ionized region is electrode wire form ionized region or electrode pin type ionized region;
As shown in Figure 4, the structure of described ionized region is electrode wire form ionized region or electrode pin type ionized region;Including framework 511, its at least bottom and top is that opening is penetrating, can be arranged in contact in described housing 1 with the inwall of housing 1, And beneficially air flows into from described bottom and flows out from top;
Described electrode wire form ionized region, including described framework 511, multiple wire electrode 512, multiple battery lead plate 513;Described electricity Polar filament and described battery lead plate are disposed in described framework, and the plurality of battery lead plate is adjacent to be parallel to each other and pacifies with having spacing Being contained in described framework, the distance having between adjacent electrode plates forms air channel, and described air channel is conducive to air bottom framework Flow into air channel and flow out through described top;Described wire electrode and described battery lead plate are parallel to each other and have distance;Adjacent electrode Silk and the indirect Different electrodes of battery lead plate;
As it is shown in figure 5, described electrode pin type ionized region, including described framework 511, wind deflector 514, sparking electrode pin 515, Electrode suppor 516;Described wind deflector is arranged at the bottom of described framework, is provided with through hole 517 for importing air;Described framework Top is provided with electrode suppor, and described electrode suppor is used for fixing described sparking electrode pin, the placement position of described electrode suppor Make sparking electrode pin and the described through hole energy one_to_one corresponding on wind deflector being fixed thereon;Described wind deflector and sparking electrode Pin connects positive and negative electrode respectively.Air flows to sparking electrode pin through the through hole of wind deflector, and sparking electrode makes granule for atmospherical discharges Thing ionization is electrically charged.
Further in preferred embodiment, the material of described wire electrode is tungsten filament, and its diameter is between 0.1mm to 5mm; And/or a diameter of 1mm to 20mm of described sparking electrode pin;And/or described sparking electrode pin just center to described through hole, and The center of distance through hole is 10mm-100mm.Machine test display, these parameters are arranged, it is possible to ensure granule in air well The charged ratio of thing reaches 100%, so that it is guaranteed that the purification efficiency of the least microgranule of PM2.5 is up to more than 80%, and mostly When number, up to 96%.And lower numerical value, the ozone exceeding environmental requirement, higher numerical value may be produced, be then difficult to protect Barrier particulate matter band point ratio.
In more above-mentioned embodiments, the structure in described electrostatic precipitation district 52 is metal plate type electrostatic precipitation district or electret-type Electrostatic precipitation district: include framework 521, its at least bottom and top is that opening is penetrating, can with the inwall of housing 1 in contact It is arranged in described housing, and beneficially air flows into from described bottom and flows out from top;
As shown in Figure 6, described metal plate type electrostatic precipitation district, including described framework 521, polylith metal collecting plate 522, institute Top and the bottom of stating framework are that opening is penetrating, and described polylith metal collecting plate is parallel and is arranged on described frame with having spacing In body;Spacing between adjacent described metal collecting plate forms air channel, and the favourable air in described air channel flows into wind bottom framework Road the opening through described top flow out, and described metal collecting plate interval adjacent during work connects both positive and negative polarity;
As it is shown in fig. 7, described electret-type accumulation area, including framework 523, electret 524, metal electrode board 525;Multiple Described metal electrode board is fixed in described framework with having spacing, and adjacent described metal electrode board is from different electrodes even Connect;Space between metal electrode board is used for arranging electret, is provided with fresh air channel 626, described new wind in described electret The direction air of passage flows into described fresh air channel bottom framework and the opening through described top flows out.
In a further preferred embodiment, there is the fin 527 protruded inwardly from described fresh air channel 526, in order to increase Internal surface area;In further embodiment or more above-mentioned embodiments, in the most described electret-type accumulation area, described metal Spacing range between battery lead plate is: 1mm to 50mm, or 1-4mm.Machine test display, in the case of other parameter constant, In the range of Gai, between metal electrode board, spacing be inversely proportional to purifying rate, and spacing is the biggest, and purification efficiency is the lowest, minimum is not less than 80%, reach as high as 99.6%.But less spacing is unfavorable for arranging fresh air channel, and broader spacing, the need to Reach the purification efficiency of more than 80%, then need the fresh air channel length (i.e. the length of electrostatic precipitator) grown very much.
In further embodiment or more above-mentioned embodiments, the plate face of described metal collecting plate is flat board or ripple Shape.Corrugated is more beneficial to the air stream flowed through is changed into turbulent flow, to improve electrically charged particulate matter and described metal collecting plate Collision frequency, improve efficiency of dust collection further.
In further embodiment or more above-mentioned embodiments, described metal collecting plate and air-flow direction are 5-20 Degree angle is obliquely installed, and is beneficial to mode of intercepting and capturing and collects electrically charged particulate matter.It is beneficial to most of electrically charged particulate matter and institute State the collision of metal collecting plate and be adsorbed, thus improving efficiency of dust collection further.
Spacing between metal collecting plate described in further embodiment or more above-mentioned embodiments be 1mm extremely 50mm.Machine test display, in the case of other parameter constant, within the range, spacing and purifying rate between metal collecting plate Being inversely proportional to, spacing is the biggest, and purification efficiency is the lowest, minimum is not less than 80%, reaches as high as 99.6%.But less spacing is at electricity In dust removal process, easily produce electric discharge phenomena, and produce ozone, affect the safety that system uses, and broader spacing, If required up the purification efficiency of more than 80%, then need the air channel length (i.e. the length of electrostatic precipitator) grown very much.
Corrugated is more beneficial to the air stream flowed through is changed into turbulent flow, to improve electrically charged particulate matter and described metal collection The collision frequency of dirt plate, improves efficiency of dust collection further.
Described metal collecting plate is that 0-20 degree angle is obliquely installed with backboard or the side plate of described housing, is beneficial to intercept and capture Mode collects electrically charged particulate matter.Be conducive to the collision of most of electrically charged particulate matter and described metal collecting plate and be adsorbed, Thus improve efficiency of dust collection further.
Described new wind air cleaning system, it is characterised in that: the spacing between described metal collecting plate be 1mm extremely 50mm.This parameter coordinates with accumulation area length, it is achieved the highest primary purification efficiency.
Further preferably, described housing pre-sets for installing multiple described ionized region and the installation in electrostatic precipitation district Position, the described ionized region installed in housing and the quantity scalable in electrostatic precipitation district are beneficial to the use demand according to user oneself And regulate described ionized region and the quantity in electrostatic precipitation district.
Preferably, wind deflector 12 is set at air outlet 2.For by purification air conduction to the interior space.Avoid sky Gas blow-through metope, but relax and be evenly dispersed into indoor.
Preferably, the driven fan 4 used in the present invention is centrifugal blower, and its energy consumption is low, and noise is little.
First primary filter screen for filtering out the pollutant such as foreign material such as Semen Salicis babylonicae cum pilus, blade of large volume.Primary filter screen is permissible It is arranged in described housing, and/or is arranged on outside housing, such as, be arranged in intake stack through walls, described intake stack It is connected with described air inlet.
Still further aspect, compared with existing general room air purifier, the new blower fan system of the present invention does not relies on Purify this index of air capacity i.e. CADR in unit interval, therefore need not driven fan and run up, with tradition room air Depurator research and development standard is different with direction.Existing indoor enter indoor in order to avoid outdoor contaminated air, need during air pollution Closing the doors and windows to carrying out indoor purifying, therefore the unit interval produces the volume CADR (2) of pure air is to weigh indoor air cleaning Change a most important index of device, next to that CCM (3) refers to pollutant purification ability and the service life of filter screen.CADR value is more Height, illustrates that purifying property is the best.In up-to-date air purifier GB, (GB/T18801-2015) is main to CADR, CCM, noise With four aspects of efficiency, standard is proposed.Owing to CADR is the highest, inevitable requirement machine fan inside improves rotating speed, and noise is the most therewith Raise.So the R&D direction of indoor air cleaner is all how to reach higher CADR value, CCM value, high purification energy at present Effect and low noise.And the present invention is to purify the air that outdoor entrance is indoor, form pressure-fired by controlled wind speed, will Room air air pollution is discharged, and is to replace room air, and user can open machine for a long time, makes clean air source Source constantly flows into indoor and is constantly discharged by foul indoor air, and after full room to be discharged air pollution, indoor air purification degree is i.e. Can be consistent with air outlet clean air, therefore, purify this index of air capacity i.e. CADR in not relying on the unit interval, the most not Driven fan is needed to run up, different from tradition indoor air cleaner research and development standard and direction.In terms of CCM value, this Bright use cleaning after repeatedly used ionization dust arrester, there is no comparability therewith the service life of consumptive material class filter screen, In terms of purifying property, prior art has and can realize the capable of washing of high purification efficiency and purifying property does not reduces removes Dirt device, in this as alternative of the present invention.
In a further embodiment, as in figure 2 it is shown, also include intelligent automatic control assembly 10, intelligent control function bag Include: air cleaning degree or accept remote control signal in sensing chamber, and then control described integral type new wind air cleaning system System is opened, is closed, the operation time, blower fan gear and/or pattern.
As it has been described above, the advantage of the VMC (Ventilation Mechanical Control System) of the present invention be can, low energy consumption little with inletting fresh air, noise, without changing filter Net, primary purification percent of pass is high, owing to mode of operation is to discharge foul indoor air, in terms of tempo of evolution by clean air Not having comparability with the CADR index of indoor air cleaner, therefore, in order to user flexibility controls this system, the present invention is further Intelligent automatic control assembly is set in systems, can enter with air cleaning degree in sensing chamber or accept remote control signal And control described integral type new wind air cleaning system open, close, operation time and/or pattern.So that not relying on list The pure air total amount i.e. CADR value that bit time is exported after being filtered by depurator, it is not necessary to realize indoor quick at short notice Purify.
Intelligent control function can also include that infra-red remote control and APP control, and had both been easy to people behaviour handicapped in family Make, the most beneficially people remote software operation.The carrier frequency of described infra-red remote control is 30Khz to 60Khz.Described APP control The software of system is the application software developed based on i Phone operating system or Android mobile phone operating system, can grasp machinery remote Make.
In any of the above-described embodiment, the operating voltage range that described ionized region is suitable for is DC2000V to DC10000V;Institute The operating voltage range stating electrostatic precipitation district applicable is DC3000V to DV20000V;Or
The operating voltage range that described ionized region is suitable for is DC3000V to DC6000V;The work that described electrostatic precipitation district is suitable for It is DC3000V to DV8000V as voltage range, or 3500V to DV4000V.Preferably employ and produce the high Power Supply fittings forcing down stream. Suitable voltage in these numerical rangies guarantees that all particulates is electrically charged at ionized region, and is adsorbed by accumulation area, the most not Can discharge.
In most embodiments, further preferably include the 3rd air handling assemblies, for ozone processing unit.The present invention's is new Wind air cleaning system, in the case of there was dampness in the air, and ionization voltage is slightly higher, can produce a certain amount of ozone, after testing, Less than national standard 100ppb.But in order to improve the safety in utilization of this system further, preferably increase deodorization oxygen and process single Unit.
Alternatively, described ozone processing unit include for catalytic decomposition deodorization oxygen metal oxide catalyst and The carrier of described catalyst.Metal oxide catalyst is attached on carrier by coating or sintering processing.
Alternatively, described metal-oxide refers to the oxide of titanium, silver, copper, manganese, ferrum and/or cobalt;Or titanium, silver, copper, manganese, ferrum And/or the composite oxides of combination in any between cobalt;And/or described carrier is ceramic honeycomb, honeycomb metal, activated carbon.
In certain embodiments, further preferably include the 4th air handling assemblies, for heating unit, use PTC-ceramic for adding Hot material.Described heating unit is PPT ceramic heating flake, mainly guarantees that winter enters indoor new wind the coldest, and helps In removing ozone.
In certain embodiments, further preferably include the 5th air handling assemblies, for negative oxygen ion generator;Further preferably Ground, negative oxygen ion generator electric power output voltage is-5000V to-40000V;Further preferably, anion generator is negative Emission of ions head number is 1-8.For providing anion to air, improve the quality of air after purifying further.Described negative oxygen Ion generator is interpolation negative oxygen ion in Xiang Xinfeng, and negative oxygen ion is described as " air vitamin ", and the existence of negative oxygen ion makes Indoor people feel with fresh air, have the sensation being in forest.Further, new wind adds negative oxygen ion beneficially raising to go Efficiency except PM2.5 particulate matter
In certain embodiments, the most described driven fan is the blower fan that noise is not higher than 45 decibels, to further ensure that Muting function.
Existing indoor air cleaner is typically all, due to filter type, the drainage screen that windage is bigger, and is anti-in indoor Multiple purification, it is impossible to both low noise and high purification efficiency, wants to purify as early as possible, it is necessary to open top grade, but noise is the biggest. The new wind air purifier of the present invention, is not to purify air in indoor circulation, is to the cleaned air of indoor release, and passes through Foul indoor air is actively discharged by the pressure-fired formed from the gap such as crack between a door and its frame, window, and therefore, wind speed need not the highest, needs When to be purified, can to indoor release new wind thus indoor air purification with continuous service.Add the purification side of employing Formula is Electrostatic Absorption mode, and almost without windage, therefore, except driven fan, remaining component is nearly free from noise.
Owing to windage is little, energy consumption is little, and the new wind air cleaning system of the present invention can use direct current generator, it is achieved low-power High purification percent of pass under state, also makes air outlet noise be not higher than new 45 decibels, greatly optimizes the use of depurator Performance.And the output of the most existing indoor air cleaner 20-50W, significantly reduce energy consumption, it is achieved energy-conserving and environment-protective.
In most of embodiments, further preferably supporting part and the wind wheel of indoor set uses low temperature resistant to Celsius-30 materials spent Material;Further preferably employ modified ABS plastics, nylon.
In certain embodiments, as shown in Figure 10, it is also preferred that housing is set to module drawer-type structure, each drawer Control at least one the described assembly in housing accordingly, make described assembly to be drawn out of, change, keep in repair or reduction is installed. Wherein 4 ', 5 ', 6, ' 7 ', 8 ' is assembly 4, the housing drawer of 5,6,7,8 correspondences.It is conveniently adjusted ionized region and electrostatic precipitation district Use number, keep in repair, maintain each assembly.
Great majority implement in, the present invention quantity of described ionized region and electrostatic precipitation district is arranged to adjustable with It is beneficial to according to using demand independent assortment to install and regulation.
In in great majority are implemented, described air inlet is arranged on the rear wall bottom of described housing, described air-out by the present invention Mouth is arranged on the top of described housing, to form the described inlet air flow path from housing rear bottom to housing upper.This sets Mode of putting provides the installation space of maximum possible for ionized region and electrostatic precipitation district, if needing to increase ionized region or electrostatic Accumulation area, it is only necessary to use the housing lengthened, increase without to thickness of shell.Additionally this setup, The most at utmost decrease windage, further ensure that low noise and low energy consumption.
The present invention, based on said system, also provides for a kind of method to indoor offer purifying fresh air, it is characterised in that use Any of the above-described described new wind air planning system is to indoor offer purifying fresh air, and arranges and institute in house sidings or window State the link position that air inlet is corresponding, make outdoor air enter after described new wind air planning system processes and enter back into indoor.
In certain embodiments, described housing 1 includes backboard, header board and four cycle side plates vertical with described backboard, header board The front shroud 11 of outside.Described front shroud divides upper and lower two parts, and upper part can be opened, and the latter half is fixing, lower half Dividing and be provided with display screen and control panel, control panel connects internal intelligent automatic control assembly 10, is used for controlling inside each Assembly.Described air inlet 2 is opened on backboard, the wall of installation site is opened air channel through walls, and is provided with ducting assembly, fresh air purifying Owner's body is by ducting assembly through walls and outdoor UNICOM.Backboard has some installation screws, by screw screw by machine wall hanging Formula is mounted to a wall.
Between individual assembly, it is provided with parting bead, each assembly is played upper and lower fixation.Open header board and front shroud 11, each group Part can load between parting bead or extract out.
Electronics dedusting fresh air purifier of the present invention is also different from the split-type structural of the new blower fan system of central authorities.It highlights It is characterised by: its collection housing, driven fan, electronics dust removal and filtration unit group and new wind quality-improving unit group, air channel and parting bead, Automatically controlled, liquid crystal display, in one, coordinates ducting assembly through walls, and complete machine is integral type structure, housing has installing hole and (or hangs Hook) and under-chassis, get final product in-wall mounting, it is possible to console model is installed.Without laying pipeline in indoor separately and destroying furred ceiling, finishing The most all can install.This machine can the independently installed high-quality air purified to indoor offer.
The new wind air cleaning system of the present invention is automatically controlled makes use-case and performance test:
Automatically controlled include:
1, battery main switch (band display lamp):
Open state: when red;
Off status: red light goes out;
2, APP controls:
Open state realizes:
1) 1 grade+high efficiency electrostatic of wind speed dust removal and filtration unit power supply open+display screen opens+anion opens
2) adjustable speed.
Off status function: machine is fully closed.
3, remote controller controls: all can use remote controller control below.
1) on off key (one-key start): open state: wind speed 1 grade+high efficiency electrostatic dust removal and filtration unit power supply opens+display screen Open+anion opens.
Off status: fully closed.
2) remote-control speed-regulation: totally five grades, 1 grade of wind speed is minimum, and five grades of wind speed are the highest."+" number is speed-raising, and "-" number is reduction of speed.
4) remote control electrical heating: open a 200W, open secondary 400W, opens three times and closes for electrical heating.Electrical heating power supply and wind Machine has chain, and blower fan leaves, and electrical heating can be opened, and blower fan closes then electrical heating closes.
5) remote control sleep function is arranged:
Sleep function open state: a, in addition to power lights, all show closedown.B, wind speed 1 grade+high efficiency electrostatic dust removal and filtration list Unit opens+and negative oxygen ion opens.
Sleep function off status: rollback is to previous state.
6) remote control display screen:
Open state: the PM2.5 after display machine fresh air purifying, wind speed, electrical heating, negative oxygen ion, clean prompting, timing are opened Shutdown.Display screen is automatically switched off for 2 minutes without any operation.
Off status: display is closed.
7) remote control PM2.5 detection:
A, detection outdoor air conditions: display screen opens+wind speed 1 grade+high efficiency electrostatic dust removal and filtration unit power supply pass, this state Within 10 seconds, automatically it is back to laststate.
B, the new wind that purified of detection: display screen opens+and wind speed 1 grade+high efficiency electrostatic dust removal and filtration unit opens+negative oxygen ion Open.
8) timed power on/off:
A, timing are opened: all the period of time timing is opened, and has when opening: wind speed 1 grade+high efficiency electrostatic dust removal and filtration unit open+bear oxygen from Son opens+and display screen opens.
B, timed-shutoff: fully closed.
Described infrared remote controller is the startup to machine, speed governing, heat, detect the operations such as display is remotely controlled, infrared The carrier frequency of the infra-red remote control of line remote controller is between 30Khz to 60Khz.
The application software that described APP operation controls is based on i Phone operating system or Android mobile phone operating system base Application software on plinth, can operate machinery remote.
The main performance performance of machine:
1, dust removing effects: when outdoor PM2.5 index is in the case of about 300, during maximum quantity of wind (200 cubic metres), its It is once 98%-100% by purification efficiency.
2, maximum oxygen supplement amount: per hour can be to indoor increase pure oxygen 41 cubic metres.
3, toxin expelling gas ability (as a example by the bedroom that area is 18 square metres): the poisonous of this room 95% can be got rid of in 1 hour Harmful gas, after 2 hours, the toxic and harmful clearance in this room is 99%.Machine continues the operation of little air quantity, room later Toxic and harmful content close to zero.
4, supply resh air requirement: minimum 20 cubic metres per hour, maximum the most about 200 cubic metres, total Pyatyi air quantity.
5, dedusting energy consumption: one-level energy consumption, when per hour to the new wind of indoor supply 20 cubic metres, power about 8W, its 200 stand Peak power about 25W during side's rice.Minimum electricity charge every day only 1 mao.
6, noise: quiet design, when per hour to 20 cubic metres of new wind of indoor supply, noise is about 20 decibels, maximum When 200 cubic metres it is 45 decibels.During sleep gear (30 cubic metres per hour), it it is 22 decibels.
7, anion supply: every cubic centimetre 10,000,000.
8, ozone exhaust air rate: below 30ppb, far below the standard of Ministry of Public Health 100ppb.
9, mode of operation: operation extremely convenient, can: on-site manual touching type operation;Remote controller global function operates;Mobile phone is remote Journey global function remotely operates.
10, dust removal and filtration mode: mechanical type adds electronic type, chemical formula combined filtration, main filter Reusability capable of washing, Free of replacement, expense about 1500-2000 unit can be saved for every every year.
11, display mode: liquid crystal display screen global function shows.Laggard including the outer PM2.5 pollution index of real-time display room and purification Enter the PM2.5 index of indoor clean new wind, and machine wind speed and other function service datas, function and clean-up effect are directly perceived, Understand.

Claims (12)

1. multilamellar ionization dedusting combination type new wind air cleaning system, it is characterised in that include housing, be used for being arranged in housing The first air handling assemblies and the second air handling assemblies;Air inlet and air outlet, described air intake it is provided with on described housing Mouth is arranged on housing rear, for the introducing of outdoor air;
Described first air handling assemblies includes driven fan, for outdoor air is incorporated into described shell via described air inlet Internal and be discharged into indoor through described air outlet again after flowing into described dust arrester;
Described second air handling assemblies can maintain the repeatedly used dust arrester of purifying property after including cleaning, is used for making Flow through particulate in air therein electrically charged and by electric field, electrically charged particulate matter is adsorbed;
Described dust arrester refers to that high efficiency electrostatic dust removal filter, described high efficiency electrostatic dust removal filter are included in inlet air flow path X ionized region of upper overlapping combinations setting and Y electrostatic precipitation district;Described ionized region is for the airborne particles thing flowed through Electrically charged, described electrostatic precipitation district is used for adsorbing static electrification lotus particulate matter;
X is and/or Y is the integer more than or equal to 2, described ionized region and electrostatic precipitation district in inlet air flow path according to " 1 Individual ionized region-M1Individual electrostatic precipitation district-N1Individual ionized region-M2Individual electrostatic precipitation district ... NnIndividual ionized region-MmIndividual electrostatic precipitation District " mode overlapping combinations arrange,
Wherein N1、N2。。。NnIt is all integer and less than or equal to X-1, and N1+N2+…Nn=X-1,
Wherein M1、M2。。。MmIt is all integer and less than or equal to Y, and M1+M2+…Mm=Y.
Multilamellar the most according to claim 1 ionization dedusting combination type new wind air cleaning system, it is characterised in that:
Described high efficiency electrostatic dust removal filter is included at least two electrostatic precipitation that in inlet air flow path, overlapping combinations is arranged Filter cartridge, wherein said electrostatic precipitation filter cartridge is according to inlet air flow path direction by 1 ionized region and 1 electrostatic precipitation district The integral structure that overlapping combinations is integrated.
Multilamellar the most according to claim 1 and 2 ionization dedusting combination type new wind air cleaning system, it is characterised in that: institute Stating all described electrostatic precipitation districts length sum on air-flow direction in high efficiency electrostatic dust removal filter is 1-200cm.
4. according to the arbitrary described ionization dedusting multi-layer combined type new wind air cleaning system of claim 1-3, it is characterised in that:
The structure of described ionized region is electrode wire form ionized region or electrode pin type ionized region;Including framework, its at least bottom and top Portion is that opening is penetrating, is arranged in contact in described housing with inner walls, and beneficially air flows into from described bottom And flow out from top;
Described electrode wire form ionized region, including described framework, multiple wire electrode, multiple battery lead plate;Described wire electrode and described electricity Polar plate interval is arranged in described framework, and the plurality of battery lead plate is adjacent to be parallel to each other and be arranged on described framework with having spacing In, the distance having between adjacent electrode plates forms air channel, and described air channel is conducive to air to flow into air channel warp bottom framework Described top is flowed out;Described wire electrode and described battery lead plate are parallel to each other and have distance;Adjacent wire electrode and battery lead plate it Different electrodes indirectly;
Described electrode pin type ionized region, including described framework, wind deflector, sparking electrode pin, electrode suppor;Described wind deflector is arranged In the bottom of described framework, it is provided with through hole for importing air;The top of described framework is provided with electrode suppor, and described electrode props up Frame is used for fixing described sparking electrode pin, and the placement position of described electrode suppor makes the sparking electrode pin being fixed thereon and leads Described through hole energy one_to_one corresponding on aerofoil;Described wind deflector and sparking electrode pin connect positive and negative electrode respectively.
Multilamellar the most according to claim 4 ionization dedusting combination type new wind air cleaning system, it is characterised in that:
The material of described wire electrode is tungsten filament, and its diameter is between 0.1mm to 5mm;And/or
A diameter of 1mm to 20mm of described sparking electrode pin;And/or described sparking electrode pin just center to described through hole, and The center of distance through hole is 10mm-100mm.
6. according to the arbitrary described multilamellar ionization dedusting combination type new wind air cleaning system of claim 1-5, it is characterised in that: The structure in described electrostatic precipitation district is metal plate type electrostatic precipitation district or electret-type electrostatic precipitation district, and including framework, it is at least Bottom and top are that opening is penetrating, be arranged in contact in described housing with inner walls, and beneficially air is from described Bottom flows into and flows out from top;
Described metal plate type electrostatic precipitation district, including framework, polylith metal collecting plate, the top of described framework and bottom are openings Penetrating, described polylith metal collecting plate is parallel and is arranged on having spacing in described framework;Adjacent described metal dust Spacing between plate forms air channel, and the favourable air in described air channel flows into air channel the opening stream through described top bottom framework Going out, described metal collecting plate interval adjacent during work connects both positive and negative polarity;
Described electret-type accumulation area, including framework, electret, metal electrode board;Multiple described metal electrode boards have spacing Ground is fixed in described framework, and adjacent described metal electrode board connects from different electrodes;Space between metal electrode board For arranging electret, being provided with fresh air channel in described electret, the direction air of described fresh air channel flows bottom framework Enter described fresh air channel and the opening through described top flows out.
Multilamellar the most according to claim 6 ionization dedusting combination type new wind air cleaning system, it is characterised in that: described newly The fin protruded inwardly from is had, in order to increase internal surface area in wind passage;And/or in described electret-type accumulation area, described metal Spacing range between battery lead plate is: 1mm to 50mm.
Multilamellar the most according to claim 6 ionization dedusting combination type new wind air cleaning system, it is characterised in that: described gold The plate face belonging to collecting plate is flat board or corrugated.
Multilamellar the most according to claim 8 ionization dedusting combination type new wind air cleaning system, it is characterised in that: described gold Belonging to collecting plate is that 5-20 degree angle is obliquely installed with air-flow direction, is beneficial to mode of intercepting and capturing and collects electrically charged particulate matter.
Multilamellar the most according to claim 6 ionization dedusting combination type new wind air cleaning system, it is characterised in that: described Spacing between metal collecting plate is 1mm to 50mm.
11. multilamellar according to claim 1 ionization dedusting combination type new wind air cleaning systems, it is characterised in that: described Housing pre-sets for installing multiple described ionized region and the installation position in electrostatic precipitation district, in housing install described ionization The quantity scalable in district and electrostatic precipitation district is beneficial to the use demand according to user oneself and regulates described ionized region and electrostatic The quantity of accumulation area.
12. according to the arbitrary described multilamellar ionization dedusting combination type new wind air cleaning system of claim 1-11, and its feature exists In: at described air outlet, it is additionally provided with wind deflector.
CN201610798008.6A 2016-07-07 2016-08-31 Multilamellar ionization dedusting combination type new wind air cleaning system CN106287976A (en)

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CN201711317337.5A CN108072113A (en) 2016-07-07 2016-08-31 Multilayer ionizes dedusting combined type fresh air air cleaning system
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CN201610791785.8A CN106225202A (en) 2016-07-07 2016-08-31 Drawer type new wind air cleaning system
CN201621031864.0U CN206310698U (en) 2016-07-07 2016-08-31 Drawer type fresh air air cleaning system
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CN108072113A (en) 2018-05-25
CN206310597U (en) 2017-07-07

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Application publication date: 20170104