CN105841245A - Indoor air-purifying processor - Google Patents

Indoor air-purifying processor Download PDF

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Publication number
CN105841245A
CN105841245A CN201510519468.6A CN201510519468A CN105841245A CN 105841245 A CN105841245 A CN 105841245A CN 201510519468 A CN201510519468 A CN 201510519468A CN 105841245 A CN105841245 A CN 105841245A
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CN
China
Prior art keywords
air
drainage screen
active carbon
titanium dioxide
immesion active
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
CN201510519468.6A
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Chinese (zh)
Inventor
程德威
张燕
蔡元宇
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Fujian Fulunde Electrical Appliance Co Ltd
Original Assignee
Fujian Fulunde Electrical Appliance Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Fujian Fulunde Electrical Appliance Co Ltd filed Critical Fujian Fulunde Electrical Appliance Co Ltd
Priority to CN201510519468.6A priority Critical patent/CN105841245A/en
Publication of CN105841245A publication Critical patent/CN105841245A/en
Pending legal-status Critical Current

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Classifications

    • 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
    • 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
    • F24F13/00Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
    • F24F13/30Arrangement or mounting of heat-exchangers
    • 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
    • F24F8/15Treatment, 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
    • F24F8/167Treatment, 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 catalytic reactions
    • 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
    • F24F8/22Treatment, e.g. purification, of air supplied to human living or working spaces otherwise than by heating, cooling, humidifying or drying by sterilisation using UV light

Abstract

The invention discloses an indoor air-purifying processor. The indoor air-purifying processor is characterized in that the air-purifying processor is mostly composed of an air intake volute, a primary-efficiency impregnated activated carbon filter net, a middle-efficiency impregnated activated carbon filter net, a high-efficiency impregnated activated carbon filter net, a fan section, a fan, a fixing bolt, a top cover board, a heat exchanger assembly or a titanium dioxide coating assembly, an ultraviolet lamp I, an air outlet, a bottom disc, a condensate tank, an ultraviolet lamp II, a transition board, a fan air outlet, a filter installation chute, an air smell sensor and an air inlet. The indoor air-purifying processor has functions of degrading formaldehyde, PX and other harmful gases and inhibiting and killing bacteria and pathogens in the air in order to purify the air in a room.

Description

Indoor air purification datatron
Technical field
The present invention relates to air regulation and air purification field, specifically refer to a kind of indoor air purification datatron.
Background technology
Along with air pollution is the most serious, the polluter of air concentrates on the industries such as airborne dust weather that sandstorm, greenery patches desertification day by day causes, steel industry, cement industry, building trade, pharmaceutical industry, industrial waste gas, vehicle exhaust, house decoration, and the dusty gas produced in the living environment of people, air-polluting have sand and dust, earth, formaldehyde, sulfide, carbon monoxide, methanthiol, hydrogen sulfide, ammonia etc..Particularly, the PX crisis growed in intensity this year, promote people to focus more on purification and the process of air.For air-polluting purification and process, the most more existing technology relates to, but has deficiency more or less, or the air cleaning requirement after cannot meeting in existing PX industrial processes or having an accident.
Patent of invention " 2,013,104,677,914 1 kinds are reclaimed the preparation method of the adsorbing material of organic macromolecule in pharmacy waste gas " discloses and a kind of reclaims the preparation method of the adsorbing material of organic macromolecule in pharmacy waste gas, and this method is with having certain density NaOH solution Immesion active carbon granule and stirring;Fumigate with steam again, remove the water-soluble granular in activated carbon pore, water soluble ion etc.;Again with certain density HCl high compressed steam fumigation activity charcoal granule;Finally by the mixed gas of nitrogen with gaseous state isobutyltrimethylmethane., activated carbon is dried.The adsorbing material prepared in this way can organic macromolecule in active adsorption pharmacy waste gas, and by desorbing, reach to reclaim the purpose of effective ingredient in pharmacy waste gas.But, the NaOH of employing is highly basic, and corrosivity is very strong, is not suitable for the purification of civilian room air.
Patent of invention " 2,006,100,567,027 1 kinds of Immesion active carbons and preparation method thereof " discloses a kind of Immesion active carbon for removing multiple harmful gas, its component accounts for the percentage ratio of Immesion active carbon gross weight: Cu 2.5~12%, K 2~10%, Na 0.5~9%, I 1~8%, stoichiometrically OH base 2~13%.Its preparation method is that by suitable proportions, above-mentioned composition is become dipping solution, it is uniformly impregnated with on activated carbon according to the liquor capacity of carrier base charcoal (activated carbon) water capacity 70~95%, at a temperature of 130~180 DEG C, it is dried with the air stream that can control amount of oxygen, activates.But this product is mainly used in the comprehensive purifying to VOCs (VOCs) such as H2S, SO2, NO2, O3, organic amine and benzene.
Patent of invention " 2004100426566 acid-resistant poisonous gas immersing active carbons and production method thereof " discloses a kind of activated carbon and production method thereof, including active constituent preparation, impregnate, be dried, active component is the mixed liquor being made up of curpic carbonate ammonia solution, alkali carbonate, silver nitrate and ammonia, and in active component, the central ion in ammoniacal copper complex ion accounts for the 2%-5% of solution gross weight;Alkali metal ion adds carbanion and accounts for the 3%-7% of solution gross weight;Central ion in silver ammino ion accounts for the 0.5 ‰-1 ‰ of solution gross weight;Remaining is ammonia.It is preferably: activated carbon 52%-65%, active component 35%-48%.But, this method is mainly used in adsorbing the sour gas such as common sulfur dioxide, hydrogen sulfide, nitrogen oxides, the acid toxic agent such as hydrocyanic acid, phosgene, uns-dimethylhydrazine, phosphorus and chloride organic agricultural chemicals can also be adsorbed, and mixed liquor can volatilize irritative gas ammonia, not be suitable for civilian occasion.
Patent of invention adsorbent and the manufacture method thereof of capability of decomposing organic halogen compound " 018012779 have " discloses a kind of manufacture and has the adsorbent method of capability of decomposing organic halogen compound, including the salt making Pt and/or Pd, organic titanic compound and organic combination react in a solvent, thus synthesize the dispersion liquid of the organometallic precursor containing Pt and/or Pd and Ti in the molecule, TiO2 colloidal sol is added in this dispersion liquid, manufacture catalyst coated solution, with this catalyst coated solution impregnation activated carbon this mixture of heating gained, thus make the load organohalogen compounds decomposition catalyst containing TiO2 on activated carbon, and wherein it is dispersed with the minuteness particle of Pt and/or Pd.Adsorbent obtained by this method, can be used for absorbing the organohalogen compounds being contained in discharge waste gas, and they can also be decomposed in the case of these compounds of not resynthesis, and can be used for absorbing and removing SOx, NOx, HCl and heavy metal class etc..But the minuteness particle of Pt and/or Pd in this method is consumptive, along with the passage of the time of use, the minuteness particle of Pt and/or Pd can run out of, and effect disappears.
The patent of invention " 2014107948077 air conditioning for automobiles nano silver filtering net " announced discloses a kind of air conditioning for automobiles nano silver filtering net, and this drainage screen is surrounded by the HEPA filter course set gradually from outside to inside, Alveolate activated carbon drainage screen, cellular nano silver sponge drainage screen three-decker and the encapsulation that is arranged at around this three-decker and forms.But, HEPA filter course can only with just effect and medium effeciency filter with the use of, otherwise, the HEPA filter course life-span is the shortest, it is easy to blocked by dust.
The patent of invention " 2,014,108,498,706 1 kinds of air cleaners " announced discloses a kind of air cleaner, including housing and filtering core, filtering core is arranged on enclosure interior, it it is air inlet on the right side of housing, it it is air outlet on the left of housing, also include fan, fan is arranged in housing, it is positioned at the left side of air inlet, filtering core is followed successively by low efficient filter screen, electrostatic precipitation room, hydrogen peroxide purification system and active carbon nanoparticles drainage screen from left to right, hydrogen peroxide purification system includes that antioxidation filters web, and antioxidation filter cotton is impregnated with hydrogen peroxide on the net.The patent of invention of this announcement uses hydrogen peroxide to sterilize, and will necessarily carry hydrogen peroxide and enter room in air, but, hydrogen peroxide is in use not readily accessible to the positions such as human eye.
The patent of invention " 2014100569101 new wind filtration system and application thereof " announced discloses a kind of new wind filtration system, it is characterized in that, including host housing, it is arranged on the first filter screen after host housing air inlet, the gas suction blower fan being connected with first filter screen, the middle filter screen being connected with gas suction blower fan, after electrostatic precipitator is arranged on middle filter screen, after HEPA drainage screen is arranged on electrostatic precipitator, after activated charcoal strainer is arranged on HEPA drainage screen, silver catalyst drainage screen is connected with activated charcoal strainer, silver catalyst drainage screen is connected with the gas outlet being arranged on host housing.The silver-colored catalyst that the patent of invention of this announcement uses is consumptive equally, along with the passage of the time of use, can run out of, and effect disappears.
Patent of invention " the 2014102222054 1 kinds of ventilations announced, dust removal integrated formula air filter " disclose a kind of ventilation, dust removal integrated formula air filter, including screen window filter screen, ion wind ground polar net, activated charcoal strainer, multiple ground pole plate, multiple positive plates and multiple corona wire, screen window filter screen, ion wind region net, activated charcoal strainer side by side parallel the most successively is arranged in body of wall passage, multiple ground pole plate side by side parallel is arranged between screen window filter screen and ion wind ground polar net, it is provided with a positive plate between adjacent two ground pole plates, a corona wire it is equipped with in the outer side edges of each positive plate, a corona wire it is equipped with on the inner side edge of each positive plate, each corona wire is all connected with power supply.This technology is only used for filtering haze air.
The patent of invention " 200410070192X nanometer air sterilizer from photoelectron ultraviolet " announced discloses a kind of nanometer air sterilizer from photoelectron ultraviolet, body is rectangular column shape structure, include in body: electro-motor, multiple layer combination convulsion tympanites due to wind, electronic circuit system, key switch, display lamp, air conditioner refrigerating parts, extreme ultraviolet radiating light spool, air gather frame, power input line, carbon fibre line and activated charcoal strainer.But this technology can only eliminate the antibacterial in air, virus and mycete, function singleness.
The patent of invention " 201210271973.X method increasing activated carbon-carried nano TiO2 photocatalyst activity " announced discloses a kind of method increasing activated carbon-carried nano TiO2 photocatalyst activity, activated carbon heat treatment: the particle diameter commercially available activated carbon of 80-120 purpose is placed in quartz ampoule, first it is passed through high pure nitrogen and drives air therein away, then the quartz ampoule that will be equipped with activated carbon is put in the tubular type Muffle furnace being previously heated to 600-1000 DEG C, process 4-16h, after activated carbon in quartz ampoule is cooled to 150 DEG C, take out;Load sensitive control: the activated carbon after heat treatment is joined in TiO2 colloidal sol by the TiO2 load capacity of 2-8%; supersound process 0.5-4h; make TiO2 colloidal sol uniform adsorption to activated carbon surface; put in baking oven and dry under the conditions of 120 DEG C; then under high pure nitrogen is protected, 400-1000 DEG C of constant temperature processes 0.5-4 hour, obtains TiO2/AC catalyst.This technology uses sol-gel process load sensitive control, but, sol-gel process is usually used in preparing nano material Ultramicro film, and activated carbon supported preferably nanoparticle, just can give full play to the adsorption of activated carbon and the Degradation of nanoparticle.
The patent of invention " 201310563085.X intelligent air freshener " announced discloses a kind of intelligent air freshener, including controller and the sensor group, anion generator, air circular purification device, motor drive module and the man machine interface that are connected with controller respectively;Described controller is the minimum system of ATmega8 composition;Described sensor group includes abnormal flavour sensor and sensor of dust concentration;Described air circular purification device includes silver ion drainage screen, filter cotton, activated charcoal strainer and the ultraviolet-sterilization layer being sequentially connected, the harmful gass such as formaldehyde adsorption, benzene homologues, ammonia, TVOC, can effectively remove harmful gas and the abnormal flavour such as Ammonia in Air gas, acetic acid.But, the silver ion that the patent of invention of this announcement uses is consumptive equally, along with the passage of the time of use, can run out of, and effect disappears.
Patent of invention " 2007101256975 air-conditioner " discloses a kind of air-conditioner, and described air-conditioner includes that drainage screen, described drainage screen are nano level active charcoal loose structure.Owing to the specific surface area of nano level active charcoal is far longer than the specific area of normal activated carbon, the degraded of nano level active charcoal drainage screen and the ability of absorption foul smell and other harmful gass that the embodiment of the present invention provides are better than far away existing normal activated carbon drainage screen;Further, the hole of the many hollow structures of nano level active charcoal that the embodiment of the present invention provides is filled with absorbent particles, can effectively prevent some harmful gas from slipping away through porous gap.But, this technology can only adsorb the harmful gas in air and foul smell, harmful gas of can not degrading.
Patent of invention " is prepared the method that Vermiculitum load TiO2 photocatalyst is peeled off in acidifying for 201210143682.2 1 kinds " and is disclosed and a kind of method preparing acidifying stripping Vermiculitum load TiO2 photocatalyst, the method peels off Vermiculitum lamella as carrier with cheap acidifying, TiO2 photocatalyst is peeled off in acidifying the layer surface of Vermiculitum, thus reaches absorption-photocatalysis integrated process organic pollution and be easily isolated and recycle the purpose of catalyst.Specific surface area is obtained bigger by simple acid treatment, Vermiculitum lamella is peeled off in the acidifying of rich surface hydroxyl, then the carrier that Vermiculitum is TiO2 nano-photocatalyst is peeled off in acidifying, use simple water heat transfer, the method is simple, with low cost, the Immobilized TiO2 activator obtained is that a kind of acidifying peels off the uniform sequential growth in vermiculite layers surface, the TiO2 nanoparticular lamina of the ternary mixed crystal phase in open and flat porous spongy, and there is big specific surface area and high photocatalytic activity, it is easy to the purpose reaching absorption-photocatalysis integrated process organic pollution and being easily isolated and recycle, can be widely applied to environmental improvement, such as waste water, sewage, the purified treatment such as indoor and outdoor gaseous contamination.But natural Vermiculitum has the restriction that two-dimensional is big, it is difficult to be applied on the room indoor air conditioner that size is less.
Patent of invention " 201310055813.6 1 kinds of VMC (Ventilation Mechanical Control System) air cleaners " discloses a kind of VMC (Ventilation Mechanical Control System) air cleaner, and including being fitted into air port by high efficiency particulate air filter, activated charcoal strainer, aluminum base plasma electrostatic net, HV generator, uviol lamp, blower fan, rearmounted shell, preposition shell, mobile handle, outside, lower casing, upper shell form.This technology uses high efficiency particulate air filter as first order filter, can affect the using effect of high efficiency particulate air filter, be unsatisfactory for the use requirement of high efficiency particulate air filter, can shorten the service life of high efficiency particulate air filter.
The patent of invention " 201410221357.2 1 kinds of air-activated clean dirt sterilization filters of composite multifunction " announced discloses a kind of air-activated clean dirt sterilization filter of composite multifunction, this device includes primary efficient filter screen, electrostatic electret drainage screen, HEPA filter element net, primary efficient absorption activated charcoal strainer, the cold catalyst drainage screen of chemistry, 7 layers of filter course of nanometer light catalyst filter screen, Burdick lamp composition are constituted, and these 7 layers of filter courses are to be formed from outside to inside to have connected filtration layer by layer.Technique scheme is that bulky grain can be filtered in porch by this device, by minimum windage, charged particle in high efficiency filter air, filter through HEPA again, remove PM2.5, leave the antibacterial less than 0.1 micron and virus and noxious substance, sterilization is reached by activated carbon and cold catalyst, deodorization, mildew-resistant, remove formaldehyde, benzene and other chemical substances, finally by ultraviolet light catalyzing Nano titanium dioxide photocatalyst filtering net, the various organic compound of oxidation Decomposition and part inorganic matter, destroy cell membrane and the protein of solidification virus of minimum antibacterial, by a series of multifunctional air purifying effects, reach to meet the pure air of medical demands.But in the case of this technology does not accounts for there are the acidic materials such as acetic acid in atmosphere, the defecator of acetic acid meeting this patent of invention of corrosion failure design.
The patent of invention " 201410337197.8 1 kinds of low-temperature plasma waste gas processing methods " announced discloses a kind of low-temperature plasma waste gas processing method, and waste gas enters in stainless-steel pipe under the effect of air exhauster;The unsettled mace being applied in stainless-steel pipe connects positive pole, stainless-steel pipe connects negative pole, it is energized, mace realizes point discharge, in stainless-steel pipe, produce electric field thus produce corona phenomenon, under the acceleration of electric field, produce high energy electron in order to make the molecular scission in waste gas decompose;The waste gas processed through process chamber is further filtered through activated charcoal strainer again.But this technology needs high-tension electricity, this is dangerous in family's use occasion;And the air drag of the many groups light-pipe structure arranged is bigger, the motor of configuration can produce bigger electromagnetic noise and pneumatic noise.
Utility model patent " 2,014,205,497,406 1 kinds of Household Air Purifier " discloses a kind of Household Air Purifier, including: plastic casing, front panel, nylon wire roughing efficiency air filter, high-pressure anionic filter, middle effect fabric filter, gas phase media filter, high efficiency particulate air filter, centrifugal blower.Described plastic casing front upper is provided with sensor element, and top arranges control panel, and back part end face is provided with air outlet, and front outsides connects front panel;Described front panel top offers sensor air suction inlet, both sides and bottom and offers inlet scoop;It is sequentially connected with nylon wire roughing efficiency air filter, high-pressure anionic filter, middle effect fabric filter, gas phase media filter, high efficiency particulate air filter, centrifugal blower backward along front panel in described plastic casing.The granule arranged and smell sensor, provide basis for estimation for depurator the need of opening.But this technology does not notice the acidic materials such as the acetic acid corrosiveness to device when PX production plant surrounding area and accident in air.
The utility model patent " 2,014,204,489,065 1 kinds of anticorrosion motors " of publicity discloses a kind of anticorrosion motor, including cast iron housing and be arranged on the stator within cast iron housing, rotor, hollow shaft sleeve, solid shafting, the two ends up and down of solid shafting are distributed with upper bearing (metal) and lower bearing, the outside of upper bearing (metal) and lower bearing is fixed by top bearing cover and lower bearing end cap respectively, the outer wall of described cast iron housing is provided with plastic anti-corrosion layer, and the top of top bearing cover is provided with the plastic anti-corrosion cover being set on solid shafting and top bearing cover.Anticorrosion motor reasonable in design of the present utility model, plastic anti-corrosion layer is wrapped up on the cast iron housing surface of motor, plastic anti-corrosion layer is integrated with cast iron housing injection mo(u)lding, the top of top bearing cover is provided with the plastic anti-corrosion cover being set on solid shafting and top bearing cover, effectively isolate containing acid working environment, extended service life.This technology needs plastic anti-corrosion layer and motor case are molded into one, needs mold again, relatively costly, electrical machmary maintenance inconvenience, is not also suitable for the anticorrosion of the long spindle motor of indoor apparatus of air conditioner blower fan.
Summary of the invention
The technical problem to be solved in the present invention is, a kind of indoor air purification datatron is provided, the dust in air can be removed, such as PM10, PM2.5 etc., the harmful gass such as the formaldehyde that room finish causes can be removed again, and there is antibacterial and sterilizing function, the acetic acid in air, methyl acetate, PX, bromide etc., and the air pollutants of pharmaceutical factory or tobacco curing factory etc., irritative gas can be removed again simultaneously.
The technical solution of the present invention is, following a kind of indoor air purification datatron (see figure 1) is provided, it is characterized in that: air purifier is mainly by air intake spiral case 1, just effect Immesion active carbon drainage screen 2, middle effect Immesion active carbon drainage screen 3, efficiently Immesion active carbon drainage screen 4, fan section 5, blower fan 6, fixing screw 7, lamina tecti 8, heat exchanger assembly or coating of titanium dioxide assembly 9, Burdick lamp I 10, air outlet 11, chassis 12, condense tank 13, Burdick lamp II 14, rebound 15, fan outlet 16, chute 17 installed by filter, air odor sensor 18, air inlet 19 forms.
Described first effect Immesion active carbon drainage screen 1, middle effect Immesion active carbon drainage screen 2 and efficient Immesion active carbon drainage screen 3, use the activated carbon of dipping sodium carbonate, micropore specification 50nm-200nm of activated carbon.
Described first effect Immesion active carbon drainage screen 1, middle effect Immesion active carbon drainage screen 2 and efficient Immesion active carbon drainage screen 3 face velocity are 1m/s-1.5m/s.
The sectional dimension of described air inlet 19, the air quantity and the requirement that efficient Immesion active carbon drainage screen 3 face velocity is 1m/s-1.5m/s that process according to indoor air purification datatron design.
Described first effect Immesion active carbon drainage screen 1, middle effect Immesion active carbon drainage screen 2 and efficient Immesion active carbon drainage screen 3, activated carbon dipping sodium carbonate, its Main Function is exactly: when in chemical plant, pharmaceutical factory's production process or during accident, give out acetic acid, methyl acetate and other sour gas or material, it is diffused in plant area and surrounding area air, at this moment, the sodium carbonate of dipping just can be utilized to the material that reduces sourness, meanwhile, utilize the adsorption of activated carbon to adsorb these harmful gas materials.
Described first effect Immesion active carbon drainage screen 1, middle effect Immesion active carbon drainage screen 2 and efficient Immesion active carbon drainage screen 3, it is arranged and installation site, direction along air intake, Immesion active carbon drainage screen 1 is imitated at the beginning of first, middle middle effect Immesion active carbon drainage screen 2, last the most efficiently Immesion active carbon drainage screen 3, the most this layout, can be only achieved the dust removing more than 0.5 μm, particularly PM10 and PM2.5.
Described air odor sensor 18, is arranged at the beginning of first and imitates outside Immesion active carbon drainage screen 1, at the 10mm-20mm of chassis.When indoor air purification datatron is in power-up state, if in the presence of air odor sensor 18 detects other gas such as sour gas or formaldehyde, even if nobody in room, indoor air purification datatron automatically turns on, Burdick lamp I 10 and Burdick lamp II 14, Burdick lamp activates the activity of titanium dioxide multicomponent system, the harmful gas such as degradation of formaldehyde, PX after opening, the antibacterial suppressed and kill in air and pathogenic bacteria, with air in clean rooms.
Described air intake spiral case 1, is just to use, during horizontal air inlet mode, it is not necessary to this air intake spiral case 1 when air intake uses lower air inlet mode.
Described air intake spiral case 1 material, the Metal plate of fan section 5, fixing screw 7, lamina tecti 8, chassis 12, rebound 15, filter installation chute 17 and air odor sensor 18, all needs to use resistant material or through antiseptic material.
Described blower fan 6(is shown in Fig. 2), it is characterised in that: mainly it is made up of locating platform 25, motor power string holes 26 and the connection box for motor 27 on spiral case 20, wind wheel 21, motor shaft 22, motor 23, wind wheel location screw 24, motor shaft.Described spiral case 20, wind wheel 21, the wind wheel location parts such as screw 24 and motor shaft 22 take anticorrosive measure to process.Shown motor power string holes 26 is connecting employing epoxide resin material sealing at aperture.Described electrode connection box 27 uses resistant material, and rosette import and export uses epoxide resin material to seal.
Described heat exchanger assembly or coating of titanium dioxide assembly 9, need not undertake under refrigeration duty or thermal load conditions when being in, it is only necessary to during purified treatment air, can use the coating of titanium dioxide assembly shown in Fig. 3;When having refrigeration or heat-production functions, the fluorine set heat exchange device assembly shown in Fig. 4 can be used, it would however also be possible to employ the system heat exchanger assembly of leaking water shown in Fig. 5.
When described heat exchanger assembly or coating of titanium dioxide assembly 9 use the coating of titanium dioxide assembly shown in Fig. 3, it is characterised in that: coating of titanium dioxide assembly is mainly made up of fin 28, end plate I 29.2, end plate II 29.2, fixing pipe 30.1 and the collar 30.2.
The process of the polynary photocatalysis titanium dioxide system coating of described corrosion-resistant stainless steel sheet 28 refers to the content of " manufacture methods of 201510205334.7 Photocatalysis lustration type heat exchangers ".
The effect of described fixing pipe 30.1 is by the way of tube expansion, and by fin 28 expanded joint on fixing pipe 30.1, fixing pipe 30.1 is then fixed on end plate I 29.2 and end plate II 29.2.
The spacing of fin of described corrosion-resistant stainless steel sheet 28 is 10mm-50mm, and the spacing between fin 28 is then controlled by the width of the collar 30.2 of the fixing pipe 30.1 being enclosed between fin.
nullWhen described heat exchanger assembly or coating of titanium dioxide assembly 9 use the fluorine set heat exchange device assembly shown in Fig. 4,It is characterized in that: fluorine set heat exchange device assembly is mainly by fin 31、U heat exchange 32、Shunting capillary tube 33、Muffler 34、Liquid-dividing head 35、Return-air discharge 36、End plate I 37、Feed pipe 38、Pipe 39 is fixed in feed pipe temperature sensor、Feed pipe list joint 40、Feed pipe list collar nut 41、Return-air house steward's list collar nut 42、Return-air house steward's list joint 43、Pipe 44 is fixed in return-air house steward's temperature sensor、Return-air house steward 45、End plate II 46、Pipe 47 fixed by coil pipe middle portion temperature sensor、U-shaped elbow 48,Detailed construction is shown in the patent " 201520263209.7 lustration type heat exchanger " declared,The process of the polynary photocatalysis titanium dioxide system coating on heat exchanger fin surface refers to the content of " manufacture methods of 201510205334.7 Photocatalysis lustration type heat exchangers ".
Described heat exchanger assembly or coating of titanium dioxide assembly 9 use shown in Fig. 5 leak water system heat exchanger assembly time, it is characterised in that: system heat exchanger of leaking water assembly is mainly by air bleeding valve 49, fin 50, heat exchanger tube 51, collector pipe 52, water collector 53, U-shaped elbow 54, water knockout drum 55, distributive pipe 56, end plate I 57, end plate II 58.The process of the polynary photocatalysis titanium dioxide system coating on described fin 50 surface refers to the content of the patent of invention " manufacture methods of 201510205334.7 Photocatalysis lustration type heat exchangers " declared.
The inner surface spraying photocatalytic nanometer titanium dioxide spray of described end plate I 29.2 and end plate II 29.2, end plate I 37 and end plate II 46, end plate I 57 and end plate II 58, forms one layer of photocatalytic nanometer titanium deoxid film at end plate inner surface.
After described Burdick lamp I 10 and Burdick lamp II 14 start, activate the activity of the polynary photocatalysis coating of titanium dioxide on fin 28 or fin 31 or fin 50 surface in heat exchanger assembly or coating of titanium dioxide assembly 9, the harmful substance such as degradation of formaldehyde.
The startup working method of described indoor air purification datatron, remote controller, line control machine, Centralized Controller, Internet network control mode can be passed through, it is also possible to sensed the harmful gas matter in air by described air odor sensor 18 in the presence of, automatically start purification function.
Use indoor air purification datatron of the present invention, have the advantage that one is to remove PM10 and PM2.5, two is the harmful gass such as degradation of formaldehyde, can also absorb and degrade in PX production process or the material such as acetic acid during accident, methyl acetate, bromide, PX, three is antibacterial and the pathogenic bacterias such as bird flu, " legionella " in adjusting system that can suppress and kill in air, purifies air.Due to the fact that the invention or utility model patented technology of the air cleaning of other association areas, range of application is wider, and selectivity is higher, and high intelligent control degree is higher.
Accompanying drawing explanation
Figure 1 It is the present inventionIndoor air purification processor structure schematic diagram.
Wherein, 1, air intake spiral case, 2, just effect Immesion active carbon drainage screen, 3, middle effect Immesion active carbon drainage screen, 4, efficient Immesion active carbon drainage screen, 5, fan section, 6, blower fan, 7, fixing screw, 8, lamina tecti, 9, heat exchanger assembly or coating of titanium dioxide assembly, 10, Burdick lamp I, 11, air outlet, 12, chassis, 13, condense tank, 14, Burdick lamp II, 15, rebound, 16, fan outlet, 17, chute installed by filter, and 18, air odor sensor, 19, air inlet.
Fig. 2 is blower fan structure schematic diagram.
Wherein, 20, spiral case, 21, wind wheel, 22, motor shaft, 23, motor, 24, wind wheel location screw, 25, locating platform on motor shaft, 26, motor power string holes, 27, connection box for motor.
Figure 3 It isCoating component structural representation.
Wherein, 28, fin, 29.1, end plate I, 29.2, end plate II, 30.1, fixing pipe, 30.2, the collar.
Figure 4 It isFluorine set heat exchange device modular construction schematic diagram.
Wherein, 31 fins, 32, U heat exchange, 33, shunting capillary tube, 34, muffler, 35, liquid-dividing head, 36, return-air discharge, 37, end plate I, 38, feed pipe, 39, the fixing pipe of feed pipe temperature sensor, 40, feed pipe list joint, 41, feed pipe list collar nut, 42, return-air house steward's list collar nut, 43, return-air house steward list joint, 44, the fixing pipe of return-air house steward temperature sensor, 45, return-air house steward, 46, end plate II, 47, the fixing pipe of coil pipe middle portion temperature sensor, 48, U-shaped elbow.
Fig. 5 is system heat exchanger modular construction schematic diagram of leaking water.
Wherein, 49, air bleeding valve, 50, fin, 51, heat exchanger tube, 52, collector pipe, 53, water collector, 54, U-shaped elbow, 55, water knockout drum, 56, distributive pipe, 57, end plate I, 58, end plate II.
Detailed description of the invention
For better illustrating technical scheme, below the detailed description of the invention of the present invention is described in detail.
As shown in Figure 1, the air purifier that the present invention relates to, is mainly made up of air intake spiral case 1, just effect Immesion active carbon drainage screen 2, middle effect Immesion active carbon drainage screen 3, efficient Immesion active carbon drainage screen 4, fan section 5, blower fan 6, fixing screw 7, lamina tecti 8, heat exchanger assembly or coating of titanium dioxide assembly 9, Burdick lamp I 10, air outlet 11, chassis 12, condensation tank 13, Burdick lamp II 14, rebound 15, fan outlet 16, filter installation chute 17, air odor sensor 18, air inlet 19.
Example 1.
Described first effect Immesion active carbon drainage screen 1, middle effect Immesion active carbon drainage screen 2 and efficient Immesion active carbon drainage screen 3, use the activated carbon of dipping sodium carbonate, micropore specification 100nm of activated carbon.
Described first effect Immesion active carbon drainage screen 1, middle effect Immesion active carbon drainage screen 2 and efficient Immesion active carbon drainage screen 3 face velocity are 1m/s.
The sectional dimension of described air inlet 19, the air quantity and the requirement that efficient Immesion active carbon drainage screen 3 face velocity is 1m/s that process according to indoor air purification datatron design.
Described first effect Immesion active carbon drainage screen 1, middle effect Immesion active carbon drainage screen 2 and efficient Immesion active carbon drainage screen 3, activated carbon dipping sodium carbonate, its Main Function is exactly: when in chemical plant, pharmaceutical factory's production process or during accident, give out acetic acid, methyl acetate and other sour gas or material, it is diffused in plant area and surrounding area air, at this moment, the sodium carbonate of dipping just can be utilized to the material that reduces sourness, meanwhile, utilize the adsorption of activated carbon to adsorb these harmful gas materials.
Described first effect Immesion active carbon drainage screen 1, middle effect Immesion active carbon drainage screen 2 and efficient Immesion active carbon drainage screen 3, it is arranged and installation site, direction along air intake, Immesion active carbon drainage screen 1 is imitated at the beginning of first, middle middle effect Immesion active carbon drainage screen 2, last the most efficiently Immesion active carbon drainage screen 3, the most this layout, can be only achieved the dust removing more than 0.5 μm, particularly PM10 and PM2.5.
Described air odor sensor 18, is arranged at the beginning of first and imitates outside Immesion active carbon drainage screen 1, at the 20mm of chassis.When indoor air purification datatron is in power-up state, if in the presence of air odor sensor 18 detects other gas such as sour gas or formaldehyde, even if nobody in room, indoor air purification datatron automatically turns on, Burdick lamp I 10 and Burdick lamp II 14, Burdick lamp activates the activity of titanium dioxide multicomponent system, the harmful gas such as degradation of formaldehyde, PX after opening, the antibacterial suppressed and kill in air and pathogenic bacteria, with air in clean rooms.
Described air intake spiral case 1, is just to use, during horizontal air inlet mode, it is not necessary to this air intake spiral case 1 when air intake uses lower air inlet mode.
Described air intake spiral case 1 material, the Metal plate of fan section 5, fixing screw 7, lamina tecti 8, chassis 12, rebound 15, filter installation chute 17 and air odor sensor 18, all needs to use resistant material or through antiseptic material.
Described blower fan 6(is shown in Fig. 2), it is characterised in that: mainly it is made up of locating platform 25, motor power string holes 26 and the connection box for motor 27 on spiral case 20, wind wheel 21, motor shaft 22, motor 23, wind wheel location screw 24, motor shaft.Described spiral case 20, wind wheel 21, the wind wheel location parts such as screw 24 and motor shaft 22 take anticorrosive measure to process.Shown motor power string holes 26 is connecting employing epoxide resin material sealing at aperture.Described electrode connection box 27 uses resistant material, and rosette import and export uses epoxide resin material to seal.
When described heat exchanger assembly or coating of titanium dioxide assembly 9 use the coating of titanium dioxide assembly shown in Fig. 3, it is characterised in that: coating of titanium dioxide assembly is mainly made up of fin 28, end plate I 29.2, end plate II 29.2, fixing pipe 30.1 and the collar 30.2.
The process of the polynary photocatalysis titanium dioxide system coating of described corrosion-resistant stainless steel sheet 28 refers to the content of " manufacture methods of 201510205334.7 Photocatalysis lustration type heat exchangers ".
The effect of described fixing pipe 30.1 is by the way of tube expansion, and by fin 28 expanded joint on fixing pipe 30.1, fixing pipe 30.1 is then fixed on end plate I 29.2 and end plate II 29.2.
The spacing of fin of described corrosion-resistant stainless steel sheet 28 is 10mm, and the spacing between fin 28 is then controlled by the width of the collar 30.2 of the fixing pipe 30.1 being enclosed between fin.
The inner surface spraying photocatalytic nanometer titanium dioxide spray of described end plate I 29.2 and end plate II 29.2, forms one layer of photocatalytic nanometer titanium deoxid film at end plate inner surface.
After described Burdick lamp I 10 and Burdick lamp II 14 start, activate the activity of the polynary photocatalysis coating of titanium dioxide on fin 28 surface in heat exchanger assembly or coating of titanium dioxide assembly 9, the harmful substance such as degradation of formaldehyde.
The startup working method of described indoor air purification datatron, remote controller, line control machine, Centralized Controller, Internet network control mode can be passed through, it is also possible to sensed the harmful gas matter in air by described air odor sensor 18 in the presence of, automatically start purification function.
Example 2.
Described first effect Immesion active carbon drainage screen 1, middle effect Immesion active carbon drainage screen 2 and efficient Immesion active carbon drainage screen 3, use the activated carbon of dipping sodium carbonate, micropore specification 200nm of activated carbon.
Described first effect Immesion active carbon drainage screen 1, middle effect Immesion active carbon drainage screen 2 and efficient Immesion active carbon drainage screen 3 face velocity are 1.5m/s.
The sectional dimension of described air inlet 19, the air quantity and the requirement that efficient Immesion active carbon drainage screen 3 face velocity is 1.5m/s that process according to indoor air purification datatron design.
Described first effect Immesion active carbon drainage screen 1, middle effect Immesion active carbon drainage screen 2 and efficient Immesion active carbon drainage screen 3, activated carbon dipping sodium carbonate.
Described first effect Immesion active carbon drainage screen 1, middle effect Immesion active carbon drainage screen 2 and efficient Immesion active carbon drainage screen 3, it is arranged and installation site, direction along air intake, Immesion active carbon drainage screen 1 is imitated at the beginning of first, middle middle effect Immesion active carbon drainage screen 2, last the most efficiently Immesion active carbon drainage screen 3, the most this layout, can be only achieved the dust removing more than 0.5 μm.
Described air odor sensor 18, is arranged at the beginning of first and imitates outside Immesion active carbon drainage screen 1, at the 10mm-20mm of chassis.When indoor air purification datatron is in power-up state, if in the presence of air odor sensor 18 detects other gas such as sour gas or formaldehyde, even if nobody in room, indoor air purification datatron automatically turns on, Burdick lamp I 10 and Burdick lamp II 14, Burdick lamp activates the activity of titanium dioxide multicomponent system, the harmful gas such as degradation of formaldehyde, PX after opening, the antibacterial suppressed and kill in air and pathogenic bacteria, with air in clean rooms.
Described air intake spiral case 1, is just to use, during horizontal air inlet mode, it is not necessary to this air intake spiral case 1 when air intake uses lower air inlet mode.
Described air intake spiral case 1 material, the Metal plate of fan section 5, fixing screw 7, lamina tecti 8, chassis 12, rebound 15, filter installation chute 17 and air odor sensor 18, all needs to use resistant material or through antiseptic material.
Described blower fan 6(is shown in Fig. 2), it is characterised in that: mainly it is made up of locating platform 25, motor power string holes 26 and the connection box for motor 27 on spiral case 20, wind wheel 21, motor shaft 22, motor 23, wind wheel location screw 24, motor shaft.Described spiral case 20, wind wheel 21, the wind wheel location parts such as screw 24 and motor shaft 22 take anticorrosive measure to process.Shown motor power string holes 26 is connecting employing epoxide resin material sealing at aperture.Described electrode connection box 27 uses resistant material, and rosette import and export uses epoxide resin material to seal.
nullWhen described heat exchanger assembly or coating of titanium dioxide assembly 9 use the fluorine set heat exchange device assembly shown in Fig. 4,It is characterized in that: fluorine set heat exchange device assembly is mainly by fin 31、U heat exchange 32、Shunting capillary tube 33、Muffler 34、Liquid-dividing head 35、Return-air discharge 36、End plate I 37、Feed pipe 38、Pipe 39 is fixed in feed pipe temperature sensor、Feed pipe list joint 40、Feed pipe list collar nut 41、Return-air house steward's list collar nut 42、Return-air house steward's list joint 43、Pipe 44 is fixed in return-air house steward's temperature sensor、Return-air house steward 45、End plate II 46、Pipe 47 fixed by coil pipe middle portion temperature sensor、U-shaped elbow 48,Detailed construction is shown in the patent " 201520263209.7 lustration type heat exchanger " declared,The process of the polynary photocatalysis titanium dioxide system coating on heat exchanger fin surface refers to the content of " manufacture methods of 201510205334.7 Photocatalysis lustration type heat exchangers ".
The inner surface spraying photocatalytic nanometer titanium dioxide spray of described end plate I 37 and end plate II 46, forms one layer of photocatalytic nanometer titanium deoxid film at end plate inner surface.
After described Burdick lamp I 10 and Burdick lamp II 14 start, activate the activity of the polynary photocatalysis coating of titanium dioxide on fin 31 surface in heat exchanger assembly or coating of titanium dioxide assembly 9, the harmful substance such as degradation of formaldehyde.
The startup working method of described indoor air purification datatron, can pass through line control machine, it is also possible to automatically start purification function sensed the harmful gas matter in air by described air odor sensor 18 in the presence of.
Example 3.
Described first effect Immesion active carbon drainage screen 1, middle effect Immesion active carbon drainage screen 2 and efficient Immesion active carbon drainage screen 3, use the activated carbon of dipping sodium carbonate, micropore specification 150nm of activated carbon.
Described first effect Immesion active carbon drainage screen 1, middle effect Immesion active carbon drainage screen 2 and efficient Immesion active carbon drainage screen 3 face velocity are 1.2m/s.
The sectional dimension of described air inlet 19, the air quantity and the requirement that efficient Immesion active carbon drainage screen 3 face velocity is 1.2m/s that process according to indoor air purification datatron design.
Described first effect Immesion active carbon drainage screen 1, middle effect Immesion active carbon drainage screen 2 and efficient Immesion active carbon drainage screen 3, activated carbon dipping sodium carbonate.
Described first effect Immesion active carbon drainage screen 1, middle effect Immesion active carbon drainage screen 2 and efficient Immesion active carbon drainage screen 3, it is arranged and installation site, direction along air intake, Immesion active carbon drainage screen 1 is imitated at the beginning of first, middle middle effect Immesion active carbon drainage screen 2, last the most efficiently Immesion active carbon drainage screen 3, the most this layout, can be only achieved the dust removing more than 0.5 μm, particularly PM10 and PM2.5.
Described air odor sensor 18, is arranged at the beginning of first and imitates outside Immesion active carbon drainage screen 1, at the 10mm-20mm of chassis.When indoor air purification datatron is in power-up state, if in the presence of air odor sensor 18 detects other gas such as sour gas or formaldehyde, even if nobody in room, indoor air purification datatron automatically turns on, Burdick lamp I 10 and Burdick lamp II 14, Burdick lamp activates the activity of titanium dioxide multicomponent system, the harmful gas such as degradation of formaldehyde, PX after opening, the antibacterial suppressed and kill in air and pathogenic bacteria, with air in clean rooms.
Described air intake spiral case 1, is just to use, during horizontal air inlet mode, it is not necessary to this air intake spiral case 1 when air intake uses lower air inlet mode.
Described air intake spiral case 1 material, the Metal plate of fan section 5, fixing screw 7, lamina tecti 8, chassis 12, rebound 15, filter installation chute 17 and air odor sensor 18, all needs to use resistant material or through antiseptic material.
Described blower fan 6(is shown in Fig. 2), it is characterised in that: mainly it is made up of locating platform 25, motor power string holes 26 and the connection box for motor 27 on spiral case 20, wind wheel 21, motor shaft 22, motor 23, wind wheel location screw 24, motor shaft.Described spiral case 20, wind wheel 21, the wind wheel location parts such as screw 24 and motor shaft 22 take anticorrosive measure to process.Shown motor power string holes 26 is connecting employing epoxide resin material sealing at aperture.Described electrode connection box 27 uses resistant material, and rosette import and export uses epoxide resin material to seal.
Described heat exchanger assembly or coating of titanium dioxide assembly 9 use shown in Fig. 5 leak water system heat exchanger assembly time, it is characterised in that: system heat exchanger of leaking water assembly is mainly by air bleeding valve 49, fin 50, heat exchanger tube 51, collector pipe 52, water collector 53, U-shaped elbow 54, water knockout drum 55, distributive pipe 56, end plate I 57, end plate II 58.The process of the polynary photocatalysis titanium dioxide system coating on described fin 50 surface refers to the content of the patent of invention " manufacture methods of 201510205334.7 Photocatalysis lustration type heat exchangers " declared.
The inner surface spraying photocatalytic nanometer titanium dioxide spray of described end plate I 57 and end plate II 58, forms one layer of photocatalytic nanometer titanium deoxid film at end plate inner surface.
After described Burdick lamp I 10 and Burdick lamp II 14 start, activate the activity of the polynary photocatalysis coating of titanium dioxide on fin 50 surface in heat exchanger assembly or coating of titanium dioxide assembly 9, the harmful substance such as degradation of formaldehyde.
The startup working method of described indoor air purification datatron, starts purification function sensed the harmful gas matter in air by described air odor sensor 18 in the presence of automatically.

Claims (6)

1. an indoor air purification datatron, it is characterised in that: air purifier is mainly made up of air intake spiral case 1, just effect Immesion active carbon drainage screen 2, middle effect Immesion active carbon drainage screen 3, efficient Immesion active carbon drainage screen 4, fan section 5, blower fan 6, fixing screw 7, lamina tecti 8, heat exchanger assembly or coating of titanium dioxide assembly 9, Burdick lamp I 10, air outlet 11, chassis 12, condensation tank 13, Burdick lamp II 14, rebound 15, fan outlet 16, filter installation chute 17, air odor sensor 18, air inlet 19;
Described first effect Immesion active carbon drainage screen 1, middle effect Immesion active carbon drainage screen 2 and efficient Immesion active carbon drainage screen 3, use the activated carbon of dipping sodium carbonate, micropore specification 50nm-200nm of activated carbon;Described first effect Immesion active carbon drainage screen 1, middle effect Immesion active carbon drainage screen 2 and efficient Immesion active carbon drainage screen 3 face velocity are 1m/s-1.5m/s;
The sectional dimension of described air inlet 19, the air quantity and the requirement that efficient Immesion active carbon drainage screen 3 face velocity is 1m/s-1.5m/s that process according to indoor air purification datatron design;
Described first effect Immesion active carbon drainage screen 1, middle effect Immesion active carbon drainage screen 2 and efficient Immesion active carbon drainage screen 3, activated carbon dipping sodium carbonate;
Described first effect Immesion active carbon drainage screen 1, middle effect Immesion active carbon drainage screen 2 and efficient Immesion active carbon drainage screen 3, it is arranged and installation site, direction along air intake, Immesion active carbon drainage screen 1 is imitated at the beginning of first, middle middle effect Immesion active carbon drainage screen 2, last the most efficiently Immesion active carbon drainage screen 3;
Described air odor sensor 18, is arranged at the beginning of first and imitates outside Immesion active carbon drainage screen 1, at the 10mm-20mm of chassis;
When indoor air purification datatron is in power-up state, if in the presence of air odor sensor 18 detects other gas such as sour gas or formaldehyde, even if nobody in room, indoor air purification datatron automatically turns on, Burdick lamp I 10 and Burdick lamp II 14, Burdick lamp activates the activity of titanium dioxide multicomponent system, the harmful gas such as degradation of formaldehyde, PX after opening, the antibacterial suppressed and kill in air and pathogenic bacteria, with air in clean rooms;
Described air intake spiral case 1, is just to use, during horizontal air inlet mode, it is not necessary to this air intake spiral case 1 when air intake uses lower air inlet mode;Described air intake spiral case 1 material, the Metal plate of fan section 5, fixing screw 7, lamina tecti 8, chassis 12, rebound 15, filter installation chute 17 and air odor sensor 18, all needs to use resistant material or through antiseptic material;
Described blower fan 6, it is characterised in that: mainly it is made up of locating platform 25, motor power string holes 26 and the connection box for motor 27 on spiral case 20, wind wheel 21, motor shaft 22, motor 23, wind wheel location screw 24, motor shaft;
Described spiral case 20, wind wheel 21, the wind wheel location parts such as screw 24 and motor shaft 22 take anticorrosive measure to process;
Shown motor power string holes 26 is connecting employing epoxide resin material sealing at aperture;
Described electrode connection box 27 uses resistant material, and rosette import and export uses epoxide resin material to seal;
Described heat exchanger assembly or coating of titanium dioxide assembly 9, need not undertake under refrigeration duty or thermal load conditions when being in, it is only necessary to during purified treatment air, can use coating of titanium dioxide assembly;When having refrigeration or heat-production functions, fluorine set heat exchange device assembly can be used, it would however also be possible to employ system heat exchanger of leaking water assembly;
When described heat exchanger assembly or coating of titanium dioxide assembly 9 use coating of titanium dioxide assembly, it is characterised in that: coating of titanium dioxide assembly is mainly made up of fin 28, end plate I 29.2, end plate II 29.2, fixing pipe 30.1 and the collar 30.2;
The process of the polynary photocatalysis titanium dioxide system coating of described corrosion-resistant stainless steel sheet 28 refers to the content of " manufacture methods of 201510205334.7 Photocatalysis lustration type heat exchangers ";
The effect of described fixing pipe 30.1 is by the way of tube expansion, and by fin 28 expanded joint on fixing pipe 30.1, fixing pipe 30.1 is then fixed on end plate I 29.2 and end plate II 29.2;
The spacing of fin of described corrosion-resistant stainless steel sheet 28 is 10mm-50mm, and the spacing between fin 28 is then controlled by the width of the collar 30.2 of the fixing pipe 30.1 being enclosed between fin;
The inner surface spraying photocatalytic nanometer titanium dioxide spray of described end plate I 29.2 and end plate II 29.2, forms one layer of photocatalytic nanometer titanium deoxid film at end plate inner surface;
After described Burdick lamp I 10 and Burdick lamp II 14 start, activate the activity of the polynary photocatalysis coating of titanium dioxide on fin 28 surface in heat exchanger assembly or coating of titanium dioxide assembly 9, the harmful substance such as degradation of formaldehyde;
The startup working method of described indoor air purification datatron, remote controller, line control machine, Centralized Controller, Internet network control mode can be passed through, it is also possible to sensed the harmful gas matter in air by described air odor sensor 18 in the presence of, automatically start purification function.
2. nullWhen hot device assembly according to claim 1 or coating of titanium dioxide assembly 9 use fluorine set heat exchange device assembly,It is characterized in that: fluorine set heat exchange device assembly is mainly by fin 31、U heat exchange 32、Shunting capillary tube 33、Muffler 34、Liquid-dividing head 35、Return-air discharge 36、End plate I 37、Feed pipe 38、Pipe 39 is fixed in feed pipe temperature sensor、Feed pipe list joint 40、Feed pipe list collar nut 41、Return-air house steward's list collar nut 42、Return-air house steward's list joint 43、Pipe 44 is fixed in return-air house steward's temperature sensor、Return-air house steward 45、End plate II 46、Pipe 47 fixed by coil pipe middle portion temperature sensor、U-shaped elbow 48,Detailed construction is shown in the patent " 201520263209.7 lustration type heat exchanger " declared,The process of the polynary photocatalysis titanium dioxide system coating on heat exchanger fin surface refers to the content of " manufacture methods of 201510205334.7 Photocatalysis lustration type heat exchangers ";
The inner surface spraying photocatalytic nanometer titanium dioxide spray of described end plate I 37 and end plate II 46, forms one layer of photocatalytic nanometer titanium deoxid film at end plate inner surface;
After described Burdick lamp I 10 and Burdick lamp II 14 start, activate the activity of the polynary photocatalysis coating of titanium dioxide on fin 28 surface in heat exchanger assembly or coating of titanium dioxide assembly 9, the harmful substance such as degradation of formaldehyde.
3. Heat exchanger assembly according to claim 1 or coating of titanium dioxide assembly 9 use when leaking water system heat exchanger assembly, it is characterised in that: system heat exchanger of leaking water assembly is mainly by air bleeding valve 49, fin 50, heat exchanger tube 51, collector pipe 52, water collector 53, U-shaped elbow 54, water knockout drum 55, distributive pipe 56, end plate I 57, end plate II 58;
The process of the polynary photocatalysis titanium dioxide system coating on described fin 50 surface refers to the content of the patent of invention " manufacture methods of 201510205334.7 Photocatalysis lustration type heat exchangers " declared;
The inner surface spraying photocatalytic nanometer titanium dioxide spray of described end plate I 57 and end plate II 58, forms one layer of photocatalytic nanometer titanium deoxid film at end plate inner surface;
After described Burdick lamp I 10 and Burdick lamp II 14 start, activate the activity of the polynary photocatalysis coating of titanium dioxide on fin 50 surface in heat exchanger assembly or coating of titanium dioxide assembly 9, the harmful substance such as degradation of formaldehyde.
4. Just effect Immesion active carbon drainage screen 1 according to claim 1, middle effect Immesion active carbon drainage screen 2 and efficient Immesion active carbon drainage screen 3, activated carbon dipping sodium carbonate;Can also be impregnated other and can be not limited to sodium carbonate, sodium bicarbonate etc. with the material of acidic materials generation chemical reaction.
5. The effect of efficient Immesion active carbon drainage screen 3 according to claim 1 is dust or the haze removing more than PM0.5, but is not limited to this technical measures, and other technical measures that can remove more than PM0.5 dust or haze are the most within the scope of the present invention.
6. Fin 28 surface according to claim 1, fin according to claim 2 31 surface, fin according to claim 3 50 surface, coat one layer of nano titanium oxide multicomponent system collosol coating;But being not limited to this kind of nano coating, other similar nano material or the composite with precious metal material composition, all in scope.
CN201510519468.6A 2015-08-24 2015-08-24 Indoor air-purifying processor Pending CN105841245A (en)

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CN107158860A (en) * 2017-05-08 2017-09-15 陈麒如 Remove haze device and its manufacture method in the special-shaped air channel of Vehicular air quality monitoring circulation field
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WO2017206389A1 (en) * 2016-05-30 2017-12-07 中山大洋电机股份有限公司 Coil pipe fan structure
US10865798B2 (en) 2016-05-30 2020-12-15 Zhongshan Broad-Ocean Motor Co., Ltd. Fan coil unit
CN106419318A (en) * 2016-11-17 2017-02-22 天津捷盛东辉保鲜科技有限公司 Intelligent freshness retaining special cabinet for fruit and vegetable direct selling
CN106705265A (en) * 2017-02-24 2017-05-24 北京金淏源净化技术有限公司 Integrated photo-catalytic sterilization air refreshing device
CN107158860A (en) * 2017-05-08 2017-09-15 陈麒如 Remove haze device and its manufacture method in the special-shaped air channel of Vehicular air quality monitoring circulation field
CN107158860B (en) * 2017-05-08 2018-03-06 陈麒如 Remove haze device and its manufacture method in Vehicular air quality monitoring circulation field abnormal shape air channel
CN107351653A (en) * 2017-08-01 2017-11-17 安徽机电职业技术学院 A kind of air conditioning for automobiles ventilated purification apparatus
CN110887127A (en) * 2018-09-07 2020-03-17 青岛海尔空调器有限总公司 Air duct machine and air conditioner with same
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WO2021132977A1 (en) * 2019-12-23 2021-07-01 Samsung Electronics Co., Ltd. Air conditioner

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