CN204438375U - A kind of multifunctional indoor air treating apparatus - Google Patents

A kind of multifunctional indoor air treating apparatus Download PDF

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Publication number
CN204438375U
CN204438375U CN201520082995.0U CN201520082995U CN204438375U CN 204438375 U CN204438375 U CN 204438375U CN 201520082995 U CN201520082995 U CN 201520082995U CN 204438375 U CN204438375 U CN 204438375U
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air
heat pump
machine
treating apparatus
water
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CN201520082995.0U
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周志杰
曹仁水
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Dalian Sheng Ren Energy Science And Technology Development Co Ltd
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Abstract

The utility model discloses a kind of multifunctional indoor air treating apparatus, belong to room air treatment facility field, the utility model comprises initial filtrator I, initial filtrator II, air blast, hypergravity machine, demister, heat exchanger, hygroscopic machine, condenser, heater I, water tank, evaporator with heat pump and heat pump compressor.Multifunctional indoor air treating apparatus described in the utility model has concurrently: the refrigeration and heat-production functions of air-conditioning, the dehumidification function of dehumidifier, the humidification function of humidifier, the dedusting function of indoor air purifier and except functions such as toxic and harmfuls; Be particularly suitable for purification air-conditioning under high dust atmosphere, without the need to primarily efficient filter and medium air filtration; Energy-efficient, utilize latent heat and the sensible heat of the good efficiency utilization gas of heat pump techniques; Cost performance is high, and application is wide.

Description

A kind of multifunctional indoor air treating apparatus
Technical field
The utility model relates to a kind of room air treatment system, particularly a kind of multifunctional indoor air treating apparatus having cooling and warming, humidification dehumidifying, air-borne dust purification and toxic and harmful concurrently and remove.
Background technology
Along with the progress of society, the quality requirement of people to room air is more and more higher, has been not limited to simple refrigeration and has heated, and also has indoor air humidity simultaneously, dust granules, toxic and harmful (as formaldehyde, ammonia etc.) etc. proposes many-sided requirement.But sell according to existing market and using and the known room air treatment system in research and development, mostly be simple function, or the compound of two to three functions.As:
1, the function of air-conditioning be only refrigeration and heat, to dust granules, toxic and harmful (as formaldehyde, ammonia etc.) remove and not obvious;
2, the function of humidifier is also only humidification, air simple filtration, extremely small to the removal effect of PM2.5 and toxic and harmful (as formaldehyde), does not have refrigeration and heat-production functions equally, and within 1 year, only has the winter heating phase to use;
3, dehumidifier only has dehumidifying, air filtering function, extremely small to the removal effect of PM2.5 and toxic and harmful (as formaldehyde, ammonia etc.), do not have refrigeration and heat-production functions equally, and 1 year only has use summer;
Although 4, purification air-conditioning unit has Efficient air purification, cooling and warming, the function of humidification dehumidifying, but the remove do not had toxic and harmful (as formaldehyde), and its primarily efficient filter and medium air filtration load greatly, often need change screen pack under high dust atmosphere.
Utility model content
The utility model is less for the existing room air treatment system function of the proposition of above problem, can not meet the problem of people to air quality requirements, and a kind of multifunctional indoor air treating apparatus of research and design.The technological means that the utility model adopts is as follows:
A kind of multifunctional indoor air treating apparatus, comprise initial filtrator I, initial filtrator II, air blast, hypergravity machine, demister, heat exchanger, hygroscopic machine, heat pump condenser, heater I, water tank, evaporator with heat pump and heat pump compressor, described initial filtrator I is connected with the air inlet of air blast, the gas outlet of described air blast is connected with the air inlet of hypergravity machine, the gas outlet of described hypergravity machine is connected with the air inlet of demister, the gas outlet of described demister is connected with the air inlet of heat exchanger, the gas outlet of described heat exchanger is connected with the air inlet of hygroscopic machine, the gas outlet of described hygroscopic machine is connected with the air inlet of heat pump condenser, the gas outlet of described heat pump condenser is connected with the air inlet of heater I, the gas outlet of described heater I is connected with the interior space,
Water filter is provided with in described water tank, the outlet of described water filter is connected with the water inlet of water pump, the delivery port of described water pump is connected with the water inlet of evaporator with heat pump, the delivery port of described evaporator with heat pump is connected with hypergravity machine liquid-inlet, the liquid outlet of hypergravity machine is connected with water tank, and heat pump compressor is connected with evaporator with heat pump and heat pump condenser respectively;
The condensate water outlet of described heat exchanger is all connected with water tank with the condensate water outlet of demister, described initial filtrator II is connected with the air inlet of heater II, and the gas outlet of described heater II is connected with the air inlet of hygroscopic machine with regeneration blower fan by hygroscopic machine, heat exchanger.
Further, described hypergravity machine does temperature adjustment by circulating fluid.
Further, the circulating fluid of described hypergravity machine do temperature regulate completed by heat pump.
Further, the gas outlet place of described heater I is provided with high efficiency particulate air filter.
Further, described hygroscopic machine is runner hygroscopic machine.
Further, the circulating fluid temperature of described hypergravity machine is-4 DEG C ~ 20 DEG C.
Further, when temperature is-4 DEG C ~ 4 DEG C, the circulating fluid of described hypergravity machine is seawater or the water adding anti-icing fluid.
Further, described initial filtrator I and initial filtrator II are woven wire or the fabric of 0.5mm × 0.5mm ~ 3.5mm × 3.5mm for aperture is filter pore size.
Further, described demister is cyclone separator.
Further, described water filter is microporous filtration.
Utilize hypergravity machine to carry out high-effective dust-removing to air, utilize hypergravity machine circulating fluid to do temperature simultaneously and regulate, circulating fluid is done temperature adjustment and is completed by heat pump, and the low-temperature circulating liquid of hypergravity machine reduces air themperature, thus reduces the absolute water content of air; Utilize demister to reduce the droplet of hypergravity machine Exhaust Gas and general liquid, reduce the absolute water content of air; The Cryogenic air that the sensible heat with the air of high sensible heat and high latent heat utilizing heat exchanger the regeneration of hygroscopic machine hygroscopic fillers to be produced and latent heat are discharged through hypergravity machine and demister carries out heat exchange, improves the temperature of air, reduces the relative humidity of air; The air that the heat heating utilizing heat pump condenser to discharge is discharged through heat exchanger, promotes air themperature further, reduces the relative humidity of air; Through the hot and humid outdoor air of initial filtrator II, regeneration blower fan, heater II, hygroscopic machine, heat exchanger and regeneration blower fan, in heat exchanger, carry out cold exchanges of heat lower the temperature, precipitation condensed water laggard enter indoor air circulation, become supplementary new wind.
The utility model can be applicable to room air is had to refrigeration and heats require that dust granules, toxic and harmful (as formaldehyde, ammonia etc.) has more than two interior spaces required simultaneously again to air humidity.As: the purification air-conditioning place (as purified operation room, ICU ward, laboratory) of sandblast and spray-paint machine room, cast molding workshop, various cleaning shop, hospital, apartment, villa, luxurious house, gymnasium, dancing hall, arenas, cinema, KTV singing-hall, gymnasium, natatorium, meeting room, library collection room.
Compared with the prior art, a kind of multifunctional indoor air treating apparatus described in the utility model has the following advantages:
1, multi-functional, a set of room air treatment system has concurrently, the refrigeration and heat-production functions of air-conditioning, the dehumidification function of dehumidifier, the humidification function of humidifier, the dedusting function of indoor air purifier and except functions such as toxic and harmfuls (as formaldehyde, ammonia etc.);
2, purification air-conditioning under high dust atmosphere is particularly suitable for, without the need to primarily efficient filter and medium air filtration;
3, energy-efficient, utilize hypergravity machine in conjunction with the latent heat of heat pump techniques efficiency utilization gas and sensible heat;
4, cost performance is high;
5, application is wide.
Accompanying drawing explanation
Fig. 1 is the structural representation of the utility model embodiment one.
Fig. 2 is the structural representation of the utility model embodiment two.
Detailed description of the invention
Embodiment one: in a kind of novel multi-functional room air treatment system of high or ultra high air purity (as purified operation room, more than 100000 grades purification workshops)
As shown in Figure 1, a kind of multifunctional indoor air treating apparatus, comprise initial filtrator I 1, initial filtrator II 13, air blast 2, hypergravity machine 3, demister 8, heat exchanger 9, hygroscopic machine 11, heat pump condenser 17, heater I 14, water tank 4, evaporator with heat pump 7 and heat pump compressor 6, described hypergravity machine 3 is provided with air inlet I 18, gas outlet I 19, liquid-inlet 20 and liquid outlet 21, hypergravity machine 3 inside is provided with rotor 23, rotor 23 inside is provided with filler 24, liquid distributor 25 is provided with in the middle of rotor, described initial filtrator I 1 is connected with the air inlet of air blast 2, the gas outlet of described air blast 2 is connected with air inlet I 18, described gas outlet I 19 is connected with the air inlet of demister 8, the gas outlet of described demister 8 is connected with the air inlet of heat exchanger 9, described demister 8 is cyclone separator, the gas outlet of described heat exchanger 9 is connected with the air inlet of hygroscopic machine 11, the gas outlet of described hygroscopic machine 11 is connected with the air inlet of heat pump condenser 17, described hygroscopic machine 11 is runner hygroscopic machine, the gas outlet of described heat pump condenser 17 is connected with the air inlet of heater I 14, the gas outlet of described heater I 14 is connected with the interior space 16, the gas outlet place of described heater I 14 is provided with high efficiency particulate air filter 15,
Described hypergravity machine 3 does temperature by circulating fluid and regulates, and temperature is regulated and completed by heat pump.
Described initial filtrator I 1 and initial filtrator II 13 are woven wire or the fabric of 0.5mm × 0.5mm ~ 3.5mm × 3.5mm for aperture is filter pore size.
Water filter 22 is provided with in described water tank 4, described water filter 22 is microporous filtration, the outlet of described water filter 22 is connected with the water inlet of water pump 5, the delivery port of described water pump 5 is connected with the water inlet of evaporator with heat pump 7, the delivery port of described evaporator with heat pump 7 is connected with liquid-inlet 20, liquid outlet 21 is connected with water tank 4, and heat pump compressor 6 is connected with evaporator with heat pump 7 and heat pump condenser 17 respectively;
The condensate water outlet of described heat exchanger 9 is all connected with water tank with the condensate water outlet of demister 8, described initial filtrator II 13 is connected with the air inlet of heater II 12, and the gas outlet of described heater II 12 is connected with the air inlet of hygroscopic machine 11 with regeneration blower fan 10 by runner hygroscopic machine 11, heat exchanger 9.
Described heater I 14 and heater II 12 are electric heater, and heater I 14 is that electricity regulates heater.
The circulating fluid temperature of described hypergravity machine 3 is-4 DEG C ~ 20 DEG C, when temperature is-4 DEG C ~ 4 DEG C, antifreezing agent is added in circulating fluid, the anti-icing fluid that the present embodiment uses is seawater, seawater is natural antifreezing liquid, stock number is huge, is easy to obtain, can effectively reduces costs for places such as shipyards.
The course of work of the present embodiment is as follows:
Room air enters hypergravity machine 3 through initial filtrator I 1, air blast 2, and air enters along hypergravity machine 3 inner chamber tangent line High Rotation Speed, and the first time cooling of just purification and air is carried out in the effect producing similar cyclonic separation to dust granules; Between hypergravity machine 3 internal chamber wall and rotor periphery, the vaporific water droplet sharp impacts that the circulating fluid (water) of air and hypergravity machine 3 is formed through filler, carry out mass exchange, exchange heat and Momentum Transfer, macroscopically show as: the second time temperature of air reduces and the dust granules of air reduces further.Water droplet, liquid film sharp impacts in the filler 24 of rotor 23 in air and filler 24, carry out the larger mass exchange of intensity, exchange heat and Momentum Transfer, macroscopically show as: the third time temperature of air reduces and the dust granules of air sharply reduces further; Meet at the globule of rotor 23 inner chamber air and larger particles, the surface area total due to the globule is little, so " transport " efficiency is not high, gone out by the overwhelming majority, so catharsis is very little in this interval through the purification granule of twice above in addition.
Hypergravity machine 3 is that one efficiently strengthens transmission equipment, and it is strengthening ' transport ' greatly, by regulating the air of circulating fluid (water) through hypergravity machine 3 of hypergravity machine: 1, temperature can reduce (or rising); 2, dust granules is purified greatly, and data display hypergravity machine is 100% to the removal rate of PM3.0; 3, the toxic and harmful formaldehyde gas that particularly water solubility is high, ammonia can mostly be absorbed by the circulating fluid of hypergravity machine 3 (water), remove from air; 4, the water droplet liquid film that the circulating fluid (water) that air filtration relies on hypergravity machine 3 is formed in filler 24 and the vaporific water droplet (vaporific water droplet, liquid film surface area is very big, absorption affinity is extremely strong, dynamically upgrade constantly) formed through filler 24.There is no airfiltering screen pack, filter cotton, so there is not screen pack, the blocking of filter cotton and replacing.
The air of discharging through the gas outlet of hypergravity machine 3 may contain mist and general liquid, and the absolute water content that mist and general liquid add air must remove, and therefore arranges demister 8 and goes out mist in air and general liquid.
Air through demister 8 can't meet human needs in temperature humidity, also need to improve temperature, regulate humidity, the air of discharging through demister 8 is cold humid gas, its relative humidity is very high but its absolute water content is very low, improve its temperature and can reduce its relative humidity, air can improve its temperature through over-heat-exchanger 9, runner hygroscopic machine 11, heat pump condenser 17 and heater I 14 and reduce its relative humidity, and can promote air themperature, heater I 14 can carry out fine setting to air makes its temperature humidity more be applicable to human body needs.
The effect of high efficiency particulate air filter 15 is to adapt to the air quality that high purification requires and the intrusion avoiding lung Legionella.
The water circulation of hypergravity machine 3: the water that water tank is 4 li filter through water filter 22 and pressurizeed by water pump 5 through evaporator with heat pump 7 lower the temperature after enter hypergravity machine 3 through inlet, be evenly distributed on rotor 23 inwall by liquid distributor 25, get rid of hypergravity machine 3 cavity inner wall by filler 24 under the influence of centrifugal force, enter water tank 4 through liquid outlet 21 under gravity.The condensate water of demister 8 and heat exchanger 9 enters water tank 4 under gravity.
Thermal energy balance and heat energy efficiency utilization: air is through hypergravity machine 3, its latent heat and sensible heat are absorbed by the recirculated water of hypergravity machine 3, the recirculated water water temperature of hypergravity machine 3 improves, the recirculated water of the hypergravity machine 3 that water temperature improves reduces release heat by evaporator with heat pump 7 water temperature, the heat of release is that heat pump compressor 6 does temperature increase, discharge in heat pump condenser 17, absorbed by the Cryogenic air of the circulating water through hypergravity machine 3, temperature improves; Outdoor air is through initial filtrator II 13, heater II 12, runner hygroscopic machine 11, the air of discharging is hot and humid has high sensible heat and latent heat, water is condensed into by the air vapor of heat exchanger 9, release latent heat, the temperature of air and steam reduces, release sensible heat, the latent heat of release and sensible heat are absorbed by the cold humid air that demister 8 is discharged, and cold humid air temperature improves relative humidity and declines.
Embodiment two: for a kind of novel multi-functional room air treatment system of general air purity
As shown in Figure 2, the difference of the present embodiment and embodiment one is, does not arrange high efficiency particulate air filter 15, and all the other structures are identical with principle, no longer repeated description.
The above; be only the utility model preferably detailed description of the invention; but protection domain of the present utility model is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that the utility model discloses; be equal to according to the technical solution of the utility model and inventive concept thereof and replace or change, all should be encompassed within protection domain of the present utility model.

Claims (10)

1. a multifunctional indoor air treating apparatus, it is characterized in that: comprise initial filtrator I, initial filtrator II, air blast, hypergravity machine, demister, heat exchanger, hygroscopic machine, heat pump condenser, heater I, water tank, evaporator with heat pump and heat pump compressor, described initial filtrator I is connected with the air inlet of air blast, the gas outlet of described air blast is connected with the air inlet of hypergravity machine, the gas outlet of described hypergravity machine is connected with the air inlet of demister, the gas outlet of described demister is connected with the air inlet of heat exchanger, the gas outlet of described heat exchanger is connected with the air inlet of hygroscopic machine, the gas outlet of described hygroscopic machine is connected with the air inlet of heat pump condenser, the gas outlet of described heat pump condenser is connected with the air inlet of heater I, the gas outlet of described heater I is connected with the interior space,
Water filter is provided with in described water tank, the outlet of described water filter is connected with the water inlet of water pump, the delivery port of described water pump is connected with the water inlet of evaporator with heat pump, the delivery port of described evaporator with heat pump is connected with hypergravity machine liquid-inlet, the liquid outlet of hypergravity machine is connected with water tank, and heat pump compressor is connected with evaporator with heat pump and heat pump condenser respectively;
The condensate water outlet of described heat exchanger is all connected with water tank with the condensate water outlet of demister, described initial filtrator II is connected with the air inlet of heater II, and the gas outlet of described heater II is connected with the air inlet of hygroscopic machine with regeneration blower fan by hygroscopic machine, heat exchanger.
2. multifunctional indoor air treating apparatus according to claim 1, is characterized in that: described hypergravity machine does temperature by circulating fluid and regulates.
3. multifunctional indoor air treating apparatus according to claim 2, is characterized in that: the circulating fluid of described hypergravity machine is done temperature adjustment and completed by heat pump.
4. multifunctional indoor air treating apparatus according to claim 1, is characterized in that: be provided with high efficiency particulate air filter in the gas outlet place interior space of described heater I.
5. multifunctional indoor air treating apparatus according to claim 1, is characterized in that: described hygroscopic machine is runner hygroscopic machine.
6. multifunctional indoor air treating apparatus according to claim 1, is characterized in that: the circulating fluid temperature of described hypergravity machine is-4 DEG C ~ 20 DEG C.
7. multifunctional indoor air treating apparatus according to claim 6, is characterized in that: when temperature is-4 DEG C ~ 4 DEG C, and the circulating fluid of described hypergravity machine is seawater or the water adding anti-icing fluid.
8. multifunctional indoor air treating apparatus according to claim 1, is characterized in that: described initial filtrator I and initial filtrator II are woven wire or the fabric of 0.5mm × 0.5mm ~ 3.5mm × 3.5mm for aperture is filter pore size.
9. multifunctional indoor air treating apparatus according to claim 1, is characterized in that: described demister is cyclone separator.
10. multifunctional indoor air treating apparatus according to claim 1, is characterized in that: described water filter is microporous filtration.
CN201520082995.0U 2015-02-05 2015-02-05 A kind of multifunctional indoor air treating apparatus Withdrawn - After Issue CN204438375U (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104633776A (en) * 2015-02-05 2015-05-20 大连盛仁能源科技发展有限公司 Multi-function indoor air treatment system
CN107560209A (en) * 2017-08-30 2018-01-09 浙江理工大学 Hyper-gravity gas body circulation refrigeration system and method

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104633776A (en) * 2015-02-05 2015-05-20 大连盛仁能源科技发展有限公司 Multi-function indoor air treatment system
CN104633776B (en) * 2015-02-05 2018-04-06 周志杰 A kind of multifunctional indoor air processing system
CN107560209A (en) * 2017-08-30 2018-01-09 浙江理工大学 Hyper-gravity gas body circulation refrigeration system and method

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GR01 Patent grant
C41 Transfer of patent application or patent right or utility model
TR01 Transfer of patent right

Effective date of registration: 20160711

Address after: 301800 Guangzhou Road, Tanggu District, Shiyan, No. 3, No. 4, building No. 102

Patentee after: Zhou Zhijie

Address before: 116000 bonded Building No. 1, Dongting Road, Dalian Free Trade Zone, Liaoning, 733F-18

Patentee before: Dalian Sheng Ren energy science and technology Development Co., Ltd

AV01 Patent right actively abandoned

Granted publication date: 20150701

Effective date of abandoning: 20180406

AV01 Patent right actively abandoned