CN201748558U - Moisture adjusting device - Google Patents
Moisture adjusting device Download PDFInfo
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- CN201748558U CN201748558U CN2010202642842U CN201020264284U CN201748558U CN 201748558 U CN201748558 U CN 201748558U CN 2010202642842 U CN2010202642842 U CN 2010202642842U CN 201020264284 U CN201020264284 U CN 201020264284U CN 201748558 U CN201748558 U CN 201748558U
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Abstract
The utility model relates to a moisture adjusting device, and belongs to the field of refrigerating air-conditioning equipment. The moisture adjusting device mainly comprises a compressor, a four-way valve, a throttle valve, an evaporator and an air handling box, wherein the air handling box comprises a condensing coil, a sprayer, a water receiving plate, a water pump, an air inlet and an air outlet. The condensing coil, the throttle valve, the evaporator, the compressor and the four-way valve are sequentially connected through refrigerant pipelines so as to form a vapor compression type refrigeration-heat pump circulation loop. The condensing coil is arranged between the air inlet and the air outlet, the sprayer is arranged at the upper part of the condensing coil, and the water receiving plate is arranged at the lower part of the condensing coil. The water pump is connected between the bottom of the water receiving plate and the sprayer, the water pump can abstract water in the water receiving plate and convey the water to the sprayer, and the water is sprayed onto the condensing coil. Air flows through the surface of the condensing coil through the air inlet and is humidified or dehumidified, and then is sent out through the air outlet. The moisture adjusting device can overcome the problems in the conventional moisture adjusting equipment that the treatment capacity is limited and the processing procedure is single, and also can reduce the processing energy consumption. The moisture adjusting device is characterized by compact structure and conveniences of installation and control.
Description
Technical field
The utility model belongs to the refrigeration air-conditioner field, relates to a kind of humidity control device, can realize the humidification and the dehumidification treatments process of air, also can with other air conditioner unit applied in any combination, realize complicated air handling process.
Background technology
The humidification of air and dehumidifying occupy critical role in field of air conditioning.Air wetting and dehumidifying are not only very necessary in the industrial air conditioning that aerial temperature and humidity is had strict demand, and along with the raising of people's living standard, in comfort air conditioning system, winter dry air is carried out humidification and help improving indoor thermal comfort, be beneficial to health, so its application is very extensive.
In the prior art, spray chamber is a kind of traditional airhandling equipment, uses early at field of heating ventilation air conditioning.The advantage of spray chamber is: the thermal property diversity, can realize increasing enthalpy and falling enthalpy of air, humidification and dehumidification, processes such as cooling and intensification; Have certain ability that purifies air, can remove dust etc. and guarantee the pure and fresh of air.But, because it exists that floor space is big, water system is complicated, cost of investment is high, be not easy to realize shortcoming such as commercialization, cause it to be replaced by other equipment gradually, at present only air cleaning is had higher requirements and handle the also use to some extent of the bigger occasion of air quantity in weaving, electronics industry etc. in field of air conditioning.The air-conditioning product that substitutes spray chamber has a lot, and as humidifier, dry type surface cooler, dehumidifying surface cooler, filter etc., though their compact conformations, its function singleness is so often need a plurality of functional unit organic assembling could realize complicated air handling process.
Humidifier was rapidly developed in recent years, but all in all, the air handling process that existing various humidifiers can be realized is more single.Various humidifiers on the market can be divided into two big classes by the air-treatment effect: the first kind is an isothermal humidification, comprises dry steam humidifier, electrode humidifier, electric heat type humidifier etc.; Second class is an equal-enthalpy humidifying, for example the little mist humidifier of high pressure, ultrasonic humidifier, wet-membrane humidifier etc.For first kind humidifier, because isothermal humidification does not influence air themperature substantially, therefore in the air-treatment flow process, can place after the temperature control, be applicable to humiture is required more accurate occasion.Its shortcoming is the cost height, and energy consumption is big: the dry saturated steam humidification needs equipment such as boiler high-grade heat energy is provided, and energy consumption is big, and is more suitable at the industrial circle that excess steam is arranged; Though and other is compared with the dry saturated steam humidification as its costs such as electrode humidifier, electric heat type humidifiers and decreases, be to use the high-grade electric energy to add hot water and carry out humidification to produce steam, primary energy ratio is low, is unfavorable for energy-saving and emission-reduction.The second class humidifier mainly is to use electric energy to drive power-equipment, realizes humidification to air thereby water is broken into minimum water droplet even water smoke.If this class humidifier can guarantee that the humidification effect reduces the power-equipment energy consumption simultaneously and just can realize energy-conservation.But its theoretical maximum humidification amount is little, can not satisfy instructions for use in some occasion.On the other hand, it can reduce air themperature in humidification, and causing also needs heat again behind the humidification.Therefore be applicable to that relatively the humidification amount is little, need the lower the temperature occasion of humidification of air.
Except spray chamber and humidifier, field of air conditioning surface cooling heat exchanger commonly used also has certain humidity conditioning function, but it can only realize the cool-down dehumidification process, can not realize humidification, and is therefore only more suitable in summer.
In sum, in the practical application, various damping processes all have its effect, all are necessary.But except that spray chamber, development afterwards single as humidifier, device processes process such as dehumidifying surface cooler etc. also needs to the higher applications of humidity requirement the time uses that combine of two kinds even multiple damping equipment, investment greatly, operation energy consumption is higher.
The utility model content
At the shortcoming of above-mentioned prior art, the purpose of this utility model is to propose a kind of humidity control device, and it is limited in one's ability to make it can not only overcome existing damping device processes, and the problem that processing procedure is single also can reduce the processing energy consumption simultaneously.Have compact conformation, be convenient to install the characteristics of control.
In order to reach above-mentioned utility model purpose, the technical solution of the utility model is as follows:
First kind of technical scheme of the present utility model:
A kind of humidity control device contains compressor, cross valve, choke valve and evaporimeter.Its design feature is: this humidity control device also contains the air-treatment case.This air-treatment case contains condenser coil, spray thrower, drip tray, water pump, air inlet and air outlet.Described condenser coil, choke valve, evaporimeter, compressor and cross valve are in turn connected to form steam compression type refrigerating-heat pump cycle loop by refrigerant tubing.Described condenser coil places between air inlet and the air outlet, and spray thrower places the top of condenser coil, and drip tray places the bottom of condenser coil.Be connected with water pump between drip tray bottom and the spray thrower, the water that water pump extracts in the drip tray is sent into spray thrower, and water is sprayed on condenser coil.Air flows through the condenser coil surface by humidification or dehumidifying through air inlet, sends through air outlet again.
Second kind of technical scheme of the present utility model:
A kind of humidity control device contains compressor, cross valve, choke valve and evaporimeter.Its design feature is that this humidity control device also contains the air-treatment case.This air-treatment case contains condenser coil, spray thrower, drip tray, water pump, air inlet, air outlet, blower fan and water fender.Described condenser coil, choke valve, evaporimeter, compressor and cross valve are in turn connected to form steam compression type refrigerating-heat pump cycle loop by refrigerant tubing.Described condenser coil places between air inlet and the air outlet, and spray thrower places the top of condenser coil, and drip tray places the bottom of condenser coil.Be connected with water pump between drip tray bottom and the spray thrower, the water that water pump extracts in the drip tray is sent into spray thrower, and water is sprayed on condenser coil.Described water fender places between condenser coil and the air outlet, and blower fan places between water fender and the air outlet.Blower fan drives air and flows through the condenser coil surface by humidification or dehumidifying through air inlet, sends through air outlet again.
The third technical scheme of the present utility model:
A kind of humidity control device, contain compressor, cross valve, choke valve, evaporimeter, air inlet, fresh wind port, filter, first heat exchanger, second heat exchanger, blower fan and air outlet, it is characterized in that: this humidity control device also contains the air-treatment case, this air-treatment case contains condenser coil, spray thrower, drip tray, water pump and water fender, and described condenser coil, choke valve, evaporimeter, compressor and cross valve are in turn connected to form steam compression type refrigerating-heat pump cycle loop by refrigerant tubing; Described air-treatment case places between first heat exchanger and second heat exchanger; Described spray thrower places the top of condenser coil, and drip tray places the bottom of condenser coil, is connected with water pump between drip tray bottom and the spray thrower, and the water that water pump extracts in the drip tray is sent into spray thrower, and spray thrower sprays water on condenser coil; Be provided with water fender along air flow in the condenser coil back; Return air and new wind mix, and pass through filter, first heat exchanger, air-treatment case, second heat exchanger and blower fan then successively, after air outlet be sent.
In above-mentioned three kinds of technical schemes, described compressor, cross valve, air-treatment case, choke valve and evaporimeter place in the same casing, constitute the monolithic construction unit, perhaps compressor, cross valve and evaporimeter place in the casing, and the air-treatment case is placed in another casing, constitute the split-type structural unit, choke valve can place in arbitrary casing of split-type structural unit.
In above-mentioned three kinds of technical schemes, described drip tray top is provided with water compensating valve, and the drip tray bottom is provided with drain valve.
In above-mentioned three kinds of technical schemes, described evaporimeter is cold-producing medium-air heat exchanger, cold-producing medium-water-to-water heat exchanger or both combinations.
In above-mentioned three kinds of technical schemes, evenly be provided with the cloth water packing in the gap in the described air-treatment case, outside the condenser coil.
In above-mentioned three kinds of technical schemes, described compressor is AC frequency conversion compressor, DC speed regulation compressor or screw compressor.By regulating its capacity, the evaporating temperature when regulating the refrigerated dehumidification operation, the condensation temperature when heating humidification can realize the control of air outlet air condition better.
The utility model compared with prior art has the following advantages and outstanding technique effect: the utility model is two even two humidification, dehumidification process that above air conditioner unit could be realized originally, realize with a kind of equipment.Simultaneously, its humidification and dehumidification process adjustable extent not only can realize freeze drying, equal-enthalpy humidifying, isothermal humidification that prior art can realize much larger than prior art, functions such as the humidification of can also realizing heating up, non-constant enthalpy cooling humidification.Simultaneously, its operation energy consumption is lower than prior art, saves the energy, and the apparatus structure compactness occupies little space.The utility model can need be used to the occasion of humidification or dehumidifying separately, also can make up with miscellaneous equipment, finishes complicated air handling process.
The utility model is described in further detail below in conjunction with the drawings and specific embodiments.
Description of drawings
Fig. 1 is the structural principle schematic diagram of the utility model embodiment one and the schematic diagram of operational mode one.
Fig. 2 is the air handling process schematic diagram of the operational mode one of the utility model embodiment one.
Fig. 3 is the structural principle schematic diagram of the operational mode two of the utility model embodiment one.
Fig. 4 is the air handling process schematic diagram of the operational mode two of the utility model embodiment one.
Fig. 5 is the structural principle schematic diagram of the utility model embodiment two.
Fig. 6 is the structural principle schematic diagram of the utility model embodiment three.
Among the figure: the 1-compressor; The 2-evaporimeter; The 3-choke valve; The 4-cross valve; 5-air-treatment case; The 6-condenser coil; The 7-spray thrower; The 8-drip tray; The 9-water pump; The 10-water compensating valve; The 11-drain valve; The 12-air inlet; The 13-air outlet; The 14-blower fan; The 15-water fender; 16-first heat exchanger; 17-second heat exchanger; The 18-filter; The 19-fresh wind port.
The specific embodiment
Embodiment one
Referring to Fig. 1, Fig. 1 is the structural principle schematic diagram of the utility model disclosed " a kind of humidity control device " embodiment one.It comprises condenser coil 6, spray thrower 7, drip tray 8, water pump 9, air inlet 12, air outlet 13 in compressor 1, cross valve 4, air-treatment case 5, choke valve 3, the evaporimeter 2 that adopts cold-producing medium-air heat exchanger and/or cold-producing medium-water-to-water heat exchanger and the air-treatment case 5.Between the device by the refrigerant tubing formation steam compression type refrigerating/heat pump cycle loop that is linked in sequence.Drip tray 8 tops are provided with water compensating valve 10, and drip tray 8 bottoms are provided with drain valve 11.In the air-treatment case 5, evenly be provided with the cloth water packing in the gap in condenser coil 6 outsides.Compressor 1, cross valve 4, air-treatment case 5, choke valve 3, evaporimeter 2 place in the same casing, constitute an integral unit; Perhaps compressor 1, cross valve 4, evaporimeter 2 place in the casing, and air-treatment case 5 is placed in another casing, constitute the split-type structural unit, and choke valve 3 can be placed in one in arbitrary casing.Condenser coil 6 places between air inlet 12 and the air outlet 13, and spray thrower 7 places the top of condenser coil 6, and drip tray 8 places the bottom of condenser coil 6.Be connected with water pump 9 between drip tray 8 bottoms and the spray thrower 7, the water that water pump 9 extracts in the drip tray 8 is sent into spray thrower 7, and water is sprayed on condenser coil 6.Air flows through condenser coil 6 surfaces by humidification or dehumidifying through air inlet 12, sends through air outlet 13 again.It can be to be driven by power-equipments such as blower fans that to form also can be that the air that forms of gravity-flow ventilation is mobile that air flows.
This humidity control device has three kinds of operational modes.
(1) operational mode one:
Referring to Fig. 1 and Fig. 2, Fig. 1 and Fig. 2 show the structure principle chart and the air handling process psychrometric chart of operational mode one respectively.Compressor 1 is opened, and cross valve 4 switches to condenser coil 6 and is the condenser state.Water pump 9 is drawn into the water in the drip tray 8 in the spray thrower 7, and on condenser coil 6, air flows through condenser coil 6 surfaces to spray thrower 7 with the water spray, with water, the exchange of coil pipe generation caloic, realizes the humidification of air.Represent that on psychrometric chart air intake air condition point is O, O-S
hAnd O-S
0Be respectively equal-enthalpy humidifying and etc. wet temperature-rise period.This operational mode mainly satisfies winter air and adds procedure for wet processing, and by regulating choke valve 3, the heating capacity of control condenser coil 6 is regulated spray thrower 7, controls water spray, can realize the processing procedure of isothermal humidification and intensification humidification, as O-S among Fig. 2
1, O-S
2Shown in; In close winter in transition season, if actual needs also can be realized O-S
hTo O-S
2Between the cooling humidification, as O-S among Fig. 2
3Shown in.
(2) operational mode two:
Referring to Fig. 3 and Fig. 4, Fig. 3, Fig. 4 show the course of work and the air handling process psychrometric chart of operational mode two respectively.Under this operational mode, compressor 1 is opened, and cross valve 4 is switched to condenser coil 6 be evaporator stage.By regulating choke valve 3, the refrigerating capacity of control condenser coil 6 is controlled the temperature of condenser coil 6 surface waters with this.This operational mode mainly satisfies the processing procedure of air cooling-down dehumidifying in summer.When the temperature of condenser coil 6 surface waters is lower than the air intake dew-point temperature, can realize the cool-down dehumidification process of air, as O-S among Fig. 4
4Shown in; When the temperature of condenser coil 6 surface waters is between air intake wet-bulb temperature and dew-point temperature, can realize from O-S
hTo any air cooling-down humidification between the O-L, as O-S among Fig. 4
5Shown in.
(3) operational mode three:
This operational mode is compared with preceding two kinds of patterns, and the course of work is simpler.Under this pattern, compressor 1 cuts out, and the flow through recirculated water of spray of air can be realized the equal-enthalpy humidifying process of air, as O-S among Fig. 2, Fig. 4
hShown in, this operational mode mainly satisfies the air handling process of transition season cooling humidification.
Embodiment two
Referring to Fig. 5, Fig. 5 is the structure principle chart of the utility model disclosed " a kind of humidity control device " embodiment two, and it can be used as the family expenses humidifier and uses.It comprises condenser coil 6, spray thrower 7, drip tray 8, water pump 9, air inlet 12, air outlet 13, blower fan 14 and water fender 15 in compressor 1, cross valve 4, choke valve 3, the evaporimeter 2 that adopts cold-producing medium-air heat exchanger and/or cold-producing medium-water-to-water heat exchanger and the air-treatment case 5.Condenser coil 6 in the air-treatment case 5 and choke valve 3, evaporimeter 2, compressor 1 and cross valve 4 are by the refrigerant tubing formation steam compression type refrigerating/heat pump cycle loop that is linked in sequence.Drip tray 8 tops are provided with water compensating valve 10, and drip tray 8 bottoms are provided with drain valve 11.In the air-treatment case 5, evenly be provided with the cloth water packing in the gap in condenser coil 6 outsides.Compressor 1, cross valve 4, air-treatment case 5, choke valve 3, evaporimeter 2 place in the same casing, constitute an integral unit; Perhaps compressor 1, cross valve 4, evaporimeter 2 place in the casing, and air-treatment case 5 is placed in another casing, constitute the split-type structural unit, and choke valve 3 can be placed in one in arbitrary casing.Condenser coil 6 places between air inlet 12 and the air outlet 13, and spray thrower 7 places the top of condenser coil 6, and drip tray 8 places the bottom of condenser coil 6.Be connected with water pump 9 between drip tray 8 bottoms and the spray thrower 7, the water that water pump 9 extracts in the drip tray 8 is sent into spray thrower 7, and water is sprayed on condenser coil 6.Water fender 15 places between condenser coil 6 and the air outlet 13, and blower fan 14 places between water fender 15 and the air outlet 13.Blower fan 14 drives air and flows through condenser coil 6 surfaces by humidification or dehumidifying through air inlet 12, sends through air outlet 13 again.
Present embodiment two has identical operational mode with embodiment one, does not repeat them here.
Embodiment three
Referring to Fig. 6, Fig. 6 is the structure principle chart of the utility model disclosed " a kind of humidity control device " embodiment three.It comprises condenser coil 6, spray thrower 7, drip tray 8, water pump 9, water fender 15 in air inlet 12, fresh wind port 19, filter 18, first heat exchanger 16, second heat exchanger 17, blower fan 14, air outlet 13, compressor 1, cross valve 4, choke valve 3, the evaporimeter 2 that adopts cold-producing medium-air heat exchanger and/or cold-producing medium-water-to-water heat exchanger and the air-treatment case 5.Condenser coil 6 in the air-treatment case 5 and choke valve 3, evaporimeter 2, compressor 1 and cross valve 4 are by the refrigerant tubing formation steam compression type refrigerating/heat pump cycle loop that is linked in sequence.Drip tray 8 tops are provided with water compensating valve 10, and drip tray 8 bottoms are provided with drain valve 11.In the air-treatment case 5, evenly be provided with the cloth water packing in the gap in condenser coil 6 outsides.Compressor 1, cross valve 4, air-treatment case 5, choke valve 3, evaporimeter 2 place in the same casing, constitute an integral unit; Perhaps compressor 1, cross valve 4, evaporimeter 2 place in the casing, and air-treatment case 5 is placed in another casing, constitute the split-type structural unit, and choke valve 3 can be placed in one in arbitrary casing.Air-treatment case 5 places between first heat exchanger 16 and second heat exchanger 17.Spray thrower 7 places the top of condenser coil 6, and drip tray 8 places the bottom of condenser coil 6.Be connected with water pump 9 between drip tray 8 and the spray thrower 7, the water that water pump 9 extracts in the drip tray 8 is sent into spray thrower 7, and spray thrower 7 on condenser coil 6, is provided with water fender 15 along air flow in condenser coil 6 back with the water spray.Return air and new wind mix, and pass through filter 18, first heat exchanger 16, air-treatment case 5, second heat exchanger 17, blower fan 14 then successively, after air outlet 13 be sent.
Present embodiment three is identical with three kinds of operational modes among the embodiment one, air-treatment case 5 in the present embodiment three also can be realized above-mentioned three kinds of operational modes, but compare with embodiment one, owing to increased by first heat exchanger 16, second heat exchanger 17, first heat exchanger 16 is realized the preheating in winter, precooling in summer, second heat exchanger 17 realize the temperature control after the air damping, can annually realize that therefore the humiture of air accurately controls.About three kinds of operational modes in the present embodiment, do not give unnecessary details one by one at this;
The foregoing description only is the basic application scheme of this patent, carries out the other technologies scheme of damping, temperature adjustment and makes up the protection domain that the technical scheme that realizes air-treatment all belongs to this patent with existing air conditioner unit according to the technological thought of this patent.
Claims (9)
1. humidity control device, contain compressor (1), cross valve (4), choke valve (3) and evaporimeter (2), it is characterized in that: this humidity control device also contains air-treatment case (5), and this air-treatment case (5) contains condenser coil (6), spray thrower (7), drip tray (8), water pump (9), air inlet (12) and air outlet (13); Described condenser coil (6), choke valve (3), evaporimeter (2), compressor (1) and cross valve (4) are in turn connected to form steam compression type refrigerating-heat pump cycle loop by refrigerant tubing, described condenser coil (6) places between air inlet (12) and the air outlet (13), described spray thrower (7) places the top of condenser coil (6), drip tray (8) places the bottom of condenser coil (6), be connected with water pump (9) between drip tray (8) bottom and the spray thrower (7), the water that water pump (9) extracts in the drip tray (8) is sent into spray thrower (7), and with water spray on condenser coil (6), air flows through condenser coil (6) surface by humidification or dehumidifying through air inlet (12), sends through air outlet (13) again.
2. humidity control device, contain compressor (1), cross valve (4), choke valve (3) and evaporimeter (2), it is characterized in that: this humidity control device also contains air-treatment case (5), and this air-treatment case (5) contains condenser coil (6), spray thrower (7), drip tray (8), water pump (9), air inlet (12), air outlet (13), blower fan (14) and water fender (15); Described condenser coil (6), choke valve (3), evaporimeter (2), compressor (1) and cross valve (4) are in turn connected to form steam compression type refrigerating-heat pump cycle loop by refrigerant tubing, described condenser coil (6) places between air inlet (12) and the air outlet (13), described spray thrower (7) places the top of condenser coil (6), drip tray (8) places the bottom of condenser coil (6), be connected with water pump (9) between drip tray (8) bottom and the spray thrower (7), the water that water pump (9) extracts in the drip tray (8) is sent into spray thrower (7), and water is sprayed on condenser coil (6); Described water fender (15) places between condenser coil (6) and the air outlet (13); Described blower fan (14) places between water fender (15) and the air outlet (13); Blower fan (14) drives air and flows through condenser coil (6) surface by humidification or dehumidifying through air inlet (12), sends through air outlet (13) again.
3. humidity control device, contain compressor (1), cross valve (4), choke valve (3), evaporimeter (2), air inlet (12), fresh wind port (19), filter (18), first heat exchanger (16), second heat exchanger (17), blower fan (14) and air outlet (13), it is characterized in that: this humidity control device also contains air-treatment case (5), this air-treatment case (5) contains condenser coil (6), spray thrower (7), drip tray (8), water pump (9) and water fender (15), described condenser coil (6), choke valve (3), evaporimeter (2), compressor (1) and cross valve (4) are in turn connected to form steam compression type refrigerating-heat pump cycle loop by refrigerant tubing; Described air-treatment case (5) places between first heat exchanger (16) and second heat exchanger (17); Described spray thrower (7) places the top of condenser coil (6), drip tray (8) places the bottom of condenser coil (6), be connected with water pump (9) between drip tray (8) bottom and the spray thrower (7), the water that water pump (9) extracts in the drip tray (8) is sent into spray thrower (7), and spray thrower sprays water on condenser coil (6); Be provided with water fender (15) along air flow in condenser coil (6) back; Return air and new wind mix, and pass through filter (18), first heat exchanger (16), air-treatment case (5), second heat exchanger (17) and blower fan (14) then successively, after air outlet (13) be sent.
4. according to claims 1,2 or 3 described humidity control devices, it is characterized in that: described compressor (1), cross valve (4), air-treatment case (5), choke valve (3) and evaporimeter (2) place in the same casing, constitute an integral unit.
5. according to claims 1,2 or 3 described humidity control devices, it is characterized in that: described compressor (1), cross valve (4) and evaporimeter (2) place in the casing, and air-treatment case (5) is placed in another casing, constitute the split-type structural unit; Described choke valve (3) places in arbitrary casing of split-type structural unit.
6. according to claims 1,2 or 3 described humidity control devices, it is characterized in that: described drip tray (8) is provided with water compensating valve (10) and drain valve (11).
7. according to claims 1,2 or 3 described humidity control devices, it is characterized in that: described evaporimeter (2) is cold-producing medium-air heat exchanger, cold-producing medium-water-to-water heat exchanger or both combinations.
8. according to claims 1,2 or 3 described humidity control devices, it is characterized in that: in air-treatment case (5), be provided with the water distribution uniformity filler in the gap in condenser coil (6) the tube wall outside.
9. according to claims 1,2 or 3 described humidity control devices, it is characterized in that: described compressor (1) is AC frequency conversion compressor, DC speed regulation compressor or screw compressor.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2010202642842U CN201748558U (en) | 2010-07-14 | 2010-07-14 | Moisture adjusting device |
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| CN2010202642842U CN201748558U (en) | 2010-07-14 | 2010-07-14 | Moisture adjusting device |
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Cited By (8)
| Publication number | Priority date | Publication date | Assignee | Title |
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| CN101900380A (en) * | 2010-07-14 | 2010-12-01 | 清华大学 | Moisture adjuster |
| CN103216926A (en) * | 2012-01-19 | 2013-07-24 | 珠海格力电器股份有限公司 | Flow-equalizing device and method for condensing fresh air dehumidification unit and air conditioner with flow-equalizing device |
| WO2014012287A1 (en) * | 2012-07-20 | 2014-01-23 | 广州市华德工业有限公司 | Air conditioning unit with filler coupling coil pipe evaporative type condenser |
| CN105202655A (en) * | 2015-08-12 | 2015-12-30 | 哈尔滨工业大学 | Novel humidifying heat pump air conditioner |
| CN105026598B (en) * | 2013-03-01 | 2018-10-02 | 杰富意钢铁株式会社 | The manufacturing method and continuous fusion galvanizing rig of hot-dip galvanized steel sheet |
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| CN112762519A (en) * | 2020-12-31 | 2021-05-07 | 芜湖弋江海创高新智能空调股份有限公司 | Air conditioner end product capable of removing dust and dehumidifying |
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| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101900380A (en) * | 2010-07-14 | 2010-12-01 | 清华大学 | Moisture adjuster |
| CN103216926A (en) * | 2012-01-19 | 2013-07-24 | 珠海格力电器股份有限公司 | Flow-equalizing device and method for condensing fresh air dehumidification unit and air conditioner with flow-equalizing device |
| CN103216926B (en) * | 2012-01-19 | 2016-10-05 | 珠海格力电器股份有限公司 | Fresh air dehumidification unit condensation current equalizer and method and the air-conditioning including this device |
| WO2014012287A1 (en) * | 2012-07-20 | 2014-01-23 | 广州市华德工业有限公司 | Air conditioning unit with filler coupling coil pipe evaporative type condenser |
| CN105026598B (en) * | 2013-03-01 | 2018-10-02 | 杰富意钢铁株式会社 | The manufacturing method and continuous fusion galvanizing rig of hot-dip galvanized steel sheet |
| CN105202655A (en) * | 2015-08-12 | 2015-12-30 | 哈尔滨工业大学 | Novel humidifying heat pump air conditioner |
| CN112747376A (en) * | 2020-12-31 | 2021-05-04 | 芜湖弋江海创高新智能空调股份有限公司 | Air conditioner end product capable of removing dust |
| CN112762519A (en) * | 2020-12-31 | 2021-05-07 | 芜湖弋江海创高新智能空调股份有限公司 | Air conditioner end product capable of removing dust and dehumidifying |
| CN113108637A (en) * | 2021-05-17 | 2021-07-13 | 江苏科技大学 | Compact type ship kitchen steam efficient recovery system and recovery method |
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