CN108151174A - Dehumidifier - Google Patents

Abstract

The present invention discloses a kind of dehumidifier, which includes：Housing, the housing is arranged at intervals with the first air inlet, the second air inlet and air outlet, the opposite sides of the housing is formed with first air inlet and the second air inlet, and the air duct for connecting first air inlet, the second air inlet and air outlet is formed in the housing；Refrigerant circulation component, the refrigerant circulation component are contained in the housing, and the refrigerant circulation component includes the first dehumidifying component, the second dehumidifying component and at least one mends air-cooled condenser, first dehumidifying component and the second dehumidifying component in angle connection；And wind turbine, the wind turbine is set in the air duct, and closes on the air-cooled condenser setting of at least one benefit, and the air side of the wind turbine corresponds to the air outlet setting, air-flow is introduced in the air duct, and the air-flow in the air duct is blown out by the air outlet by first air inlet and the second air inlet.The dehumidifier efficiency of the present invention is high.

Description

Dehumidifier

Technical field

The present invention relates to household electrical appliance technical field, more particularly to a kind of dehumidifier.

Background technology

Dehumidifier is a kind of for carrying out the air-conditioning equipment of air themperature and humidity regulation, it has the characteristics that heat pump, both Cooling and dehumidifying can be carried out to air, and reduce using the heat water capacity that condenser is released using the refrigerating capacity of evaporator Air, have the characteristics of conditioning, be therefore widely used in the occasion required various humitures.

At present, existing dehumidifier evaporator and condenser are put together side by side mostly, and air, which first passes through evaporator, makes sky Into liquid water, fair with evaporator flows in drip tray condensate moisture in gas, and air themperature is reduced using condenser Heat absorption, the heat exchange amount size of condenser have complete machine efficiency a significant impact, and the heat exchange amount of condenser mainly there are two influence because Element：Air quantity and heat exchange area, due to the limitation of configuration aspects, condenser cannot be done too big, so certain in heat exchange area In the case of, it can only increase the air quantity by condenser, but existing dehumidifier evaporator part and condenser units air intake surface Product is the same, but from performance, the heat exchange area of general condenser and required air quantity will be more than evaporator, existing The technology that dehumidifier uses is exactly to thicken condenser units, but inefficient, and efficiency is low, and air quantity can not increase.

Invention content

The main object of the present invention is to provide a kind of dehumidifier, it is intended to increase the heat exchange amount of condenser, improve complete machine efficiency.

To achieve the above object, dehumidifier proposed by the present invention includes：

Housing, the housing are arranged at intervals with the first air inlet, the second air inlet and air outlet, and opposite the two of the housing Side is formed with first air inlet and the second air inlet, be formed in the housing connection first air inlet, second into Air port and the air duct of air outlet；

Refrigerant circulation component, the refrigerant circulation component are contained in the housing, and the refrigerant circulation component includes first Dehumidifying component, the second dehumidifying component and at least one mend air-cooled condenser, and first dehumidifying component and the second dehumidifying component are in angle Connection, first dehumidifying component are set corresponding to the first air inlet, and second dehumidifying component is set corresponding to the second air inlet It puts, it is described to mend air-cooled condenser corresponding to the first air inlet or the setting of the second air inlet；And

Wind turbine, the wind turbine are set in the air duct, and close on the air-cooled condenser setting of at least one benefit, the outlet air of the wind turbine Side corresponds to air outlet setting, and air-flow is introduced by first air inlet and the second air inlet in the air duct, and by institute The air-flow stated in air duct is blown out by the air outlet.

Preferably, the refrigerant circulation component includes the first dehumidifying component, the second dehumidifying component and two air-cooled condensers of benefit, One mends air-cooled condenser connect, and set corresponding to the first air inlet with the one end of the first dehumidifying component far from the second dehumidifying component, Another air-cooled condenser of benefit is connect, and set corresponding to the second air inlet with the one end of the second dehumidifying component far from the first dehumidifying component It puts, the wind turbine is set between two air-cooled condensers of benefit.

Preferably, first dehumidifying component include being arranged side by side first except wet condenser and the first evaporator, first Evaporator is set corresponding to the first air inlet, and described first is set on the first evaporator backwards to the one of the first air inlet except wet condenser Side.

Preferably, second dehumidifying component includes be arranged side by side second except wet condenser and the second evaporator, described Second evaporator is set corresponding to the second air inlet, and described second is set on the second evaporator backwards to the second air inlet except wet condenser Side.

Preferably, the housing includes cylinder and is covered on the end cap of the cylinder upper end, and opposite the two of the cylinder Side is formed with first air inlet and the second air inlet, and the end cap is formed with the air outlet.

Preferably, the dehumidifier further includes the base assembly being contained in the housing, and the base assembly includes bottom Seat and the drip tray set on pedestal, one end of first dehumidifying component are connect with drip tray, and the one of second dehumidifying component End is connect with drip tray.

Preferably, the base assembly further includes water tank and compressor of the interval set on pedestal, the water tank and drip tray It is oppositely arranged, the compressor is connect with the refrigerant circulation component pipeline.

Preferably, the drip tray is equipped with trepanning, and the drip tray is connected with the water tank by the trepanning.

Preferably, the refrigerant circulation component further includes throttling set and is removed for the first dehumidifying component of connection, second The pipeline of wet component and at least one air-cooled condenser of benefit, the refrigerant that refrigerant forms high temperature and pressure after compressor compresses flow to institute At least one air-cooled condenser of benefit is stated, the refrigerant of high temperature and pressure flows to first after at least one mends and tentatively cools down above air-cooled condenser and removes Wet component and the second dehumidifying component flow to compressor again after the first dehumidifying component and the heat exchange of the second dehumidifying component, complete Into a refrigerant circulation process.

Preferably, the wind turbine is cross flow fan.

For the dehumidifier of the present invention by setting refrigerant circulation component in housing, which includes the first dehumidifying Component, the second dehumidifying component and at least one mend air-cooled condenser, and first dehumidifying component, the second dehumidifying component and at least one mend wind Condenser is contained in the housing, when wind turbine rotates, since the first air inlet and the second air inlet are set on opposite the two of housing Side, the first dehumidifying component and the second dehumidifying component are connected in angle, and the first dehumidifying component is set corresponding to the first air inlet, and second Dehumidifying component is set corresponding to the second air inlet so that the first dehumidifying component, the second dehumidifying component and wind turbine are formed with to increase The air duct of Wind Volume, wind turbine are set in the air duct, and air-flow is introduced by first air inlet and the second air inlet in air duct, And blow out the air-flow in air duct by air outlet, and mend air-cooled condenser and set corresponding to the first air inlet or the second air inlet, make The area of air-cooled condenser, which must be mended, can arbitrarily control to adjust required heat exchange area, and air is by the first dehumidifying component, second Dehumidifying component and the heat exchange efficiency height for mending air-cooled condenser, improve complete machine efficiency.

Simultaneously as the first dehumidifying component and the second dehumidifying component are connected in angle in housing, complete machine can be reduced Highly, increase dress cabinet amount, saves transportation cost.

Description of the drawings

In order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, to embodiment or will show below There is attached drawing needed in technology description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of invention, for those of ordinary skill in the art, without creative efforts, can be with Structure according to these attached drawings obtains other attached drawings.

Fig. 1 is the structure diagram of one embodiment of the invention dehumidifier；

Fig. 2 is the structure diagram at another visual angle of one embodiment of the invention dehumidifier；

Fig. 3 is the part-structure schematic diagram of one embodiment of the invention dehumidifier；

Fig. 4 is another part structure diagram of one embodiment of the invention dehumidifier；

Fig. 5 is the vertical view of dehumidifier in Fig. 3；

Fig. 6 is the part cut-away view of one embodiment of the invention dehumidifier；

Fig. 7 is the part cut-away view of another embodiment of the present invention dehumidifier.

Drawing reference numeral explanation：

Label	Title	Label	Title
				100	Dehumidifier	33	Second dehumidifying component
10	Housing	331	Second removes wet condenser
				11	First air inlet	333	Second evaporator
13	Second air inlet	35	Mend air-cooled condenser
				15	Air outlet	50	Wind turbine
17	Air duct	70	Base assembly
				18	Cylinder	71	Pedestal
19	End cap	73	Drip tray
				30	Refrigerant circulation component	731	Trepanning
31	First dehumidifying component	75	Water tank
				311	First removes wet condenser	751	Handle
313	First evaporator	77	Compressor

The embodiments will be further described with reference to the accompanying drawings for the realization, the function and the advantages of the object of the present invention.

Specific embodiment

Below in conjunction with the attached drawing in the embodiment of the present invention, the technical solution in the embodiment of the present invention is carried out clear, complete Site preparation describes, it is clear that described embodiment is only the part of the embodiment of the present invention, instead of all the embodiments.Base Embodiment in the present invention, those of ordinary skill in the art obtained without creative efforts it is all its His embodiment, shall fall within the protection scope of the present invention.

It is to be appreciated that the directional instruction (such as up, down, left, right, before and after ...) of institute is only used in the embodiment of the present invention In explaining relative position relation, motion conditions under a certain particular pose (as shown in drawings) between each component etc., if should When particular pose changes, then directionality instruction also correspondingly changes correspondingly.

In addition, in the present invention such as relating to the description of " first ", " second " etc. be only used for description purpose, and it is not intended that Indicate or imply its relative importance or the implicit quantity for indicating indicated technical characteristic.Define as a result, " first ", At least one this feature can be expressed or be implicitly included to the feature of " second ".In the description of the present invention, " multiple " contain Justice is at least two, such as two, three etc., unless otherwise specifically defined.

In the present invention unless specifically defined or limited otherwise, term " connection ", " fixation " etc. should be interpreted broadly, For example, " fixation " can be fixedly connected or be detachably connected or integral；Can be mechanical connection or Electrical connection；It can be directly connected, can also be indirectly connected by intermediary, can be the connection inside two elements or two The interaction relationship of a element, unless otherwise restricted clearly.It for the ordinary skill in the art, can basis Concrete condition understands the concrete meaning of above-mentioned term in the present invention.

In addition, the technical solution between each embodiment of the present invention can be combined with each other, but must be general with this field Logical technical staff can be implemented as basis, will be understood that when the combination appearance of technical solution is conflicting or can not realize this The combination of technical solution is not present, also not the present invention claims protection domain within.

The present invention proposes a kind of dehumidifier 100.

It please refers to Fig.1, Fig. 2, Fig. 4 and Fig. 6, in one embodiment of the invention, dehumidifier 100 includes：

Housing 10, the housing 10 are arranged at intervals with the first air inlet 11, the second air inlet 13 and air outlet 15, the shell The opposite sides of body 10 is formed with 11 and second air inlet 13 of the first air inlet, is formed with described in connection in the housing 10 The air duct 17 of first air inlet 11, the second air inlet 13 and air outlet 15；

Refrigerant circulation component 30, the refrigerant circulation component 30 are contained in the housing 10, the refrigerant circulation component 30 Air-cooled condenser 35 is mended including the first dehumidifying component 31, the second dehumidifying component 33 and at least one, first dehumidifying component 31 and the Two dehumidifying components 33 are connected in angle, and first dehumidifying component 31 is set corresponding to the first air inlet 11, second dehumidifying Component 33 is set corresponding to the second air inlet 13, described to mend air-cooled condenser 35 corresponding to the first air inlet 11 or the second air inlet 13 Setting；And

Wind turbine 50, the wind turbine 50 are set in the air duct 17, and are closed on at least one air-cooled condenser 35 of benefit and set, the wind The air side of machine 50 corresponds to the air outlet 15 and sets, and air-flow is introduced institute by 11 and second air inlet 13 of the first air inlet It states in air duct 17, and the air-flow in the air duct 17 is blown out by the air outlet 15.

Specifically, housing 10 is four sides cavity body structure, including the first side, second side, third side being oppositely arranged Face and the 4th side, wherein first side are opposite with third side to be arranged in parallel, second side with the 4th side is relatively parallel sets It puts, and head and the tail connect respectively for first side, second side, third side and the 4th side, the first air inlet 11 and the second air inlet Mouthfuls 13 are set on two opposite sides, you can be first side and third side or set on second side and the 4th side, go out Air port 12 is set on housing 10, either first side, second side, third side or the 4th side can also be housings 10 Top surface.

It should be noted that the first dehumidifying component 31, the second dehumidifying component 33 in refrigerant circulation component 30 in the present embodiment At least one, which mends air-cooled condenser 35, is provided separately, and herein, the first dehumidifying component 31, the second dehumidifying component 33 and at least one mend wind The reason of condenser 35 is provided separately is, when being started to work due to dehumidifier 100, refrigerant is first all mended air-cooled by least one The first dehumidifying component 31 and the second dehumidifying component 33 are flowed to after condenser 35 again, at least one mends air-cooled condenser 35 mainly to 55~60 Degree Celsius refrigerant cool down, therefore, at least one, which mends air-cooled condenser 35, can be higher than the first dehumidifying component 31 and the second dehumidifying group The temperature of part 33, because the first dehumidifying component 31 and the second dehumidifying component 33 are cooled down to 25~26 degrees Celsius of refrigerant, If the first dehumidifying component 31, the second dehumidifying component 33 and at least one to be mended to the air-cooled setting of condenser 35 and are integrated, at least one Temperature of the temperature higher than the first dehumidifying component 31 and the second dehumidifying component 33 of air-cooled condenser 35 is mended, such three can pass Heat, and then influence the heat exchange efficiency of refrigerant circulation component 30.

In addition, refrigerant circulation component 30, which includes one, mends air-cooled condenser 35, the first dehumidifying component 31 and the second dehumidifying component 33 It is connected in angle, specifically, one end of the first dehumidifying component 31 is abutted with the side of housing 10, the bottom of the other end and housing 10 It abutting, one end of the second dehumidifying component 33 is abutted with the another side of housing 10, and the other end is abutted with the bottom of housing 10, and first Dehumidifying component 31 is in the second dehumidifying component 33 with one end that the bottom of housing 10 abuts with one end that the bottom of housing 10 abuts Angle connects, i.e. the 33 V-shaped setting of the first dehumidifying component 31 and the second dehumidifying component, if the first dehumidifying component 31 and housing 10 When the angle of bottom is less than the second dehumidifying component 33 and the angle of the bottom of housing 10, air-cooled condenser 35 is mended corresponding to the first air inlet Mouth 11 is set；If the first dehumidifying component 31 and the angle of the bottom of housing 10 are more than the bottom of the second dehumidifying component 33 and housing 10 Angle when, mend air-cooled condenser 35 and set corresponding to the second air inlet 13.

Accordingly, it is to be understood that, technical scheme of the present invention, dehumidifier 100 passes through the setting refrigerant circulation in housing 10 Component 30, which includes the first dehumidifying component 31, the second dehumidifying component 33 and at least one mends air-cooled condenser 35, First dehumidifying component 31, the second dehumidifying component 33 and at least one mend air-cooled condenser 35 and are contained in the housing 10, work as wind turbine During 50 rotation, since the first air inlet 11 and the second air inlet 13 are set on the opposite sides of housing 10,31 He of the first dehumidifying component Second dehumidifying component 33 is connected in angle, and the first dehumidifying component 31 is set corresponding to the first air inlet 11, the second dehumidifying component 33 It is set corresponding to the second air inlet 13 so that the first dehumidifying component 31, the second dehumidifying component 33 and wind turbine 50 are formed with to increase The air duct 17 of Wind Volume, wind turbine 50 is set in the air duct 17, by air-flow by 11 and second air inlet 13 of the first air inlet It introduces in air duct 17, and the air-flow in air duct 17 is blown out by air outlet 15, and mend air-cooled condenser 35 corresponding to the first air inlet 11 or second air inlet 13 set so that mending the area of air-cooled condenser 35 can arbitrarily control to adjust required heat exchange area, Air improves complete machine efficiency by the first dehumidifying component 31, the second dehumidifying component 33 and the heat exchange efficiency height for mending air-cooled condenser 35.

Simultaneously as the first dehumidifying component 31 and the second dehumidifying component 33 are connected in angle in housing 10, can drop Low complete machine height, increase dress cabinet amount, saves transportation cost.

Fig. 7 is please referred to, the refrigerant circulation component 30 includes the first dehumidifying component 31, the second dehumidifying component 33 and two benefits Air-cooled condenser 35, one mends air-cooled condenser 35 connect, and corresponding with the one end of the first dehumidifying component 31 far from the second dehumidifying component 33 It is set in the first air inlet 11, another one end of air-cooled 35 and second dehumidifying component 33 of condenser far from the first dehumidifying component 31 of mending connects It connects, and is set corresponding to the second air inlet 13, the wind turbine 50 is set between two air-cooled condensers 35 of benefit.

Specifically, two are mended, air-cooled condensers 35 correspond respectively to the first air inlet 11 and the second air inlet 13 is set, can be with Intake is greatly improved, heat exchange is carried out in refrigerant circulation component 30 conducive to air.

It please refers to Fig.4 and Fig. 6, further, first dehumidifying component 31 includes be arranged side by side first and removes wet condensation 311 and first evaporator 313 of device, the first evaporator 313 are set corresponding to the first air inlet 11, and described first removes wet condenser 311 are set on the first evaporator 313 backwards to the side of the first air inlet 11.

Specifically, first is interior equipped with medium circulation pipeline, the first evaporator except 311 and first evaporator 313 of wet condenser 313 are set corresponding to the first air inlet 11, wherein first except wet condenser 311 incoming air area and the first evaporator 313 into Wind area is identical, and the first evaporator 313 removes wet condenser 311 compared with first closer to the first air inlet 11, in this way, by first The air that air inlet 11 enters can pass through the first evaporator 313 successively, and air condenses on the first evaporator 313, form water dew, After absorbing heat with the air-cooled condenser 35 of benefit except wet condenser 311 using first by the air except overly moist, by air duct 17 by going out Air port 15 is blown out, and completes dehumidification process (please referring to Fig. 6, direction shown in arrow is flowed to for air in figure).

Further, second dehumidifying component 33 includes be arranged side by side second except wet condenser 331 and second is evaporated Device 333, second evaporator 333 are set corresponding to the second air inlet 13, and described second steams except wet condenser 331 is set on second Device 333 is sent out backwards to the side of the second air inlet 13.

Specifically, second is interior equipped with medium circulation pipeline, the second evaporator except 331 and second evaporator 333 of wet condenser 333 are set corresponding to the second air inlet 13, wherein second except wet condenser 331 incoming air area and the second evaporator 333 into Wind area is identical, and the second evaporator 333 removes wet condenser 331 compared with second closer to the second air inlet 13, in this way, by second The air that air inlet 13 enters can pass through the second evaporator 333 successively, and air condenses on the second evaporator 333, form water dew, After absorbing heat with the air-cooled condenser 35 of benefit except wet condenser 331 using second by the air except overly moist, by air duct 17 by going out Air port 15 is blown out, and completes dehumidification process (please referring to Fig. 6, direction shown in arrow is flowed to for air in figure).

Furthermore, it is necessary to explanation, based on above structure, is separately provided at least one air-cooled condenser 35 of benefit and has the advantage that： (1), at least one area for mending air-cooled condenser 35 can be controlled arbitrarily, the heat-transfer surface needed for automatic adjustment refrigerant circulation component 30 Product；(2), first is equivalent to except wet condenser 311/ second except the air quantity of wet condenser 331 is more than the first evaporator 313/ second The air quantity of evaporator 333；(3), it is said from refrigerant heat exchange angle, under the action of Wind Volume, effectively strengthens first and remove wet condenser 311/ second removes the heat exchange efficiency of wet condenser 331, promotes complete machine efficiency；(4), say there is being benefit from internal system heat exchange angle In the system of air-cooled condenser 35, if mend air-cooled 35 flow path of condenser and system in itself first except wet condenser 311/ second is except clammy When condenser 331 is connected, the high-temperature high-pressure refrigerant of compressor outlet should preferentially enter mend in air-cooled condenser 35 with environment temperature Spend air and carry out heat exchange, yet further enter first except wet condenser 311/ second except in wet condenser 331 with warp The air for crossing the cooling of 313/ second evaporator 333 of the first evaporator carries out heat exchange, to ensure the utilization rate of whole cold, avoids Waste.

In the present embodiment, first except wet condenser 311, second is except wet condenser 331, the evaporation of the first evaporator 313, second Device 333 and the air-cooled condenser 35 of benefit can set several heat exchange fins, to increase heat exchange area, improving heat exchanging efficiency.

Referring again to Fig. 1 and Fig. 2, the housing 10 includes cylinder 18 and the end cap for being covered on 18 upper end of cylinder 19, the opposite sides of the cylinder 18 is formed with 11 and second air inlet 13 of the first air inlet, and the end cap 19 is formed with The air outlet 15.

In the present embodiment, along the circumferentially distributed of cylinder 18, air outlet 15 is set for the first air inlet 11 and the second air inlet 13 End cap 19 in 18 upper end of cylinder, and air outlet 15 is closed on into the air side of wind turbine 50 and is set, in this way, in the driving of wind turbine 50 Under, the air outside dehumidifier 100 can enter inside by the first air inlet 11 around 18 peripheral wall of cylinder and the second air inlet 13, And after the effect of refrigerant circulation component 30, by air duct 17, blown out by the air outlet 15 of 100 upper end of dehumidifier, due to setting The air-cooled condenser 35 of benefit has been put, so as to increase intake, so as to greatly improve effect on moisture extraction, has improved dehumidification efficiency.

Furthermore, it is to be understood that, in other embodiment, also housing 10 can be set as circular in cross-section or ellipse Or the cavity body structure of polygon.

It please refers to Fig.3 and Fig. 5, the dehumidifier 100 further includes the base assembly 70 being contained in the housing 10, described Base assembly 70 includes pedestal 71 and the drip tray 73 set on pedestal 71, one end and the drip tray 73 of first dehumidifying component 31 Connection, one end of second dehumidifying component 33 is connect with drip tray 73.

Further, the base assembly 70 further includes interval and is set on the water tank 75 of pedestal 71 and compressor 77, the water Case 75 is oppositely arranged with drip tray 73, and the compressor 77 is connect with 30 pipeline of refrigerant circulation component.

Further, the drip tray 73 is equipped with trepanning 731, and the drip tray 73 is opened with the water tank 75 by described Hole 731 connects.

In the present embodiment, drip tray 73 is set, and pass through out relative to the first dehumidifying component 31 and the second dehumidifying component 33 Hole 731 is connected with water tank 75 so that the drip tray 73 can undertake the first dehumidifying component 31 and the second dehumidifying component 33 flows down Condensed water, then by the condensate water guide to water tank 75, so so that condensed water can be preferably guided in water tank 75.It should Liquid level detection device can be equipped in water tank 75, which connect with the main controller of dehumidifier 100, when the level sensing When device detects that the water level in water tank 75 reaches predetermined threshold value, alarm signal is transmitted to main controller, main controller sends out prompt tone Or prompt message.In this way, can remind whether user goes out the water water conservancy diversion in water tank 75.The mode that water water conservancy diversion in water tank 75 goes out It can be two kinds：One kind is to set resigning mouthful (not shown) in pedestal 71, and dodge gate (not shown), water tank are provided in the resigning mouthful 75 correspond to resigning mouthful setting.By the way that dodge gate is opened, it will take out from resigning mouthful water tank 75, then outwell water.Separately One kind is setting outlet pipe, sets valve on the outlet pipe, the outflow of water is controlled by valve.The present embodiment preferably uses The mode of resigning mouthful.In addition, water tank 75 is additionally provided with handle 751, which is groove structure, convenient for by water tank 75 from pedestal Water is outwelled in extraction on 71.

Furthermore, it is necessary to explanation, based on above structure, the refrigerant circulation component 30 further include throttling set and For connecting the pipeline of the first dehumidifying component 31, the second dehumidifying component 33 and at least one air-cooled condenser 35 of benefit, refrigerant is through overcompression Machine 77 forms at least one air-cooled condenser 35 of benefit described in the refrigerant flow direction of high temperature and pressure after compressing, the refrigerant of high temperature and pressure is at least one Mending air-cooled condenser 35, preliminary cooling flows to the first dehumidifying component 31 and the second dehumidifying component 33 later above, by the first dehumidifying group Compressor 77 is flowed to again after the heat exchange of 31 and second dehumidifying component 33 of part, completes a refrigerant circulation process.

Further, the wind turbine 50 is cross flow fan.Cross flow fan is compared to centrifugal blower and axial flow blower, due to gas The advantages of stream traverses axial inflow, outflow, and air-flow is steady, dynamic pressure is high, low noise.

The foregoing is merely the preferred embodiment of the present invention, are not intended to limit the scope of the invention, every at this The equivalent structure transformation made under the inventive concept of invention using description of the invention and accompanying drawing content or directly/utilization indirectly It is included in the scope of patent protection of the present invention in other related technical areas.

Claims (10)

1. a kind of dehumidifier, which is characterized in that including：

Housing, the housing are arranged at intervals with the first air inlet, the second air inlet and air outlet, the opposite sides shape of the housing Into having first air inlet and the second air inlet, connection first air inlet, the second air inlet are formed in the housing With the air duct of air outlet；

Refrigerant circulation component, the refrigerant circulation component are contained in the housing, and the refrigerant circulation component includes the first dehumidifying Component, the second dehumidifying component and at least one mend air-cooled condenser, first dehumidifying component and the second dehumidifying component and are connected in angle, First dehumidifying component is set corresponding to the first air inlet, and second dehumidifying component is set corresponding to the second air inlet, institute It states and mends air-cooled condenser corresponding to the first air inlet or the setting of the second air inlet；And

Wind turbine, the wind turbine are set in the air duct, and close on the air-cooled condenser setting of at least one benefit, the air side pair of the wind turbine The air outlet is answered to set, air-flow is introduced by first air inlet and the second air inlet in the air duct, and by the wind Air-flow in road is blown out by the air outlet.

2. dehumidifier as described in claim 1, which is characterized in that the refrigerant circulation component includes the first dehumidifying component, the Two dehumidifying components and two air-cooled condensers of benefit, one, which mends the one end of air-cooled condenser and the first dehumidifying component far from the second dehumidifying component, connects It connects, and is set corresponding to the first air inlet, it is another to mend air-cooled condenser and the one end of the second dehumidifying component far from the first dehumidifying component Connection, and set corresponding to the second air inlet, the wind turbine is set between two air-cooled condensers of benefit.

3. dehumidifier as described in claim 1, which is characterized in that first dehumidifying component includes arranged side by side first and removes Wet condenser and the first evaporator, the first evaporator are set corresponding to the first air inlet, and described first is set on the except wet condenser One evaporator is backwards to the side of the first air inlet.

4. dehumidifier as described in claim 1, which is characterized in that second dehumidifying component includes arranged side by side second and removes Wet condenser and the second evaporator, second evaporator are set corresponding to the second air inlet, and described second sets except wet condenser In the second evaporator backwards to the side of the second air inlet.

5. such as Claims 1-4 any one of them dehumidifier, which is characterized in that the housing includes cylinder and is covered on The end cap of the cylinder upper end, the opposite sides of the cylinder are formed with first air inlet and the second air inlet, the end Lid is formed with the air outlet.

6. such as Claims 1-4 any one of them dehumidifier, which is characterized in that the dehumidifier further include be contained in it is described Base assembly in housing, the base assembly include pedestal and the drip tray set on pedestal, the one of first dehumidifying component End is connect with drip tray, and one end of second dehumidifying component is connect with drip tray.

7. dehumidifier as claimed in claim 6, which is characterized in that the base assembly further includes water tank of the interval set on pedestal And compressor, the water tank are oppositely arranged with drip tray, the compressor is connect with the refrigerant circulation component pipeline.

8. dehumidifier as claimed in claim 7, which is characterized in that the drip tray be equipped with trepanning, the drip tray with it is described Water tank is connected by the trepanning.

9. dehumidifier as claimed in claim 7, which is characterized in that the refrigerant circulation component further include throttling set and For connecting the pipeline of the first dehumidifying component, the second dehumidifying component and at least one air-cooled condenser of benefit, refrigerant passes through compressor compresses At least one mends air-cooled condenser described in forming the refrigerant flow direction of high temperature and pressure afterwards, and the refrigerant of high temperature and pressure mends air-cooled condenser at least one The first dehumidifying component and the second dehumidifying component are flowed to after preliminary cooling above, by the first dehumidifying component and the second dehumidifying component Compressor is flowed to after heat exchange again, completes a refrigerant circulation process.

10. dehumidifier as described in claim 1, which is characterized in that the wind turbine is cross flow fan.