CN207688306U - Dehumidifier - Google Patents

Abstract

The utility model discloses a kind of dehumidifier, which includes：Refrigerant circulation component, it includes the first dehumidifying component, the second dehumidifying component and benefit wind cooling condenser, the both ends of second dehumidifying component are separately connected first dehumidifying component and mend wind cooling condenser, installation space has been collectively formed in first dehumidifying component, the second dehumidifying component and benefit wind cooling condenser, first dehumidifying component is equipped with the first air duct, second dehumidifying component is equipped with the second air duct, mends wind cooling condenser and is equipped with third air duct, the first air duct, the second air duct, third air duct are connected to the installation space；Wind turbine, wind turbine are set in the installation space, and the air side of wind turbine deviates from the refrigerant circulation component, by extraneous air via the first air duct, the second air duct, third air duct after, flowed out by the air side of the wind turbine；And pedestal, the first dehumidifying component, the second dehumidifying component, benefit wind cooling condenser and wind turbine are connect with a surface of the pedestal.The dehumidifier efficiency of the utility model is high.

Description

Dehumidifier

Technical field

The utility model is related to household electrical appliance technical field, more particularly to a kind of dehumidifier.

Background technology

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

Currently, existing dehumidifier evaporator and condenser are put together side by side mostly, air, which first passes through evaporator, makes sky At 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 a significant impact to complete machine efficiency, 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.

Utility model content

The main purpose of the utility model 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, the utility model proposes dehumidifier include：

Refrigerant circulation component, the refrigerant circulation component include the first dehumidifying component, the second dehumidifying component and mend air-cooled solidifying The both ends of device, second dehumidifying component are separately connected first dehumidifying component and mend wind cooling condenser, the first dehumidifying group Installation space has been collectively formed in part, the second dehumidifying component and benefit wind cooling condenser, and first dehumidifying component is equipped with the first air duct, institute State the second dehumidifying component and be equipped with the second air duct, the benefits wind cooling condenser equipped with third air duct, first air duct, the second air duct, Third air duct is connected to the installation space；

Wind turbine, the wind turbine are set in the installation space, and the air side of the wind turbine deviates from the refrigerant circulation group Part, by extraneous air via the first air duct, the second air duct, third air duct after, flowed out by the air side of the wind turbine；And

Pedestal, first dehumidifying component, the second dehumidifying component, the surface for mending wind cooling condenser and wind turbine and the pedestal Connection.

Preferably, first dehumidifying component, the second dehumidifying component, benefit wind cooling condenser and wind turbine are vertically installed in described The bottom surface of pedestal.

Preferably, the wind turbine is cross flow fan.

Preferably, the pedestal is equipped with drip tray, and the drip tray corresponds to first dehumidifying component and the second dehumidifying Component is arranged.

Preferably, the refrigerant circulation component further includes compressor, the compressor, the first dehumidifying component, the second dehumidifying Interconnected pipeline is equipped in component and benefit wind cooling condenser, the pipeline is interior equipped with refrigerant, and the refrigerant passes through compressor pressure It flows to compressor after contracting again after mending wind cooling condenser, the first dehumidifying component and the second dehumidifying component successively, completes primary cold Matchmaker's cyclic process.

Preferably, the dehumidifier further includes shell, the shell be arranged at intervals with the first air inlet, the second air inlet, Third air inlet and air outlet, the week of first air inlet, the second air inlet, third air inlet and air outlet along the shell To distribution, first air duct is connected to first air inlet, and second air duct is connected to second air inlet, described Third air duct is connected to the third air inlet, and the air outlet setting is closed in the air side of the wind turbine.

Preferably, first dehumidifying component includes arranged side by side first removing wet condenser and the first evaporator, described First evaporator is arranged corresponding to the first air inlet, and described first is set to the first evaporator backwards to the first air inlet except wet condenser Side.

Preferably, second dehumidifying component includes being arranged side by side second to remove wet condenser and the second evaporator, and described the Two evaporators are arranged corresponding to the second air inlet, and described second is set to the second evaporator backwards to the second air inlet except wet condenser Side.

Preferably, described first except wet condenser and second is except wet condenser integrated molding setting, first evaporator It is integrally formed and is arranged with the second evaporator.

Preferably, the benefit wind cooling condenser is arranged corresponding to the third air inlet.

The dehumidifier of the utility model is by the way that the first dehumidifying component, the second dehumidifying component and benefit wind cooling condenser to be collectively formed There is an installation space, the first dehumidifying component is equipped with the first air duct, and the second dehumidifying component is equipped with the second air duct, mends wind cooling condenser and is equipped with the Three air ducts, the first air duct, the second air duct, third air duct are connected to installation space, and wind turbine is set in the installation space, will be external After air is via the first air duct, the second air duct, third air duct, flowed out by the air side of wind turbine, due to the second dehumidifying component Both ends are separately connected the first dehumidifying component and mend wind cooling condenser, and refrigerant circulation component can form one with wind turbine and be conducive to enter the wind The first air duct, the second air duct, third air duct, increase intake, and then improve complete machine efficiency.

Meanwhile connecting the first dehumidifying component, the second dehumidifying component, benefit wind cooling condenser and a surface of wind turbine and pedestal, Complete machine can be made smaller in the size in length and width direction, only increase the size of short transverse, volume can be reduced, increase dress Cabinet amount saves transportation cost.

Description of the drawings

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, the structure that can also be shown according to these attached drawings obtains other attached drawings.

Fig. 1 is the part-structure schematic diagram of one embodiment dehumidifier of the utility model；

Fig. 2 is the part-structure schematic diagram at one another visual angle of embodiment dehumidifier of the utility model；

Fig. 3 is the cross section cut-away view of dehumidifier in Fig. 1.

Drawing reference numeral explanation：

Label	Title	Label	Title
				100	Dehumidifier	131	Second removes wet condenser
10	Refrigerant circulation component	133	Second evaporator
				11	First dehumidifying component	15	Mend wind cooling condenser
110	First air duct	17	Installation space
				111	First removes wet condenser	30	Wind turbine
113	First evaporator	50	Pedestal
				13	Second dehumidifying component	51	Drip tray
130	Second air duct	150	Third air duct

The embodiments will be further described with reference to the accompanying drawings for the realization, functional characteristics and advantage of the utility model aim.

Specific implementation mode

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describing, it is clear that described embodiment is only a part of the embodiment of the utility model, rather than all Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are not making creative work premise Lower obtained every other 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 in the utility model embodiment It is only used for explaining relative position relation, the motion conditions etc. under a certain particular pose (as shown in the picture) between each component, such as When the fruit particular pose changes, then directionality instruction also correspondingly changes correspondingly.

In addition, the description for being such as related to " first ", " second " in the present invention is used for description purposes only, and cannot manage Solution is instruction or implies its relative importance or implicitly indicates the quantity of indicated technical characteristic.Define as a result, " the One ", the feature of " second " can explicitly or implicitly include at least one of the features.It is " more in the description of the present invention, It is a " it is meant that 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 do broad sense reason Solution, for example, " fixation " may be a fixed connection, may be a detachable connection, or integral；It can be mechanical connection, also may be used To be electrical connection；It can be directly connected, can also can be indirectly connected through an intermediary the connection inside two elements Or the interaction relationship of two elements, unless otherwise restricted clearly.It for the ordinary skill in the art, can be with The concrete meaning of above-mentioned term in the present invention is understood as the case may be.

In addition, the technical solution between each embodiment of the utility model can be combined with each other, but must be with ability Domain those of ordinary skill can be implemented as basis, will be understood that when the combination of technical solution appearance is conflicting or cannot achieve The combination of this technical solution is not present, also not within the protection domain of the requires of the utility model.

The utility model proposes a kind of dehumidifiers 100.

It please refers to Fig.1 to Fig. 3, in one embodiment of the utility model, dehumidifier 100 includes：

Refrigerant circulation component 10, the refrigerant circulation component 10 include the first dehumidifying component 11,13 and of the second dehumidifying component Wind cooling condenser 15 is mended, the both ends of second dehumidifying component 13 are separately connected first dehumidifying component 11 and mend wind cooling condenser 15, it first dehumidifying component 11, the second dehumidifying component 13 and mends wind cooling condenser 15 and has been collectively formed installation space 17, described the One dehumidifying component 11 is equipped with the first air duct 110, and second dehumidifying component 13 is equipped with the second air duct 130, the benefit wind cooling condenser 15 are equipped with third air duct 150, and first air duct 110, the second air duct 130, third air duct 150 and the installation space 17 connect It is logical；

Wind turbine 30, the wind turbine 30 are set in the installation space 17, and the air side of the wind turbine 30 is away from described cold Matchmaker's recirculation assembly 10, by extraneous air via the first air duct 110, the second air duct 130, third air duct 150 after, pass through the wind turbine 30 air side outflow；And

Pedestal 50, first dehumidifying component 11, mend wind cooling condenser 15 and wind turbine 30 and the bottom at second dehumidifying component 13 The surface connection of seat 50.

Specifically, in the present embodiment in refrigerant circulation component 10 first dehumidifying component 11 and the second dehumidifying component 13 with mend wind Condenser 15 is provided separately, and herein, the reason of being provided separately is, when being started to work due to dehumidifier 100, refrigerant is first all The first dehumidifying component 11 and the second dehumidifying component 13 are flowed to again later by mending wind cooling condenser 15, mend wind cooling condenser 15 mainly to 55 ~60 degrees Celsius of refrigerant cools down, and therefore, the first dehumidifying component 11 and the second dehumidifying component can be higher than by mending wind cooling condenser 15 13 temperature, because the first dehumidifying component 11 and the second dehumidifying component 13 are cooled down to 25~26 degrees Celsius of refrigerant, such as If first dehumidifying component 11 and the second dehumidifying component 13 are integrated by fruit with the benefit setting of wind cooling condenser 15, wind cooling condenser 15 is mended Temperature is higher than the temperature of the first dehumidifying component 11 and the second dehumidifying component 13, and such three can conduct heat, and then influence cold The heat exchange efficiency of matchmaker's recirculation assembly 10.

In addition, refrigerant circulation component 10 includes the first dehumidifying component 11, the second dehumidifying component 13 and benefit wind cooling condenser 15, The both ends of second dehumidifying component 13 are separately connected first dehumidifying component 11 and mend wind cooling condenser 15, specifically, the first dehumidifying Component 11, the second dehumidifying component 13, benefit wind cooling condenser 15 and wind turbine 30 are connect with a surface of pedestal 50.

Accordingly, it is to be understood that, the technical solution of the utility model, dehumidifier 100 is by by the first dehumidifying component 11, Installation space 17 has been collectively formed in two dehumidifying components 13 and benefit wind cooling condenser 15, and the first dehumidifying component 11 is equipped with the first air duct 110, Second dehumidifying component 13 is equipped with the second air duct 130, mends wind cooling condenser 15 and is equipped with third air duct 150, the first air duct 110, the second wind Road 130, third air duct 150 are connected to installation space 17, and wind turbine 30 is set in the installation space 17, by extraneous air via the Behind one air duct 110, the second air duct 130, third air duct 150, flowed out by the air side of wind turbine 30, due to the second dehumidifying component 13 Both ends be separately connected the first dehumidifying component 11 and mend wind cooling condenser 15, refrigerant circulation component 10 can form one with wind turbine 30 The first air duct 110, the second air duct 130, third air duct 150 for being conducive to air inlet increase intake, and then improve complete machine efficiency.

Meanwhile by the first dehumidifying component 11, the second dehumidifying component 13, mend wind cooling condenser 15 and wind turbine 30 and the one of pedestal 50 Surface connects, and complete machine can be made smaller in the size in length and width direction, only increases the size of short transverse, can reduce body Product increases dress cabinet amount, saves transportation cost.

Referring again to Fig. 1 and Fig. 2, first dehumidifying component 11, mends wind cooling condenser 15 and wind at second dehumidifying component 13 Machine 30 is vertically installed in the bottom surface of the pedestal 50.

Specifically, the first dehumidifying component 11, the second dehumidifying component 13, benefit wind cooling condenser 15 and wind turbine 30 are vertically arranged In the bottom surface of pedestal 50, it can so make complete machine length and wide size smaller, but short transverse may be more relatively high so that Complete machine structure is more compact, increases dress cabinet amount.

Further, the dehumidifier 100 further includes shell, the shell be arranged at intervals with the first air inlet, second into Air port, third air inlet and air outlet, first air inlet, the second air inlet, third air inlet and air outlet are along the shell Body it is circumferentially distributed, first air duct 110 is connected to first air inlet, second air duct 130 with described second into Air port is connected to, and the third air duct 150 is connected to the third air inlet, and the air outlet is closed in the air side of the wind turbine 30 Setting.

It should be noted that the first air inlet (not shown), the second air inlet (not shown), third air inlet (not shown) With air outlet (not shown) along the circumferentially distributed of the shell (not shown), the first air inlet, the second air inlet, third air inlet With air outlet along the vertical direction of pedestal 50, the air side of wherein wind turbine 30 is in the vertical direction along pedestal 50 to side Outlet air makes air inlet evenly, improves efficiency.

Further, first dehumidifying component 11 includes that first be arranged side by side removes the evaporation of wet condenser 111 and first Device 113, first evaporator 113 are arranged corresponding to the first air inlet, and described first is set to the first evaporation except wet condenser 111 Device 113 is backwards to the side of the first air inlet.

Specifically, first is identical with the incoming air area of the first evaporator 113 except wet condenser 111, and the first evaporator 113 Closer to the first air inlet, when first flowing through the first air duct 110 convenient for air, air heat release occurs on the first evaporator 113 Condensation dehumidifies to air, while refrigerant absorbs heat in the first evaporator 113, air by the first air duct 110 it Afterwards, it flows through first and removes wet condenser 111, air absorbs heat, and refrigerant is first except releasing heat in wet condenser 111.

Further, second dehumidifying component 13 includes being arranged side by side second to remove wet condenser 131 and the second evaporator 133, second evaporator 133 is arranged corresponding to the second air inlet, and described second is set to the second evaporator except wet condenser 131 133 backwards to the side of the second air inlet.

Specifically, second is identical with the incoming air area of the second evaporator 133 except wet condenser 131, and the second evaporator 133 Closer to the first air inlet, convenient for air when flowing through the second air duct 130, air heat release is coagulated on the second evaporator 133 Dew, dehumidifies to air, while refrigerant absorbs heat in the second evaporator 133, after air is by the second air duct 130, It flows through second and removes wet condenser 131, air absorbs heat, and refrigerant is second except releasing heat in wet condenser 131.

Further, described first except wet condenser 111 and second is except the integrated molding setting of wet condenser 131, described First evaporator 113 and the second evaporator 133 are integrally formed setting.

At this point, first removes 131 V-shaped setting of wet condenser, the first evaporator 113 and the except wet condenser 111 and second Two evaporators, 133 V-shaped setting, facilitates installation.

Further, the benefit wind cooling condenser 15 is arranged corresponding to the third air inlet.

Wherein, air, which flows through, mends wind cooling condenser 15, and air absorbs heat, and refrigerant releases heat in mending wind cooling condenser 15, This, which mends wind cooling condenser 15, can reduce complete machine power, improve dehumidifier efficiency.

Furthermore, it is necessary to which explanation, is based on above structure, benefit wind cooling condenser 15 is separately provided and has the advantage that：(1), it mends The area of wind cooling condenser 15 can be controlled arbitrarily, the heat exchange area needed for automatic adjustment refrigerant circulation component 10；(2), it is equivalent to First removes wind of the air quantity more than 113/ second evaporator 133 of the first evaporator of wet condenser 131 except wet condenser 111/ second Amount；(3), it is said from refrigerant heat exchange angle, under the action of Wind Volume, effectively reinforces first except wet condenser 111/ second is except clammy The heat exchange efficiency of condenser 131 promotes complete machine efficiency；(4), it is said from internal system heat exchange angle, is have benefit wind cooling condenser 15 In system, if mending 15 flow path of wind cooling condenser with the first of system itself except wet condenser 111/ second is except wet condenser 131 is gone here and there When connection, the high-temperature high-pressure refrigerant of compressor outlet should preferentially enter to mend in wind cooling condenser 15 carries out heat with ambient temperature air Exchange, yet further enter first except wet condenser 111/ second except in wet condenser 131 with pass through the first evaporator The air of 113/ second evaporator 133 cooling carries out heat exchange and avoids wasting to ensure the utilization rate of whole cold.

In the present embodiment, first except wet condenser 111, second is except wet condenser 131, the evaporation of the first evaporator 113, second Several heat exchange fins can be arranged in device 133 and benefit wind cooling condenser 15, to increase heat exchange area, improving heat exchanging efficiency.

Referring again to Fig. 1 and Fig. 2, the pedestal 50 is equipped with drip tray 51, and the drip tray 51 corresponds to described first Dehumidifying component 11 and the setting of the second dehumidifying component 13.

In the present embodiment, drip tray 51 is arranged relative to the first dehumidifying component 11 and the second dehumidifying component 13 so that this connects Water pond 51 can undertake the condensed water that the first dehumidifying component 11 and the second dehumidifying component 13 flow down, then extremely by the condensate water guide In water tank (not shown), so so that condensed water can be preferably guided in water tank.Level sensing can be equipped in the water tank to fill It sets, which connect with the main controller of dehumidifier 100, when the liquid level detection device detects that the water level in water tank reaches When to predetermined threshold value, alarm signal is transmitted to main controller, main controller sends out prompt tone or prompt message.In this way, user can be reminded Whether the water water conservancy diversion in water tank is gone out.The mode that water water conservancy diversion in water tank goes out can be two kinds：One is allowed in the setting of pedestal 50 Position mouth (not shown), dodge gate (not shown) is provided in the resigning mouthful, and water tank corresponds to resigning mouthful setting.By by dodge gate It opens, will take out from resigning mouthful water tank, and then outwell water.Another kind is setting outlet pipe, is arranged on the outlet pipe Valve controls the outflow of water by valve.The present embodiment is preferably by the way of resigning mouthful.

Further, the refrigerant circulation component 10 further includes compressor, the compressor, the first dehumidifying component 11, Interconnected pipeline is equipped in two dehumidifying components 13 and benefit wind cooling condenser 15, the pipeline is interior equipped with refrigerant, the refrigerant warp Flow direction is pressed again after mending wind cooling condenser 15, the first dehumidifying component 11 and the second dehumidifying component 13 successively after the compression of overcompression machine Contracting machine completes a refrigerant circulation process.

Furthermore, it is necessary to which explanation, is based on above structure, refrigerant circulation component 10 further includes throttling set and is used for Connect the first dehumidifying component 11, the second dehumidifying component 13 and 3 mend wind cooling condenser 15 pipeline, refrigerant is after compressor compresses At least one benefit wind cooling condenser 15 described in the refrigerant flow direction of high temperature and pressure is formed, the refrigerant of high temperature and pressure is on benefit wind cooling condenser 15 The first dehumidifying component 11 and the second dehumidifying component 13 are flowed to after preliminary cooling, by the first dehumidifying component 11 and the second dehumidifying group Compressor is flowed to again after the heat exchange of part 13, completes a refrigerant circulation process.

Further, the wind turbine 30 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 above is only the preferred embodiment of the present invention, and it does not limit the scope of the patent of the present invention, Under every utility model in the utility model is conceived, equivalent structure made based on the specification and figures of the utility model Transformation, or directly/be used in other related technical areas indirectly and be included in the scope of patent protection of the utility model.

Claims (10)

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

Refrigerant circulation component, the refrigerant circulation component is including the first dehumidifying component, the second dehumidifying component and mends wind cooling condenser, The both ends of second dehumidifying component are separately connected first dehumidifying component and mend wind cooling condenser, first dehumidifying component, Installation space has been collectively formed in second dehumidifying component and benefit wind cooling condenser, and first dehumidifying component is equipped with the first air duct, described Second dehumidifying component is equipped with the second air duct, and the benefits wind cooling condenser is equipped with third air duct, first air duct, the second air duct, the Three air ducts are connected to the installation space；

Wind turbine, the wind turbine are set in the installation space, and the air side of the wind turbine deviates from the refrigerant circulation component, will After extraneous air is via the first air duct, the second air duct, third air duct, flowed out by the air side of the wind turbine；And

Pedestal, first dehumidifying component, mend the surface company of wind cooling condenser and wind turbine with the pedestal at the second dehumidifying component It connects.

2. dehumidifier as described in claim 1, which is characterized in that first dehumidifying component, the second dehumidifying component, benefit are air-cooled Condenser and wind turbine are vertically installed in the bottom surface of the pedestal.

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

4. dehumidifier as described in claim 1, which is characterized in that the pedestal is equipped with drip tray, and the drip tray corresponds to First dehumidifying component and the setting of the second dehumidifying component.

5. dehumidifier as described in claim 1, which is characterized in that the refrigerant circulation component further includes compressor, the pressure It is equipped with interconnected pipeline in contracting machine, the first dehumidifying component, the second dehumidifying component and benefit wind cooling condenser, is equipped in the pipeline Refrigerant, the refrigerant is after compressor compresses successively after mending wind cooling condenser, the first dehumidifying component and the second dehumidifying component Compressor is flowed to again, completes a refrigerant circulation process.

6. such as dehumidifier described in any one of claim 1 to 5, which is characterized in that the dehumidifier further includes shell, the shell Body is arranged at intervals with the first air inlet, the second air inlet, third air inlet and air outlet, first air inlet, the second air inlet Mouth, third air inlet and air outlet are along the circumferentially distributed of the shell, and first air duct is connected to first air inlet, institute It states the second air duct to be connected to second air inlet, the third air duct is connected to the third air inlet, and the wind turbine goes out The air outlet setting is closed in wind side.

7. dehumidifier as claimed in claim 6, which is characterized in that first dehumidifying component includes arranged side by side first removing Wet condenser and the first evaporator, first evaporator are arranged corresponding to the first air inlet, and described first sets except wet condenser In the first evaporator backwards to the side of the first air inlet.

8. dehumidifier as claimed in claim 7, which is characterized in that second dehumidifying component includes that the second dehumidifying is arranged side by side Condenser and the second evaporator, second evaporator are arranged corresponding to the second air inlet, and described second is set to except wet condenser Second evaporator is backwards to the side of the second air inlet.

9. dehumidifier as claimed in claim 8, which is characterized in that described first removes wet condenser one except wet condenser and second Body formed setting, first evaporator and the second evaporator are integrally formed setting.

10. dehumidifier as claimed in claim 6, which is characterized in that the benefit wind cooling condenser corresponds to the third air inlet Setting.