CN207763140U - Dehumidifier - Google Patents
Dehumidifier Download PDFInfo
- Publication number
- CN207763140U CN207763140U CN201721826926.1U CN201721826926U CN207763140U CN 207763140 U CN207763140 U CN 207763140U CN 201721826926 U CN201721826926 U CN 201721826926U CN 207763140 U CN207763140 U CN 207763140U
- Authority
- CN
- China
- Prior art keywords
- condenser
- evaporator
- heat exchanger
- sensible heat
- air
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Landscapes
- Drying Of Gases (AREA)
Abstract
The utility model discloses a kind of dehumidifier, and the dehumidifier includes be interconnected at least two first evaporators for forming refrigerant circulation circuit, at least two second evaporators and at least one first condenser and the second condenser;At least two sensible heat exchangers are equipped between first condenser and the second condenser, each sensible heat exchanger is at least provided with the first air duct and the second air duct, and first air duct and the second air duct in the sensible heat exchanger in adjoining each other and be mutually not turned on;First air duct includes the first air intake vent and the first air outlet, and second air duct includes the second air intake vent and the second air outlet;The dehumidifier further includes at least one first wind turbine and the second wind turbine, one first wind turbine closes on the first condenser setting, one second wind turbine closes on second condenser, the not ipsilateral set on two sensible heat exchangers of one first evaporator and one second evaporator.It is intended to improve the dehumidifying effect and Energy Efficiency Ratio of dehumidifier.
Description
Technical field
The utility model is related to air dewetting technical field, more particularly to a kind of dehumidifier.
Background technology
Moist environment can be unfavorable for the activity of people, also be unfavorable for the storage and use of equipment and instrument, and dehumidifier can
To play the role of dry air, people or device activity is made to be operated in suitable humidity environment.Existing dehumidifier is general
Including evaporator and condenser, the two forms cooling cycle system.At work, evaporator is obtained less than surrounding air dew point
Evaporating temperature, when air passes through evaporator, air themperature is once reduced to dew-point temperature hereinafter, will condense out in air
Moisture, then by the condensed low temperature and low humidity air of evaporator by condenser, condenser is by internal high temperature and pressure refrigeration
Agent gas is transported to indoor environment again after heating air, avoids influence of the Cryogenic air to environment.However, evaporator is only arranged
The dehumidifier formed with condenser, efficiency is relatively low in the process of refrigeration, especially lower in outdoor temperature, existing
The dehumidifying effect decaying of some dehumidifiers is apparent.
Utility model content
The main purpose of the utility model is to provide a kind of dehumidifier, it is intended to improve the dehumidification efficiency and dehumidifying energy of dehumidifier
Power.
To achieve the above object, the utility model proposes dehumidifier, the dehumidifier include be interconnected form refrigerant
At least two first evaporators of circulation loop, at least two second evaporators, at least one first condenser and the second condenser;
At least two sensible heat exchangers, each sensible heat exchanger are equipped between first condenser and the second condenser
At least provided with the first air duct and the second air duct, first air duct and the second air duct adjoin each other in the sensible heat exchanger
And it is mutually not turned on;
First air duct includes the first air intake vent and the first air outlet, and second air duct includes the second air intake vent and the
Two air outlets;The dehumidifier further includes that at least one first wind turbine and the second wind turbine, first wind turbine closes on one described
One condenser is arranged, and second wind turbine closes on second condenser;
First air intake vent of one first evaporator the cover, one sensible heat exchanger, one second evaporator the cover, one sensible heat exchanger
Another another sensible heat exchanger of first evaporator the cover of the second air outlet the first air outlet, another second evaporator the cover is another
Second air intake vent of one sensible heat exchanger;
One first wind turbine is blown out after extraneous air is passed sequentially through the second air duct, the second evaporator and the second condenser,
Also, extraneous air is also passed sequentially through another second evaporator, another second air duct and another by the first wind turbine
It is blown out after second condenser;
Extraneous air is passed sequentially through the first evaporator, the first air duct and the first condenser and blown out by one second wind turbine,
Also, extraneous air is also passed sequentially through another first air duct, another first evaporator, another first by the second wind turbine
Condenser is blown out;
Or, the first air outlet of one first evaporator the cover, one sensible heat exchanger, one second evaporator the cover, one sensible heat is handed over
Second air intake vent of parallel operation, the first air intake vent of another another sensible heat exchanger of first evaporator the cover, another second evaporator
Second air outlet of another sensible heat exchanger of the cover;
One first wind turbine is blown out after extraneous air is passed sequentially through the second evaporator, the second air duct and the first condenser;
Also, extraneous air is also passed sequentially through another second air duct, another second evaporator and first by the first wind turbine
It is blown out after condenser;
Extraneous air is passed sequentially through the first air duct, the first evaporator, the blowout of the second condenser by one second wind turbine,
Also, extraneous air is also passed sequentially through another first evaporator, another first air duct and second by the second wind turbine
Condenser is blown out.
Optionally, first wind turbine is set between first condenser and the sensible heat exchanger, second wind
Machine is set between second condenser and the sensible heat exchanger;
Or, first condenser is set between first wind turbine and the sensible heat exchanger, second condenser
Between second wind turbine and the sensible heat exchanger;
Or, first wind turbine is set between first condenser and the sensible heat exchanger, second condenser
Between second wind turbine and the sensible heat exchanger;
Or, first condenser is set between first wind turbine and the sensible heat exchanger, second wind turbine is set
Between second condenser and the sensible heat exchanger.
Optionally, when the first air intake vent of one first evaporator the cover, one sensible heat exchanger, one second evaporator the cover one
Second air outlet of sensible heat exchanger, the first air outlet of another another sensible heat exchanger of first evaporator the cover, another second
When the second air intake vent of another sensible heat exchanger of evaporator the cover;
And when first condenser is set between first wind turbine and the sensible heat exchanger, the dehumidifier packet
At least two first condensers are included, one first condenser is arranged adjacent to one second evaporator, and is located at second evaporator
Away from the side of second air intake vent;Second air outlet of another another sensible heat exchanger of first condenser the cover;And/or
And when second condenser is set between second wind turbine and the sensible heat exchanger, the dehumidifier packet
At least two second condensers are included, the first air outlet of one second condenser the cover, one sensible heat exchanger, another second is cold
Condenser is arranged adjacent to another first evaporator, and deviates from the side of first air intake vent positioned at first evaporator.
Optionally, when the first air outlet of one first evaporator the cover, one sensible heat exchanger, one second evaporator the cover one
Second air intake vent of sensible heat exchanger, the first air intake vent of another another sensible heat exchanger of first evaporator the cover, another second
When the second air outlet of another sensible heat exchanger of evaporator the cover;
And when first condenser is set between first wind turbine and the sensible heat exchanger, the dehumidifier includes
At least two first condensers, the second air outlet of one first condenser the cover, one sensible heat exchanger, another first condenser
Neighbouring another second evaporator is arranged, and deviates from the side of second air intake vent positioned at second evaporator;And/or
And when second condenser is set between second wind turbine and the sensible heat exchanger;The dehumidifier packet
At least two second condensers are included, one second condenser is arranged adjacent to one first evaporator, and is located at first evaporator
Away from the side of first air intake vent;First air outlet of another another sensible heat exchanger of second condenser the cover.
Optionally, the dehumidifier is additionally provided with an at least wind-supplying mouth, and a benefit wind cooling condenser, the benefit are provided at a wind-supplying mouth
Wind cooling condenser is connected to the refrigerant circulation circuit, and extraneous air from after wind-supplying mouth sucking, is passed through benefit wind by the wind turbine
It is blown out after condenser.
Optionally, the quantity of the wind-supplying mouth is at least two, the quantity also at least two for mending wind cooling condenser, two
The wind-supplying mouth is oppositely arranged.
Optionally, the quantity of the wind-supplying mouth is four, and the quantity for mending wind cooling condenser is also four, the two benefit wind
The opposite both sides for being set to first wind turbine of mouth, the opposite both sides for being set to second wind turbine of two wind-supplying mouths.
Optionally, two sensible heat exchangers are symmetrical set.
Optionally, first evaporator, the second evaporator and condenser are that fin-tube heat exchanger or microchannel are changed
Hot device.
Optionally, the water tank that the dehumidifier is additionally provided with drip tray and is connected to the drip tray, the drip tray correspond to institute
State the first evaporator and the setting of the second evaporator.
The dehumidifier of technical solutions of the utility model is specifically with two sensible heat exchangers when carrying out dehumidification work
Example, when the first wind turbine and the startup of the second wind turbine,
Under the driving effect of the first wind turbine, first strand of extraneous air enters a sensible heat exchanger by the second air intake vent,
By after the second air duct of sensible heat exchanger precooling (reach in advance saturation state or close to saturation state) from the second air outlet
After flowing through one second evaporator cool-down dehumidification;With after the second evaporator cool-down dehumidification, then through the second wind of another sensible heat exchanger
Second strand of extraneous air of the second air outlet outflow in road, is blown out to indoor environment after the heating of the first condenser together;
Under the driving effect of the second wind turbine, third stock extraneous air is after the first evaporator cool-down dehumidification, then through
One air intake vent enters the first air duct of a sensible heat exchanger after the outflow of the first air outlet, enters another Exchange of apparent heat with passing through
Device, by the first air duct of another sensible heat exchanger precooling (reach in advance saturation state or close to saturation state) from the first outlet air
The 4th strand of extraneous air after mouth outflow, is blown out to indoor environment after the second condenser heating treatment together.
The technical program is being set as at least with four roads air inlet and at least by way of two-way outlet air, on the one hand due to extremely
Few four roads air inlet, intake is larger, increases the air quantity of evaporator and condenser, has notable work to promoting dehumidifier and Energy Efficiency Ratio
With, on the other hand due at least two-way outlet air, air output is larger, and the air inlet and air outlet of different directions can be arranged, with
Have the characteristics that multiple angle air inlet and the outlet, so that effect on moisture extraction is good, simultaneously as at least two of the application setting
Sensible heat exchanger effect (because the first air duct and the second air duct adjoin each other in sensible heat exchanger and are mutually not turned on, the first wind
The air of high temperature and humidity in road is influenced by the air of the low temperature and low humidity in the second air duct, the two progress heat exchange, and first
The temperature of the air of high temperature and humidity in air duct is lowered, and reaches saturation state in advance or close to saturation state) so that by every
The air of one first evaporator or every one second evaporator is pre-chilled in advance, has saved refrigerating capacity so that moisture removal is further able to
It is promoted, realizes the double goal of high dehumidifying effect and high energy efficiency ratio.
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 structural schematic diagram of the first embodiment of the utility model dehumidifier;
Fig. 2 is the structural schematic diagram of the second embodiment of the utility model dehumidifier;
Fig. 3 is the structural schematic diagram of the 3rd embodiment of the utility model dehumidifier;
Fig. 4 is the structural schematic diagram of the fourth embodiment of the utility model dehumidifier;
Fig. 5 is the structural schematic diagram of the 5th embodiment of the utility model dehumidifier;
Fig. 6 is the structural schematic diagram of the sixth embodiment of the utility model dehumidifier;
Fig. 7 is the structural schematic diagram of the 7th embodiment of the utility model dehumidifier;
Fig. 8 is the structural schematic diagram of the 8th embodiment of the utility model dehumidifier;
Fig. 9 is the structural schematic diagram of the 9th embodiment of the utility model dehumidifier;
Figure 10 is the structural schematic diagram of the tenth embodiment of the utility model dehumidifier;
Figure 11 is the structural schematic diagram of the 11st embodiment of the utility model dehumidifier;
Figure 12 is the structural schematic diagram of the 12nd embodiment of the utility model dehumidifier;
Figure 13 is the structural schematic diagram of the 13rd embodiment of the utility model dehumidifier;
Figure 14 is the structural schematic diagram of the 14th embodiment of the utility model dehumidifier;
Figure 15 is the structural schematic diagram of the 15th embodiment of the utility model dehumidifier;
Figure 16 is the structural schematic diagram of the 16th embodiment of the utility model dehumidifier;
Figure 17 is the structural schematic diagram of the 17th embodiment of the utility model dehumidifier;
Figure 18 is the structural schematic diagram of the 18th embodiment of the utility model dehumidifier.
Drawing reference numeral explanation:
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 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 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.In addition, the skill between each embodiment
Art scheme can be combined with each other, but must can be implemented as basis with those of ordinary skill in the art, when technical solution
It will be understood that the combination of this technical solution is not present in conjunction with there is conflicting or cannot achieve when, also not in the utility model
It is required that protection domain within.
The utility model proposes a kind of dehumidifiers 100.
Referring to figs. 1 in the utility model embodiment, the dehumidifier 100 includes being interconnected to form refrigerant circulation
At least two first evaporators 10 in circuit, at least two second evaporators 30, at least one first condenser 40 and at least one second
Condenser 50;
At least two sensible heat exchangers 70, each sensible heat are equipped between first condenser, 40 and second condenser 50
Exchanger 70 is at least provided with the first air duct 71 and the second air duct 73, and first air duct, 71 and second air duct 73 is in described aobvious
It adjoins each other in heat exchanger 70 and is mutually not turned on;
First air duct 71 includes the first air intake vent 711 and the first air outlet 713, and second air duct 73 includes the
Two air intake vents 731 and the second air outlet 733;The dehumidifier 100 further includes at least one first wind turbine 80 and the second wind turbine 90, and one
First wind turbine 80 closes on first condenser 40 and is arranged, and second wind turbine 90 closes on second condenser
50;
First air intake vent 711 of one first evaporator, 10 the cover, one sensible heat exchanger 70, one second evaporator, 30 the cover one
Second air outlet 733 of sensible heat exchanger 70, the first air outlet of another sensible heat exchanger of another first evaporator, 10 the cover 70
713, the second air intake vent 731 of another sensible heat exchanger of another second evaporator, 30 the cover 70;
Extraneous air is passed sequentially through the second air duct 73, the second evaporator 30 and the second condenser 50 by one first wind turbine 80
After blow out,
Also, the first wind turbine 80 also by extraneous air pass sequentially through another second evaporator 30, another second air duct 73, with
And it is blown out after another second condenser 50;
Extraneous air is passed sequentially through the first evaporator 10, the first air duct 71 and the first condenser by one second wind turbine 90
40 blowouts,
Also, extraneous air is also passed sequentially through another first air duct 71, another first evaporator 10, another by the second wind turbine 90
One first condenser 40 is blown out;
Or, the first air outlet 713 of one first evaporator, 10 the cover, one sensible heat exchanger 70, one second evaporator, 30 the cover
Second air intake vent 731 of one sensible heat exchanger 70, the first inlet air of another sensible heat exchanger of another first evaporator, 10 the cover 70
Mouthfuls 711, the second air outlet 733 of another sensible heat exchanger of another second evaporator, 30 the cover 70;
Extraneous air is passed sequentially through the second evaporator 30, the second air duct 73 and the first condenser by one first wind turbine 80
It is blown out after 40;
Also, the first wind turbine 80 also by extraneous air pass sequentially through another second air duct 73, another second evaporator 30 with
And first blow out after condenser 40;
Extraneous air is passed sequentially through the first air duct 71 by one second wind turbine 90, the first evaporator 10, the second condenser 50 are blown
Go out,
Also, the second wind turbine 90 also by extraneous air pass sequentially through another first evaporator 10, another first air duct 71, with
And second condenser 40 blow out.
The dehumidifier 100 of technical solutions of the utility model is when carrying out dehumidification work, specifically with two sensible heat exchangers
For 70, when the first wind turbine 80 and the startup of the second wind turbine 90,
Embodiment one:Under the driving effect of the first wind turbine 80, first strand of extraneous air (first gang of air stream 71a) warp
It crosses the second air intake vent 731 and enters a sensible heat exchanger 70, (reached in advance by the second air duct 73 precooling of the sensible heat exchanger 70
Saturation state or close to saturation state) after after the second air outlet 733 flows through one second evaporator, 30 cool-down dehumidification;With by setting
The second air duct 73 after 30 cool-down dehumidification of the second evaporator of another sensible heat exchanger 70, then through another sensible heat exchanger 70
The second air outlet 733 outflow second strand of extraneous air (second gang of air stream 72a), together pass through the first condenser 40 heat up
After be blown out to indoor environment;
Under the driving effect of the second wind turbine 90, third stock extraneous air (third stock air stream 73a) is by the first evaporation
After 10 cool-down dehumidification of device, then through the first air intake vent 711 enter the first air duct 71 of a sensible heat exchanger 70 from the first air outlet 713
After outflow, with by entering another sensible heat exchanger 70, (reached in advance by the first air duct 71 precooling of another sensible heat exchanger 70
To saturation state or close to saturation state) after the outflow of the first air outlet 713, the after 10 cool-down dehumidification of the first evaporator the 4th
Stock extraneous air (the 4th gang of air stream 74a), is blown out to indoor environment after 50 heating treatment of the second condenser together.
Embodiment two:Under the driving effect of the first wind turbine 80, first strand of extraneous air (first gang of air stream 71a) warp
After crossing 30 cool-down dehumidification of the second evaporator, then second air intake vent 731 in the second air duct 73 through a sensible heat exchanger 70 enters to
Sensible heat exchanger 70, then after the blowout of second air outlet 733 in the second air duct 73 of the sensible heat exchanger 70, and by another
Second air intake vent 731 in the second air duct 73 of one sensible heat exchanger 70 enters to the sensible heat exchanger 70, passes through the Exchange of apparent heat
The precooling of device 70 (reach in advance saturation state or close to saturation state), and pass through the second air duct 73 of the sensible heat exchanger 70 the
Two air outlets 733 flow out to the second evaporator 30 set on the sensible heat exchanger 70, pass through 30 cool-down dehumidification of the second evaporator
The second strand of extraneous air (second gang of air stream 72a) flowed out afterwards is blown out to interior after the heating of the first condenser 40 together
Environment;
Under the driving effect of the second wind turbine 90, third stock extraneous air (third stock air stream 73a) is by the first evaporation
After 10 cool-down dehumidification of device, then first air intake vent 711 in the first air duct 71 through a sensible heat exchanger 70 enters to the Exchange of apparent heat
Device 70 and passes through another Exchange of apparent heat after the first air outlet 713 outflow in the first air duct 71 of the sensible heat exchanger 70
First air intake vent 711 in the first air duct 71 of device 70 enters to the sensible heat exchanger 70, (is carried by the sensible heat exchanger 70 precooling
Before reach saturation state or close to saturation state), flowed out from first air outlet 713 in the first air duct 71 of the sensible heat exchanger 70
The 4th strand of extraneous air (the 4th gang of air stream 74a), be blown out to indoor environment after 50 heating treatment of the second condenser together.
Wherein, embodiment one and embodiment two difference lies in:At least two first evaporators 10 and the second evaporator
30 position setting is different;By taking two sensible heat exchangers 70 as an example, specially:One first evaporator 10 setting of embodiment one exists
First air intake vent 711, the setting of one second evaporator 30 are arranged in the second air outlet 733, another 1 first evaporator 10 first
Air outlet 713, another 1 second evaporator 30 are arranged in the second air intake vent 713;And the first evaporator 10 of embodiment two is set
It sets in the first air outlet 713, the setting of the second evaporator 30 is in the second air intake vent 713, and the setting of another 1 first evaporator 10 is the
One air intake vent 711, another 1 second evaporator 30 are arranged in the second air outlet 733.
The technical program is being set as at least with four roads air inlet and at least by way of two-way outlet air, on the one hand due to this
The dehumidifier 100 that utility model proposes is entered the wind at least four tunnels, and intake is larger, increases the wind of evaporator and condenser
Amount has remarkable effect to promoting dehumidifier 100 and Energy Efficiency Ratio, on the other hand due to the utility model proposes the tool of dehumidifier 100
Have at least two-way outlet air, air output is larger, and the air inlet and air outlet of different directions can be arranged, with multiple angles into
The characteristics of wind and outlet air, so that effect on moisture extraction is good, simultaneously as at least two sensible heat exchangers 70 of the application setting
Effect is (because the first air duct 71 and the second air duct 73 adjoin each other in sensible heat exchanger 70 and are mutually not turned on, in the first air duct 71
The air of high temperature and humidity influenced by the air of the low temperature and low humidity in the second air duct 73, the two carries out heat exchange, the first wind
The temperature of the air of high temperature and humidity in road 71 is lowered, and reaches saturation state in advance or close to saturation state) so that by every
The air of one first evaporator 10 or every one second evaporator 30 is pre-chilled in advance, has saved every 1 first evaporator 10 or every 1
The refrigerating capacity of two evaporators 30 so that moisture removal is further promoted, and the dual of high dehumidifying effect and high energy efficiency ratio is realized
Target.
It is to be appreciated that the dehumidifier 100 of the application can also include above-mentioned the first evaporator 10 of shell (not shown),
Second evaporator 30, condenser 50, sensible heat exchanger 70 are arranged in the shell, and baffle assembly is additionally provided in the shell
(not shown) so that two sensible heat exchangers 70 can form independent chamber, prevent between two sensible heat exchangers 70
Air-flow generates the case where play.Also, it is understood that shell corresponds to the first air duct 71 and the second air duct 73 setting air enters
Mouthful, air outlet slit is arranged in corresponding condenser 50, in this way, passing through the shell so that the installation of all parts of dehumidifier 100 and sets
It sets all more convenient.Shell can be used plastic material and is made up of injection molding manner production, and dismountable shell structure can be used,
I.e. polylith divides shell splicing assembling to form shell.Round, rectangular, regular polygon or other irregular shapes can be used in the shape of shell
Shape.It is understood that damper assemblies can also be arranged in the air intlet and air outlet slit of the shell, in this way, accurately controlling
The opening and closing in air duct.
Certainly, it needs to know, shell can also be not provided with, installed by way of modularization assemble above-mentioned each
Component, each component are respectively formed an overall part, can also realize the technical solution of the application.
In the present embodiment, it is also understood that ground, the first evaporator 10 and the second evaporator 30, the first condenser 40 and
Identical evaporator, condenser and wind turbine may be used with the second wind turbine 90 in two condensers 50 and the first wind turbine 80, when
Different evaporators, condenser and wind turbine can also so be used;Such as power, size, model identical can also be different,
This is no longer going to repeat them.
The application can also be arranged compressor (not shown), the compressor and the first evaporator 10, the second evaporator 30, cold
Condenser 50 connects to form refrigerant circulation circuit by throttle part and pipe-line system, which can be arranged and the first evaporation
Device 10, the second evaporator 30 and condenser 50 are mounted in same housing, and a dehumidifier 100 is collectively formed, can also adopt
With the multi-line system of similar central air-conditioning, a compressor drives multiple dehumidifiers 100.
The operation principle of the sensible heat exchanger 70 of the embodiment of the application is:Sensible heat exchanger 70 is a kind of only conducts heat not
The heat exchanger of mass transfer, two bursts of air fluids submission fork modes flow through heat exchange core body, the first air duct 71 and the second air duct when work
By divides between 73, there are the temperature difference, two fluids occurs heat by demarcation strip and hands over demarcation strip both sides two fluids
It changes, completes diabatic process.Demarcation strip is plate, sheet, and dividing part should not have any through hole, only occur
Heat exchange, no mass transter;Its material can be plastics, metal, but not limited to this two kinds of materials.70 shape of sensible heat exchanger include but
It is not limited to positive gengon, can be the various obform bodies of other even number of sides.
First evaporator 10, the second evaporator 30 and condenser 50 are fin-tube heat exchanger or micro-channel heat exchanger.
The evaporator (the first evaporator 10 or the second evaporator 30) of the embodiment of the application:By refrigerant circulation circuit
In low-temperature low-pressure refrigerant evaporation absorb heat, will by evaporator air in hydrogenesis come out, reach dehumidifying
Purpose.Fin-tube heat exchanger or micro-channel heat exchanger can be used in the evaporator.For fin-tube heat exchanger when, can take multiple rows of
Cloth form of tubes, it is generally preferable to which 1~4 row, the preferred 4mm~10mm of caliber, fin type preferably open a window piece, the preferred 1.2mm of a pitch of fins
~1.6mm.The fin-tube heat exchanger of such setting can to greatest extent pass through under the premise of saving installation space and material
Air carries out sufficient heat exchange with air.For micro-channel heat exchanger when, it is generally preferable to 1~2 row, the preferred 8mm of flat tube width~
20mm, the preferred 1.2mm~2.0mm of thickness, a pitch of fins preferably 1.1~1.4mm.Heat exchange can be improved in the micro-channel heat exchanger of such setting
Efficiency.
The condenser 50 of the embodiment of the application:By the refrigerant gas of the high temperature and pressure in refrigerant circulation circuit,
The low temperature and low humidity air heating of condenser 50 will be flowed through, reaches the purpose of re-heat air, reduce dehumidification process to environment temperature
It influences.Fin-tube heat exchanger, micro-channel heat exchanger can be used in the condenser 50.For fin-tube heat exchanger when, can take more
It arranges form of tubes, it is generally preferable to which 1~6 row, the preferred 4mm~7mm of caliber, fin type preferably open a window piece, the preferred 1.2mm of a pitch of fins
~1.6mm.For micro-channel heat exchanger when, it is generally preferable to 1~2 row, the preferred 8mm~16mm of flat tube width, the preferred 1.2mm of thickness
~2.0mm, a pitch of fins preferably 1.1~1.4mm.The advantageous effect of the setting of the condenser 50 is similar to evaporator, does not do herein superfluous
It states.
In the present embodiment, in the above embodiment one, according to the first wind turbine 80, the second wind turbine 90, the first condenser
40 and second the opposite position of condenser 50 transformation, namely combine following four kinds of embodiments generate picture 1-4 in four
Kind embodiment:
First wind turbine 80 is set between first condenser 40 and the sensible heat exchanger 70, second wind turbine
90 are set between second condenser 50 and the sensible heat exchanger 70;
Or, first condenser 40 is set between first wind turbine 80 and the sensible heat exchanger 70, described second
Condenser 50 is set between second wind turbine 90 and the sensible heat exchanger 70;
Or, first wind turbine 80 is set between first condenser 40 and the sensible heat exchanger 70, described second
Condenser 50 is set between second wind turbine 90 and the sensible heat exchanger 70;
Or, first condenser 40 is set between first wind turbine 80 and the sensible heat exchanger 70, described second
Wind turbine 90 is set between second condenser 50 and the sensible heat exchanger 70.
Further, in the above embodiment two, according to the first wind turbine 80, the second wind turbine 90, the first condenser 40 and
The transformation of the second opposite position of condenser 50, namely following four kinds of embodiments is combined to generate such as four kinds of implementations in Fig. 5-8
Example:
First wind turbine 80 is set between first condenser 40 and the sensible heat exchanger 70, second wind turbine
90 are set between second condenser 50 and the sensible heat exchanger 70;
Or, first condenser 40 is set between first wind turbine 80 and the sensible heat exchanger 70, described second
Condenser 50 is set between second wind turbine 90 and the sensible heat exchanger 70;
Or, first wind turbine 80 is set between first condenser 40 and the sensible heat exchanger 70, described second
Condenser 50 is set between second wind turbine 90 and the sensible heat exchanger 70;
Or, first condenser 40 is set between first wind turbine 80 and the sensible heat exchanger 70, described second
Wind turbine 90 is set between second condenser 50 and the sensible heat exchanger 70.
It, can only setting one the it is to be appreciated that at this point, according to the dehumidifier of eight kinds of embodiments in Fig. 1-8
One condenser 40 and second condenser 50.Each sensible heat exchanger 70 is steamed via the first evaporator 10 and second at this time
Air after the hair dehumidifying of device 30, which flows through after same condenser 50 is heated up, to be returned in indoor environment, the knot of such dehumidifier
Structure can be arranged more compact, easy for installation.
Wherein it is possible to increase the heat exchange area of condenser (the first condenser 40 and the second condenser 50) to reduce system
Power, to reach the target for improving efficiency.It certainly can be with:
When the first air intake vent 711 of one first evaporator, 10 the cover, one sensible heat exchanger 70, one second evaporator, 30 the cover
Second air outlet 733 of one sensible heat exchanger 70, the first outlet air of another sensible heat exchanger of another first evaporator, 10 the cover 70
Mouthfuls 713, when the second air intake vent 731 of another sensible heat exchanger of another second evaporator, 30 the cover 70;
It is described to remove and when first condenser 40 is set between first wind turbine 80 and the sensible heat exchanger 70
Wet machine includes at least two first condensers 40, and one first condenser 40 is arranged adjacent to one second evaporator 30, and is located at institute
State the side that the second evaporator 30 deviates from second air intake vent 731;Another sensible heat exchanger of another first condenser, 40 the cover
The second air outlet 733;And/or
It is described to remove and when second condenser 50 is set between second wind turbine 90 and the sensible heat exchanger 70
Wet machine includes at least two second condensers 50, the first air outlet of one second condenser, 50 the cover, one sensible heat exchanger
713, another second condenser 50 is arranged adjacent to another first evaporator 10, and positioned at first evaporator 10 away from described the
The side of one air intake vent 711.
Further, when the first air outlet 713 of one first evaporator, 10 the cover, one sensible heat exchanger 70, one second evaporation
Second air intake vent 731 of 30 the cover of device, one sensible heat exchanger 70, another sensible heat exchanger of another first evaporator, 10 the cover 70
First air intake vent 711, when the second air outlet 733 of another sensible heat exchanger of another second evaporator, 30 the cover 70;
And work as first condenser 40 and be set between first wind turbine 80 and the sensible heat exchanger 70, the dehumidifying
Machine include at least two first condensers 40, the second air outlet 733 of one first condenser, 40 the cover, one sensible heat exchanger 70,
Another first condenser 40 is arranged adjacent to another second evaporator 30, and enters away from described second positioned at second evaporator 30
The side in air port 731;And/or
And when second condenser 50 is set between second wind turbine 90 and the sensible heat exchanger 70;It is described to remove
Wet machine includes at least two second condensers 50, and one second condenser 50 is arranged adjacent to one first evaporator 10, and is located at institute
State the side that the first evaporator 10 deviates from first air intake vent 711;Another sensible heat exchanger of another second condenser, 50 the cover
70 the first air outlet 713.
It is to be appreciated that in Fig. 9-18, Fig. 9 and Figure 10 are that the first condenser 40 is provided at least two, and one first is cold
Condenser 40 is separately positioned on the not ipsilateral of a sensible heat exchanger 70, and the second condenser 50 is arranged at least one, and one second is cold
Condenser 50 corresponds to two sensible heat exchangers 70 and is arranged;
Fig. 9's and Figure 10 is distinguished as:The position of second condenser 50 is different:The second condenser 50 setting in Fig. 9 is the
Two wind turbines 90 are arranged away from the side of sensible heat exchanger 70 namely the second wind turbine 90 in sensible heat exchanger 70 and the second condenser 50
Between.
Figure 11 is that the first condenser 40 and the second condenser 50 are both provided at least two, one first condenser 40 and second
The not ipsilateral on a sensible heat exchanger 70 is respectively arranged in condenser 50;
Figure 12 and Figure 13 is that the second condenser 50 is provided at least two, and one second condenser 50 is separately positioned on a sensible heat
On the not ipsilateral of exchanger 70, at least one, one first condenser 40, two Exchange of apparent heat of correspondence are arranged in the first condenser 40
Device 70 is arranged;
Figure 12 and Figure 13 are distinguished as:The position of first condenser 40 is different:The first condenser 40 setting in Figure 12 is the
One wind turbine 80 is arranged away from the side of sensible heat exchanger 70 namely the first wind turbine 80 in sensible heat exchanger 70 and the first condenser 40
Between.
Wherein, Figure 14-18 and Fig. 9-12 is identical, difference lies in:Fig. 9-12 is to be based on setting on the basis of embodiment one
It sets, namely based on the setting of one first evaporator 10 in the first air outlet 713, one second evaporator 30 is arranged in the second air intake vent
Five kinds of embodiments of transformation formation, and Figure 14-are carried out on the basis of 731 to the position of the first condenser 40 and the second condenser 50
18 are arranged in the first air intake vent 711, the setting of the second evaporator 30 based on embodiment two, namely based on the first evaporator 10
The position of pair the first condenser 40 and the second condenser 50 carries out five kinds of realities of transformation formation on the basis of the second air outlet 733
Apply example.
Further, be based on above-mentioned 18 kinds of embodiments on the basis of, the utility model proposes dehumidifier can also pass through
Increase by two aspect of intake of condenser to reduce the power of system, to reach the target for improving efficiency.
Specific design is as follows:Dehumidifier 100 is additionally provided with an at least wind-supplying mouth, and it is air-cooled solidifying that a benefit is provided at a wind-supplying mouth
Device, the benefit wind cooling condenser are connected to the refrigerant circulation circuit, the wind turbine 90 by extraneous air from the wind-supplying mouth sucking after,
By being blown out after mending wind cooling condenser.
At this point, the principle of refrigerant circulation is:The refrigerant that refrigerant forms high temperature and pressure after compressor compresses is (cold at this time
Matchmaker is theoretically gas) flow direction benefit wind cooling condenser, the refrigerant of high temperature and pressure is after mending the cooling that tentatively cools down above wind cooling condenser
Flow direction cools down again after the condenser 50 for dehumidifying, and then refrigerant passes through throttling set (refrigerant is theoretically liquid at this time) again
Flow to evaporator (the first evaporator 10 and the second evaporator 30).
Refrigerant carries out heat transfer with air on an evaporator, and refrigerant heat absorption makes air condensation, and refrigerant is also by liquid transition
For gas, refrigerant by flowing to compressor again after evaporator heat exchange.
The reason of wind cooling condenser, is mended in setting:The heat exchange area and required air quantity of the condenser 50 of dehumidifier 100 will be big
In evaporator, technology that existing dehumidifier 100 uses is exactly to thicken 50 component of condenser, but inefficient, and efficiency is low, air quantity
It can not increase.After more one piece of settings individually mend wind cooling condenser, automatic tune can arbitrarily be controlled by mending the area of wind cooling condenser
The heat exchange area needed for condenser 50 is saved, the wind that wind cooling condenser is more than evaporator plus the air quantity of the condenser 50 of system itself is mended
Amount.
Further, the quantity of the wind-supplying mouth is at least two, the quantity also at least two for mending wind cooling condenser,
Two wind-supplying mouths are oppositely arranged.It is mended that is, being all correspondingly arranged on a wind-supplying mouth and one at the position of each sensible heat exchanger 70
Wind cooling condenser can increase air quantity and heat exchange efficiency.
Further, the quantity of the wind-supplying mouth is four, and the quantity for mending wind cooling condenser is also four, two benefits
The opposite both sides for being set to first wind turbine in air port, the opposite both sides for being set to second wind turbine of two wind-supplying mouths.Specifically,
Two mend the opposite both sides for being set to the first wind turbine 80 of wind cooling condenser, and in addition two benefit wind cooling condensers are opposite is set to the two of the second wind turbine 90
Side, different runners can be formed with from the air-flow from sensible heat exchanger 70 by so mending the air-flow of wind, not done mutually between each air-flow
It disturbs, reduces the loss of air quantity, improve air output.
In the embodiment of the application, two sensible heat exchangers 70 are symmetrical set.By being in by two sensible heat exchangers 70
It is symmetrical arranged, the arrangement of sensible heat exchanger 70 can be made more reasonable, the setting of wind path is also more reasonable, reduces Exchange of apparent heat
Device 70 is integrally arranged the space occupied in dehumidifier 100.
Further, first air outlet 713 and another sensible heat exchanger 70 in the first air duct 71 of a sensible heat exchanger 70
First air outlet 713 in the first air duct 71 be symmetrical set.
In this way, two first air outlets 713 in two the first air ducts 71 are symmetrical set, the first air duct of extraneous air 71 is flowed
After going out, two strands of air can form confluence, blown out via wind turbine 90, can promote air output, reduce the loss of air quantity.
In the embodiment of the application, wind turbine 90 is axial flow blower, cross flow fan or centrifugal blower.The row of axial flow blower
Wind direction is in line along the direction of axis, and the air inlet and exhaust outlet of wind turbine are on an axis parallel lines;The wind of axial flow blower
It is smaller to measure wind pressure, does not have substantially wind pressure, axial flow blower appearance substantially cylindrical;The air draft direction of centrifugal blower is
Perpendicular to air inlet direction, 360 degree of assigned direction air drafts may be implemented;The airflow pressure of centrifugal blower 90 is all bigger, such as
Fruit is that channel bend is more, and exhausting distance and air supplying distance are all distant, preferable using centrifugal blower effect, the appearance of centrifugal blower
In snail like.The air-flow perfoliate-leaf wheel of cross flow fan flows, and by blade, power is acted on twice, thus air-flow can reach it is far away from
From no turbulent flow, because air-flow is forced to turn back in impeller, therefore head loss is larger, less efficient.Impeller rotate when, air-flow from
The impeller place of opening wide enters leaf grating, passes through impeller internal, and spiral case is discharged into from another side leaf grating, forms working air current.It therefore, can root
According to actual operative scenario and actual demand, above-mentioned wind turbine is selected.
In the present embodiment, it can also be set at first air inlet 711 and/or the first air outlet 713 in the first air duct 71
Set purification assembly;And/or second air duct 73 the second air inlet and/or the second air outlet 733 at be arranged purification assembly.That is,
By the purification assembly, it may make the dehumidifier 100 while having the function of purification and dehumidifying.Purification assembly includes being stacked
At least two layers of filtration, wherein a filtration be active carbon layer, another filtration be HEPA filter layer.
Active carbon adsorption is to utilize porous activated carbon, and one or more substances in air is made to be attracted to activated carbon
Surface and the method removed, removal object includes deliquescent organic substance, microorganism, virus and a certain amount of heavy metal, and
Can decolourize, deodorization, air purification.Activated carbon carbon lattice after overactivation forms the flourishing pore that shapes and sizes differ, greatly
It is big to increase specific surface area, improve adsorption capacity.HEPA (High efficiency particulate air Filter), in
The text meaning is high efficiency particle air filter, reaches the filter screen of HEPA standards, the effective percentage of 0.1 micron and 0.3 micron is reached
The characteristics of 99.7%, HEPA are netted, which is air, to be passed through, but tiny particle can not pass through.It is to a diameter of 0.3 micron
(the 1/200 of hair diameter) particle removal efficiency below can reach 99.97% or more, be the dirts such as smog, dust and bacterium
Contaminate the most effective filtering medium of object.HEPA divides PP filter paper, glass fibre, compound PP PET filter paper, melt-blown terylene non-woven fabric and melts
Spray five kinds of materials of glass fibre.Feature:Windage is big, and dust containing capacity is big, and filtering accuracy is high, can be processed into various sizes as needed
And shape, it is suitble to different types to use.By active carbon layer and HEPA filter layer, but the organic pollution of air and
Grain is all cleaned, and promotes the depuration quality of air.
Further, the water tank that dehumidifier 100 is additionally provided with drip tray (not shown) and is connected to the drip tray (is not schemed
Show), the drip tray corresponds to the setting of first evaporator, 10 and second evaporator 30.
By the way that drip tray the first evaporator 10 of correspondence and the second evaporator 30 are arranged so that the drip tray can undertake
The condensed water that first evaporator 10 and the second evaporator 30 flow down, then by the condensate water guide to water tank, so so that condensation
Water can be preferably guided in water tank.Liquid level detection device, the liquid level detection device and dehumidifier 100 can be equipped in the water tank
Main controller connects, and when the liquid level detection device detects that the water level in water tank reaches predetermined threshold value, transmits alarm signal to master
Device is controlled, 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.Water tank
In the mode that goes out of water water conservancy diversion can be two kinds:One kind is setting outlet pipe, and valve is arranged on the outlet pipe, is controlled by valve
The outflow of water processed.Another kind is that resigning mouthful (not indicating) is arranged on the shell of dehumidifier 100, and activity is provided in the resigning mouthful
Door, water tank correspond to resigning mouthful setting.By opening dodge gate, takes out from resigning mouthful by water tank, then outwell water.
Further, compressor and water tank can be located at the lower section of the first evaporator 10, and compressor is oppositely arranged with water tank.It will
Compressor is arranged in the lower section of the first evaporator 10, can facilitate the connection of pipeline, because water tank and compressor are heavier-weight
Water tank and compressor are arranged at the lower end of shell by component, and the placement of dehumidifier 100 may make more to stablize.Simultaneously by water
Case is oppositely arranged the placement arrangement space that can save enclosure interior with compressor so that the integral structure layout of dehumidifier 100 is more
Step up to gather.For convenience of moving dehumidifier 100.Can also wheel be set in the lower end of shell.
Atmosphere quality monitoring device (not shown) can also be arranged in the dehumidifier 100, concretely particle sensor, humidity
Sensor etc., atmosphere quality monitoring device are electrically connected with master control borad.In this way, intelligent measurement can be carried out to indoor air.
It is understood that the dehumidifier 100 can also be the part in home intelligent Internet of Things, such as the dehumidifier
100 are provided with signal transmitting apparatus, which wirelessly connects with mobile terminal (such as smart mobile phone, tablet computer)
It connects, the mode of the wireless connection can be WiFi, bluetooth, infrared or 4G, and by the signal transmitting apparatus, mobile terminal is acceptable
The monitoring data and working condition of dehumidifier 100 can control the operating mode of dehumidifier 100 by mobile terminal, meanwhile, this is removed
Wet machine 100 can also form air quality report, be sent to mobile terminal and checked for client.
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 the dehumidifier includes at least two for being interconnected and forming refrigerant circulation circuit
One evaporator, at least two second evaporators, at least one first condenser and the second condenser;
At least two sensible heat exchangers are equipped between first condenser and the second condenser, each sensible heat exchanger is extremely
It is equipped with the first air duct and the second air duct less, first air duct and the second air duct in the sensible heat exchanger in adjoining each other and mutually
It is not turned on;
First air duct includes the first air intake vent and the first air outlet, and second air duct goes out including the second air intake vent and second
Air port;The dehumidifier further includes at least one first wind turbine and the second wind turbine, and it is cold that first wind turbine closes on one described first
Condenser is arranged, and second wind turbine closes on second condenser;
First air intake vent of one first evaporator the cover, one sensible heat exchanger, the of one second evaporator the cover, one sensible heat exchanger
Two air outlets, the first air outlet of another another sensible heat exchanger of first evaporator the cover, another second evaporator the cover are another
Second air intake vent of sensible heat exchanger;
One first wind turbine is blown out after extraneous air is passed sequentially through the second air duct, the second evaporator and the second condenser,
Also, extraneous air is also passed sequentially through another second evaporator, another second air duct and another second by the first wind turbine
It is blown out after condenser;
Extraneous air is passed sequentially through the first evaporator, the first air duct and the first condenser and blown out by one second wind turbine,
Also, extraneous air is also passed sequentially through another first air duct, another first evaporator, another first condensation by the second wind turbine
Device is blown out;
Or, the first air outlet of one first evaporator the cover, one sensible heat exchanger, one second evaporator the cover, one sensible heat exchanger
The second air intake vent, the first air intake vent of another another sensible heat exchanger of first evaporator the cover, another second evaporator the cover
Second air outlet of another sensible heat exchanger;
One first wind turbine is blown out after extraneous air is passed sequentially through the second evaporator, the second air duct and the first condenser;
Also, extraneous air is also passed sequentially through another second air duct, another second evaporator and the first condensation by the first wind turbine
It is blown out after device;
Extraneous air is passed sequentially through the first air duct, the first evaporator, the blowout of the second condenser by one second wind turbine,
Also, extraneous air is also passed sequentially through another first evaporator, another first air duct and the second condensation by the second wind turbine
Device is blown out.
2. dehumidifier as described in claim 1, which is characterized in that first wind turbine be set to first condenser with it is described
Between sensible heat exchanger, second wind turbine is set between second condenser and the sensible heat exchanger;
Or, first condenser is set between first wind turbine and the sensible heat exchanger, second condenser is set to
Between second wind turbine and the sensible heat exchanger;
Or, first wind turbine is set between first condenser and the sensible heat exchanger, second condenser is set to
Between second wind turbine and the sensible heat exchanger;
Or, first condenser is set between first wind turbine and the sensible heat exchanger, second wind turbine is set to institute
It states between the second condenser and the sensible heat exchanger.
3. dehumidifier as claimed in claim 2, which is characterized in that
When the first air intake vent of one first evaporator the cover, one sensible heat exchanger, one second evaporator the cover, one sensible heat exchanger
Second air outlet, the first air outlet of another another sensible heat exchanger of first evaporator the cover, another second evaporator the cover are another
When the second air intake vent of one sensible heat exchanger;
And when first condenser is set between first wind turbine and the sensible heat exchanger, the dehumidifier includes extremely
Few two first condensers, one first condenser is arranged adjacent to one second evaporator, and deviates from positioned at second evaporator
The side of second air intake vent;Second air outlet of another another sensible heat exchanger of first condenser the cover;And/or
And when second condenser is set between second wind turbine and the sensible heat exchanger, the dehumidifier includes extremely
Few two second condensers, the first air outlet of one second condenser the cover, one sensible heat exchanger, another second condenser are adjacent
Nearly another first evaporator setting, and positioned at first evaporator away from the side of first air intake vent.
4. dehumidifier as claimed in claim 2, which is characterized in that when the first of one first evaporator the cover, one sensible heat exchanger
Air outlet, the second air intake vent of one second evaporator the cover, one sensible heat exchanger, another another sensible heat of first evaporator the cover are handed over
First air intake vent of parallel operation, when the second air outlet of another another sensible heat exchanger of second evaporator the cover;
And when first condenser is set between first wind turbine and the sensible heat exchanger, the dehumidifier includes at least
Two first condensers, the second air outlet of one first condenser the cover, one sensible heat exchanger, another first condenser are neighbouring
Another second evaporator setting, and positioned at second evaporator away from the side of second air intake vent;And/or
And when second condenser is set between second wind turbine and the sensible heat exchanger;The dehumidifier includes extremely
Few two second condensers, one second condenser is arranged adjacent to one first evaporator, and deviates from positioned at first evaporator
The side of first air intake vent;First air outlet of another another sensible heat exchanger of second condenser the cover.
5. the dehumidifier as described in any in claims 1 to 3, which is characterized in that the dehumidifier is additionally provided at least one benefit wind
Mouthful, it is provided with a benefit wind cooling condenser at a wind-supplying mouth, which is connected to the refrigerant circulation circuit, and the wind turbine will
Extraneous air is from after wind-supplying mouth sucking, by being blown out after mending wind cooling condenser.
6. dehumidifier as claimed in claim 5, which is characterized in that the quantity of the wind-supplying mouth is at least two, the benefit wind
The quantity of condenser also at least two, two wind-supplying mouths are oppositely arranged.
7. dehumidifier as claimed in claim 6, which is characterized in that the quantity of the wind-supplying mouth is four, described to mend air-cooled coagulate
The quantity of device is also four, and the opposite both sides for being set to first wind turbine of two wind-supplying mouths, two wind-supplying mouths are opposite to be set to
The both sides of second wind turbine.
8. the dehumidifier as described in any in claims 1 to 3, which is characterized in that two sensible heat exchangers are symmetrical set.
9. the dehumidifier as described in any in claims 1 to 3, which is characterized in that first evaporator, the second evaporator,
And first condenser and the second condenser be fin-tube heat exchanger or micro-channel heat exchanger.
10. the dehumidifier as described in any in claims 1 to 3, which is characterized in that the dehumidifier be additionally provided with drip tray and with
The water tank of drip tray connection, the drip tray correspond to first evaporator and the setting of the second evaporator.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721826926.1U CN207763140U (en) | 2017-12-22 | 2017-12-22 | Dehumidifier |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721826926.1U CN207763140U (en) | 2017-12-22 | 2017-12-22 | Dehumidifier |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207763140U true CN207763140U (en) | 2018-08-24 |
Family
ID=63187996
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201721826926.1U Active CN207763140U (en) | 2017-12-22 | 2017-12-22 | Dehumidifier |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN207763140U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107940621A (en) * | 2017-12-22 | 2018-04-20 | 广东美的制冷设备有限公司 | Dehumidifier |
-
2017
- 2017-12-22 CN CN201721826926.1U patent/CN207763140U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107940621A (en) * | 2017-12-22 | 2018-04-20 | 广东美的制冷设备有限公司 | Dehumidifier |
CN107940621B (en) * | 2017-12-22 | 2024-04-26 | 广东美的制冷设备有限公司 | Dehumidifier |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN101876469B (en) | Heat pump coupling contraflow type liquid-desiccant central ventilation system and control method thereof | |
CN108151176A (en) | Dehumidifier | |
CN201582927U (en) | Coupling counterflow-type solution dehumidification fresh air system of heat pump | |
CN100432554C (en) | Air conditioner | |
CN102705920A (en) | Double-cold-source heat pump total heat recovery humidity regulating and temperature controlling fresh air unit and control method thereof | |
CN102395854A (en) | Heat exchanger and air conditioner having the heat exchanger mounted therein | |
CN102519096A (en) | Heat pump type total heat recovering fresh air treating machine | |
CN102589059A (en) | Double-effect heat-pump type total-heat recovery fresh air processor | |
CN102705921A (en) | Heat pump driven rotating wheel dehumidification and regeneration type air treatment unit | |
CN102635905A (en) | Combined heat pump type low-temperature total heat recovery fresh air handling unit with regeneration rotating wheel for dehumidification | |
CN102635906A (en) | Heat pump regeneration rotating wheel type total heat recovery humidity-adjusting and temperature-controlling fresh air handling unit and control method thereof | |
CN202719696U (en) | Dehumidification and regeneration type air treating machine set with rotating wheel driven by heat pump | |
CN105276736A (en) | Heat pump type total heat recovery new-air air conditioning unit with condensation reheating function | |
CN201047646Y (en) | Heat-moisture respectively processing air-conditioning unit | |
CN101122406B (en) | Small central air conditioner set for separate processing for heat and humidity | |
CN207763140U (en) | Dehumidifier | |
CN207763139U (en) | Dehumidifier | |
CN202494181U (en) | Double-effect heat pump type total heat recovery and fresh air processor | |
CN207688304U (en) | Dehumidifier | |
CN102607121A (en) | Heat pump type low-temperature regenerative dehumidifying fresh air treatment device with rotary wheel | |
CN202709344U (en) | Ice storage heat pump coupling multistage total heat recovery fresh air processor | |
CN107940600A (en) | Dehumidifier | |
CN207688315U (en) | Dehumidifier | |
CN207688311U (en) | Dehumidifier | |
CN107957100A (en) | Dehumidifier |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |