CN207113102U - A kind of intelligent rotary type humidity conditioner - Google Patents
A kind of intelligent rotary type humidity conditioner Download PDFInfo
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- CN207113102U CN207113102U CN201720883858.6U CN201720883858U CN207113102U CN 207113102 U CN207113102 U CN 207113102U CN 201720883858 U CN201720883858 U CN 201720883858U CN 207113102 U CN207113102 U CN 207113102U
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- dehumidifying
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Abstract
The utility model discloses a kind of intelligent rotary type humidity conditioner, including shell, stationary barrier, rotating barrier and sealing dividing plate;Also include two groups of semiconductor subassemblies being respectively arranged on stationary barrier and rotating barrier, the hot side heat radiator group connected with regeneration air air inlet being installed in airtight cavity on stationary barrier, the heat-pipe radiator to be used being installed on airtight cavity internal rotation dividing plate, and it is installed on the dehumidifying heat-pipe radiator outside airtight cavity on rotating barrier, the hot junction of the heating and cooling semiconductor chip of semiconductor subassembly is all the time towards inside airtight cavity, its cold end is all the time towards outside airtight cavity, hot side heat radiator group connects with regeneration air air inlet, dehumidifying heat-pipe radiator connects with being dehumidified air air inlet, the radiating fin group of heat-pipe radiator to be used and dehumidifying heat-pipe radiator has solid dehumidifying adsorbent.Efficiently solve existing dehydrating unit internal structure it is excessively simple and cause dehumidification rate it is not high the problems such as.
Description
Technical field
Energy conditioner field is the utility model is related to, is filled more particularly to a kind of intelligent rotary type humid control
Put.
Background technology
One's early years French physician has found that peltier effect, is made up of when direct current two kinds of different conductive materials
During loop, the phenomenon of neither endothermic nor exothermic will be produced on node, this is three big due to compression-type refrigeration, absorption refrigeration and chemical refrigeration
Refrigeration modes are, it is necessary to consume more resource and environment can be polluted, therefore based on the semiconductor system of peltier effect
Cold mode is arisen at the historic moment, and the refrigerator of semiconductor refrigerating mode is in light weight, miniature refrigerator tend to be so small to have only several grams or
Tens grams.It is noiseless in work without mechanical driving part, aneroid, gas working media, thus it is free from environmental pollution, cooling parameters are not
Influenceed by direction in space and gravity, under the conditions of big mechanical overload, can normally be worked;Pass through adjustment work electric current
Size, conveniently adjusted cooling rate;By switching electric current direction, refrigerator can be made to be changed into heating work shape from refrigerating state
State;Work fast, service life length, and it is easily controllable.
Daily life and work, many situations require that air is maintained at suitable humidity in local environment, right
In the people for living in humid area, or due to when weather transformation causes people's local environment very moist, it is especially desirable to
Ambient humidity is reduced, to ensure having normal live and work environment.Therefore, the dehydrating unit in a manner of semiconductor refrigerating is opened
Issue and solve the problem, but R&D work at present is in bottleneck period, can not find more preferable semi-conducting material to significantly improve system
Cold, Most scholars can only utilize the radiating fin of different radiating mode and different structure by optimizing each cooling condition
Piece improves refrigeration radiating efficiency, then produces the dehydrating unit of various different internal structures and the dehumidification rate of these devices
All without having significant improvement, electric energy conversely can be also wasted.
In summary, how to efficiently solve existing dehydrating unit internal structure excessively simply causes dehumidification rate not high
The problems such as, be current those skilled in the art's urgent problem.
Utility model content
The purpose of this utility model is to provide a kind of intelligent rotary type humidity conditioner, the intelligent rotary type humid control
Device efficiently solve existing dehydrating unit internal structure it is excessively simple and cause dehumidification rate it is not high the problems such as.
In order to solve the above technical problems, the utility model provides following technical scheme:
A kind of intelligent rotary type humidity conditioner, including shell, be installed in the shell stationary barrier, can be upper and lower
The rotating barrier of rotation and the sealing dividing plate that airtight cavity is formed with the stationary barrier, the rotating barrier;Also include difference
Two groups of semiconductor subassemblies being installed on the stationary barrier and the rotating barrier, be installed on it is described solid in the airtight cavity
The hot side heat radiator group connected with regeneration air air inlet in determine dividing plate, it is installed on the rotation in the airtight cavity
Heat-pipe radiator to be used on dividing plate, and the dehumidifying heat pipe being installed on outside the airtight cavity on the rotating barrier dissipate
Hot device, all the time towards inside the airtight cavity, its cold end begins for the hot junction of the heating and cooling semiconductor chip of the semiconductor subassembly
All morning, the hot side heat radiator group connected with regeneration air air inlet, the dehumidifying heat pipe to outside the airtight cavity
Radiator connects with being dehumidified air air inlet, the radiating fin of the heat-pipe radiator to be used and the dehumidifying heat-pipe radiator
Piece group has solid dehumidifying adsorbent.
Preferably, the radiating fin group of the hot side heat radiator group stretches out the sealing dividing plate, and its extension
Connected with dehumidified air air outlet.
Preferably, in addition to it is installed on the cool side heat pipes radiator group outside the airtight cavity on the stationary barrier.
Preferably, it is respectively arranged with the radiating fin of the heat-pipe radiator group to be used and the dehumidifying heat-pipe radiator group
Humidity collection module, for determining the humidity of the solid dehumidifying adsorbent.
Preferably, the rotating barrier can rotate 180 degree, the heat-pipe radiator to be used and described after the completion of rotation
Dehumidifying heat-pipe radiator is in vertical direction.
Preferably, the dehumidified air air outlet is opened in the front of the shell, and the regeneration air air inlet opens up
In the side surface upper part of the shell, the side lower for being dehumidified air air inlet and being opened in the shell, regeneration air goes out
Air port is opened in the back side of the shell, and delivery port is opened in the bottom of the shell.
Preferably, the dehumidified air air outlet size is less than the regeneration air air inlet and the air that is dehumidified enters
The size in air port, the regeneration air air inlet and the size for being dehumidified air air inlet are less than the regeneration air air-out
The size of mouth.
Preferably, the semiconductor subassembly includes heating and cooling semiconductor chip, heat insulation and spacer block, the semiconductor
Heating and cooling chip is close to the centre for being fixed on the heat insulation side by heat-conducting silicone grease, and the heat insulation, which is integrally inlayed, to be fixed on
In the mounting hole of the heat insulation.
Preferably, the radiating bottom plate of the hot side heat radiator group and the cool side heat pipes radiator group is respectively by leading
Hot silicone grease is close to the both sides for being fixed on the semiconductor subassembly of the stationary barrier, the heat-pipe radiator to be used and the dehumidifying
The radiating bottom plate of heat-pipe radiator is close to the both sides for the semiconductor subassembly for being fixed on the rotating barrier by heat-conducting silicone grease respectively.
Intelligent semi-conductor refrigeration provided by the utility model and the intelligent rotary type humid control of solid absorption air fill
Put, including shell, stationary barrier, rotating barrier, sealing dividing plate, semiconductor subassembly, hot side heat radiator group, heat pipe to be used
Radiator and dehumidifying heat-pipe radiator, enclosure form cavity, and stationary barrier, rotating barrier and sealing dividing plate are installed on chamber
In vivo, stationary barrier, rotating barrier and sealing dividing plate form airtight cavity, and stationary barrier and rotating barrier are referred to as installation dividing plate,
Rotating barrier can rotate up and down.The quantity of semiconductor subassembly is two groups, is respectively arranged on stationary barrier and rotating barrier.Hot junction
Heat-pipe radiator group is installed in airtight cavity, is fixed on stationary barrier close to the side of sealing dividing plate, is entered with regeneration air
Air port connects.Heat-pipe radiator to be used is installed in airtight cavity, is fixed on rotating barrier close to the side of sealing dividing plate.
Dehumidifying heat-pipe radiator is installed on outside airtight cavity, is fixed on the side away from sealing dividing plate on rotating barrier.Dehumidify heat pipe
Radiator connects with being dehumidified air air inlet, and the radiating fin group of heat-pipe radiator to be used and dehumidifying heat-pipe radiator is attached
There is solid dehumidifying adsorbent.It should be noted that hot side heat radiator mentioned here belongs to first group of heat-pipe radiator group,
Heat-pipe radiator to be used and dehumidifying heat-pipe radiator belong to second group of heat-pipe radiator group.Generally, first group of heat-pipe radiator
Group includes DC fan, radiating bottom plate, heat pipe and radiating fin group, and second group of heat-pipe radiator includes radiating bottom plate, heat pipe
And the radiating fin group with solid dehumidifying adsorbent.The heating and cooling semiconductor chip of semiconductor subassembly includes hot junction and cold
End, hot junction is all the time towards inside airtight cavity, and its cold end is all the time towards outside airtight cavity, hot side heat radiator group and regeneration
Air air inlet connects.
Intelligent rotary type humidity conditioner provided by the utility model, rotating barrier can rotate up and down, rotating barrier
While, change the sense of current for being passed through heating and cooling semiconductor chip, heat-pipe radiator to be used is with dehumidifying heat-pipe radiator
It is relative, both meetings change due to the rotation of rotating barrier above and below second group of heat-pipe radiator group two radiators and rotation every
The relative position of plate, here, being referred to as heat-pipe radiator to be used in airtight cavity, it is referred to as removing outside airtight cavity
Damp and hot tube radiator.By lowering water content in air, make relative humidity and absolute humidity while decline, hardly improve temperature
Degree, does not produce the negative effect that the temperature difference is brought, and intelligent rotary type humidity conditioner prevents condensation mode to be changed to actively passive
Condensation is guided, prevents cold and hot surface transmission from causing disorderly knot using efficient control method and using inner air using semiconductor subassembly
Structure significantly improves dehumidification rate.
Brief description of the drawings
, below will be to embodiment in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art
Or the required accompanying drawing used is briefly described in description of the prior art, it should be apparent that, drawings in the following description are only
It is some embodiments of the utility model, for those of ordinary skill in the art, is not paying the premise of creative work
Under, other accompanying drawings can also be obtained according to these accompanying drawings.
The vertical view for the intelligent rotary type humidity conditioner that Fig. 1 is provided by a kind of embodiment in the utility model
Figure;
Fig. 2 is the positive schematic perspective view of intelligent rotary type humidity conditioner;
Fig. 3 is the rearview of intelligent rotary type humidity conditioner;
Fig. 4 is the internal structure schematic diagram of intelligent rotary type humidity conditioner;
Fig. 5 is the exploded perspective view of semiconductor subassembly;
Fig. 6 is the sectional view of A-A in Fig. 1.
Marked in accompanying drawing as follows:
1- shells, 11- dehumidified air air outlets, 12- regeneration air air inlets, 13- are dehumidified air air inlet, and 14- is again
Raw air air outlet, 15- delivery ports, 2- semiconductor subassemblies, 21- heating and cooling semiconductor chips, 22- heat insulations, 23- spacer blocks,
First group of heat-pipe radiator group of 3-, 31- hot side heat radiators, 32- cool side heat pipes radiators, second group of heat-pipe radiator of 4-
Group, 41- heat-pipe radiators to be used, 42- dehumidifying heat-pipe radiators, 5- installation dividing plates, 51- rotating barriers, 52- stationary barriers,
6- seals dividing plate.
Embodiment
Core of the present utility model is to provide a kind of intelligent rotary type humidity conditioner, the intelligent rotary type humid control
Device efficiently solve existing dehydrating unit internal structure it is excessively simple and cause dehumidification rate it is not high the problems such as.
Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out
Clearly and completely describing, it is clear that described embodiment is only the utility model part of the embodiment, rather than whole
Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made
The every other embodiment obtained, belong to the scope of the utility model protection.
Fig. 1 to Fig. 6 is refer to, Fig. 1 is wet by the intelligent rotary type that a kind of embodiment provides in the utility model
Spend the top view of control device;Fig. 2 is the positive schematic perspective view of intelligent rotary type humidity conditioner;Fig. 3 is intelligent rotating
The rearview of formula humidity conditioner;Fig. 4 is the internal structure schematic diagram of intelligent rotary type humidity conditioner;Fig. 5 is partly to lead
The exploded perspective view of body component;Fig. 6 is the sectional view of A-A in Fig. 1.
In a kind of embodiment, intelligent semi-conductor refrigeration provided by the utility model and solid absorption air
Intelligent rotary type humidity conditioner, including shell 1, stationary barrier 52, rotating barrier 51, sealing dividing plate 6, semiconductor subassembly 2,
31 groups of hot side heat radiator group, heat-pipe radiator group 41 to be used and dehumidifying heat-pipe radiator group 42, shell 1 is internally formed
Cavity, stationary barrier 52, rotating barrier 51 and sealing dividing plate 6 are installed in cavity, stationary barrier 52, rotating barrier 51 and sealing
Dividing plate 6 forms airtight cavity, and stationary barrier 52 and rotating barrier 51 are referred to as installation dividing plate 5, and rotating barrier 51 can rotate up and down.Half
The quantity of conductor assembly 2 is two groups, is respectively arranged on stationary barrier 52 and rotating barrier 51.31 groups of hot side heat radiator group
It is installed in airtight cavity, is fixed on stationary barrier 52 close to the side of sealing dividing plate 6, connects with regeneration air air inlet 12
It is logical.Heat-pipe radiator group 41 to be used is installed in airtight cavity, is fixed on rotating barrier 51 close to the one of sealing dividing plate 6
Side.Dehumidifying heat-pipe radiator group 42 is installed on outside airtight cavity, is fixed on one away from sealing dividing plate 6 on rotating barrier 51
Side.Dehumidifying heat-pipe radiator group 42 connects with being dehumidified air air inlet 13, heat-pipe radiator group 41 to be used and dehumidifying heat pipe
The radiating fin group of radiator group 42 has solid dehumidifying adsorbent.It should be noted that hot side heat mentioned here dissipates
Hot device group 31 belongs to first group of heat-pipe radiator group 3, and heat-pipe radiator group 41 to be used and dehumidifying heat-pipe radiator group 42 belong to
Second group of heat-pipe radiator group 4.Generally, first group of heat-pipe radiator group 3 includes DC fan, radiating bottom plate, heat pipe and dissipated
Hot fins set, second group of heat-pipe radiator include radiating bottom plate, heat pipe and the radiating fin group with solid dehumidifying adsorbent.
The heating and cooling semiconductor chip 21 of semiconductor subassembly 2 includes hot junction and cold end, and hot junction is all the time towards inside airtight cavity, its cold end
All the time towards outside airtight cavity, 31 groups of hot side heat radiator group connects with regeneration air air inlet 12.
Intelligent rotary type humidity conditioner provided by the utility model, rotating barrier 51 can rotate up and down, rotate every
While plate 51, change the sense of current for being passed through heating and cooling semiconductor chip 21, heat-pipe radiator group 41 to be used is damp and hot with removing
Tube radiator group 42 is relative, and both meetings change second group of heat-pipe radiator group about 4 due to the rotation of rotating barrier 51
The relative position of two radiators and rotating barrier 51, here, being referred to as heat-pipe radiator group to be used in airtight cavity
41, it is referred to as dehumidifying heat-pipe radiator group 42 outside airtight cavity.
Specifically, can be by the relative humidity initiation value of program setting intelligent rotary type humidity conditioner, relatively wet
Degree cut off value, regeneration air are passed through humidity value and regeneration air stops being passed through humidity value;If read the relatively wet of external environment condition
Angle value is H1, and relative humidity initiation value is H2, and relative humidity cut off value is H3, adsorbs dissipating in heat-pipe radiator group 41 to be used
The humidity value of the solid dehumidifying adsorbent of hot fins set is Ha, and the radiating fin group adsorbed in dehumidifying heat-pipe radiator group 42 is consolidated
The humidity value of body dehumidifying adsorbent is Hb, and it is Hc that regeneration air, which is passed through humidity value, and it is Hd that regeneration air, which stops being passed through humidity value,.
As H1 >=H2, the DC fan of first group of heat-pipe radiator group 3 and the semiconductor system of two groups of semiconductor subassemblies 2
Cold heating piece 21 is changed into working condition, and cold caused by the cold end of heating and cooling semiconductor chip 21 is conducted to dehumidifying heat pipe heat radiation
Device group 42, heat caused by the hot junction of heating and cooling semiconductor chip 21 are conducted to hot side heat radiator group 31 and heat pipe to be used
Radiator group 41, DC fan will be dehumidified air and be pumped into from being dehumidified in air air inlet 13, via dehumidifying heat-pipe radiator
The condensation of group 42 and the adsorption and dehumidification effect of solid dehumidifying adsorbent, cooling liquid finally give the cold air after dehumidifying, liquefaction
Condensed water afterwards is dropped to the bottom of shell 1 by Action of Gravity Field and discharged by delivery port 15, and cold air forms along shell 1 and dividing plate
Inner space flow in the radiating fin group of hot side heat radiator group 31 and heated, finally by dehumidified air air outlet 11
Flow out housing.
Period, rotating barrier rotated about 51 as Ha >=Hc, was passed through semiconductor subassembly 2 installed in rotating barrier 51
The sense of current conversion of heating and cooling semiconductor chip 21, the DC fan of hot side heat radiator group 31 is by regeneration air from regeneration
It is pumped into air air inlet 12, the thermogenic action through hot side heat radiator group 31, and by heat-pipe radiator group 41 to be used,
The moisture of solid dehumidifying adsorbent of the absorption in the radiating fin group of heat-pipe radiator group 41 to be used is taken away, finally by again
Raw air air outlet 14 flows out housing;As Hb < Hd, the DC fan of hot side heat radiator group 31 is stopped.
As H1 < H3, intelligent rotary type humidity conditioner is stopped.
To sum up, intelligent semi-conductor refrigeration and the intelligent control side of the rotary humidity conditioner of solid absorption intelligent air
Method, the use of semiconductor subassembly 2 and the design of inner air flowing structure, effectively to intelligent rotary type humidity conditioner institute
The humidity of the environment at place is controlled.By lowering water content in air, make relative humidity and absolute humidity while decline, almost
Temperature is not improved, does not produce the negative effect that the temperature difference is brought, intelligent rotary type humidity conditioner handle passively prevents condensation mode
It is changed to actively guide condensation, cold and hot surface transmission is prevented using efficient control method using semiconductor subassembly 2 and used internal
Air causes disorderly structure to significantly improve dehumidification rate.
Above-mentioned intelligent rotary type humidity conditioner is only a kind of preferred scheme, is specifically not limited thereto, basic herein
On can be made according to being actually needed with targetedly adjust, so as to obtain different embodiments, hot side heat radiator group
The length of 31 radiating fin group is longer, and the radiating fin group of 31 groups of hot side heat radiator group stretches out sealing dividing plate 6, and it is stretched
Go out part to connect with dehumidified air air outlet 11, discharging the air of housing will not be heated, and the air only in airtight cavity adds
Heat, beneficial to the dehumidified air heating to cooled adsorption and dehumidification.
On the basis of above-mentioned embodiment, those skilled in the art can be according to the difference of specific occasion, to intelligence
Rotatably some changes can be carried out by humidity conditioner, in addition to the cold end heat being installed on airtight cavity external stability dividing plate 52
32 groups of tube radiator group, the radiating fin group of 32 groups of cool side heat pipes radiator group do not have a solid dehumidifying adsorbent, central refrigerating,
Mitigate the work load of 42 groups of dehumidifying heat-pipe radiator group, can further improve intelligent rotary type humidity conditioner refrigeration and remove
Wet operating efficiency.
Obviously, under the guidance of this thought, those skilled in the art can be according to the difference of specific occasion to above-mentioned
Embodiment carries out some changes, the radiating fin of 42 groups of 41 groups of heat-pipe radiator group to be used and dehumidifying heat-pipe radiator group
Humidity collection module is respectively arranged with piece, for determining the humidity of solid dehumidifying adsorbent, monitors solid dehumidifying adsorbent in real time
Humidity value, the position of 42 groups of 41 groups of heat-pipe radiator group to be used and dehumidifying heat-pipe radiator group is adjusted in time, ensure to continue height
The dehumidifying effect of effect, significantly improves dehumidification rate.
It is important to note that intelligent rotary type humidity conditioner provided by the utility model is not intended to be limited to
Such a situation, the anglec of rotation of rotating barrier 51 is unrestricted, as long as meeting 41 groups of heat-pipe radiator group to be used and except damp and hot
42 groups of job requirements switched inside and outside airtight cavity of tube radiator group, it is preferable that rotating barrier 51 can rotate 180
Degree, heat-pipe radiator group 41 to be used and dehumidifying heat-pipe radiator group 42 are in vertical direction after the completion of rotation, are dissipated using heat pipe
42 groups of hot device group and dehumidifying heat-pipe radiator group are not easy to continue to rotate, and are easy to position.
Intelligent rotary type humidity conditioner provided by the utility model, in the case of other parts are immovable, is removed
Humid air air outlet 11 is opened in the front of shell 1, and regeneration air air inlet 12 is opened in the side surface upper part of shell 1, is dehumidified
Air air inlet 13 is opened in the side lower of shell 1, and regeneration air air outlet 14 is opened in the back side of shell 1.Now, it is in
The heat-pipe radiator on the rotatable top of dividing plate 51 is heat-pipe radiator group 41 to be used, the heat pipe in the rotatable bottom of dividing plate 51
Radiator is dehumidifying heat-pipe radiator group 42.Air air inlet and air air outlet are mutually perpendicular to not on a parallel surface, profit
In ventilation heat exchange, dehumidifying is abundant, beneficial to air cooling-down;Turbulent flow can also be reduced, distribution is relatively reasonable.Condensed water after liquefaction by
Action of Gravity Field drops to the bottom of shell 1, and delivery port 15 is opened in the bottom of shell 1, is easy to liquid discharge.
It is small for the intelligent rotary type humidity conditioner in above-mentioned each embodiment, the size of dehumidified air air outlet 11
In regeneration air air inlet 12 and the size for being dehumidified air air inlet 13, regeneration air air inlet 12 and air air intake is dehumidified
The size of mouth 13 is less than the size of regeneration air air outlet 14, beneficial to air inlet and outlet, reduces inner air turbulent flow.
In order to further optimize above-mentioned technical proposal, semiconductor subassembly 2 includes heating and cooling semiconductor chip 21, heat insulation 22
And spacer block 23, heating and cooling semiconductor chip 21 is close to the centre for being fixed on the side of heat insulation 22 by heat-conducting silicone grease, heat-insulated
Overall inlay of block 22 is fixed in the mounting hole of heat insulation 22, ensures that heat will not reach cold one end, isolates hot-air and cold
Air, improve dehumidification rate.
On the basis of above-mentioned each specific embodiment, 31 groups of hot side heat radiator group and cool side heat pipes radiator group 32
Group includes DC fan, radiating bottom plate, heat pipe and radiating fin group, heat-pipe radiator group 41 to be used and dehumidifying heat pipe heat radiation
Device group 42 includes radiating bottom plate, heat pipe and the radiating fin group with solid dehumidifying adsorbent, hot side heat radiator group 31
The radiating bottom plate of 32 groups of group and cool side heat pipes radiator group is close to be fixed on partly leading for stationary barrier 52 respectively by heat-conducting silicone grease
The radiating bottom plate of the both sides of body component 2, heat-pipe radiator group 41 to be used and dehumidifying heat-pipe radiator group 42 passes through heat conduction respectively
Silicone grease is close to the both sides for the semiconductor subassembly 2 for being fixed on rotating barrier 51, is fixed when being close to fix by heat-conducting silicone grease more firm
Gu it is simple in construction, it is easily operated.
, it is necessary to explanation in description of the present utility model, term is inside and outside, the orientation of the instruction such as upper and lower or position are closed
It is to be described based on orientation shown in the drawings or position relationship, to be for only for ease of description the utility model and simplifying, rather than
Indicate or imply that signified device or element there must be specific orientation, with specific azimuth configuration and operation, therefore can not
It is interpreted as to limitation of the present utility model.
Each embodiment is described by the way of progressive in this specification, what each embodiment stressed be and other
The difference of embodiment, between each embodiment identical similar portion mutually referring to.
The foregoing description of the disclosed embodiments, professional and technical personnel in the field are enable to realize or new using this practicality
Type.A variety of modifications to these embodiments will be apparent for those skilled in the art, determine herein
The General Principle of justice can be realized in other embodiments in the case where not departing from spirit or scope of the present utility model.Cause
This, the utility model is not intended to be limited to the embodiments shown herein, and is to fit to and principles disclosed herein
The most wide scope consistent with features of novelty.
Claims (9)
1. a kind of intelligent rotary type humidity conditioner, it is characterised in that including shell (1), be installed in the shell (1)
Stationary barrier (52), the rotating barrier (51) that can be rotated up and down and with the stationary barrier (52), the rotating barrier (51) structure
Into the sealing dividing plate (6) of airtight cavity;Also include being respectively arranged on the stationary barrier (52) and the rotating barrier (51)
Two groups of semiconductor subassemblies (2), be installed in the airtight cavity on the stationary barrier (52) with regeneration air air inlet
(12) connection hot side heat radiator group (31) group, be installed in the airtight cavity on the rotating barrier (51) and wait to make
With heat-pipe radiator group (41), and the dehumidifying heat pipe heat radiation being installed on the rotating barrier (51) of the airtight cavity outside
Device group (42), the hot junction of the heating and cooling semiconductor chip (21) of the semiconductor subassembly (2) is all the time towards in the airtight cavity
Portion, its cold end is all the time towards outside the airtight cavity, hot side heat radiator group (31) group and regeneration air air inlet
(12) connect, the dehumidifying heat-pipe radiator group (42) connects with being dehumidified air air inlet (13), and the heat pipe to be used dissipates
The radiating fin group of hot device group (41) and the dehumidifying heat-pipe radiator group (42) has solid dehumidifying adsorbent.
2. intelligent rotary type humidity conditioner according to claim 1, it is characterised in that the hot side heat radiator
The radiating fin group of group (31) group stretches out the sealing dividing plate (6), and its extension connects with dehumidified air air outlet (11).
3. intelligent rotary type humidity conditioner according to claim 2, it is characterised in that also described close including being installed on
Cool side heat pipes radiator group (32) group closed on stationary barrier described in containment portion (52).
4. intelligent rotary type humidity conditioner according to claim 3, it is characterised in that the heat pipe heat radiation to be used
Humidity collection module is respectively arranged with the radiating fin that device group (41) is organized and the dehumidifying heat-pipe radiator group (42) is organized, for determining
The humidity of the solid dehumidifying adsorbent.
5. intelligent rotary type humidity conditioner according to claim 4, it is characterised in that rotating barrier (51) energy
180 degree is enough rotated, the heat-pipe radiator group (41) to be used and described dehumidifying heat-pipe radiator group (42) place after the completion of rotation
In vertical direction.
6. according to the intelligent rotary type humidity conditioner described in claim any one of 2-5, it is characterised in that the dehumidifying is empty
Gas air outlet (11) is opened in the front of the shell (1), and the regeneration air air inlet (12) is opened in the shell (1)
Side surface upper part, the side lower for being dehumidified air air inlet (13) and being opened in the shell (1), regeneration air air outlet
(14) back side of the shell (1) is opened in, delivery port (15) is opened in the bottom of the shell (1).
7. intelligent rotary type humidity conditioner according to claim 6, it is characterised in that the dehumidified air air outlet
(11) size is less than the regeneration air air inlet (12) and the size for being dehumidified air air inlet (13), and the regeneration is empty
Gas air inlet (12) and the size for being dehumidified air air inlet (13) are less than the size of the regeneration air air outlet (14).
8. intelligent rotary type humidity conditioner according to claim 6, it is characterised in that the semiconductor subassembly (2)
Including heating and cooling semiconductor chip (21), heat insulation (22) and spacer block (23), the heating and cooling semiconductor chip (21) is logical
Cross the centre that heat-conducting silicone grease is close to be fixed on the heat insulation (22) side, the heat insulation (22) integrally inlay be fixed on it is described
In the mounting hole of heat insulation (22).
9. intelligent rotary type humidity conditioner according to claim 6, it is characterised in that the hot side heat radiator
Group (31) is organized and the radiating bottom plate of the cool side heat pipes radiator group (32) group be close to be fixed on by heat-conducting silicone grease respectively it is described
The both sides of the semiconductor subassembly (2) of stationary barrier (52), the heat-pipe radiator group (41) to be used and the dehumidifying heat pipe dissipate
The radiating bottom plate of hot device group (42) is close to the semiconductor subassembly (2) for being fixed on the rotating barrier (51) by heat-conducting silicone grease respectively
Both sides.
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Cited By (1)
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CN107218682A (en) * | 2017-07-19 | 2017-09-29 | 广东工业大学 | A kind of intelligent rotary type humidity conditioner |
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CN107218682A (en) * | 2017-07-19 | 2017-09-29 | 广东工业大学 | A kind of intelligent rotary type humidity conditioner |
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