CN103381303B - Condensing device employing direction-switching mode - Google Patents
Condensing device employing direction-switching mode Download PDFInfo
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- CN103381303B CN103381303B CN201210143852.7A CN201210143852A CN103381303B CN 103381303 B CN103381303 B CN 103381303B CN 201210143852 A CN201210143852 A CN 201210143852A CN 103381303 B CN103381303 B CN 103381303B
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- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims abstract description 21
- 238000009833 condensation Methods 0.000 claims description 69
- 230000005494 condensation Effects 0.000 claims description 69
- 230000004308 accommodation Effects 0.000 claims description 43
- 230000008676 import Effects 0.000 claims description 33
- 201000004792 malaria Diseases 0.000 claims description 28
- 238000000926 separation method Methods 0.000 claims description 4
- 238000001816 cooling Methods 0.000 abstract description 12
- 238000001035 drying Methods 0.000 abstract description 5
- 239000000498 cooling water Substances 0.000 description 6
- 238000005516 engineering process Methods 0.000 description 5
- 238000009434 installation Methods 0.000 description 4
- 230000008859 change Effects 0.000 description 3
- 230000007423 decrease Effects 0.000 description 2
- 238000007599 discharging Methods 0.000 description 2
- 238000006073 displacement reaction Methods 0.000 description 2
- 230000000694 effects Effects 0.000 description 2
- 230000009471 action Effects 0.000 description 1
- 230000000903 blocking effect Effects 0.000 description 1
- 230000001771 impaired effect Effects 0.000 description 1
- 238000000034 method Methods 0.000 description 1
- 230000037361 pathway Effects 0.000 description 1
- 230000008569 process Effects 0.000 description 1
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Abstract
The invention relates to a condensing device employing a direction-switching mode. In a drying apparatus used to supply dry air to a to-be dried object for drying, the condensing device is used to cooling and condense moisture-containing (humidity-containing) air and separate into condensate water and the dried air. The condensing device employing the direction-switching mode comprises: n (n is an integer of 2 or more) condensing modules used to separate moist air into the condensing water and the dried air for exhausting; and a flow path switching module used to convey the moist air to one or two or more of the above n condensing modules. The condensing device of the invention is capable of switching air movement from one condensing module with descending cooling-condensing performance to one condensing module with normal cooling-condensing performance, and therefore, compared with a conventional condensing device which has one condensing module corresponding to more than one paths, the condensing device of the invention is capable of supplying the best cooling-condensing performance.
Description
Technical field
The present invention relates to the condensing unit for drying device etc., particularly relate to a kind of condensing unit (SWITCHING THE DIRECTION OF APPLYING THECONDENSING UNIT) of application direction switching mode, it is by n (n is more than 2 integers) condensation module and can form to the stream handover module of the selective supply malaria of condensation module, thus the movement of malaria can be made from cooling, a condensation module of condensation hydraulic performance decline is switched to cooling, another condensation module that condensation performance normally works, best cooling can be played, condensation performance.
Background technology
Application number disclosed in the applicant's application is also 10-2010-0131762, name is called that the Korean application of " utilizing the condensation drying device of thermoelectric element and used heat " (is disclosed on December 16th, 2010, hereinafter referred to as " in first technology ") provide a kind of condensing unit, the cooling of this condensing unit, condensation malaria, make it be separated into condensed water and dry air.The above-mentioned drying device relating to a kind of loop structure in first technology, it is flowed to the malaria in hothouse the 1st time and No. the 2nd condensing unit by blower fan, after making this malaria be separated into condensed water and dry air, condensed water is then discharged, and dry air is then supplied in hothouse again.
The path of malaria movement is equipped with 2 condensing units, although improve condensation performance, due to the heat obtained from malaria, cooling, the condensation function of the 1st time and No. the 2nd time condensing unit must decline.
Summary of the invention
The object of the present invention is to provide a kind of condensing unit of application direction switching mode, be equipped with n condensation module, enable malaria to the stream handover module of the selective movement of one or more condensation module in this condensation module, even if thus a condensation module degraded performance, also the movement of malaria can be switched to other condensation modules, therefore, it is possible to play best cooling, condensation performance all the time.
For solving above-mentioned problem, the condensing unit of application direction switching mode of the present invention comprises: condensation module, is n (n is more than 2 integers), makes malaria be separated into condensed water and dry air and discharge; And stream handover module, for carrying malaria to one or more condensation module in a said n condensation module.
As the 1st embodiment, be characterised in that, above-mentioned condensation module is 2, above-mentioned stream handover module comprises: shell, there is inner accommodation section and the 1st and the 2nd relay, wherein, inner accommodation section has malaria import in central upper portion, and the 1st and the 2nd relay is interconnected above-mentioned accommodation section (211) and above-mentioned two condensation modules being configured at both sides, its underpart respectively; Axle, is configured at above-mentioned accommodation section, has the threaded portion between the above-mentioned 1st and the 2nd relay; Switch valve, has the corresponding threaded portion with above-mentioned threaded portion, is incorporated into above-mentioned axle; And drive motor, for making above-mentioned axle rotating operation forward or backwards; And, above-mentioned axle is rotating operation forward or backwards by above-mentioned drive motor (24), above-mentioned switch valve moves along with the threaded portion of above-mentioned axle, thus switch connects the 1st path of above-mentioned import and above-mentioned 1st relay or is connected the 2nd path of above-mentioned import and above-mentioned 2nd relay selectively.
Now, be characterised in that: above-mentioned stream handover module is equipped with the spring of the above-mentioned switch valve of resiliency supported in the non-threaded portion, both sides in above-mentioned male thread portion.
As the 2nd embodiment, be characterised in that, above-mentioned condensation module is 2, above-mentioned stream handover module comprises: shell, there is inner accommodation section and the 1st and the 2nd relay, wherein, inner accommodation section has malaria import in central upper portion, and the 1st and the 2nd relay is interconnected above-mentioned accommodation section and above-mentioned two condensation modules being configured at both sides, its underpart; Piston-cylinder unit, has horizontal arrangement in the piston of above-mentioned accommodation section; And switch valve, be incorporated into above-mentioned pistons end; And, the above-mentioned piston that being undertaken by above-mentioned piston-cylinder unit retreats runs and the above-mentioned switch valve of upper combination thereof move, thus switch connects the 1st path of above-mentioned import and above-mentioned 1st relay or is connected the 2nd path of above-mentioned import and above-mentioned 2nd relay selectively.
As the 3rd embodiment, be characterised in that, above-mentioned condensation module is 3, above-mentioned stream handover module comprises: shell, there is inner accommodation section and the 1st to the 3rd relay, wherein, inner accommodation section has malaria import in central upper portion, and the 1st to the 3rd relay is interconnected above-mentioned accommodation section (211) and above-mentioned three condensation modules being configured at its underpart respectively; Piston-cylinder unit, is vertically configured at above-mentioned accommodation section, and has the piston being configured at above-mentioned 1st to the 3rd each top of relay; And switch valve, be incorporated into above-mentioned pistons end; And, carry out being elevated the above-mentioned piston that runs by above-mentioned piston-cylinder unit and the above-mentioned switch valve of upper combination moves, thus switch connects the 1st path of above-mentioned import and above-mentioned 1st relay or is connected the 2nd path of above-mentioned import and above-mentioned 2nd relay or is connected the 3rd path of above-mentioned import and above-mentioned 3rd relay selectively.
On the other hand, be characterised in that: also comprise fuselage, be separated built-in for above-mentioned condensation module that there is the structure of condensed water and the dry air separation discharge that above-mentioned condensation module is separated.
The condensing unit of application according to the present invention direction switching mode be equipped with on the path that each is separated condensation module, can to the stream handover module of a selective supply malaria of pathway side, thus can the improper condensation module of alternate run performance and the normal condensation module of performance mutually, therefore there is the huge effect playing best cooling, condensation performance all the time.
Accompanying drawing explanation
Fig. 1 is the front view of the condensing unit of application direction switching mode according to the present invention the 1st embodiment;
Fig. 2 is the structural front view possessing spring in Fig. 1;
Fig. 3 is the front view of the condensing unit of the application direction switching mode of display the present invention the 2nd embodiment,
Fig. 4 is the side view of the condensing unit of the application direction switching mode of display the present invention the 1st and the 2nd embodiment,
Fig. 5 is the structure top view of the condensing unit of the application direction switching mode of display the present invention the 1st embodiment,
Fig. 6 a and Fig. 6 b is the structure graph according to the stream switching action of switch valve in the condensing unit of the application direction switching mode of the present invention the 1st embodiment;
Fig. 7 is the front view of the condensing unit of application direction switching mode according to the present invention the 3rd embodiment;
Fig. 8 is the top view of Fig. 7.
In figure:
R1, R2, R3, the 1st, the 2nd, the 3rd path; 10,10A, 10B, condensation module; 12, condensing fin; 13, thermoelectric element; 14, main body; 15, chilled(cooling) water supply (CWS) portion; 20,20A, 20B, stream handover module; 21, shell; 211, accommodation section; 211a, import; 212, the 1st relay; 213, the 2nd relay; 214, the 3rd relay; 22, axle; 221, threaded portion; 222, non-threaded portion; 23, switch valve; 231, valve body; 231a, corresponding threaded portion; 232, containment member; 233, protuberance; 24, drive motor; 25, spring; 26, piston-cylinder unit; 261, piston; 30, fuselage; 31, installation portion; 311, demarcation strip; 33, condensed water discharge portion; 34, dry air discharge portion.
Detailed description of the invention
With reference to the accompanying drawings, to a preferred embodiment of the present invention will be described in detail.
It is to be noted before this, the term used in this specification and claims book or word are not defined in meaning that is common or dictionary and make an explanation, the principle of term concepts can be defined rightly based on invention artificially illustrates the invention of himself with the best approach, only should be interpreted as the meaning and the concept that meet the technology of the present invention thought.Therefore, the structure shown in the embodiment recorded in this description and accompanying drawing is only the most preferred embodiment of the present invention, and not all represents the technology of the present invention thought, is therefore interpreted as: the application can have the multiple equipollent and variation that can replace them.
And, be that benchmark determines direction with Fig. 1, stream handover module side is decided to be top or top, the 1st and the 2nd condensation module side is decided to be bottom or below.
As shown in Figures 1 to 8, the condensing unit of application direction switching mode provided by the invention, comprising: n (n is more than 2 integers) condensation module, and it makes malaria be separated into condensed water and dry air and discharge; And stream handover module, it is for carrying malaria to one or more condensation module in a said n condensation module.
As the 1st embodiment, as shown in Figure 1, above-mentioned condensation module is 2, above-mentioned stream handover module 20 comprises: shell 21, it has inner accommodation section 211 and the 1st and the 2nd relay 212,213, wherein, inner accommodation section 211 has malaria import 211a in central upper portion, and the 1st and the 2nd relay 212,213 is interconnected above-mentioned accommodation section 211 and above-mentioned two condensation modules 10, the 10A that are configured at both sides, its underpart respectively; Axle 22, it is configured at above-mentioned accommodation section 211, and has the threaded portion 221 between the above-mentioned 1st and the 2nd relay 212,213; Switch valve 23, it has corresponding threaded portion 231a that is corresponding and above-mentioned threaded portion 221, and is incorporated into above-mentioned axle 22; And drive motor 24, it is for rotating above-mentioned axle 22 forward or backwards; And, above-mentioned axle 22 rotates forward or backwards by above-mentioned drive motor 24, above-mentioned switch valve 23 moves along with the threaded portion 221 of above-mentioned axle 22, thus selective switch connects the 1st path R1 of above-mentioned import 211a and above-mentioned 1st relay 212 or is connected the 2nd path R2 of above-mentioned import 211a and above-mentioned 2nd relay 213.
Now, above-mentioned two condensation modules 10,10A are made up of common condensing fin 12 and cooling water supply unit and the thermoelectric element 13 be configured between them, but are not defined in this, can diversely be out of shape and change.
Above-mentioned cooling water supply unit by have the internal flow path that Cooling Water flows main body 14 and for supply in aforementioned body 14 and the chilled(cooling) water supply (CWS) portion 15 discharging cooling water is formed.
On the other hand, the above-mentioned threaded portion 221 of above-mentioned axle 22 is between the above-mentioned 1st and the 2nd relay 212,213, above-mentioned threaded portion 221 has the length that meets the following conditions for better: when above-mentioned switch valve 23 moves to the above-mentioned 1st or the 2nd condensation module 10,10A side, selective rhizotomy or open can connect the 1st path R1 of above-mentioned import 211a and above-mentioned 1st relay 212 or be connected the 2nd path R2 of above-mentioned import 211a and above-mentioned 2nd relay 213.
Meanwhile, one end of above-mentioned axle 22 rotatably can be incorporated into accommodation section 211 inwall of above-mentioned shell 21, and the other end is incorporated into the rotating shaft of above-mentioned drive motor 24.
And above-mentioned drive motor 24 is fixedly installed in the outer wall of above-mentioned shell 21.
And, above-mentioned switch valve 23 is made up of valve body 231 and annular seat component 232, wherein, valve body 231 has the above-mentioned corresponding threaded portion 231a for combining threadably with the threaded portion 221 of above-mentioned axle 22, annular seat component 232 is equipped with along above-mentioned valve body 231 outer surface, is adjacent to accommodation section 211 inner surface of above-mentioned shell 21.
Meanwhile, above-mentioned switch valve 23 also comprises protuberance 233, and it is provided to above-mentioned valve body 231 both sides, and it is inner to pass in and out spring 25 described later.
And, the time that above-mentioned drive motor 24 presets according to timer, rotate forward or backwards.
So, as shown in Fig. 6 a and Fig. 6 b, above-mentioned axle 22 by above-mentioned drive motor 24 driving and rotate forward or backwards, when observing from front, above-mentioned switch valve 23 moves to the left or to the right along with the threaded portion 221 of above-mentioned axle 22, thus selective rhizotomy or open the 1st or the 2nd path R1, R2.
On the other hand, as shown in Figure 2, above-mentioned stream handover module 20 also comprises spring 25, and spring 25 is positioned at the non-threaded portion 222 (not forming the region of threaded portion) in both sides of above-mentioned axle 22 threaded portion 221, the above-mentioned switch valve 23 of resiliency supported.
One end of above-mentioned spring 25 contacts with accommodation section 211 inwall of above-mentioned shell 21, and the other end contacts with the valve body 231 of mobile above-mentioned switch valve 23 of coming.
Such as, rotate by the driving of above-mentioned drive motor 24 at above-mentioned axle 22, above-mentioned switch valve 23 has cut off the 1st path R1 in left side along with the threaded portion 221 of above-mentioned axle 22 when, the above-mentioned switch valve 23 of above-mentioned spring 25 resiliency supported, now, above-mentioned axle 22 by above-mentioned drive motor 24 driving and reversely rotate, above-mentioned switch valve 23 is when along with the threaded portion 221 of above-mentioned axle 22, the 2nd R2 side, path is to the right moved, under the elastic force effect of above-mentioned spring 25, move to above-mentioned 2nd R2 side, path more swimmingly.
And, do not possessing above-mentioned spring 25, but there is the stop etc. of the displacement that can limit above-mentioned switch valve 23 on above-mentioned axle 22, under the state that above-mentioned switch valve 23 stops because of above-mentioned stop, if above-mentioned drive motor 24 continues to drive, then load is produced to above-mentioned drive motor 24, the threaded portion 221 of above-mentioned axle 22 and the corresponding threaded portion 231a of above-mentioned switch valve 23 may be impaired, but, in the present invention, even if exceed the displacement preset of above-mentioned switch valve 23, because above-mentioned spring 25 resiliency supported, because this reducing the load of above-mentioned drive motor 24, can prevent from obtaining power thus and the damage of the inscape run.
As a result, above-mentioned spring 25 as previously mentioned, provides the function of the runnability improving above-mentioned switch valve 23, meanwhile, provides the function that can reduce above-mentioned drive motor 24 load etc.
As the 2nd embodiment, as shown in Figure 3, above-mentioned condensation module is 2, above-mentioned stream handover module 20A comprises: shell 21, there is inner accommodation section 211 and the 1st and the 2nd relay 212,213, wherein, inner accommodation section 211 has malaria import 211a in central upper portion, and the 1st and the 2nd relay 212,213 is interconnected above-mentioned accommodation section 211 and above-mentioned two condensation modules 10, the 10A that are configured at both sides, its underpart; Piston-cylinder unit 26, has horizontal arrangement in the piston 261 of above-mentioned accommodation section 211; And switch valve 23, be incorporated into above-mentioned piston 261 end; And, the above-mentioned piston 261 that being undertaken by above-mentioned piston-cylinder unit 26 retreats runs and moving with the above-mentioned switch valve 23 of its combination, thus selective switch connects the 1st path R1 of above-mentioned import 211a and above-mentioned 1st relay 212 or is connected the 2nd path R2 of above-mentioned import 211a and above-mentioned 2nd relay 213.
Above-mentioned piston-cylinder unit 26 has the usual structure with air pressure or hydraulic running, and above-mentioned switch valve 23 has the structure identical with the switch valve 23 of the 1st embodiment.Meanwhile, the condensation module 10 of above-mentioned 2nd embodiment, the condensation module 10 of 10A the also with 1st embodiment, 10A are the same, are made up of common condensing fin 12 and cooling water supply unit and the thermoelectric element 13 be configured between them.
Therefore, carry out the above-mentioned piston 261 of advance and retreat operation by above-mentioned piston-cylinder unit 26 and move to the left or to the right with the above-mentioned switch valve 23 of its combination, thus selective switch the 1st or the 2nd path R1, R2.
By above structure, the running status of the 1st embodiment in the condensing unit of the application direction switching mode of the present invention the 1st and the 2nd embodiment, as shown in Figure 6 a, when the switch valve 23 of above-mentioned stream handover module 20 cuts off left side, that is, when cutting off the 1st path R1, malaria then can move to the 2nd path R2, and being arranged in condensation module 10A cooling, the condensation on right side, be separated into condensed water and dry air.
The condensed water be separated and dry air are discharged with above-mentioned dry air discharge portion 34 respectively by the condensed water discharge portion 33 of above-mentioned fuselage 30.
As shown in Figure 6 b, above-mentioned axle 22 by above-mentioned drive motor 24 driving and rotate, above-mentioned switch valve 23 is along with moving to the right the threaded portion 221 of above-mentioned axle 22, move to the above-mentioned switch valve 23 on right side by above-mentioned spring 25 resiliency supported, by means of the above-mentioned switch valve 23 being subject to resiliency supported, 2nd path R2 is cut off, and the 1st path R1 is opened.
So malaria then can move to the 1st path R1, and being arranged in condensation module 10 cooling, the condensation in left side, be separated into condensed water and dry air.
The condensed water be separated and dry air are discharged with above-mentioned dry air discharge portion 34 respectively by the condensed water discharge portion 33 of above-mentioned fuselage 30.
Therefore, by automatic manually or by control part of user, run above-mentioned drive motor 24, best condensation performance can be provided.
As the 3rd embodiment, as shown in Figures 7 and 8, above-mentioned condensation module is 3, above-mentioned stream handover module 20B comprises: shell 21, there is inner accommodation section 211 and the 1st to the 3rd relay 212,213,214, wherein, inner accommodation section 211 has malaria import 211a in central upper portion, and the 1st to the 3rd relay 212,213,214 is interconnected above-mentioned accommodation section 211 and above-mentioned three condensation modules 10,10A, 10B of being configured at its underpart respectively; Piston-cylinder unit 26, is vertically configured at above-mentioned accommodation section 211, and has the piston 261 being configured at above-mentioned 1st to the 3rd respective top of relay 212,213,214; And switch valve 23, be incorporated into above-mentioned piston 261 end, carry out being elevated by above-mentioned piston-cylinder unit 26 the above-mentioned piston 261 that runs and move with the above-mentioned switch valve 23 of its combination, thus selective switch connects the 1st path R1 of above-mentioned import 211a and above-mentioned 1st relay 212 or is connected the 2nd path R2 of above-mentioned import 211a and above-mentioned 2nd relay 213 or is connected the 3rd path R3 of above-mentioned import 211a and above-mentioned 3rd relay 214.
The piston-cylinder unit 26 of above-mentioned 3rd embodiment has the usual structure with air pressure or hydraulic running, the above-mentioned switch valve 23 of the 3rd embodiment can have the structure identical with the switch valve 23 of the 1st and the 2nd embodiment, but is preferably the tabular hermetic type structure for blocking above-mentioned 1st to the 3rd path R1, R2, R3 entrance.
Meanwhile, the condensation module 10 of above-mentioned 3rd embodiment, 10A, 10B the also with 1st and 2nd condensation module 10 of embodiment, 10A are the same, are made up of common condensing fin 12 and cooling water supply unit and the thermoelectric element 13 be configured between them.
Therefore, in the 3rd embodiment, along with the piston-cylinder unit 26 being configured at R1, R2, R3 top, each path runs, cut off or open one or two or whole paths.
On the other hand, the condensing unit of application direction switching mode of the present invention also comprises fuselage 30, be separated built-in for a said n condensation module, there is the structure of condensed water and the dry air separation discharge that a said n condensation module is separated, as shown in Figure 1, above-mentioned fuselage 30 comprises by two, the inside installation portion 31 of demarcation strip about 311 separation, is provided to both sides, bottom and is connected to two condensed water discharge portions 33 of above-mentioned two installation portions 31 and is provided to lower central area and the dry air discharge portion 34 be connected with above-mentioned two installation portions 31.
On the other hand, although not shown, but the condensing unit of application according to the present invention direction switching mode preferably also comprises control part, can according to the measuring tempeature value of the dry air of discharging, the above-mentioned drive motor of controlling run 24 and above-mentioned piston-cylinder unit 26, the condensation module that malaria is switched to off-duty side moves.Meanwhile, control part can control, can a selective driving said n condensation module.
As mentioned above; in explanation process of the present invention; with reference to accompanying drawing; mainly describe " condensing unit of application direction switching mode " with given shape and structure; but the present invention can carry out various deformation and change by person of ordinary skill in the field, this distortion and change should be interpreted as belonging within protection scope of the present invention.
Claims (6)
1. the condensing unit of application direction switching mode, comprising:
N condensation module, n is more than 2 integers, and it makes malaria be separated into condensed water and dry air and discharge; And
Stream handover module, it is for optionally carrying malaria to one or more condensation module in a said n condensation module.
2. the condensing unit of application direction switching mode according to claim 1, is characterized in that,
Above-mentioned condensation module is 2,
Above-mentioned stream handover module (20) comprising:
Shell (21), it has inner accommodation section (211) and the 1st and the 2nd relay (212,213), wherein, inner accommodation section (211) has malaria import (211a) in central upper portion, 1st and the 2nd relay (212,213) above-mentioned accommodation section (211) and above-mentioned two condensation modules (10,10A) of both sides, bottom being configured at above-mentioned accommodation section (211) are interconnected respectively;
Axle (22), it is configured at above-mentioned accommodation section (211), has the threaded portion (221) be positioned between the above-mentioned 1st and the 2nd relay (212,213);
Switch valve (23), it has the corresponding threaded portion (231a) with above-mentioned threaded portion (221), is incorporated into above-mentioned axle (22); And
Drive motor (24), it rotates forward or backwards for making above-mentioned axle (22),
And, above-mentioned axle (22) is rotating operation forward or backwards by above-mentioned drive motor (24), above-mentioned switch valve (23) moves along with the threaded portion (221) of above-mentioned axle (22), thus switch connects the 1st path (R1) of above-mentioned import (211a) and above-mentioned 1st relay (212) or is connected the 2nd path (R2) of above-mentioned import (211a) and above-mentioned 2nd relay (213) selectively.
3. the condensing unit of application direction switching mode according to claim 2, is characterized in that:
Above-mentioned stream handover module (20) is equipped with the spring (25) of the above-mentioned switch valve of resiliency supported (23) in the non-threaded portion, both sides (222) of above-mentioned axle (22) threaded portion (221).
4. the condensing unit of application direction switching mode according to claim 1, is characterized in that,
Above-mentioned condensation module is 2,
Above-mentioned stream handover module (20A) comprising:
Shell (21), it has inner accommodation section (211) and the 1st and the 2nd relay (212,213), wherein, inner accommodation section (211) has malaria import (211a) in central upper portion, 1st and the 2nd relay (212,213) is interconnected above-mentioned accommodation section (211) and above-mentioned two condensation modules (10,10A) of both sides, bottom being configured at above-mentioned accommodation section (211);
Piston-cylinder unit (26), it has horizontal arrangement in the piston (261) of above-mentioned accommodation section (211); And
Switch valve (23), it is incorporated into above-mentioned piston (261) end,
And, the above-mentioned piston (261) that being undertaken by above-mentioned piston-cylinder unit (26) retreats runs and the above-mentioned switch valve (23) of upper combination thereof move, thus switch connects the 1st path (R1) of above-mentioned import (211a) and above-mentioned 1st relay (212) or is connected the 2nd path (R2) of above-mentioned import (211a) and above-mentioned 2nd relay (213) selectively.
5. the condensing unit of application direction switching mode according to claim 1, is characterized in that,
Above-mentioned condensation module is 3,
Above-mentioned stream handover module (20B) comprising:
Shell (21), it has inner accommodation section (211) and the 1st to the 3rd relay (212,213,214), wherein, inner accommodation section (211) has malaria import (211a) in central upper portion, 1st to the 3rd relay (212,213,214) above-mentioned accommodation section (211) and above-mentioned three condensation modules (10 of bottom being configured at above-mentioned accommodation section (211) are interconnected respectively, 10A, 10B);
Piston-cylinder unit (26), it is vertically configured at above-mentioned accommodation section (211), and has the piston (261) being configured at above-mentioned 1st to the 3rd relay (212,213,214) each top; And
Switch valve (23), it is incorporated into above-mentioned piston (261) end,
And, carry out being elevated the above-mentioned piston (261) that runs by above-mentioned piston-cylinder unit (26) and the above-mentioned switch valve (23) of upper combination moves, thus switch connects the 1st path (R1) of above-mentioned import (211a) and above-mentioned 1st relay (212) or is connected the 2nd path (R2) of above-mentioned import (211a) and above-mentioned 2nd relay (213) or is connected the 3rd path (R3) of above-mentioned import (211a) and above-mentioned 3rd relay (214) selectively.
6. the condensing unit of application direction switching mode as claimed in any of claims 1 to 5, is characterized in that:
Also comprise fuselage (30), it is separated built-in for above-mentioned condensation module, and has the structure of condensed water and the dry air separation discharge that above-mentioned condensation module is separated.
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| CN201210143852.7A CN103381303B (en) | 2012-05-04 | 2012-05-04 | Condensing device employing direction-switching mode |
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| CN201210143852.7A CN103381303B (en) | 2012-05-04 | 2012-05-04 | Condensing device employing direction-switching mode |
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| JP4153747B2 (en) * | 2002-07-31 | 2008-09-24 | 株式会社ケーヒン | Air conditioner for vehicles |
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| KR101029774B1 (en) * | 2010-11-08 | 2011-04-19 | 유동호 | Fresh water vapor condenser |
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| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US4668261A (en) * | 1984-06-16 | 1987-05-26 | Kernforschungsanlage Julich Gmbh | Apparatus for the separation of a gas component from a gas mixture by freezeout |
| CN102046254A (en) * | 2008-03-28 | 2011-05-04 | 创新水科技有限公司 | Apparatus and method for utilizing residual cooling of water in a cooling tower |
| CN202494280U (en) * | 2011-12-07 | 2012-10-17 | 成都东和工业有限责任公司 | Air source heat pump heating condensing dehumidifying drying device |
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| CN103381303A (en) | 2013-11-06 |
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