CN205227934U - Thermal siphon piece and contain disconnect -type thermal siphon system of this thermal siphon piece - Google Patents
Thermal siphon piece and contain disconnect -type thermal siphon system of this thermal siphon piece Download PDFInfo
- Publication number
- CN205227934U CN205227934U CN201520897263.7U CN201520897263U CN205227934U CN 205227934 U CN205227934 U CN 205227934U CN 201520897263 U CN201520897263 U CN 201520897263U CN 205227934 U CN205227934 U CN 205227934U
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- China
- Prior art keywords
- thermal siphon
- collector
- siphon block
- spatial accommodation
- block
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Abstract
The utility model discloses a thermal siphon piece and contain disconnect -type thermal siphon system of this thermal siphon piece, this thermal siphon piece set up as that messenger's refrigerant circulates between first collector and second collector, this first collector and second be fluid linker device interconnect for the collector, and this fluid linker includes many multihole extrusion pipes. Has the fin in a tub centre. This first collector has accommodation space, and it is applicable to and holds liquid refrigerant to the passing through liquids linker distributes liquid refrigerant to the second collector. This liquid linker can be for setting up the pipeline in the collector, and this liquid refrigerant will get into the liquid linker owing to gravity like this. Can be at two this kind of thermal siphon pieces of disconnect -type thermal siphon system configuration, one of them thermal siphon piece is the evaporimeter, and another thermal siphon piece is the condenser.
Description
Technical field
The utility model relates to heat trnasfer.
Background technology
Generally there are the commercial Application needs to Heat transmission.But Heat transmission is very expensive, and special device may be needed.
Utility model object
The purpose of this utility model is to overcome this problem.
Utility model content
This object is realized by a kind of thermal siphon block.This thermal siphon block is configured such that cold-producing medium circulates between the first collector and the second collector, is interconnected between described first collector and the second collector with fluid communications device, and this fluid communications device comprises many porous extruding (MPE) pipes.Fin can be had in the tube.First collector has spatial accommodation, and this spatial accommodation is applicable to receiving fluids cold-producing medium, and liquid refrigerant is dispensed to the second collector by fluid connection device.This fluid connection device can be pipe, and is arranged in collector, and such liquid refrigerant will enter fluid connection device due to gravity.
Thus provide and can low cost install and the key component of the thermosiphon system run, because this thermal siphon block can be easy to large-scale production.
In one embodiment, this thermal siphon block can comprise valve in spatial accommodation.This valve can be set to control cold-producing medium by separator to flowing to or flowing out the first collector, and wherein this valve is set to according to the pressure in spatial accommodation, closes in closedown setting value, and opens in unlatching setting value.This realizes by bellows valve.
This thermosiphon system can run more accurately according to setting value thus, and has the operational mode of design.This valve can be bellows valve.This valve can be integrated in spatial accommodation.In one embodiment, this valve chest is integrated in spatial accommodation, and this bellows valve self is optionally installed.
In an embodiment of thermal siphon block, this fluid connection device is dismountable, and this spatial accommodation can repeat sealing.Thus, based on two identical thermal siphon blocks and the fluid connection device only if necessary installed, can use identical thermal siphon block that thermosiphon system is installed.
This object realizes by a kind of thermosiphon system, and this thermosiphon system comprises the first thermal siphon block described at least one.This first thermal siphon block can be set to evaporimeter, and this evaporimeter has spatial accommodation in the first collector, and is connected to condenser.This thermodynamic system can have pipeline between the first thermal siphon block and condenser.It is inner that this first thermal siphon block can be placed in building, shell or cabinet.This condenser can be placed in outside.Can have the pipeline of transparent walls therebetween, outside and interior separation are opened by this wall.This thermosiphon system can be set to, or has device, by this Operation system setting is, makes liquid easily enter spatial accommodation from condenser due to gravity, and therefore realizes fluid and connect.
This set, based on identical passive element or passive piece, sets up heat trnasfer.A block can be set in the warm side of wall, and another block is set at the cold side of wall, only there is a tubule and penetrate this wall.
In an embodiment of thermosiphon system, this condenser can be the second thermal siphon block.Fluid connection device that is that this second thermal siphon block can have an installation or dismounting.
In an embodiment of thermosiphon system, this condenser is the second thermal siphon block.The spatial accommodation of this first thermal siphon block is connected to the spatial accommodation of the second thermal siphon block by pipeline.
In an embodiment of thermosiphon system, this first thermal siphon block is arranged on inside wall, and this second thermal siphon block is arranged on outside wall, and install pipeline is for penetrating this wall.
In one embodiment, this thermosiphon system can comprise valve further between the first thermal siphon block and the second thermal siphon block.
Accompanying drawing explanation
Figure 1A-1B shows thermal siphon block;
Fig. 2 A-2B shows separate type thermosiphon system, and this thermosiphon system comprises the thermal siphon block as evaporimeter and the thermal siphon block as condenser;
Fig. 3 A-3C shows another separate type thermosiphon system structure;
Fig. 4 A-4B shows the separate type thermosiphon system with valve; And
Fig. 5 A-5B shows separate type thermosiphon system, has valve in the pipeline of this thermosiphon system between the thermal siphon block as evaporimeter and the thermal siphon block as condenser.
Detailed description of the invention
Part numbers | Parts |
1 | Thermal siphon block |
3 | Collector-the first collector (3I) and the second collector (3II) |
4 | Fluid communications device |
5 | Fluid connection device |
10 | Thermosiphon system |
12 | Cold-producing medium |
14 | Porous extruded tube |
16 | Fin |
20 | Condenser |
30 | Evaporimeter |
Figure 1A illustrates thermal siphon block 1, this thermal siphon block 1 is configured such that cold-producing medium 12 circulates between the first collector 3I and the second collector 3II, this the first collector 3I and the second collector 3II fluid communications device 4 are interconnected, and this fluid communications 4 comprises the porous extruded tube 14 that many centres have fin 16.This thermal siphon block 1 has spatial accommodation 40 in the first collector 3I, between spatial accommodation 40 and the second collector 3II, have linker 5.
Figure 1B illustrates the cross section of thermal siphon block 1, and this thermal siphon block 1 only illustrates porous extruded tube 14.This spatial accommodation 40 is the extension of the first collector 3I.Can see that this fluid connection device 5 enters in the spatial accommodation 40 of the first collector 3I, the cold-producing medium of such liquid phase, by this linker 5 or pipeline, directly flows to this second collector 3II.
Fig. 2 A and 2B shows separate type thermosiphon system 10, and this thermosiphon system 10 comprises the thermal siphon block 1 as evaporimeter 30 and condenser 20.
This condenser 20 can be thermal siphon block 20, and this thermal siphon block 20 is shown as and does not have fluid connection device 5 in the present embodiment.
Fig. 2 A and 2B also show installation thermosiphon system 10 in the enclosure, and this thermosiphon system 10 has the first thermal siphon block 1I as evaporimeter 30 and the second thermal siphon block 1II as condenser 20.Native system only needs hole relatively little on wall.
Fig. 3 A-3C shows another structure of the separate type thermosiphon system 10 with extra ducts 9.This pipeline 9 can bend as shown in the figure, makes the first thermal siphon block 1I and the second thermal siphon block 1II towards wall, and taking up space between wall is less.In the present embodiment, this evaporimeter 30 is for having the first thermal siphon block 1I of the first collector 3I, and wherein this first collector 3I is connected to the second collector 3II of the second thermal siphon block 1I forming condenser 20 by pipeline 9.
Fig. 4 A and 4B shows the continuity of the separate type thermosiphon system 10 shown in Fig. 3 A-3C, and it has valve.This valve 50 can be arranged in the spatial accommodation 40 as the first thermal siphon block of evaporimeter.This valve 50 can be bellows valve 50, is set to run according to the temperature/pressure in spatial accommodation 40.
Fig. 5 A-5B shows the continuity of Fig. 3 A-3C and the separate type thermosiphon system 10 shown in Fig. 4 A and 4B, has valve 50 in its pipeline 9 between the first thermal siphon block 1I as evaporimeter 30 and the second thermal siphon block 1II as condenser 20.Valve 50 is set to run according to the temperature/pressure in pipeline 9 herein.This pipeline 9 with valve 50 can enjoy common volume with spatial accommodation 40.
Claims (8)
1. thermal siphon block (1), described thermal siphon block (1) is configured such that cold-producing medium (12) circulates between the first collector (3I) and the second collector (3II), described first collector (3I) and the second collector (3II) fluid communications device (4) are interconnected, described fluid communications device (4) comprises the porous extruded tube (14) that many centres have fin (16), it is characterized in that, described first collector (3I) has spatial accommodation (40), described spatial accommodation (40) is applicable to receiving fluids cold-producing medium (12), and by fluid connection device (5), liquid refrigerant (12) is dispensed to the second collector (3II).
2. thermal siphon block (1) according to claim 1, it is characterized in that, valve (50) is comprised further at spatial accommodation (40), described valve (50) is placed through separator (62) control cold-producing medium (12) and flows to or flow out the first collector (3I), described valve (50) is set to according to the pressure in spatial accommodation (40), close in closedown setting value, open in unlatching setting value.
3. according to the thermal siphon block (1) of claim 1 or 2, it is characterized in that, wherein said fluid connection device (5) is for removable, and described spatial accommodation (40) resealable.
4. thermosiphon system (10), at least comprise the first thermal siphon block (1I) according to claim arbitrary in claims 1 to 3, it is characterized in that, described first thermal siphon block (1I) is set to evaporimeter (30), described evaporimeter (30) has spatial accommodation (40) in the first collector (3I), and is connected to condenser (20).
5. thermosiphon system according to claim 4 (10), is characterized in that, described condenser (20) is the second thermal siphon block (1II).
6. thermosiphon system according to claim 4 (10), it is characterized in that, described condenser (20) is the second thermal siphon block (1II), and the spatial accommodation (40) of the first thermal siphon block (3I) is connected to the spatial accommodation (40) of the second thermal siphon block (3II) by pipeline (9).
7. thermosiphon system according to claim 6 (10), it is characterized in that, described first thermal siphon block (1I) is set to be arranged on inside wall, described second thermal siphon block (1II) is set to be arranged on outside wall, and described pipeline (9) is set to penetrate described wall.
8. according to the thermosiphon system (10) in arbitrary claim of claim 4 to 7, it is characterized in that, between the first thermal siphon block (1I) and the second thermal siphon block (1II), comprise valve (50).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520897263.7U CN205227934U (en) | 2015-11-11 | 2015-11-11 | Thermal siphon piece and contain disconnect -type thermal siphon system of this thermal siphon piece |
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CN201520897263.7U CN205227934U (en) | 2015-11-11 | 2015-11-11 | Thermal siphon piece and contain disconnect -type thermal siphon system of this thermal siphon piece |
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CN205227934U true CN205227934U (en) | 2016-05-11 |
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CN201520897263.7U Expired - Fee Related CN205227934U (en) | 2015-11-11 | 2015-11-11 | Thermal siphon piece and contain disconnect -type thermal siphon system of this thermal siphon piece |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107449178A (en) * | 2016-05-30 | 2017-12-08 | 徐子舟 | Solar heat siphon and gravitation energy self-loopa heat energy conversion integral system |
-
2015
- 2015-11-11 CN CN201520897263.7U patent/CN205227934U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107449178A (en) * | 2016-05-30 | 2017-12-08 | 徐子舟 | Solar heat siphon and gravitation energy self-loopa heat energy conversion integral system |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
TR01 | Transfer of patent right | ||
TR01 | Transfer of patent right |
Effective date of registration: 20180104 Address after: Sakkova, Denmark Patentee after: The Danish danteng company Address before: 65 Marion Li Road, skovo City Patentee before: DANTHERM AIR HANDLING AS |
|
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20160511 Termination date: 20191111 |