CN207438953U - For the condenser of double refrigeration systems - Google Patents
For the condenser of double refrigeration systems Download PDFInfo
- Publication number
- CN207438953U CN207438953U CN201721536104.XU CN201721536104U CN207438953U CN 207438953 U CN207438953 U CN 207438953U CN 201721536104 U CN201721536104 U CN 201721536104U CN 207438953 U CN207438953 U CN 207438953U
- Authority
- CN
- China
- Prior art keywords
- condenser pipe
- condenser
- babinet
- isolating cylinder
- pipe
- 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
- Heat-Exchange Devices With Radiators And Conduit Assemblies (AREA)
Abstract
For the condenser of double refrigeration systems.It is related to field of refrigeration more particularly to the wherein improvement of condenser.Propose a kind of delicate structure, having stable behavior, the condenser for double refrigeration systems that manufacture is at low cost, use cost is low and floor space is small.Condenser includes babinet, condenser pipe one, condenser pipe two and isolating cylinder, heat transferring medium access aperture is offered at the top of babinet and bottom offers heat transferring medium tap hole, the both ends of condenser pipe one wear the babinet and condenser pipe one is in the part in babinet in the shape of a spiral, the both ends of condenser pipe two wear the babinet and condenser pipe two is in the part in babinet in the shape of a spiral, condenser pipe one is among the spiral helicine inner ring of condenser pipe two, and isolating cylinder is located between condenser pipe one and condenser pipe two and is made of porous materials.The work of two condensers in double refrigeration systems can be completed by a condenser for this case, have the advantages that floor space is minimum, it is low to manufacture at low cost and use cost.
Description
Technical field
The utility model is related to field of refrigeration more particularly to the wherein improvement of condenser.
Background technology
Refrigeration system is usually mainly made of evaporator, compressor and condenser, when cooling medium carries out in evaporator
A large amount of thermal energy will be taken away during evaporation from target device, so as to fulfill the purpose of refrigeration, hereafter, gaseous cooling medium will first exist
It is compressed in compressor, reduces volume, then be passed through in condenser and be condensed into liquid, for the use of next secondary evaporator.It is existing
There are double refrigeration systems in technology that need to arrange two sets of evaporators, compressor and condenser mostly, with different temperatures ring in realization two
The refrigeration operation in border.However, this, which also results in such double refrigeration systems, to occupy the larger device space, simultaneously, it may have this
Higher equipment purchase, use, maintenance cost.
Utility model content
The utility model in view of the above problems, propose a kind of delicate structure, having stable behavior, manufacture it is at low cost, using into
This low and small floor space condenser for double refrigeration systems.
The technical solution of the utility model is:The condenser includes babinet, condenser pipe one, condenser pipe two and isolating cylinder,
Heat transferring medium access aperture is offered at the top of the babinet and bottom offers heat transferring medium tap hole, the condenser pipe one
Both ends wear the babinet and condenser pipe one is in the part in babinet in the shape of a spiral, and the both ends of the condenser pipe two are worn
If the babinet and condenser pipe two are in the part in babinet in the shape of a spiral, the condenser pipe one is in the spiral of condenser pipe two
Among the inner ring of shape, the isolating cylinder is located between condenser pipe one and condenser pipe two and is made of porous materials.
The isolating cylinder is cylindrical and coats the condenser pipe one.
Be additionally provided with several auxiliary isolating cylinders being made of porous materials on the outer wall of the isolating cylinder, several auxiliary every
It is concentric from cylinder and be socketed successively, aided in described in innermost layer isolating cylinder be socketed on isolating cylinder and auxiliary described in outermost layer every
It is located at from cylinder among the spiral helicine inner ring of condenser pipe two.
The porous material is metal polyporous material.
When the utility model is used, although condenser pipe one, condenser pipe two are in together in babinet carries out condensation operation together,
Since the temperature for being in the heat transferring medium among the spiral helicine inner ring of condenser pipe two will be consistently higher than the helical form of condenser pipe two
Outer ring outside heat transferring medium temperature, therefore, most at last so that condenser pipe one, condenser pipe two flow out liquid cooling medium
Temperature have certain temperature difference, so as in subsequent evaporation process have different refrigeration efficiency, realize " double refrigeration ".This
The work of two condensers in double refrigeration systems can be completed by a condenser for case, with floor space is minimum, is manufactured into
The advantages of this low and use cost is low.
Description of the drawings
Fig. 1 is the structure diagram of this case,
Fig. 2 is the structure diagram of condenser pipe one in this case,
Fig. 3 is the structure diagram of condenser pipe two in this case;
1 is babinet in figure, and 11 be heat transferring medium access aperture, and 12 be heat transferring medium tap hole, and 2 be condenser pipe one, and 3 be condensation
Pipe two, 4 be isolating cylinder, and 5 be auxiliary isolating cylinder.
Specific embodiment
As shown in Figs. 1-3, the condenser includes babinet 1, condenser pipe 1, condenser pipe 23 and isolating cylinder to the utility model
4, the top of the babinet 1 offers heat transferring medium access aperture 11 and bottom offers heat transferring medium tap hole 12, so as to make
Used time may be such that heat transferring medium fills up babinet, and keep mobility;The both ends of the condenser pipe 1 wear the babinet 1 and
Condenser pipe 1 is in the part in babinet 1 in the shape of a spiral, and the both ends of the condenser pipe 23 wear the babinet 1 and condense
Pipe 23 is in the part in babinet 1 in the shape of a spiral, and the condenser pipe 1 is among the spiral helicine inner ring of condenser pipe 23,
The isolating cylinder 4 is located between condenser pipe 1 and condenser pipe 23 and is made of porous materials(In this way, isolating cylinder will effectively drop
The mobility of heat transferring medium outside low condenser pipe one, so as to which the cooling medium in condenser pipe one is ensured can realize condensation operation
Simultaneously so that have centainly with the heat transferring medium condensed to condenser pipe two to the heat transferring medium that condenser pipe one is condensed
Temperature difference).It is cold due to being in use, although condenser pipe one, condenser pipe two are in together in babinet carries out condensation operation together
The temperature of heat transferring medium among the spiral helicine inner ring of solidifying pipe two will be consistently higher than outside the spiral helicine outer ring of condenser pipe two
Heat transferring medium temperature, therefore, most at last so that the temperature of liquid cooling medium that condenser pipe one, condenser pipe two flow out has
Certain temperature difference so as to have different refrigeration efficiency in subsequent evaporation process, is realized " double refrigeration ".This case passes through one
The work of two condensers in double refrigeration systems can be completed in condenser, with floor space is minimum, manufacture is at low cost and makes
With it is at low cost the advantages of.
The isolating cylinder is cylindrical and coats the condenser pipe one.
Several auxiliary isolating cylinders 5 being made of porous materials, several auxiliary are additionally provided on the outer wall of the isolating cylinder 4
Isolating cylinder 5 is concentric and is socketed successively, described in innermost layer isolating cylinder is aided in be socketed on isolating cylinder and auxiliary described in outermost layer
Isolating cylinder is helped to be located among the spiral helicine inner ring of condenser pipe two.So as to the auxiliary isolating cylinder by setting different numbers, to increase
Add the content of porous material between condenser pipe one and condenser pipe two, and then conveniently, effectively adjust condenser pipe one, condenser pipe two most
The temperature difference for the liquid cooling medium being condensed out eventually.
The porous material is metal polyporous material.So that isolating cylinder and auxiliary isolating cylinder when in use have compared with
Good rigidity, is unlikely to deform, stability is more preferable.
Claims (4)
1. for the condenser of double refrigeration systems, which is characterized in that the condenser includes babinet, condenser pipe one, condenser pipe two
And isolating cylinder, heat transferring medium access aperture is offered at the top of the babinet and bottom offers heat transferring medium tap hole, it is described cold
The both ends of solidifying pipe one wear the babinet and condenser pipe one is in the part in babinet in the shape of a spiral, the condenser pipe two
Both ends wear the babinet and condenser pipe two is in the part in babinet in the shape of a spiral, and the condenser pipe one is in condenser pipe
Among two spiral helicine inner ring, the isolating cylinder is located between condenser pipe one and condenser pipe two and is made of porous materials.
2. the condenser according to claim 1 for double refrigeration systems, which is characterized in that the isolating cylinder is in cylinder
Shape and the cladding condenser pipe one.
3. the condenser according to claim 1 for double refrigeration systems, which is characterized in that on the outer wall of the isolating cylinder
Several auxiliary isolating cylinders being made of porous materials are additionally provided with, several auxiliary isolating cylinders are concentric and are socketed successively, most
Isolating cylinder is aided in be socketed on isolating cylinder described in internal layer and described in outermost layer isolating cylinder is aided in be located at the spiral helicine of condenser pipe two
Among inner ring.
4. the condenser for double refrigeration systems according to claim 1 or 3, which is characterized in that the porous material is
Metal polyporous material.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721536104.XU CN207438953U (en) | 2017-11-15 | 2017-11-15 | For the condenser of double refrigeration systems |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721536104.XU CN207438953U (en) | 2017-11-15 | 2017-11-15 | For the condenser of double refrigeration systems |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207438953U true CN207438953U (en) | 2018-06-01 |
Family
ID=62289932
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201721536104.XU Active CN207438953U (en) | 2017-11-15 | 2017-11-15 | For the condenser of double refrigeration systems |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN207438953U (en) |
-
2017
- 2017-11-15 CN CN201721536104.XU patent/CN207438953U/en active Active
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US3170512A (en) | Heat exchanger | |
CN103842760B (en) | Heat exchanger and use the refrigerating circulatory device of this heat exchanger | |
CN203375758U (en) | Refrigerating cycle system | |
CN105683639A (en) | Pipe joint, heat exchanger, and air conditioner | |
CN105865064A (en) | Refrigerator refrigeration circulation system | |
US20190041069A1 (en) | An air conditioner | |
CN102650480A (en) | Heat exchanger | |
CN210400120U (en) | Spiral flat pipe with spiral T-shaped fins outside pipe | |
CN207438953U (en) | For the condenser of double refrigeration systems | |
CN102679791B (en) | For the heat-transfer pipe of heat exchanger | |
CN203395996U (en) | Air conditioner | |
CN201926216U (en) | Air cooling condenser | |
CN106197054A (en) | A kind of condensation pipe used in experiments of chemical engineering | |
CN109780759A (en) | A kind of condenser for double refrigeration systems | |
CN205403270U (en) | Heat transfer device suitable for pressure refrigerant | |
CN206890923U (en) | Shell and tube exchanger | |
CN201852375U (en) | Condenser of air conditioner | |
CN206515773U (en) | A kind of computer condenses radiator | |
JP2008089252A (en) | Cooling apparatus | |
KR20030089818A (en) | Device for prevention dewing of refrigerator | |
CN104197738A (en) | Condenser with cooler | |
CN218096363U (en) | Heat pipe type condenser overheating removing system, refrigerating system and air conditioner | |
TWI270643B (en) | A defrosting device and a method thereof | |
CN203824175U (en) | Condenser for water-cooling centrifugal unit | |
CN202792742U (en) | Liquid storage device |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |