CN204718460U - Conference apparatus radiating tube - Google Patents
Conference apparatus radiating tube Download PDFInfo
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- CN204718460U CN204718460U CN201520365431.8U CN201520365431U CN204718460U CN 204718460 U CN204718460 U CN 204718460U CN 201520365431 U CN201520365431 U CN 201520365431U CN 204718460 U CN204718460 U CN 204718460U
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- radiating tube
- point
- tube
- radiating
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Abstract
The utility model provides conference apparatus radiating tube, main radiating tube two ends are connected by first point of radiating tube, uniform connected by second point of radiating tube in the middle part of main radiating tube, main radiating tube adopts cross section to be circular straight tube, the quantity of main radiating tube is 2-10, each main radiating tube is arranged in parallel, first point of radiating tube adopts cross section to be circular continuous folded tube, continuous folded tube adopts positive U-shaped to connect inverted U-shaped continuous tubular structure, the inner side of first point of radiating tube is disposed with work and freezes liquid layer and capillary fringe, freezing liquid intrastratal flow at work has work to freeze liquid, capillary fringe is provided with capillary uniformly, main radiating tube is evenly provided with second point of radiating tube connector, second point of radiating tube connector is connected with second point of radiating tube, second point of radiating tube adopts cross section to be circular straight tube, radiating fin is provided with inside second point of radiating tube.There is radiating efficiency high, the feature of good heat dissipation effect.
Description
Technical field
The utility model relates to heat dissipation element technical field, more particularly, relates to a kind of conference apparatus radiating tube.
Background technology
Along with scientific and technological industry progress fast, the function of electronic installation is also more and more powerful, such as central processing unit (CentralProcessing Unit, CPU), the electronic component arithmetic speed of wafer set or display unit also along with growth, the heat causing the electronic component unit interval to produce will improve relatively; Therefore, if the heat that electronic component gives out cannot dispel the heat in time, the running of electronic installation entirety will be affected, or cause the damage of electronic component.
The heat radiator of electronic element major part that general industry adopts is dispelled the heat by heat dissipation elements such as such as fan, radiator or heat pipes, and by radiator contact thermal source, far-end heat radiation is conducted heat to again by heat pipe, or by fan mandatory guidance air-flow to this radiator forced heat radiation, narrower for space or that area is larger thermal source then selects the use using temperature-uniforming plate as heat conducting element as conduction heat sources.
Utility model content
The utility model overcomes deficiency of the prior art, provides a kind of conference apparatus radiating tube.
The purpose of this utility model is achieved by following technical proposals.
Conference apparatus radiating tube, comprise main radiating tube, first point of radiating tube, second point of radiating tube, capillary fringe and work freeze liquid layer, described main radiating tube two ends are connected by described first point of radiating tube, uniform connected by described second point of radiating tube in the middle part of described main radiating tube, described main radiating tube adopts cross section to be circular straight tube, the quantity of described main radiating tube is 2-10, described in each, main radiating tube is arranged in parallel, described first point of radiating tube adopts cross section to be circular continuous folded tube, described continuous folded tube adopts positive U-shaped to connect inverted U-shaped continuous tubular structure, the inner side of described first point of radiating tube is disposed with described work and freezes liquid layer and described capillary fringe, freezing liquid intrastratal flow at described work has work to freeze liquid, described capillary fringe is provided with capillary uniformly, described main radiating tube is evenly provided with second point of radiating tube connector, described second point of radiating tube connector is connected with described second point of radiating tube, described second point of radiating tube adopts cross section to be circular straight tube, radiating fin is provided with inside described second point of radiating tube, described radiating fin adopts the central shaft circumference distortion around short transverse, described radiating fin is pyramid shaped.
The quantity of described main radiating tube is 6.
The length of described main radiating tube is 15-25mm, and the diameter of described main radiating tube is 3-5mm, and the wall thickness of described main radiating tube is 0.2-0.8mm.
The diameter of described first point of radiating tube is 2-4mm, and the wall thickness of described first point of radiating tube is 0.5-1mm.
The diameter of described second point of radiating tube is 1-3mm, and the wall thickness of described second point of radiating tube is 0.3-0.6mm.
The internal diameter of described capillary is 0.05-0.1mm.
The beneficial effects of the utility model are: the utility model by being provided with first point of radiating tube and second point of radiating tube uniformly on main radiating tube two ends and main radiating tube centre position, and change the shape of first point of radiating tube, both sides obtain radiating tube different parts variable thickness by folding mode causes, Formation cross-section thickness is not etc., simultaneously because the wall thickness of main radiating tube is thinner, main radiating tube also has good radiating effect; First point of radiating tube adopts continuous folded tube, the variable thickness being obtained radiating tube different parts by folding mode is caused, Formation cross-section thickness is not etc., that is high strength and the unification with high heat dispersion is obtained by changing section thickness, the area thickness of intermediate radiator is constant, makes the heat dispersion that radiating tube keeps good; In first point of radiating tube, be disposed with work freeze liquid layer and capillary fringe, work freezes liquid intrastratal flow has work to freeze liquid, the change between the liquid phase of doing to freeze liquid to gas phase and work is utilized to freeze the flowing of liquid to carry out heat conduction, thus raising radiating efficiency, the setting of capillary fringe is also make to need the gas of heat radiation or liquid can stay for some time in the capillary in capillary fringe more, thus improves its heat exchange efficiency; Owing to being provided with radiating fin on the inwall of second point of radiating tube, effectively increase the contact area of heat exchanger tube and tube fluid, when not changing length and the internal diameter of heat exchanger tube, add the heat transfer area of heat exchanger tube, and radiating fin makes the second radiating tube inner wall coarse, under the operating mode of low reynolds number, easily form turbulent flow, therefore heat exchange efficiency is higher.
Accompanying drawing explanation
Fig. 1 is overall structure schematic diagram of the present utility model;
Fig. 2 is the structural representation of first point of radiating tube in the utility model;
Fig. 3 is the close-up schematic view of radiating fin inside second point of radiating tube in the utility model.
In figure: 1 is main radiating tube, 2 is first point of radiating tube, and 3 is second point of radiating tube, and 4 is capillary fringe, and 5 freeze liquid layer for work, and 6 is capillary, and 7 freeze liquid for work, and 8 is radiating fin.
Detailed description of the invention
Below by specific embodiment, the technical solution of the utility model is further described.
As shown in Figure 1 to Figure 2, wherein 1 is main radiating tube, and 2 is first point of radiating tube, and 3 is second point of radiating tube, and 4 is capillary fringe, and 5 freeze liquid layer for work, and 6 is capillary, and 7 freeze liquid for work, and 8 is radiating fin.
Conference apparatus radiating tube, comprise main radiating tube 1, first point of radiating tube 2, second point of radiating tube 3, capillary fringe 4 and work freeze liquid layer 5, main radiating tube 1 two ends are connected by first point of radiating tube 2, uniform connected by second point of radiating tube 3 in the middle part of main radiating tube 1, main radiating tube 1 adopts cross section to be circular straight tube, the quantity of main radiating tube 1 is 2-10, each main radiating tube 1 is arranged in parallel, first point of radiating tube 2 adopts cross section to be circular continuous folded tube, continuous folded tube adopts positive U-shaped to connect inverted U-shaped continuous tubular structure, the inner side of first point of radiating tube 2 is disposed with work and freezes liquid layer 5 and capillary fringe 4, freezing flowing in liquid layer 5 at work has work to freeze liquid 7, capillary fringe 4 is provided with capillary 6 uniformly, main radiating tube 1 is evenly provided with second point of radiating tube connector, second point of radiating tube connector is connected with second point of radiating tube 3, second point of radiating tube 3 adopts cross section to be circular straight tube, radiating fin 8 is provided with inside second point of radiating tube 3, radiating fin 8 adopts the central shaft circumference distortion around short transverse, radiating fin 8 is in pyramid shaped.
The quantity of main radiating tube 1 is 6.
The length of main radiating tube 1 is 15-25mm, and the diameter of main radiating tube 1 is 3-5mm, and the wall thickness of main radiating tube 1 is 0.2-0.8mm.
The diameter of first point of radiating tube 2 is 2-4mm, and the wall thickness of first point of radiating tube 2 is 0.5-1mm.
The diameter of second point of radiating tube 3 is 1-3mm, and the wall thickness of second point of radiating tube 3 is 0.3-0.6mm.
The internal diameter of capillary 6 is 0.05-0.1mm.
The present embodiment by being provided with first point of radiating tube and second point of radiating tube uniformly on main radiating tube two ends and main radiating tube centre position, and change the shape of first point of radiating tube, both sides obtain radiating tube different parts variable thickness by folding mode causes, Formation cross-section thickness is not etc., simultaneously because the wall thickness of main radiating tube is thinner, main radiating tube also has good radiating effect; First point of radiating tube adopts continuous folded tube, the variable thickness being obtained radiating tube different parts by folding mode is caused, Formation cross-section thickness is not etc., that is high strength and the unification with high heat dispersion is obtained by changing section thickness, the area thickness of intermediate radiator is constant, makes the heat dispersion that radiating tube keeps good; In first point of radiating tube, be disposed with work freeze liquid layer and capillary fringe, work freezes liquid intrastratal flow has work to freeze liquid, the change between the liquid phase of doing to freeze liquid to gas phase and work is utilized to freeze the flowing of liquid to carry out heat conduction, thus raising radiating efficiency, the setting of capillary fringe is also make to need the gas of heat radiation or liquid can stay for some time in the capillary in capillary fringe more, thus improves its heat exchange efficiency; Owing to being provided with radiating fin on the inwall of second point of radiating tube, effectively increase the contact area of heat exchanger tube and tube fluid, when not changing length and the internal diameter of heat exchanger tube, add the heat transfer area of heat exchanger tube, and radiating fin makes the second radiating tube inner wall coarse, under the operating mode of low reynolds number, easily form turbulent flow, therefore heat exchange efficiency is higher.
Above an embodiment of the present utility model has been described in detail, but described content being only preferred embodiment of the present utility model, can not being considered to for limiting practical range of the present utility model.All equalizations done according to the utility model application range change and improve, and all should still belong within patent covering scope of the present utility model.
Claims (6)
1. conference apparatus radiating tube, it is characterized in that: comprise main radiating tube, first point of radiating tube, second point of radiating tube, capillary fringe and work freeze liquid layer, described main radiating tube two ends are connected by described first point of radiating tube, uniform connected by described second point of radiating tube in the middle part of described main radiating tube, described main radiating tube adopts cross section to be circular straight tube, the quantity of described main radiating tube is 2-10, described in each, main radiating tube is arranged in parallel, described first point of radiating tube adopts cross section to be circular continuous folded tube, described continuous folded tube adopts positive U-shaped to connect inverted U-shaped continuous tubular structure, the inner side of described first point of radiating tube is disposed with described work and freezes liquid layer and described capillary fringe, freezing liquid intrastratal flow at described work has work to freeze liquid, described capillary fringe is provided with capillary uniformly, described main radiating tube is evenly provided with second point of radiating tube connector, described second point of radiating tube connector is connected with described second point of radiating tube, described second point of radiating tube adopts cross section to be circular straight tube, radiating fin is provided with inside described second point of radiating tube, described radiating fin adopts the central shaft circumference distortion around short transverse, described radiating fin is pyramid shaped.
2. conference apparatus radiating tube according to claim 1, is characterized in that: the quantity of described main radiating tube is 6.
3. conference apparatus radiating tube according to claim 1, is characterized in that: the length of described main radiating tube is 15-25mm, and the diameter of described main radiating tube is 3-5mm, and the wall thickness of described main radiating tube is 0.2-0.8mm.
4. conference apparatus radiating tube according to claim 1, is characterized in that: the diameter of described first point of radiating tube is 2-4mm, and the wall thickness of described first point of radiating tube is 0.5-1mm.
5. conference apparatus radiating tube according to claim 1, is characterized in that: the diameter of described second point of radiating tube is 1-3mm, and the wall thickness of described second point of radiating tube is 0.3-0.6mm.
6. conference apparatus radiating tube according to claim 1, is characterized in that: the internal diameter of described capillary is 0.05-0.1mm.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201520365431.8U CN204718460U (en) | 2015-05-29 | 2015-05-29 | Conference apparatus radiating tube |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201520365431.8U CN204718460U (en) | 2015-05-29 | 2015-05-29 | Conference apparatus radiating tube |
Publications (1)
Publication Number | Publication Date |
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CN204718460U true CN204718460U (en) | 2015-10-21 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201520365431.8U Expired - Fee Related CN204718460U (en) | 2015-05-29 | 2015-05-29 | Conference apparatus radiating tube |
Country Status (1)
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CN (1) | CN204718460U (en) |
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2015
- 2015-05-29 CN CN201520365431.8U patent/CN204718460U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
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: 20151021 Termination date: 20170529 |