CN106091763A - The one-way circulation of a kind of oscillatory type heat-transfer device starts structure - Google Patents
The one-way circulation of a kind of oscillatory type heat-transfer device starts structure Download PDFInfo
- Publication number
- CN106091763A CN106091763A CN201610610665.3A CN201610610665A CN106091763A CN 106091763 A CN106091763 A CN 106091763A CN 201610610665 A CN201610610665 A CN 201610610665A CN 106091763 A CN106091763 A CN 106091763A
- Authority
- CN
- China
- Prior art keywords
- water conservancy
- conservancy diversion
- working solution
- section
- forked
- 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.)
- Pending
Links
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F28—HEAT EXCHANGE IN GENERAL
- F28D—HEAT-EXCHANGE APPARATUS, NOT PROVIDED FOR IN ANOTHER SUBCLASS, IN WHICH THE HEAT-EXCHANGE MEDIA DO NOT COME INTO DIRECT CONTACT
- F28D15/00—Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls ; Heat-exchange apparatus employing intermediate heat-transfer medium or bodies
- F28D15/02—Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls ; Heat-exchange apparatus employing intermediate heat-transfer medium or bodies in which the medium condenses and evaporates, e.g. heat pipes
- F28D15/0233—Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls ; Heat-exchange apparatus employing intermediate heat-transfer medium or bodies in which the medium condenses and evaporates, e.g. heat pipes the conduits having a particular shape, e.g. non-circular cross-section, annular
Landscapes
- Engineering & Computer Science (AREA)
- Life Sciences & Earth Sciences (AREA)
- Sustainable Development (AREA)
- Physics & Mathematics (AREA)
- Thermal Sciences (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Steam Or Hot-Water Central Heating Systems (AREA)
Abstract
The one-way circulation of a kind of oscillatory type heat-transfer device starts structure, the enclosure interior tool loop type runner of this oscillatory type heat-transfer device, this loop type runner includes heated section and first, second side water conservancy diversion section, being equipped with working solution in loop type runner, the working solution evaporation of heated section forms steam pressure and moves with the liquid stream that pushes the work forward;And second water conservancy diversion section at least side, side be provided with and protrude out the forked choked flow road in blind hole form towards side, forming one between this forked choked flow road and the second side water conservancy diversion section and pitch edge, that should fall to pitch edge protrudes out direction and the working solution moving direction contrary from heated section;Whereby, this forked choked flow road is in order to block the working solution moved from heated section towards the second side water conservancy diversion section, and relative to promoting the working solution flow regime that moves from heated section towards the first side water conservancy diversion section, thus accelerates reaching of working solution one-way circulation starting state.
Description
Technical field
The present invention relates to a kind of heat-transfer device;The one-way circulation particularly relating to a kind of oscillatory type heat-transfer device starts structure wound
Neomorph.
Background technology
The heat-transfer device such as heat pipe or hot plate, owing to having good heat transfer property energy, is the most extensively employed conduct
The heat-dissipating structure of various electronic products, particularly in computer configuation, the configuration of the most visible most heat pipes.
Because the problem of conventional heat pipe structure still too complex and shortcoming, follow-up have relevant industry to develop one not then
The oscillating heat pipe of tool capillary structure, the overall structure of oscillating heat pipe is comparatively simple, and it is typically by a smooth tubule even
Knot forms, and its driving force is by producing gravity suffered by capillary force, hydraulic fluid and by thermogenetic steam bubble pressure compared with pipe with small pipe diameter
Power etc., so that heat pipe generation action, analysis speech, the working solution of cumulative volume 40% ~ 80% in filling accounts for cavity in oscillating heat pipe, and
Presenting negative pressure state in cavity, whereby when part cavity is heated, working solution evaporation can form steam pressure with the liquid that pushes the work forward
Flowing, thus constitute circulation concussion state.
But, tradition oscillating heat pipe finds in use experience, and its internal work liquid produces the startup power of do action
The most fairly limited, because in the design of existing oscillating heat pipe configuration, generally producing pressure by big pipe with small pipe diameter difference
Difference, to reach the purpose of unilateral initiative gas circulation, but this kind of existing form finds, in actually used experience in its heat pipe
When starting to be heated carburation by evaporation and produce thrust at the beginning of the working solution of portion's correspondence pyrotoxin, owing to it leads to Large Diameter Pipeline and pipe with small pipe diameter
Working solution all presents smooth-going flow regime, the most often occur the pressure of two flow directions to support the most mutually at an intersection and
Cannot reach or be difficult to reach expection and start the purpose of working solution one-way circulation, this is actually necessary to be thought breakthrough again
Important technology problem.
Therefore, the problem existed for above-mentioned existing oscillatory type conductive structure, how developing one can be more preferable
The innovative structure of practicality, actually needing relevant industry is thought target and the direction of breakthrough again.
In view of this, inventor this in being engaged in manufacturing development and the design experiences of Related product for many years, for above-mentioned target,
Design in detail and after scrupulous assessment, obtain true this creation having practicality eventually.
Summary of the invention
The present invention provides the one-way circulation of a kind of oscillatory type heat-transfer device to start structure, and its purpose is mainly for how to research and develop
Going out the new-type oscillatory type heat-transfer device structure of a kind of more preferable practicality is target in addition strategic structural.
For reaching above-mentioned purpose, the technical solution used in the present invention is:
The one-way circulation of a kind of oscillatory type heat-transfer device starts structure, including a housing and the primary Ioops of being located at this enclosure interior
Type runner, this loop type runner includes a heated section, one first side water conservancy diversion section and one second side water conservancy diversion section, and this time
Being equipped with a working solution in the type runner of road, the working solution evaporation of described heated section forms steam pressure with the liquid stream that pushes the work forward
Dynamic;And wherein, at least side of described second side water conservancy diversion section is provided with and protrudes out in blind hole form at least one forked resistance towards side
Runner, also forms one between this forked choked flow road and the second side water conservancy diversion section and pitches edge, should fall fork edge protrude out direction with
Working solution moving direction contrary from described heated section;Whereby, described forked choked flow road is in order to block from heated section court
The working solution that second side water conservancy diversion section moves, and relative to promoting the treatment fluid flow that moves from heated section towards the first side water conservancy diversion section
Dynamic state, thus accelerate reaching of oscillatory type heat-transfer device internal work liquid one-way circulation starting state;
Described oscillatory type heat-transfer device is set as a heat pipe form, and described housing is bent into primary Ioops form institute structure by a hollow pipe
Become and include one first pipe end and one second pipe end being mutually butted combination, and by this first pipe end, the second pipe end wherein
One is provided with the form of a tapered tube wall to form described forked choked flow road, and by described first pipe end, the second pipe end wherein
Edge is pitched described in being formed in the end of one;
Described fork edge is formed at the two sides symmetrically configuration of described second side water conservancy diversion section.
Operation principle and the advantage of the present invention are as follows:
The one-way circulation of the present invention a kind of oscillatory type heat-transfer device starts structure, main by described housing, loop type runner, fork
Shape choked flow road, fall innovation unique texture form such as fork edge etc. and technical characteristic, make the present invention compare background technology and withdrawn deposit knot
For structure, forked choked flow road may be used to the working solution that retardance is moved towards the second side water conservancy diversion section from heated section, and relatively promotes
The working solution flow regime moved towards the first side water conservancy diversion section from heated section, thus reach to accelerate inside oscillatory type heat-transfer device
The practical improvement of working solution one-way circulation starting state.
Accompanying drawing explanation
Accompanying drawing 1 is the exploded perspective view of oscillatory type heat-transfer device structure preferred embodiment of the present invention;
Accompanying drawing 2 is the steam inside one-way circulation starting state schematic diagram one of oscillatory type heat-transfer device of the present invention;
Accompanying drawing 3 is the steam inside one-way circulation starting state schematic diagram two of oscillatory type heat-transfer device of the present invention;
Accompanying drawing 4 is the partial sectional view of oscillatory type heat-transfer device structure preferred embodiment of the present invention;
Accompanying drawing 5 is another enforcement illustration of forked choked flow road configuration of the present invention;
Accompanying drawing 6 is the forked choked flow road configuration another enforcement illustration of the present invention;
Accompanying drawing 7 is the enforcement illustration that the oscillatory type heat-transfer device of the present invention is set as heat pipe form;
Accompanying drawing 8 be the oscillatory type heat-transfer device of the present invention be set as heat pipe form two pipe ends docking forms another implement illustrations.
In the figures above: A. oscillatory type heat-transfer device;A2. oscillatory type heat-transfer device;10. housing;10B. housing;101. base
Plate;102. cover plate;11. first pipe ends;11C. the first pipe end;12. second pipe ends;12C. the second pipe end;13. tapered tube walls;
The tapered tube wall of 13C.;20. loop type runners;21. first side water conservancy diversion sections;22. second side water conservancy diversion sections;23. heated sections;
30. working solutions;40. forked choked flow roads;40B. forked choked flow road;40C. forked choked flow road;41. pitch edge;41B. pitches edge
Portion;41C. pitches edge;50. pyrotoxins.
Detailed description of the invention
Below in conjunction with the accompanying drawings and embodiment the invention will be further described:
Embodiment: refer to shown in Fig. 1 ~ 4, the one-way circulation for oscillatory type heat-transfer device of the present invention starts preferably implementing of structure
Example, only these embodiments are intended for purposes of discussion, are not limited by this structure in patent application.
Described oscillatory type heat-transfer device A includes a housing 10 and is located at this primary Ioops type runner 20 within housing 10,
This loop type runner 20 includes heated section 23,1 first side water conservancy diversion section 21 and an one second side water conservancy diversion section 22, and should
Being equipped with a working solution 30 in loop type runner 20, working solution 30 evaporation of this heated section 23 forms steam pressure to promote work
Make liquid 30 to flow;And wherein, at least side of this second side water conservancy diversion section 22 is provided with and protrudes out in blind hole form at least towards side
One forked choked flow road 40, between this forked choked flow road 40 and second side water conservancy diversion section 22 and formed one fall fork edge 41, should fall fork
Edge 41 protrude out direction with from working solution 30 moving direction (as shown in the arrow W1 of Fig. 2) contrary of this heated section 23.
By said structure composition form and technical characteristic, the actual operation state of oscillatory type heat-transfer device A of the present invention is first
First as in figure 2 it is shown, the heated section 23 of this loop type runner 20 is contacted with an existing pyrotoxin 50, forked choked flow road for arranging
40 may be used to retardance from heated section 23 towards the working solution 30 (as shown in arrow W2) of the second 22 sections of movements in evaporating area, side, and phase
Working solution 30 (as shown in the arrow W1) flow regime that promotion is moved towards the first side water conservancy diversion section 21 from heated section 23, from
And as it is shown on figure 3, accelerated the reaching (such as Fig. 3 of oscillatory type heat-transfer device A internal work liquid 30 one-way circulation starting state
Circulating path shown in arrow W1).This Duan Zhongxu remarks additionally, and why described forked choked flow road 40 can be to from heat affected zone
Section 23 produces retardation towards the working solution 30 of the second 22 sections of movements in evaporating area, side, is primarily due to working solution 30 and moves to forked
During choked flow road 40, the blind hole form in forked choked flow road 40 protrudes out direction and the work from heated section 23 plus falling to pitch edge 41
The morphological characteristic of liquid 30 moving direction (as shown in the arrow W1 of Fig. 2) contrary, can make the working solution 30 passed through produce backflow existing
As (as shown in the arrow L1 of Fig. 2), this backflow phenomenon, can make from heated section 23 towards the work of the second 22 sections of movements in evaporating area, side
Make liquid 30 to produce retardation and reduce this lateral pressure.
As shown in Figures 1 to 4, wherein said oscillatory type heat-transfer device A can be set as a hot plate form, so that described housing 10 includes phase
In conjunction with fixing substrate 101 and a cover plate 102, described loop type runner 20 is made to be located at substrate 101, cover plate 102 at least
One of which (note: this example is only located in substrate 101 structure), and described forked choked flow road 40 is set as oblique protruding out form.
As it is shown in fig. 7, wherein said oscillatory type heat-transfer device A2 also can be set as a heat pipe form, so that described housing 10B
Constituted and one first pipe end 11 and one that includes being mutually butted combination by being bent into primary Ioops form by a hollow pipe
Two pipe ends 12, and it is forked to be formed to be provided with the form of a tapered tube wall 13 by first pipe end the 11, second pipe end 12 one of which
Choked flow road 40B, and formed to fall to pitch edge 41B by the end of first pipe end the 11, second pipe end 12 one of which.Shown in this example
Feature is still with the presence of its different changes on implementing, and this part is as it is shown in fig. 7, make its first pipe end 11 form tapered tube wall
13, the second pipe end 12 is then the set group straight wall form in this first pipe end 11 periphery, so that forked choked flow road 40B is formed at described
Between tapered tube wall 13 and the second pipe end 12;For another shown in the embodiment of Fig. 8, its first pipe end 11C is made to be set as straight wall form,
Second pipe end 12C then set group is in the first pipe end 11C periphery and forms this tapered tube wall 13C, so that forked choked flow road 40C is formed at
Between this tapered tube wall 13C and first pipe end 11C.
Wherein, forked choked flow road 40,40B can be formed at the two sides symmetrically configuration of the second side water conservancy diversion section 22.
As it is shown in figure 5, the most forked choked flow road 40 also can be formed at two sides of the second side water conservancy diversion section 22 in each other
Dislocation configuration.
And the forked choked flow road 40 shown in Fig. 6, then it is the configuration being only formed at the second single side of side water conservancy diversion section 22.
Advantages of the present invention illustrates:
The one-way circulation of the present invention a kind of oscillatory type heat-transfer device starts structure, main by described housing, loop type runner, fork
Shape choked flow road, fall innovation unique texture form such as fork edge etc. and technical characteristic, make the present invention compare background technology and withdrawn deposit knot
For structure, forked choked flow road may be used to the working solution that retardance is moved towards the second side water conservancy diversion section from heated section, and relatively promotes
The working solution flow regime moved towards the first side water conservancy diversion section from heated section, thus reach to accelerate inside oscillatory type heat-transfer device
The practical improvement of working solution one-way circulation starting state.
Above-described embodiment, only for technology design and the feature of the explanation present invention, its object is to allow person skilled in the art
Scholar will appreciate that present disclosure and implements according to this, can not limit the scope of the invention with this.All according to the present invention
The equivalence that spirit is made changes or modifies, and all should contain within protection scope of the present invention.
Claims (1)
1. the one-way circulation of an oscillatory type heat-transfer device starts structure, it is characterised in that: include a housing and be located at this shell
The primary Ioops type runner in internal portion, this loop type runner includes a heated section, one first side water conservancy diversion section and one second side
Being equipped with a working solution in water conservancy diversion section, and this loop type runner, the working solution evaporation of described heated section forms steam pressure
To push the work forward, liquid stream moves;And wherein, at least side of described second side water conservancy diversion section is provided with and protrudes out in blind hole form towards side
At least one forked choked flow road, also form one between this forked choked flow road and the second side water conservancy diversion section and pitch edge, this pitches edge
Portion protrudes out direction and the working solution moving direction contrary from described heated section;Whereby, described forked choked flow road is in order to hinder
The stagnant working solution moved towards the second side water conservancy diversion section from heated section, and relatively promote from heated section towards the first side water conservancy diversion section
The working solution flow regime of movement, thus accelerate reaching of oscillatory type heat-transfer device internal work liquid one-way circulation starting state;
Described oscillatory type heat-transfer device is set as a heat pipe form, and described housing is bent into primary Ioops form institute structure by a hollow pipe
Become and include one first pipe end and one second pipe end being mutually butted combination, and by this first pipe end, the second pipe end wherein
One is provided with the form of a tapered tube wall to form described forked choked flow road, and by described first pipe end, the second pipe end wherein
Edge is pitched described in being formed in the end of one;
Described fork edge is formed at the two sides symmetrically configuration of described second side water conservancy diversion section.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201610610665.3A CN106091763A (en) | 2016-07-29 | 2016-07-29 | The one-way circulation of a kind of oscillatory type heat-transfer device starts structure |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201610610665.3A CN106091763A (en) | 2016-07-29 | 2016-07-29 | The one-way circulation of a kind of oscillatory type heat-transfer device starts structure |
Publications (1)
Publication Number | Publication Date |
---|---|
CN106091763A true CN106091763A (en) | 2016-11-09 |
Family
ID=57479082
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201610610665.3A Pending CN106091763A (en) | 2016-07-29 | 2016-07-29 | The one-way circulation of a kind of oscillatory type heat-transfer device starts structure |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN106091763A (en) |
-
2016
- 2016-07-29 CN CN201610610665.3A patent/CN106091763A/en active Pending
Similar Documents
Publication | Publication Date | Title |
---|---|---|
Lim et al. | On the development of large-scale structures of a jet normal to a cross flow | |
Yang et al. | Review on bubble dynamic of subcooled flow boiling-part b: Behavior and models | |
Engelberg-Forster et al. | Heat transfer to a boiling liquid—mechanism and correlations | |
Ribatski | A critical overview on the recent literature concerning flow boiling and two-phase flows inside micro-scale channels | |
Wang et al. | Effect of wall roughness by the bionic structure of dragonfly wing on microfluid flow and heat transfer characteristics | |
Woldemariam et al. | Mixing performance evaluation of additive manufactured milli-scale reactors | |
Zontul et al. | Experimental investigation of convective heat transfer performance and hydrodynamics of pulsating flow through the rectangular grooved channel | |
CN106091763A (en) | The one-way circulation of a kind of oscillatory type heat-transfer device starts structure | |
CN205825775U (en) | The one-way circulation of oscillatory type heat-transfer device starts structure | |
CN106091762A (en) | The one-way circulation of oscillatory type heat-transfer device starts structure | |
Tang et al. | Effect of manufacturing deviations on the thermohydraulic performance of printed circuit heat exchangers with zigzag channels | |
CN106052441A (en) | One-way cyclic starting structure of novel oscillation type heat conduction device | |
TWI699505B (en) | Remote heat dissipation module with micro flow channel | |
Isaev et al. | Identification of self-organizing structures by the numerical simulation of laminar three-dimensional flow around a crater on a plane by a flow of viscous incompressible fluid | |
Pavlenko et al. | Heat transfer and crisis phenomena at boiling in Freon mixture films falling down the structured tube | |
Jenks et al. | Effect of channel geometry variations on the performance of a constrained microscale-film ammonia-water bubble absorber | |
Chen et al. | Experimental Investigation of the Evolution and Head-On Collision of Elliptic Vortex Rings | |
Lu et al. | Experimental Analysis of Heat Storage and Release of Binary Methanol Aqueous Solution Pulsating Heat Pipe Phase Change Accumulator | |
CN110874513B (en) | Design method and device for gas injection hole of gas-liquid mixer | |
Sharma et al. | Mathematical analysis of mixing index for 3D-helical micromixture with rectangular cross-section by providing convergent divergent profile | |
JPS55162597A (en) | Double-wall contacting type heat exchanger and preparation thereof | |
Yanase et al. | Bifurcation diagram and the onset of periodic and chaotic flows in a curved square duct (Transitions of flow and the skeleton of turbulence) | |
Liu et al. | Numerical Study on Flow and Heat and Mass Transfer in Pulsating Heat Pipe | |
TWI600873B (en) | One-way circulation starting structure for oscillatory heat dissipation device | |
Sharaborin et al. | Computational Study of the Dynamics of the Taylor Bubble. Fluids 2021, 6, 389 |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C06 | Publication | ||
PB01 | Publication | ||
C10 | Entry into substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
WD01 | Invention patent application deemed withdrawn after publication |
Application publication date: 20161109 |
|
WD01 | Invention patent application deemed withdrawn after publication |