CN207922924U - There is the heat pipe of guiding device - Google Patents
There is the heat pipe of guiding device Download PDFInfo
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- CN207922924U CN207922924U CN201820326134.6U CN201820326134U CN207922924U CN 207922924 U CN207922924 U CN 207922924U CN 201820326134 U CN201820326134 U CN 201820326134U CN 207922924 U CN207922924 U CN 207922924U
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- Prior art keywords
- kuppe
- metal tube
- heat
- work medium
- conducting work
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Abstract
The utility model is a kind of, and to have the heat pipe of guiding device include metal tube, guiding device, heat-conducting work medium.Heat-conducting work medium is filling in the inside of metal tube, and guiding device is mounted on the inside of metal tube.Guiding device includes evaporation kuppe, and holder condenses kuppe.Evaporation kuppe installation site corresponds to the tube body of the evaporator section of metal tube, and condensation kuppe installation site corresponds to the tube body of the condensation segment of metal tube.The appearance for condensing kuppe is V-shape, and the appearance for evaporating kuppe is A shapes.For heat-conducting work medium by the water conservancy diversion of material guide device, the tube body of the evaporator section in metal tube increases the heat conduction heat transfer rate of thermal energy.The tube body for having lacked the condensation segment in the metal tube of the heat-conducting work medium of adherency improves heat conduction heat transfer rate on the tube body of condensation segment of the thermal energy in metal tube, improves the heat conduction heat exchange efficiency of thermal energy.
Description
Technical field
The utility model relates to a kind of heat pipe, specifically a kind of heat pipe for having guiding device.
Background technology
Gravity assisted heat pipe currently on the market, when heat pipe is in vertical place, the evaporator section of heat pipe is under, and condensation segment is upper.
When heating the evaporator section of heat pipe, the heated evaporation of heat-conducting work medium in pipe gasifies and takes away heat, which is heat-conducting work medium
Evaporation latent heat, the heat-conducting work medium of gasification flow to the condensation segment of heat pipe from central passage, condense into liquid, while releasing thermal energy.It is cold
The heat-conducting work medium of the condensed liquid shape of solidifying section along metal tube inner wall to flowing down, attached on the tube body of the condensation segment of metal tube
There are many liquid heat-conducting work mediums to influence thermal energy to exchange heat in the heat conduction of condensation segment.Original of the liquid heat-conducting work medium because of gravity
Cause, the reflux of the heat-conducting work medium of condensed liquid shape flow directly to the lower end of inside heat pipe, inside heat pipe lower end tube head by gravity
Heat-conducting area be limited, influence thermal energy to heat-conducting work medium evaporator section heat conduction exchange heat.
Invention content
Problem to be solved in the utility model is to overcome the shortcomings of the prior art, provides a kind of heat having guiding device
Pipe.
In order to reach above-mentioned purpose, what the utility model was achieved through the following technical solutions:There is the heat pipe packet of guiding device
Include metal tube, guiding device, heat-conducting work medium.
The metal tube is the pipe that the closed metal in one end makes.
The metal tube is fin metal tube, or the not metal tube of fin.
The fin of fin metal tube is fixed on outside the tube body of metal tube, and the tube body of fin and metal tube is fixed as one
's.Fin is used to increase the heat dissipation area of heat pipe, improves heat conduction, the radiating rate of the thermal energy of heat pipe.Pipe of the fin in metal tube
Connection type on external face surround shape, or longitudinal shape.Fin is fixed on around shape outside the tube body of metal tube
On face, it is suitable for gas, the heat conduction of liquid exchanges heat.Fin longitudinal direction shape be fixed on metal tube tube body outside on, be suitable for
Grain material, gas, the heat conduction heat exchange of liquid.The thickness of fin is 1-3mm;The height of fin is 5-8mm;Fin and fin it
Between spacing be 18-50mm.
The diameter of the metal tube is 30-58mm, and length is 600-1800mm.
The heat-conducting work medium is filling in the inside of metal tube.
The heat-conducting work medium is water ether or other liquid.
The tube body of the epimere of the metal tube is evaporator section, and the tube body of the hypomere of metal tube is condensation segment.
The guiding device includes evaporation kuppe, and holder condenses kuppe.
The guiding device is mounted on the inside of metal tube;By evaporation kuppe, condenses kuppe and holder is fixed as
The guiding device of one is mounted on inside metal tube.
The metal tube is in filling heat-conducting work medium, after being mounted with guiding device, by unclosed one end of metal tube into
Row sealing, it is closed at both ends after the inside of metal tube be sealed air-tight.
The condensation kuppe is sequentially fixed at the upper fragment position of holder, and the condensation that holder is fixed on condensation kuppe is led
On head piece;Evaporation kuppe is sequentially fixed at the lower fragment position of holder, and holder is fixed on the evaporation flow-guiding mouth of evaporation kuppe;
Evaporation kuppe and condensation kuppe are fixed as one by holder.
The holder is metal strip, and holder is 3-5 holders.
The evaporation kuppe installation site corresponds to the tube body of the evaporator section of metal tube, condenses kuppe installation site
Correspond to the tube body of the condensation segment of metal tube.
The making material of the condensation kuppe is metallic plate, and press machine is by designed mold by pressing metal plates
At required condensation kuppe.
The thickness of the metallic plate is 0.05-0.5mm.
The appearance of the condensation kuppe is V-shape, condenses appearance of the shape like oil leakage of kuppe;Condense water conservancy diversion
The appearance of cover is diminution from up to down, the bore of the condensation flow-guiding mouth of rack-mount condensation kuppe from up to down
Become larger successively.
The condensation flow-guiding mouth of rack-mount condensation kuppe from up to down to become larger successively can be by condensation
On the evaporation kuppe of different location of the liquid heat-conducting work medium difference water conservancy diversion to lower section, liquid heat conduction work can be made in this way
Uniformly by evaporating the guiding of kuppe, liquid heat-conducting work medium flows down matter by the way that the tube body in metal tube is past.
There is condensation flow-guiding mouth in the condensation kuppe lower end;The cover body for condensing the upper end of kuppe is fitted in metal tube
Condensation segment tube body on.
The quantity of condensation kuppe in the same metal tube is 1-5.
The outer diameter of cover body and the internal diameter size of metal tube of the upper end of the condensation kuppe are of a size.
The outer diameter of the cover body of the upper end of the condensation kuppe is 30-58mm.
The making material of the evaporation kuppe is metallic plate, and press machine is by designed mold by pressing metal plates
At required evaporation kuppe.
The appearance of the evaporation kuppe is A shapes, evaporates appearance of the shape like umbrella of kuppe;Evaporate kuppe
Appearance be amplification from up to down;The bore of the evaporation flow-guiding mouth of rack-mount evaporation kuppe from up to down according to
It is secondary to become smaller.
There is support bar on side around the lower end of the evaporation kuppe, evaporating around the lower end cover body of kuppe has on side
3-5 support bars.
The length of the support bar is 1-5mm, and width is 1-3mm, and thickness is the thickness of metallic plate.
For support bar in the outside of the cover body of evaporation kuppe, support bar and evaporation kuppe are integrated.
There is evaporation flow-guiding mouth in the evaporation kuppe upper end;The diameter for evaporating the lower end of kuppe becomes larger, and evaporates water conservancy diversion
The support bar of cover is fitted on the tube body of the evaporator section in metal tube.
The evaporation flow-guiding mouth of rack-mount evaporation kuppe from up to down to become smaller successively can will drop
By evaporating the guiding of kuppe, liquid heat-conducting work medium passes through in metal tube the liquid heat-conducting work medium of condensation in journey
Tube body is past dirty along the tube body of metal tube, and liquid heat-conducting work medium attaches on the tube body of metal tube.
The quantity of evaporation kuppe in the same metal tube is 1-5.
The mount of the guiding device is on the bottom inside metal tube.
On tube body in the cover body fitting metal tube of the described condensation kuppe upper end, the cover body of condensation kuppe upper end and
It is fitting between tube body in metal tube.
On tube body in the support bar fitting metal tube of the evaporation kuppe, the cover body and metal tube of kuppe are evaporated
It is disjunct between interior tube body, it is 1-5mm to evaporate the spacing between the tube body in the cover body and metal tube of kuppe.
The guiding device passes through holder, the support bar of evaporation kuppe and condensation kuppe upper end in metal tube
The support fitting of cover body is fixed, and guiding device will not shake in metal tube.
The evaporation kuppe is played the role of being liquid heat-conducting work medium in dropping through evaporating kuppe
Water conservancy diversion guides the pipe on the tube body of evaporator section, being conducive to the thermal energy outside metal tube into metal tube directly to metal tube evaporator section
The liquid heat-conducting work medium heating heat conduction adhered on body.
Under guiding of the liquid heat-conducting work medium by evaporating kuppe, liquid heat-conducting work medium is downward along evaporation kuppe
Flowing, liquid heat-conducting work medium pass through the steaming in the gap between evaporating the tube body in kuppe and metal tube in metal tube
The tube body for sending out section is past dirty.
Thermal energy outside metal tube is heated by the tube body of the evaporator section of metal tube to liquid heat-conducting work medium heat conduction, gold
It is gasiform heat-conducting work medium to belong to the heated rear gas-liquid phase transition of the liquid heat-conducting work medium on the tube body of pipe evaporator section;It is gasiform
Heat-conducting work medium is risen by the evaporation flow-guiding mouth evaporated on kuppe in the inner cavity at the condensation segment of metal tube.
The tube body of the evaporator section of metal tube improves heat conduction heat exchange area of the thermal energy in metal tube;In metal tube
Heat-conducting work medium on the tube body of evaporator section increases the heat conduction heat transfer rate of thermal energy.
Gasiform heat-conducting work medium is condensed into liquid after the heat conduction heat exchange by tube body at the condensation segment in metal tube
Heat-conducting work medium.
The condensation kuppe played the role of be will be condensed liquid on the tube body of the condensation segment of metal tube
On the evaporation kuppe of evaporator section of the water conservancy diversion of the condensed kuppe of heat-conducting work medium in metal tube;The heat conduction of condensed liquid shape
During working medium passes sequentially through the water conservancy diversion of condensation kuppe of multilayer, condensed liquid heat-conducting work medium passes through 1-5 layers
The condensation flow-guiding mouth of condensation kuppe flows separately down.
Condensed liquid heat-conducting work medium flows in metal tube respectively on the tube body of the condensation segment of the metal tube
Hypomere evaporator section evaporation kuppe on, the liquid heat-conducting work medium attached on the tube body of the condensation segment in metal tube is few
, lacked adherency heat-conducting work medium metal tube in condensation segment tube body improve thermal energy condensation segment heat conduction exchange heat, have
Conducive to the thermal energy on the tube body of the condensation segment of metal tube directly to metal tube outside material carry out heating heat conduction.
Described has the heat pipe of guiding device to be applied to gas, liquid, the heat exchange cooling of granule materials.
One, heat exchange heat conduction, the gas of high temperature can be carried out by having the evaporator section of the heat pipe of guiding device to be inserted in the gas of high temperature
Thermal energy carries out heat conduction heating to the tube body of the evaporator section of metal tube in body.
Two, heat exchange heat conduction, the liquid of high temperature can be carried out by having the evaporator section of the heat pipe of guiding device to be inserted in the liquid of high temperature
Thermal energy carries out heat conduction heating to the tube body of the evaporator section of metal tube in body.
Three, heat exchange heat conduction, high temperature can be carried out by having the evaporator section of the heat pipe of guiding device to be inserted in the granule materials of high temperature
Grain material in thermal energy to the evaporator section of metal tube tube body carry out heat conduction heating.
Condensed liquid heat-conducting work medium flows downwardly into the steaming of metal tube by condensing the condensation flow-guiding mouth of kuppe
On the evaporation kuppe for sending out section, the liquid heat-conducting work medium after partial condensation passes through nethermost evaporation kuppe in metal tube
Evaporation flow-guiding mouth flow to the bottom end of metal tube.Liquid heat-conducting work medium on the tube body of the evaporator section of metal tube is by metal tube
Evaporator section tube body outside thermal energy heating again and gasify as gas shape heat-conducting work medium, therefore, the heat conduction work in metal tube
Matter by what " gas-liquid phase transition " recycled exchange heat come heat conduction.
The heat-conducting area of the tube body of the evaporator section of the metal tube increases the conduction heat transfer rate of thermal energy.Heat-conducting work medium
By the water conservancy diversion of guiding device, the tube body for having lacked the condensation segment of the metal tube of the heat-conducting work medium of adherency improves thermal energy in condensation segment
Heat conduction heat transfer rate, be conducive to the thermal energy on the tube body of metal tube condensation segment directly to metal tube outside material carry out heat conduction add
Heat.For heat-conducting work medium by the water conservancy diversion of guiding device, the heat conduction heat exchange efficiency of thermal energy is high, expands the heat conduction heat transfer rate of thermal energy.
Multiple have the heat pipe of guiding device that can combine to be fabricated to heat exchanger, cooler.
The utility model has the advantages that compared with existing heat pipe:A kind of heat-conducting work medium for the heat pipe for having a guiding device
By the water conservancy diversion of guiding device, the heat-conducting area of the tube body of the evaporator section of metal tube increases the heat conduction heat transfer rate of thermal energy;
The tube body of the evaporator section of metal tube increases the heat conduction heat transfer rate of thermal energy.The condensation of the metal tube of the heat-conducting work medium of adherency is lacked
Section tube body improve thermal energy condensation segment heat conduction exchange heat, be conducive to the thermal energy on metal tube condensation segment directly to metal tube outside
Material carry out heating heat conduction.Heat-conducting work medium is improved the heat conduction heat exchange efficiency of thermal energy, is expanded by the water conservancy diversion of guiding device
The heat conduction heat transfer rate of thermal energy.
Description of the drawings:
Fig. 1 is the structural schematic diagram for the heat pipe that the utility model has guiding device;
Fig. 2 is the structural schematic diagram of the condensation kuppe of the guiding device for the heat pipe that the utility model has guiding device;
Fig. 3 is the structural schematic diagram of the evaporation kuppe of the guiding device for the heat pipe that the utility model has guiding device.
In attached drawing:1, metal tube, 2, holder, 3, condensation kuppe, 4, evaporation kuppe, 5, heat-conducting work medium, 6, condensation segment,
7, flow-guiding mouth is condensed, 8, evaporator section, 9, guiding device, 10, support bar, 11, cover body, 12, evaporation flow-guiding mouth.
Specific implementation mode:
The utility model is described further with reference to the accompanying drawings and examples.
Embodiment:
The heat pipe of guiding device that has as shown in Figure 1 includes metal tube 1, guiding device 9, heat-conducting work medium 5.
The metal tube 1 is the pipe that the closed metal in one end makes.
The metal tube 1 is fin metal tube.
The diameter of the metal tube 1 is 48mm, and length is 800mm.
The heat-conducting work medium 5 is filling in the inside of metal tube 1.
The heat-conducting work medium 5 is water.
The tube body of the epimere of the metal tube 1 is evaporator section 8, and the tube body of the hypomere of metal tube 1 is condensation segment 6.
Such as Fig. 1, Fig. 2, guiding device 9 shown in Fig. 3 includes evaporation kuppe 4, condenses kuppe 3, holder 2.
The guiding device 9 is mounted on the inside of metal tube 1;By evaporation kuppe 4, condenses kuppe 3 and holder 2 is solid
It is set to integrated guiding device inside metal tube 1.
Evaporation 4 installation site of kuppe corresponds to the tube body of the evaporator section 8 of metal tube 1, and condensation kuppe 3 is installed
Position corresponds to the tube body of the condensation segment 6 of metal tube 1.
The metal tube 1 is in filling heat-conducting work medium 5, after being mounted with guiding device 9, by the unclosed one end of metal tube 1
It is sealed;The inside of metal tube 1 after closed at both ends is sealed air-tight.
The evaporation kuppe 4 and condensation kuppe 3 is fixed as one by holder 2.
The condensation kuppe 3 is sequentially fixed at the upper fragment position of holder 2, and holder 2 is fixed on the cold of condensation kuppe 3
On solidifying flow-guiding mouth 7;Evaporation kuppe 4 is sequentially fixed at the lower fragment position of holder 2, and holder 2 is fixed on the evaporation of evaporation kuppe 4
On flow-guiding mouth 12.
The holder 2 is 3.
The making material of condensation kuppe 3 as shown in Figure 2 is metallic plate, and press machine is by designed mold by metal
Plate is pressed into required condensation kuppe 3.
The appearance of the condensation kuppe 3 is V-shape, condenses appearance of the shape like funnel of kuppe 3;Condensation is led
The appearance of stream cover 3 is diminution from up to down;The condensation flow-guiding mouth 7 of condensation kuppe 3 from up to down on holder 2
Bore become larger successively.
The condensation flow-guiding mouth 7 that condensation kuppe 3 from up to down on holder 2 becomes larger successively can be by condensation
Liquid heat-conducting work medium 5 is distinguished on water conservancy diversion to the evaporation kuppe 4 of the different location of lower section, can make liquid heat conduction in this way
Working medium 5 is uniformly by evaporating the guiding of kuppe 4, and liquid heat-conducting work medium 5 is by the tube body in metal tube 1 along metal
Toward flowing down, liquid heat-conducting work medium 5 attaches on the tube body of the metal tube 1 of evaporator section 8 tube body of pipe 1.
There is condensation flow-guiding mouth 7 in 3 lower end of condensation kuppe;The cover body 11 for condensing the upper end of kuppe 3 is fitted in gold
On the tube body for belonging to the condensation segment 6 of pipe 1.
The quantity of the condensation kuppe 3 is 3.
The outer diameter of cover body 11 and the internal diameter size of metal tube 1 of the upper end of the condensation kuppe 3 are of a size.
The outer diameter for condensing the cover body 11 of the upper end of kuppe 3 is 48mm.
The making material of evaporation kuppe 4 as shown in Figure 3 is metallic plate, and press machine is by designed mold by metal
Plate is pressed into required evaporation kuppe 4.
The appearance of the evaporation kuppe 4 is A shapes, evaporates appearance of the shape like umbrella of kuppe 4;Evaporate water conservancy diversion
The appearance of cover 4 is amplification from up to down;The evaporation flow-guiding mouth 12 of evaporation kuppe 4 from up to down on holder 2
Bore be also to become smaller successively.
The evaporation flow-guiding mouth 12 of evaporation kuppe 4 from up to down on holder 2 to become smaller successively can will under
For the liquid heat-conducting work medium 5 of condensation during pendant under the guiding of evaporation kuppe 4, liquid heat-conducting work medium 5 passes through gold
The tube body belonged in pipe 1 is past dirty.
There is support bar 10 around the lower end of the evaporation kuppe 4 on side, around the lower end cover body 11 for evaporating kuppe 4
There are 3 support bars 10 on side;Support bar 10 and evaporation kuppe 4 are integrated.
The length of the support bar 10 is 3mm, and width is 2mm, and thickness is the thickness of metallic plate.
There is evaporation flow-guiding mouth 12 in 4 upper end of evaporation kuppe;The diameter for evaporating the lower end of kuppe 4 becomes larger, and evaporates
The support bar 10 of kuppe 4 is fitted on the tube body of evaporator section 8 of metal tube 1.
The quantity of the evaporation kuppe 4 is 3.
The holder 2 of the guiding device 9 is placed on the bottom inside the pipe of metal tube 1.
On the tube body for the condensation segment 6 that the cover body 11 of 3 upper end of condensation kuppe is bonded metal tube 1, kuppe 3 is condensed
It is that fitting is connected between tube body in the cover body 11 and metal tube 1 of upper end.
The support bar 10 of the evaporation kuppe 4 is bonded on the tube body in metal tube 1, evaporates the cover body 11 of kuppe 4
It is disjunct between the tube body in metal tube 1, between evaporating between the tube body in the cover body 11 and metal tube 1 of kuppe 4
Away from being 2mm.
The guiding device 9 passes through holder 2, the support bar 10 of evaporation kuppe 4 and condensation kuppe in metal tube 1
The support fitting of the cover body 11 of 3 upper ends is fixed, and guiding device 9 will not shake in metal tube 1.
The evaporation kuppe 4 is played the role of being liquid heat-conducting work medium 5 in dropping through evaporating kuppe 4
Water conservancy diversion guide into metal tube 1 on the tube body of evaporator section 8, heat-conducting work medium 5 is conducive to gold by the water conservancy diversion of guiding device 2
The thermal energy belonged to outside 1 pipe of pipe heats heat conduction directly to the liquid heat-conducting work medium 5 on the tube body of metal tube 1.
Liquid heat-conducting work medium 5 is under the water conservancy diversion guiding of evaporation kuppe 4, and liquid heat-conducting work medium 5 is along multi-layer evaporation
Kuppe 4 flows downward, and liquid heat-conducting work medium 5 passes sequentially through the water conservancy diversion of the evaporation kuppe 4 of multilayer, liquid heat conduction work
Matter 5 is respectively by evaporating the evaporator section 8 in the spacing gap between the tube body in kuppe 4 and metal tube 1 in metal tube 1
Tube body toward flow down.
Thermal energy outside 1 pipe of metal tube gives the evaporator section 8 for being adhered to metal tube 1 by the tube body of the evaporator section 8 of metal tube 1
Liquid 5 heat conduction of heat-conducting work medium on tube body is heated, gas after the liquid heat-conducting work medium 5 on 1 evaporator section 8 of metal tube is heated
Liquid phase becomes gasiform heat-conducting work medium 5;
The tube body of the evaporator section 8 of metal tube 1 improves conduction heat exchange area of the thermal energy in 1 pipe of metal tube;Metal tube 1 steams
The tube body of hair section 8 increases the conduction heat transfer rate of thermal energy.
Gasiform heat-conducting work medium 5 rises the condensation segment 6 in metal tube 1 by the evaporation flow-guiding mouth 12 of evaporation kuppe 4
Place;It is condensed into liquid heat conduction after the heat conduction heat exchange that gasiform heat-conducting work medium 5 passes through the tube body of the condensation segment 6 of metal tube 1
Working medium 5.
Condensed liquid heat-conducting work medium 5 flows downwardly into metal tube 1 by condensing the condensation flow-guiding mouth 7 of kuppe 3
Evaporator section 8 evaporation kuppe 4 on, liquid heat-conducting work medium 5 on the evaporator section 8 of metal tube 1 by metal tube 1 evaporation
The heating again of thermal energy outside section 8 and gasify as gas shape heat-conducting work medium 5, therefore, the heat-conducting work medium 5 in metal tube 1 passes through " gas
Liquid phase change " cycle come heat conduction heat exchange.
The condensation kuppe 3 is played the role of being by condensed liquid on the tube body of the condensation segment 6 of metal tube 1
The water conservancy diversion of 5 condensed kuppe 3 of shape heat-conducting work medium draws on the evaporation kuppe 4 of the evaporator section 8 in metal tube 1;Liquid after condensation
The heat-conducting work medium 5 of body shape passes sequentially through the water conservancy diversion of the condensation kuppe 3 of multilayer, and condensed liquid heat-conducting work medium 5 passes through 3
The condensation flow-guiding mouth 7 of the condensation kuppe 3 of layer flows separately down.
Condensed liquid heat-conducting work medium 5 passes through condensation respectively on the tube body of condensation segment 6 in the metal tube 1
On the evaporation kuppe 4 of evaporator section 8 in the water conservancy diversion pilot flow direction metal tube 1 of kuppe 3, liquid after partial condensation is led
Hot working fluid 5 flows to the bottom end of metal tube 1 by the evaporation flow-guiding mouth 12 of nethermost evaporation kuppe 4 in metal tube 1.
Condensed liquid heat-conducting work medium 5 is by condensing water conservancy diversion on the tube body of condensation segment 6 in the metal tube 1
Under the guide functions of cover 3, the liquid heat-conducting work medium 5 on the tube body of the condensation segment 6 in metal tube 1 is few, in metal tube 1
The tube body of the heat-conducting work medium 5 for having lacked adherency of condensation segment 6 improves thermal energy in the heat conduction heat transfer rate of condensation segment 6, is conducive to gold
The thermal energy belonged on the tube body of 1 condensation segment 6 of pipe carries out heating heat conduction directly to the material outside the tube body of metal tube 1.
Above example is merely used to help understand the production method and its core concept of the utility model, and specific implementation is not
It is confined to above-mentioned specific embodiment, those skilled in the art is from above-mentioned design, without performing creative labour, institute
The variation made all falls within the scope of protection of the utility model.
Claims (6)
1. a kind of heat pipe having guiding device, including metal tube(1), guiding device(9), heat-conducting work medium(5);It is characterized in that:
Guiding device(9)Including evaporating kuppe(4), condense kuppe(3), holder(2);Condense kuppe(3)It fixes successively
In holder(2)Upper fragment position;Evaporate kuppe(4)It is sequentially fixed at holder(2)Lower fragment position;
The metal tube(1)It is fin metal tube, or the not metal tube of fin;
The heat-conducting work medium(5)It is filling in metal tube(1)Inside, guiding device(9)Mounted on metal tube(1)Inside,
Metal tube after closed at both ends(1)Inside be sealed air-tight;
The metal tube(1)The tube body of epimere be evaporator section(8), metal tube(1)The tube body of hypomere be condensation segment(6);
The evaporation kuppe(4)Installation site corresponds to metal tube(1)Evaporator section(8)Tube body, condense kuppe(3)
Installation site corresponds to metal tube(1)Condensation segment(6)Tube body;
The condensation kuppe(3)Appearance be V-shape, condense kuppe(3)There is condensation flow-guiding mouth in lower end(7);Condensation is led
Stream cover(3)Appearance be diminution from up to down;Mounted on holder(2)On condensation kuppe from up to down(3)Condensation
Flow-guiding mouth(7)Bore become larger successively;
The evaporation kuppe(4)Appearance be A shapes, evaporate kuppe(4)There is evaporation flow-guiding mouth in upper end(12);Evaporation is led
Stream cover(4)Appearance be amplification from up to down;Mounted on holder(2)On evaporation kuppe from up to down(4)Evaporation
Flow-guiding mouth(12)Bore become smaller successively;
The evaporation kuppe(4)Lower end around have support bar on side(10);Support bar(10)Length be 1-5mm, it is wide
Degree is 1-3mm;
The guiding device(9)Holder(2)It is placed in metal tube(1)On internal bottom, kuppe is condensed(3)Upper end
Cover body(11)It is bonded metal tube(1)On interior tube body;Evaporate kuppe(4)Support bar(10)It is fitted in metal tube(1)Interior
On tube body, kuppe is evaporated(4)Cover body(11)And metal tube(1)Spacing between interior tube body is 1-3mm;
The condensation kuppe(3)Played the role of being by metal tube(1)Condensation segment(6)Tube body on condensed liquid
Body shape heat-conducting work medium(5)Condensed kuppe(3)Water conservancy diversion in metal tube(1)Interior evaporator section(8)Evaporation kuppe(4)
On;
The evaporation kuppe(4)Played the role of being the liquid heat-conducting work medium in dropping(5)Through evaporating kuppe
(4)Water conservancy diversion guide to metal tube(1)Interior evaporator section(8)Tube body on;
Metal tube(1)Outer thermal energy passes through metal tube(1)Evaporator section(8)Tube body to being attached in metal tube(1)Tube body on
Liquid heat-conducting work medium(5)Heat conduction is heated, metal tube(1)Interior evaporator section(8)Liquid heat-conducting work medium on tube body
(5)Gas-liquid phase transition is gasiform heat-conducting work medium after heated(5);Gasiform heat-conducting work medium(5)By evaporating kuppe(4)'s
Evaporate flow-guiding mouth(12)Rise at the condensation segment 6 of metal tube 1;Gasiform heat-conducting work medium(5)Pass through metal tube(1)Condensation
Section(6)It is condensed into liquid heat-conducting work medium after the heat conduction heat exchange of the tube body at place(5);Condensed liquid heat-conducting work medium
(5)By condensing kuppe(3)Condensation flow-guiding mouth(7)Flow downwardly into metal tube(1)Evaporator section(8)Evaporation kuppe
(4)On, metal tube(1)Evaporator section(8)On liquid heat-conducting work medium(5)By metal tube(1)Evaporator section(8)Outer heat
Can heating again and gasify as gas shape heat-conducting work medium 5;
Metal tube(1)Interior heat-conducting work medium(5)By what " gas-liquid phase transition " recycled exchange heat come heat conduction.
2. the heat pipe according to claim 1 for having guiding device, it is characterised in that:Metal tube(1)Diameter be 30-
58mm, length are 600-1800mm.
3. the heat pipe according to claim 1 for having guiding device, it is characterised in that:Heat-conducting work medium(5)It is water or second
Ether or other liquid.
4. the heat pipe according to claim 1 for having guiding device, it is characterised in that:Holder(2)It is 3-5.
5. the heat pipe according to claim 1 for having guiding device, it is characterised in that:Condense kuppe(3)Quantity be 1-
5.
6. the heat pipe according to claim 1 for having guiding device, it is characterised in that:Evaporate kuppe(4)Quantity be 1-
5.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820326134.6U CN207922924U (en) | 2018-03-09 | 2018-03-09 | There is the heat pipe of guiding device |
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CN201820326134.6U CN207922924U (en) | 2018-03-09 | 2018-03-09 | There is the heat pipe of guiding device |
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CN207922924U true CN207922924U (en) | 2018-09-28 |
Family
ID=63597792
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CN201820326134.6U Expired - Fee Related CN207922924U (en) | 2018-03-09 | 2018-03-09 | There is the heat pipe of guiding device |
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CN (1) | CN207922924U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN114554679A (en) * | 2022-03-17 | 2022-05-27 | 西安易朴通讯技术有限公司 | Heat radiator |
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2018
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114554679A (en) * | 2022-03-17 | 2022-05-27 | 西安易朴通讯技术有限公司 | Heat radiator |
CN114554679B (en) * | 2022-03-17 | 2024-02-09 | 西安易朴通讯技术有限公司 | Heat dissipation device |
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Granted publication date: 20180928 Termination date: 20210309 |