CN206525065U - The water cooling that radiates row's structure - Google Patents
The water cooling that radiates row's structure Download PDFInfo
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- CN206525065U CN206525065U CN201621043743.8U CN201621043743U CN206525065U CN 206525065 U CN206525065 U CN 206525065U CN 201621043743 U CN201621043743 U CN 201621043743U CN 206525065 U CN206525065 U CN 206525065U
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Abstract
This creation is a kind of radiating water cooling row's structure, including one first cover piece, one second cover piece and the radiating water cooling row's body of plural radiating piece storehouse formation one, first cover piece, plural radiating piece and second cover piece sequentially storehouse and connect and compose one through a heat treatment mode, this first, the side of two cover pieces is connected to the upside and downside that the radiating water cooling arranges body, the top side and bottom side of the runner provided with plural turbulent flow area at least one are formed in radiating water cooling row's body to close, one first joint portion may be selected to be located on the first cover piece or radiating water cooling arranges one end of body, one second joint portion is then selected to be located on the first cover piece or radiating water cooling arranges the other end of body, and this first, two connect the runner.
Description
Technical field
This creation is related to a kind of radiating water cooling row's structure, espespecially a kind of to have the radiating water cooling row for reaching excellent in heat dissipation effect
Structure.
Background technology
With the fast development and its expansion of application of the high-tech industries such as computerized information, computer installation processing
The speed of data is also more and more faster.The volume of the electronic building brick of current computer equipment inside tends to miniaturization, integrated circuit
The closeness of (Integrated circuit, IC) also relative increase, it is related so that the heat produced by unit area is also relative
Ground increase.If a large amount of heat energy that electronic building brick is produced are removed not in time, it will cause the damage of electronic building brick, fill computer
Putting to operate.
In order to reduce the operating temperature of heating electronic package, occur a kind of water-cooled device on the market and transmission is arranged by a water cooling
Two water conduits connect a water pump (Pump) and a water-cooling head, drive water cooling liquid (or hydraulic fluid) to flow through water pump (Pump)
Radiated on to water cooling row and constantly carry out circulating cooling, quickly to remove heat.Referring to Fig. 1, known water cooling row 1 is mainly
It is made up of three stand-alone assemblies, that is, by plural number in radiating fin 11, the institute of 12 and two side water tank of plural flat tube 13 for turning around shape
Composition, the grade radiating fin 11 is located between the grade flat tube 12, and it is in turn around shape and to bend that the grade radiating fin 11, which is,
Point outside is between the outside of the corresponding adjacent grade flat tube 12 being welded through scolding tin, and the two is only contacted a little, foregoing two
The both sides of side water tank 13 and the grade radiating fin 11 and the grade flat tube 12 after mutually welding are also to be welded through scolding tin, and order should
Two side water tanks 13 connect and compose the water cooling row 1 with the grade radiating fin 11 and the grade flat tube 12, and wherein on side water tank 13
Provided with a water inlet 131 and a delivery port 132, the water inlet 131 is with delivery port 132 respectively to be connected relative two water conduits
(not shown).
Although heat can conduct to the grade radiating fin 11 hydraulic fluid in the grade flat tube 12 of known water cooling row 4 thereon
On radiate, but extend another problem, be exactly that the heat of hydraulic fluid conducts to the hot transfer efficiency of the grade radiating fin 11
It is not good, because the grade radiating fin 11 and the grade flat tube 12 are that two stand-alone assemblies are welded through scolding tin, so the grade radiates
Fin 11 is not the grade flat tube 12 part of itself so that the grade flat tube 12 conduct heat to the grade radiating fin 11 it
Between have thermal chocking, to cause the grade flat tube 12 to conduct the heat for being absorbed to water cooling liquid to the grade radiating fin 11 of both sides
Heat conduction efficiency it is not good, and then the problem of cause the solution thermal efficiency reduction (or heat exchanger effectiveness reduction) of whole water cooling row 1.Separately
Outside, because the grade radiating fin 11 is mutually welded with the outside of flat tube 12 of both sides through the outside of inflection point, the grade heat radiating fin is made
The structural strength of middle part 111 of piece 11 is more weak, the problem of easily being collided by external force and damage (as deformed), and
It is also very preferable not to the utmost Deng the thermal conduction effect between flat tube 12 and the grade radiating fin 11.
Furthermore, known water cooling row 1 is made up of three stand-alone assemblies so that numerous and diverse on assembling processing procedure and also quite colored
The problem of time-consuming and manpower, the doubt person of leak is tended to have in addition.
The content of the invention
Effectively to solve above-mentioned problem, one of this creation purpose arranges knot providing a kind of good radiating water cooling of thermal efficiency that solves
Structure.
The another object of this creation is providing a kind of radiating for having and lifting heat conduction efficiency and increase fin structure intensity
Water cooling arranges structure.
For up to above-mentioned purpose, the present invention, which provides a germline, includes one first cover piece, one second cover piece and plural radiating piece, should
Deng the radiating water cooling row's body of radiating piece storehouse formation one, each radiating piece has an at least groove and plural spoiler, the ditch
Groove is applied on the respectively radiating piece, and the grade spoiler is located in the groove, and a grade groove storehouse formation at least runner, this etc.
The grade spoiler system storehouse that radiating piece is set forms plural turbulent flow area in the runner, and the side of first and second cover piece
Be connected to should the cold row's body of water of radiation upside and downside, to close the top side and bottom side of the runner, one first knot
Conjunction portion is alternatively provided on first cover piece or the radiating water cooling arranges one end of body, one second joint portion be alternatively provided at this
On one cover piece or the radiating water cooling arrange body the other end;Through the design of this structure of the invention so that effectively reach solution thermal effect
The good effect of energy.
A kind of radiating water cooling row structure of another offer of the invention, is to be radiated including one first cover piece, one second cover piece and plural number
Part, grade radiating piece storehouse formation one is radiated water cooling row's body, and each radiating piece has plural groove, plural spoiler and extremely
A few connectivity slot system connects the grade groove, and the grade groove is applied on the respectively radiating piece, and the grade spoiler is located in the groove, and
The grade groove storehouse of the grade radiating piece forms plural runner, and the grade spoiler storehouse forms plural turbulent flow area and is located at the respectively runner
It is interior, the grade connectivity slot storehouse formation one connect water channel, and first and second cover piece side be connected to should water of radiation it is cold
The upside and downside of body are arranged, to close the top side and bottom side that the runner connects water channel with this, the selection of one first joint portion is set
On first cover piece or the radiating water cooling row body be alternatively provided to the side of water channel, plural second joint portion should be connected
On the first cover piece or one end of the grade runner away from the connection water channel;Through the design of this structure of the invention so that effectively reach
To the good effect of solution thermal efficiency.
Implement one, each radiating piece has plural first fin portion, the first fin of grade system of portion is from the adjacent groove
The side of the respectively radiating piece protrude outward and be formed with a naked empty portion between composition, and the first fin of grade portion.
Implement one, first and second joint portion is respectively provided on first cover piece, and first and second joint portion has respectively
There are one first water-guiding hole and one second water-guiding hole, first and second water-guiding hole extends through to be formed on first and second joint portion,
And first and second water-guiding hole is respectively communicated with one end and the other end of the runner of relative radiating water cooling row body.
Implement one, first and second joint portion be respectively formed at one end of the runner of radiating water cooling row's body with it is another
End, and first and second joint portion is respectively communicated with one end and the other end of the relative runner.
Implement one, each spoiler is shaped as a V shape, an oblique line shape, bending or other geometries, should
The grade spoiler of the grade spoiler of each radiating piece and adjacent another radiating piece each other storehouse in opposite direction constitute it is foregoing
Plural turbulent flow area.
Implement one, the grade spoiler is a convex body, the grade spoiler storehouse of each turbulent flow area is annularly convexly equipped in
On perisporium in the runner.
Implement one, first cover piece has an at least first flow cap and plural second fin portion, the first flow
The side of cap with to that should be connected on the upside of the cold row's body of water of radiation, to close the top side of the relative runner, and this first,
Two combine and are separately positioned on the front end and end of the first flow cap, and grade the second fin portion is from the first flow cap
Side protrude outward composition.
Implement one, second cover piece has an at least second flow channel cap and plural 3rd fin portion, the second flow channel
The side of cap with to that should be connected on the downside of the cold row's body of water of radiation, to close the bottom side of the runner, and the fin of grade the 3rd
Piece portion protrudes outward composition from the side of the second flow channel cap.
Implement one, first and second cover piece is respectively the lamellar body that a metal material is constituted, the grade radiating piece is a metal material
Texture into lamellar body, and second cover piece and the grade radiating piece and the first cover piece system sequentially from the bottom to top storehouse through a heat treatment
Mode is integrally connected the composition radiating water cooling row structure.
Brief description of the drawings
Fig. 1 is known water cooling row's combination schematic perspective view.
Fig. 2 is the exploded perspective schematic diagram of the first embodiment of this creation.
Fig. 2A is Fig. 2 of this creation close-up schematic view.
Fig. 2 B are Fig. 2 of this creation close-up schematic view.
Fig. 3 A are the combination schematic perspective view of the first embodiment of this creation.
Fig. 3 B are the schematic top plan view of the fragmentary sectional of the first embodiment of this creation.
Fig. 4 is another exploded perspective schematic diagram of the first embodiment of this creation.
Fig. 5 is the exploded perspective schematic diagram of the second embodiment of this creation.
Fig. 6 A are the combination schematic perspective view of the second embodiment of this creation.
Fig. 6 B are the schematic top plan view of the fragmentary sectional of the second embodiment of this creation.
Fig. 7 is another exploded perspective schematic diagram of the second embodiment of this creation.
Symbol description
The water cooling that radiates row's structure ... 2
First cover piece ... 21
First flow cap ... 211
Second fin portion ... 212
First water channel cap ... 213
Second cover piece ... 22
Second flow channel cap ... 221
3rd fin portion ... 222
Second water channel cap ... 223
The water cooling that radiates row's body ... 24
Radiating piece ... 24a
First fin portion ... 241a
Groove ... 242a
Connectivity slot ... 243a
Spoiler ... 244a
Turbulent flow area ... 245a
Runner ... 246a
Connect water channel ... 247a
Naked empty portion ... 248a
First joint portion ... 25
First water-guiding hole ... 251
Second joint portion ... 26
Second water-guiding hole ... 261
Embodiment
The above-mentioned purpose and its structure of this creation and characteristic functionally, will give according to the preferred embodiment of institute's accompanying drawings
Explanation.
This creation system provides a kind of radiating water cooling row's structure, refers to Fig. 2,3A, is point of the first embodiment of the present invention
Solution is aided with refering to Fig. 2A, 2B schema with combining schematic perspective view;Radiating water cooling row's structure 2 includes one first cover piece 21, one
Second cover piece 22, one first joint portion 25, one second joint portion 26 and plural radiating piece 24a, the grade radiating piece 24a storehouses are formed
One radiating water cooling row's body 24, the grade radiating piece 24a is expressed as a metal material in the present embodiment and (such as copper, aluminium, stainless is made
Steel, magnesium alloy, titanium or the good material of other ductility, thermal conductivity or other composite woods etc.) lamellar body, each radiating piece
24a has an at least groove 242a, plural first fin portion 241a and plural spoiler 244a, the 241a systems of the first fin of grade portion
Composition is protruded outward from adjacent groove 242a respectively radiating piece 24a two sides, the heat of absorption outwards to be distributed
Go out, and a naked empty portion 248a is formed between first fin of grade portion 241a, the naked empty portion 248a is with for outside sky
Air-flow body passes through, and outside air fluid is done heat exchange radiating rapidly with corresponding first fin portion 241a.And former trenches
242a represents that foregoing radiating piece 24a has 1 groove for turning around shape 242a, groove 242a system to be applied in respectively thereon in the present embodiment
On radiating piece 24a, and groove 242a two ends (i.e. front end and end) are respectively arranged on respectively radiating piece 24a the same side,
The formation of grade groove 242a storehouses an at least runner 246a, runner 246a are expressed as 1 runner for turning around shape in the present embodiment
246a.In when it is implemented, former trenches 242a can design adjustment groove 242a's according to radiating and space requirement in advance
Quantity such as more than 2, and former trenches 242a shape be alternatively chosn to an arcuation, a W word shapes, such as V-shape or other
Shape.
And the grade spoiler 244a integrally connecteds are located in respectively radiating piece 24a groove 242a, grade radiating piece 24a's
The grade spoiler 244a storehouses form plural turbulent flow area 245a in runner 246a, and the shape of each spoiler 244a
Be expressed as an oblique line shape in the present embodiment, the grade spoiler 244a of each radiating piece 24a be in such as left oblique line shape with it is adjacent
The grade spoiler 244a of another each radiating piece 24a is in the in opposite direction of such as right oblique line shape and sequentially from lower to upper one
It is cross-shaped (such as Fig. 3 B) that forward one-reverse interleaving stack, which constitutes foregoing turbulent flow area 245a,.In an embodiment, foregoing each spoiler
244a shape is also designed to a V shape, bending or other shapes, such as each radiating piece 24a spoiler 244a is
In positive V shape and adjacent another each radiating piece 24a spoiler 244a in the in opposite direction of the shape of falling V, and sequentially from it is lower toward
Upper a positive and a negative interleaving stack constitutes foregoing turbulent flow area 245a.Another embodiment, foregoing each spoiler 244a is a convex body, should
Each turbulent flow area 245a grade spoiler 244a storehouses are annularly convexly equipped on the perisporium in runner 246a.So when a work
When making liquid (such as pure water or other water cooling liquid) and flowing through runner 246a by the 245a of the turbulent flow area, make the hydraulic fluid meeting
Flowing hits spoiler 244a and produces vortex, uses the flowing velocity for slowing down hydraulic fluid and increase flowing time.
And first and second cover piece 21,22 and this etc. radiating piece 24a systems storehouses constitute radiating water cooling row's structure 2, change speech
It is exactly second cover piece 22 with the grade radiating piece 24a and first cover piece 21 be sequentially from the bottom to top storehouse through a heat treatment
Mode (a such as atmosphere furnace or a vacuum stove or other select appropriate heat treatment mode according to material) is integrally connected that composition is described to be dissipated
The cold row's structure 2 of hot water, and first and second cover piece 21,22 side be connected to should the cold row's body 24 of water of radiation it is upper
Side and downside, to close the runner 246a top side and bottom side.2 runners mentioned previously above are also designed in alternate embodiment
246a, and the quantity of the runner 246a is to followed by the quantity of the groove 242a on each radiating piece 24a1 and define to be formed
, storehouse is formed with 2 (or 2) runners if each radiating piece 24a has 2 (or 2) groove 242a thereon
246a, the rest may be inferred.
And (such as copper, aluminium, stainless steel, magnalium is made to be expressed as a metal material in the present embodiment in foregoing first cover piece 21
Alloy, titanium or the good material of other ductility, thermal conductivity or other composite woods etc.) lamellar body, first cover piece 21 has at least
One first flow cap 211 and plural second fin portion 212, the second fin of grade portion 212 is from the side of the first flow cap 211
While protrude outward composition, and relative first fin portion 241a, the first flow cap 211 be to should runner 246a, and should
The side of first flow cap 211 with to should the upside of the cold row's body 24 of water of radiation be connected, to close the relative runner
246a top side.Foregoing second cover piece 22 is expressed as a metal material in the present embodiment and (such as copper, aluminium, stainless steel, magnalium conjunction is made
Gold, titanium etc.) lamellar body, and the second cover piece 22 has an at least second flow channel cap 221 and plural 3rd fin portion 222, this etc.
3rd fin portion 222 protrudes outward composition, and relative first fin portion 241a from the side of the second flow channel cap 221, and
The side of the second flow channel cap 221 with to should the downside of the cold row's body 24 of water of radiation be connected, to close runner 246a
Bottom side.Second and third wherein foregoing fin portion is the heat of absorption outwards to be distributed.
Another person, foregoing first joint portion 25 is alternatively provided on first cover piece 21 or the radiating water cooling arranges the one of body 24
End, is to set to be formed to arrange the runner 246a of body 24 one end in the radiating water cooling in the first joint portion 25 of this implementation, and is somebody's turn to do
Second joint portion 26 is alternatively provided on first cover piece 21 or the radiating water cooling arranges the other end of body 24, the of this implementation
Two joint portions 26 are the other end for setting and being formed and the runner 246a of body 24 being arranged in the radiating water cooling.And foregoing first joint portion 25
System is to guide a hydraulic fluid (such as pure water or other water cooling liquid) to be flowed into should be in runner 246a, then by second knot
Conjunction portion 26 is discharged, and first and second joint portion 25,26 is one end and the other end for being respectively communicated with relative runner 246a, and the
One joint portion 25 connects second joint portion 26 through runner 246a.In an embodiment, such as Fig. 4 is aided with refering to Fig. 3 B, foregoing
First and second joint portion 25,26 selection design be separately positioned on first cover piece 21, that is, first and second joint portion 25,26 points
Do not formed on the front end and end in the first flow cap 211 of foregoing first cover piece 21, and first and second joint portion 25,26
There is one first water-guiding hole 251 and one second water-guiding hole 261 respectively, first and second water-guiding hole 251,261 extends through to be formed
On first and second joint portion 25,26, and first and second water-guiding hole 251,261 is respectively communicated with the relative radiating water cooling and arranges body 24
Runner 246a one end and the other end.
In of the invention actual implement, first and second joint portion 25,26 can pass through two aqueduct (not shown) respectively with
The outlet and import of one water-cooling head (not shown) of correspondence are connected and connected, and the side of the water-cooling head is contacted for heat-absorbent surface and inhale
The heat of a heat generating component (such as central processing unit or figure shows chip) is received, now the hydraulic fluid in the water-cooling head can absorb
Foregoing heat, and drive the hydraulic fluid with heat to lead to through the pumping (or outer pumping for being located at water-cooling head) in the water-cooling head
Cross first joint portion 25 and flow in the runner 246a of radiating water cooling row's body 24, and along in the runner 246a for turning around shape
Towards runner 246a another extreme direction flowing while, the heat that the hydraulic fluid absorbs thereon can be transmitted to the grade first,
2nd, on three fin portion 241a, 212,222, and distributed by grade first, second and third fin portion 241a, 212,222, then
Hydraulic fluid after cooling is back in water-cooling head always constantly circulation by second joint portion 26 discharge again, to reach water cooling
The effect of radiating.
In another embodiment, radiating water cooling row's structure 2 docks a fan (not shown), and the fan is docked at relative be somebody's turn to do
At the top of the water cooling that radiates row's structure 2, the forced heat radiation of structure 2 is arranged to the radiating water cooling by the fan.
Therefore, by being formed with groove 242a and the first fin of grade portion with each radiating piece 24a sheets of this creation
241a, and first and second cover piece 21, the design that second and third fin portion such as this is formed with 22, make the heat of hydraulic fluid
Amount can be directly transferred to itself grade the first fin portion 241a thereon by each radiating piece 24a, and by first and second cover piece
21st, 22 be directly transferred to itself thereon this etc. second and third fin portion 212,222, so that overall thermal transfer efficiency is effectively substantially improved,
And then it is good to solve the thermal efficiency.In addition, through this create first and second cover piece 21,22 and this etc. radiating piece 24a storehouses be integrally connected
Design so that be effectively increased structural strength and excellent in heat dissipation effect that whole water cooling arranges structure 1.Furthermore, by the stream for turning around shape
Road 246a, can make the hydraulic fluid outer in the time increase of flowing in runner 246a, in turn in being somebody's turn to do in runner 246a
The speed and extension flowing time of hydraulic fluid flowing can more be slowed down Deng turbulent flow area 245a, use and effectively reach preferably radiating effect
Really.In addition foregoing first and second cover piece 21,22 and this etc. radiating piece 24a can mutually take for metal material that is identical or differing
With person.
Refer to Fig. 5,6A diagram, be this creation the decomposition of second embodiment with combining the schematic diagram of solid, and be aided with
Refering to Fig. 6 B;The structure of the present embodiment is substantially identical with aforementioned first embodiment with linking relationship and its effect, therefore herein
Again do not repeat.The present embodiment, which mainly changes the foregoing grade radiating piece 24a of aforementioned first embodiment structure, to be designed to
With more an at least connectivity slot 243a and plural groove 242a.That is, grade radiating piece 24a have aforementioned complex spoiler 244a,
Plural groove 242a, the first fin of aforementioned complex portion 241a and an at least connectivity slot 243a systems connect the groove 242a, this etc. such as this
Groove 242a and connectivity slot 243a is applied on respectively radiating piece 24a, and grade spoiler 244a is located at respectively groove 242a
Interior, the grade radiating piece 24a grade groove 242a storehouses form plural runner 246a, the grade radiating piece 24a grade spoiler
244a storehouses form plural turbulent flow area 245a and are located in respectively runner 246a, and grade connectivity slot 243a storehouses formation one connects water channel
247a, the connection water channel 247a are expressed as and grade runner 246a perpendicular spread configurations each other in the present embodiment.And this first,
The side of two cover pieces 21,22 be connected to should the cold row's body 24 of water of radiation upside and downside, to close the grade runner
246a connects water channel 247a top side and bottom side with this.
And foregoing first cover piece 21 of the present embodiment mainly changes the structure of the first cover piece 21 of aforementioned first embodiment
Design makes it with more a water channel cap and plural first flow cap 211, that is, first cover piece 21 has aforementioned complex the
Two fin portions 212, plural first flow cap 211 and one first water channel cap 213, the grade first flow cap 211 is correspondence
Grade runner 246a, and the grade first flow cap 211 and the first water channel cap 213 side respectively with to should water of radiation
The upside of cold row's body 24 is connected, to close the top side that relative runner 246a top side connects water channel 247a with this.And this
The structure of second cover piece 22 of aforementioned first embodiment is mainly changed design and has more a water channel by the second cover piece 22 of embodiment
Cap and plural second flow channel cap 221, that is, second cover piece 22 has the fin portion 222 of aforementioned complex the 3rd, plural number second
The water channel cap 223 of runner cap 221 and 1 second, the second flow channel such as this cap 221 is the grade second to that should wait runner 246a
The side of runner cap 221 and the second water channel cap 223 respectively with to should the downside of the cold row's body 24 of water of radiation be connected,
To close the bottom side that runner 246a bottom side connects water channel 247a with this.
Another person, one first joint portion 25 is alternatively provided on first cover piece 21 or the radiating water cooling 24 pairs of body of row should
Water channel 247a side is connected, being formed in first joint portion 25 of the present embodiment should connect in the radiating water cooling 24 pairs of body of row
Water channel 247a side, and first joint portion 25 connects relative connection water channel 247a, and plural second joint portion 26 is optional
Select and be arranged on first cover piece 21 or the one end of the grade runner 246a away from connection water channel 247a, the second of the present embodiment
Joint portion 26 is formed in ends of the grade runner 246a away from connection water channel 247a, and respectively second joint portion 26 connection phase
The relative connection water channel 247a is connected to the other end of respectively runner 246a one end, and grade runner 246a and is connected, is made
First joint portion 25 connects second joint portion through the connection water channel 247a and grade runner 246a
26.In an embodiment, such as Fig. 7, foregoing first joint portion 25 is set respectively with second joint portion of grade 26 selection design
Put on first cover piece 21, that is, first joint portion 25 is located on the first water channel cap 213 of first cover piece 21, this etc.
Second joint portion 26 is located at the one end of the grade first flow cap 211 away from the first water channel cap 213 of first cover piece 21
On, and first joint portion 25 has one first water-guiding hole 251, every one second joint portion 26 has one second water-guiding hole 261,
First water-guiding hole 251 extended through with each second water-guiding hole 261 to be formed to should the first joint portion 25 and respectively this second
On joint portion 26, and first water-guiding hole 251 is respectively communicated with relative this with respectively second water-guiding hole 261 and connects water channel 247a and each
Runner 246a one end, the relative grade runner 246a of connection water channel 247a connections.
In actual implementation of the invention, first joint portion 25 can pass through plural aqueduct with second joint portion of grade 26
(not shown) is connected and connected with the outlet and import of corresponding water-cooling head (not shown) respectively, makes the one of the water-cooling head
Side is that heat-absorbent surface contacts the heat for absorbing a heat generating component (such as central processing unit or figure shows chip), now in the water-cooling head
Hydraulic fluid can absorb foregoing heat, and drive band through the pumping (or outer pumping for being located at water-cooling head) in the water-cooling head
The hydraulic fluid of heat is by first joint portion 25 and then flows through the connection water channel 247a of radiating water cooling row's body 24 and is somebody's turn to do
Deng in runner 246a, and along the grade runner 246a towards relative grade runner 246a another extreme direction flow while, the work
Making the heat that liquid absorbs thereon can be transmitted on grade first, second and third fin portion 241a, 212,222, and by the grade
First, two, three fin portion 241a, 212,222 are distributed, and then hydraulic fluid after cooling is again by second joint portion of grade 26
Discharge is back in water-cooling head always constantly circulation, to reach the effect of water-cooling.
Therefore, through this create first and second cover piece 21,22 and this etc. the design that is integrally connected of radiating piece 24a storehouses, make
Polynary flexible design and be effectively increased whole water cooling row structure 2 structural strength effect, and also effectively lifting heat passes effect
Rate.
Claims (21)
1. one kind radiating water cooling row's structure, including one first cover piece, one second cover piece and plural radiating piece, the grade radiating piece storehouse
Radiating water cooling row's body is formed, each radiating piece has an at least groove and plural spoiler, and the groove, which is applied in, respectively should
On radiating piece, the grade spoiler is located in the groove, and the grade groove storehouse formation an at least runner, the grade radiating piece this etc.
Spoiler storehouse forms plural turbulent flow area in the runner, and the side of first and second cover piece is connected to that should dissipate
The upside and downside of the cold row's body of hot water, to close the top side and bottom side of the runner, one first joint portion be alternatively provided at this
On one cover piece or the radiating water cooling arrange body one end, one second joint portion is alternatively provided on first cover piece or the water of radiation
The other end of cold row's body.
2. radiating water cooling row's structure as claimed in claim 1, wherein each radiating piece has plural first fin portion, this etc.
First system of fin portion protrudes outward composition from the side of the respectively radiating piece of the adjacent groove, and the first fin of grade portion each other it
Between be formed with a naked empty portion.
3. radiating water cooling row's structure as claimed in claim 2, wherein first and second joint portion is respectively provided at first cover piece
On, and first and second joint portion has one first water-guiding hole and one second water-guiding hole respectively, first and second water-guiding hole is passed through respectively
Wear to be formed on first and second joint portion, and first and second water-guiding hole is respectively communicated with the stream that the relative radiating water cooling arranges body
The one end in road and the other end.
4. radiating water cooling row's structure as claimed in claim 2, wherein first and second joint portion is respectively formed at the radiating water cooling
Arrange at one end and the other end of the runner of body, and first and second joint portion is respectively communicated with one end of the runner relatively and another
One end.
5. radiating water cooling as claimed in claim 3 arranges structure, wherein each spoiler is shaped as a V shape, an oblique line
Shape or other shapes, the grade spoiler of each radiating piece and the grade spoiler of adjacent another radiating piece direction phase each other
Anti- storehouse constitutes aforementioned complex turbulent flow area.
6. radiating water cooling row's structure as claimed in claim 3, wherein the grade spoiler are a convex body, each turbulent flow area this
Annularly it is convexly equipped on the perisporium in the runner Deng spoiler storehouse.
7. radiating water cooling row's structure as claimed in claim 3, wherein first cover piece with an at least first flow cap and
Plural second fin portion, grade the second fin portion protrudes outward composition, and the first flow from the side of the first flow cap
The side of cap with to that should be connected on the upside of the cold row's body of water of radiation, to close the top side of the relative runner, and this first,
Two combinations are separately positioned on the front end and end of the first flow cap.
8. radiating water cooling row's structure as claimed in claim 7, wherein second cover piece with an at least second flow channel cap and
Plural 3rd fin portion, the side of the second flow channel cap with to that should be connected on the downside of the cold row's body of water of radiation, with closing
The bottom side of the runner, and the fin portion of grade the 3rd protrudes outward composition from the side of the second flow channel cap.
9. radiating water cooling row's structure as claimed in claim 4, wherein first cover piece with an at least first flow cap and
Plural second fin portion, the side of the first flow cap with to that should be connected on the upside of the cold row's body of water of radiation, with closing
With respect to the top side of the runner.
10. radiating water cooling row's structure as claimed in claim 9, wherein second cover piece with an at least second flow channel cap and
Plural 3rd fin portion, the side of the second flow channel cap with to that should be connected on the downside of the cold row's body of water of radiation, with closing
The bottom side of the runner, and the fin portion of grade the 3rd protrudes outward composition from the side of the second flow channel cap.
11. radiating water cooling row's structure as claimed in claim 1, wherein first and second cover piece are respectively that a metal material is constituted
Lamellar body, the grade radiating piece is the lamellar body that a metal material is constituted, and second cover piece and the grade radiating piece and first cover piece
Sequentially storehouse is integrally connected the composition radiating water cooling row structure through a heat treatment mode from the bottom to top for system.
12. one kind radiating water cooling row's structure, including one first cover piece, one second cover piece and plural radiating piece, the grade radiating piece heap
The radiating water cooling row's body of stack formation one, each radiating piece has plural groove, plural spoiler and company of an at least connectivity slot system
Lead to the grade groove, the grade groove is applied on the respectively radiating piece with the connectivity slot, and the grade spoiler is located in the respectively groove, and should
The grade groove storehouse Deng radiating piece forms plural runner, and the grade spoiler storehouse of the grade radiating piece forms plural flow-disturbing position
In in the respectively runner, grade connectivity slot storehouse formation one connects water channel, and the side of first and second cover piece is connected to correspondence
The radiating water cooling arranges the upside and downside of body, to close the top side and bottom side that the grade runner connects water channel with this, one first knot
Conjunction portion is alternatively provided on first cover piece or radiating water cooling row's body is combined to that should connect the side of water channel, plural number second
Portion is alternatively provided on first cover piece or the one end of the grade runner away from the connection water channel.
13. radiating water cooling row's structure as claimed in claim 12, wherein each radiating piece has plural first fin portion, should
Composition is protruded outward from the side of the respectively radiating piece of the adjacent groove Deng the first system of fin portion, and the first fin of grade portion is each other
Between be formed with a naked empty portion.
14. radiating water cooling row's structure as claimed in claim 13, wherein first joint portion is distinguished with the joint portion of grade second
It is located on first cover piece, and first joint portion has one first water-guiding hole, every one second joint portion has one second to lead
Water hole, first water-guiding hole extends through to be formed to should the first joint portion and respectively this second is combined with respectively second water-guiding hole
In portion, and first water-guiding hole is respectively communicated with relative this with respectively second water-guiding hole and connects water channel and respectively one end of the runner, should
Connection water channel connects the grade runner.
15. radiating water cooling row's structure as claimed in claim 13, wherein first joint portion is distinguished with the joint portion of grade second
Formed and arrange one end that body connects water channel to the side that should connect water channel with the grade runner away from this in the radiating water cooling, and should
First joint portion and respectively second joint portion are respectively communicated with relative this and connect one end of water channel and the respectively runner, and the grade runner
The other end connects the relative connection water channel and is connected.
16. radiating water cooling as claimed in claim 13 arranges structure, wherein each spoiler be shaped as a V shape, it is one oblique
Wire or other shapes, the grade spoiler of each radiating piece and the grade spoiler of adjacent another radiating piece direction each other
Opposite storehouse constitutes aforementioned complex turbulent flow area.
17. radiating water cooling row's structure as claimed in claim 13, the wherein grade spoiler is a convex body, each turbulent flow area
The grade spoiler storehouse is annularly convexly equipped on the perisporium in the respectively runner.
18. radiating water cooling row's structure as claimed in claim 15, wherein first cover piece have plural first flow cap, one
First water channel cap and plural second fin portion, the side of the grade first flow cap and the first water channel cap respectively with it is corresponding
It is connected on the upside of radiating water cooling row's body, to close the top side that the top side of the relative grade runner connects water channel with this, and should
First joint portion is arranged on the first water channel cap, the joint portion of grade second be arranged on the grade first flow cap away from this
On one end of one water channel cap.
19. radiating water cooling row's structure as claimed in claim 18, wherein second cover piece have plural second flow channel cap, one
Second water channel cap and plural 3rd fin portion, the side of the second flow channel such as this cap and the second water channel cap respectively with it is corresponding
Is connected on the downside of radiating water cooling row's body, to close the bottom side that the bottom side of the grade runner connects water channel with this, and the grade the
Three fin portions protrude outward composition from the side of the respectively second flow channel cap.
20. radiating water cooling row's structure as claimed in claim 15, wherein first cover piece have plural first flow cap, one
First water channel cap and plural second fin portion, the side of the grade first flow cap and the first water channel cap respectively with it is corresponding
It is connected on the upside of radiating water cooling row's body, to close the top side that the top side of the relative grade runner connects water channel with this.
21. radiating water cooling row's structure as claimed in claim 20, wherein second cover piece have plural second flow channel cap, one
Second water channel cap and plural 3rd fin portion, the side of the second flow channel such as this cap and the second water channel cap respectively with it is corresponding
Is connected on the downside of radiating water cooling row's body, to close the bottom side that the bottom side of the grade runner connects water channel with this, and the grade the
Three fin portions protrude outward composition from the side of the respectively second flow channel cap.
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CN201621043743.8U CN206525065U (en) | 2016-09-08 | 2016-09-08 | The water cooling that radiates row's structure |
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CN201621043743.8U CN206525065U (en) | 2016-09-08 | 2016-09-08 | The water cooling that radiates row's structure |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107809876A (en) * | 2016-09-08 | 2018-03-16 | 奇鋐科技股份有限公司 | The water cooling that radiates row's structure |
CN108419412A (en) * | 2018-02-08 | 2018-08-17 | 惠州汉旭五金塑胶科技有限公司 | A kind of water cooling row with contaminant filter function |
CN109803517A (en) * | 2017-11-17 | 2019-05-24 | 英业达科技有限公司 | Heat dissipation row |
US11399446B2 (en) | 2016-09-26 | 2022-07-26 | Asia Vital Components Co., Ltd. | Water cooling heat dissipation structure |
-
2016
- 2016-09-08 CN CN201621043743.8U patent/CN206525065U/en not_active Withdrawn - After Issue
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107809876A (en) * | 2016-09-08 | 2018-03-16 | 奇鋐科技股份有限公司 | The water cooling that radiates row's structure |
CN107809876B (en) * | 2016-09-08 | 2020-08-07 | 奇鋐科技股份有限公司 | Radiating water cooling row structure |
US11399446B2 (en) | 2016-09-26 | 2022-07-26 | Asia Vital Components Co., Ltd. | Water cooling heat dissipation structure |
CN109803517A (en) * | 2017-11-17 | 2019-05-24 | 英业达科技有限公司 | Heat dissipation row |
CN108419412A (en) * | 2018-02-08 | 2018-08-17 | 惠州汉旭五金塑胶科技有限公司 | A kind of water cooling row with contaminant filter function |
CN108419412B (en) * | 2018-02-08 | 2020-01-14 | 惠州汉旭五金塑胶科技有限公司 | Water-cooling row with impurity filtering function |
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