CN207625995U - Water cooling with built-in interlayer arranges structure - Google Patents
Water cooling with built-in interlayer arranges structure Download PDFInfo
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- CN207625995U CN207625995U CN201721840517.7U CN201721840517U CN207625995U CN 207625995 U CN207625995 U CN 207625995U CN 201721840517 U CN201721840517 U CN 201721840517U CN 207625995 U CN207625995 U CN 207625995U
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- liquid chamber
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Abstract
The utility model provides a kind of water cooling row's structure with built-in interlayer, including a water cooling arranges unit, including:One first holds liquid plate body, it is connected to an import and an outlet with space in one first, one working fluid flows into the space in first by the import, and flow out the space in first from the outlet, this there is in space at least one first spacer element this is divided into a plurality of independent liquid chambers in space region in first in first, and working fluid is made to flow through a plurality of independent liquid chambers.
Description
Technical field
The utility model is related to field of radiating, refer in particular to a kind of water cooling row's structure of built-in interlayer.
Background technology
For computer in running, many internal elements will produce a large amount of thermal energy, therefore good cooling system is to determine computer
One big key factor of operational effectiveness and reliability.In all elements that can be generated heat, generally with live load highest it
The heat dissipation problem of the two such as central processing unit (CPU) and drawing wafer processor (GPU) is the most intractable.Especially current all kinds of electricity
Brain game picture it is more and more fine and smooth, the function of computer-aided drawing software is also increasingly powerful, this kind of software running when often
Central processing unit and drawing wafer processor can be allowed to be in higher load condition, while also resulting in a large amount of thermal energy and generating, this
If a little thermal energy cannot effectively disperse, the efficiency of central processing unit or drawing wafer processor is gently caused to decline, when serious more
The damage or service life that may cause central processing unit or drawing wafer processor are greatly reduced.
In order to reduce the operating temperature of heat-generating electronic elements, generally water cooling formula device passes through two water by water cooling row on the market
Conduit connects a water pump (Pump) and water-cooling head patch touches a heater element (such as central processing unit), is driven by water pump (Pump)
Water cooling liquid (or working fluid), which is flow on water cooling row, to radiate and constantly carries out circulating cooling, quickly to remove heat.Please
Refering to fig. 1, existing water cooling row 1 is made of plurality of radiating fins 11, plural 12 and two side water tank 13 of flat tube, these described dissipate
Hot fin 11 is set between these described vertical bar shape flat tubes 12, and aforementioned two side water tank 13 and these described heat radiating fins
The both sides of piece 11 and these vertical bar shape flat tubes 12 are welded by scolding tin, and the two sides water tank 13 and described this are enabled
A little radiating fins 11 and these described vertical bar shape flat tubes 12 connect and compose the water cooling row 1, and are wherein set on side water tank 13
There are a water inlet 131 and a water outlet 132, which (schemes to connect opposite two water conduits respectively with water outlet 132
In do not show).
Due to after the working fluid that the water inlet 13 flows into is in the side water tank 13, from these described vertical bar shape flat tubes
Quick straight through flow is passed through into other side water tank 13 in 12, then relies on quick straight through flow in these described vertical bar shape flat tubes 12 again
Through in road side water tank 13, then being discharged by the water outlet 132, so the working fluid with heat enters water cooling row 1
Interior flowing time is too short, and the opposite working fluid made with heat is made heat exchanger time with water cooling row and also do not grown, existing to cause
There is water cooling row bad to the antipyretic response of the working fluid with heat, in turn results in the bad problem of radiating efficiency.In addition, by
It can not make structural adjustment variation in response to the space in an electronic device in the overall structure of existing water cooling row so that be positioned over an electricity
When sub-device (such as computer or servomechanism) is interior, which asks supply that the discharge of existing water cooling sets
Topic.
Therefore how will solve the problem above-mentioned and lack, as the inventor of this case to be engaged in the related of the industry
Manufacturer wants where the direction that research improves.
Utility model content
One purpose of the utility model in a kind of appearance liquid plate body of offer there is an at least spacer element will hold in liquid plate body
Space is partitioned into a plurality of independent liquid chambers, so that working fluid is flowed through a plurality of independent liquid chambers and forms samming effect
Fruit.
One purpose of the utility model, provide one kind allow working fluid in this first and second hold liquid plate body and first and second,
Three, it is flowed in four communication members so that working fluid forms water cooling row's structure with built-in interlayer of cold heat exchange effect.
To reach above-mentioned purpose, the utility model provides a kind of water cooling row's structure with built-in interlayer, including:One water cooling
Unit is arranged, including:One first holds liquid plate body, and there is space one import of connection and an outlet, a working fluid in one first to pass through
The import flows into the space in first, and flows out the space in first from the outlet, this has at least one first in space in first
This is divided into a plurality of independent liquid chambers in space region in first by spacer element.
Implement one, which is equipped with a pump and drives working fluid flowing, and the import and outlet company
A logical water cooling head unit.
Implement one, which includes one first liquid chamber and a second liquid chamber in first liquid
Above chamber, which is located at first liquid chamber and the second liquid chamber including one first spacing board
Between room, first liquid chamber and the second liquid chamber are separated.
Implement one, which there is one first barrier fin first liquid chamber is divided into one first
One outlet of one import of regional connectivity and second area connection, and first spacing board is equipped with one first communication member and one second
Communication member, first communication member are connected to first area and second liquid chamber of first liquid chamber, second company
Logical element is connected to the second area and the second liquid chamber of first liquid chamber.
Implement one, the first appearance liquid plate body is including a third liquid chamber above the second liquid chamber, this is at least
One first spacer element is located at including one second spacing board between the second liquid chamber and the third liquid chamber, separate this
Two liquid chambers and the third liquid chamber.
Implement one, which there is one second barrier fin the second liquid chamber is divided into a third
Region is above the first area and a fourth region is square on the first region, and second spacing board is equipped with a third connecting
Element and one the 4th communication member, the third connecting element are connected to third region and third fluid chamber of the second liquid chamber
Room, the 4th communication member are connected to the fourth region and the third liquid chamber of the second liquid chamber.
Implement one, which is connected to an import, the second liquid chamber one outlet, and this is between first
Partition board is connected to first liquid chamber and the second liquid chamber equipped with one first communication member.
Implement one, the first appearance liquid plate body is including a third liquid chamber above the second liquid chamber, this is at least
One first spacer element is located at including one second spacing board between the second liquid chamber and the third liquid chamber, separate this
Two liquid chambers and the third liquid chamber, and first liquid chamber is connected to an import, third liquid chamber connection one goes out
Mouthful.
Implement one, which is connected to first liquid chamber and the second liquid equipped with one first communication member
Chamber, second spacing board are connected to the second liquid chamber and the third liquid chamber equipped with one second communication member.
Implement one, which is located in a plurality of independent liquid chamber any of which liquid chambers.
Implement one, which is located at the import or the outlet.
Implement one, which includes one first top plate and one first bottom plate, at least one first interval member
Part is located between first top plate and first bottom plate.
Implement one, which is equipped with a first flow, and second liquid chamber selectivity is equipped with one the
Two runners.
Implement one, which is equipped with a first flow, and second liquid chamber selectivity is equipped with one the
Two fluids, the third liquid chamber selectivity are equipped with a third flow channel.
Implement one, including one second holds liquid plate body, has space in one second will equipped at least one second spacer element
This is divided into a plurality of independent liquid chambers and circulates for the working fluid in space region in second, and this passes through plural number in space in second
A communication member is connected to space in the first of the first appearance liquid plate body.
One implement, this first hold liquid plate body first in space, have one first liquid chamber and a second liquid chamber
Room is circulated for the working fluid, at least one first spacer element have one first spacing board be arranged at this in first space region every
First liquid chamber and the second liquid chamber, and first liquid chamber forms an inflow region and an outflow region, it should
Inflow region is connected to an at least import, the outflow regional connectivity at least one outlet;The second appearance liquid plate body, has a third liquid
There is one second spacing board to be arranged in the areas the second appearance liquid plate body Nei Bing for chamber and one the 4th liquid chamber, one second spacer element
Every the third liquid chamber and the 4th liquid chamber;And a communication member group, there is one first communication member and one second connect
Logical element and a third connecting element and one the 4th communication member, first communication member are connected to the inflow of first liquid chamber
Region and the third liquid chamber, second communication member are connected to the second liquid chamber and the 4th liquid chamber, the third
Communication member is connected to the second liquid chamber and the third liquid chamber, the 4th communication member are connected to first liquid chamber
Flow out region and the 4th liquid chamber.
Implement one, the first appearance liquid plate body and the second appearance liquid plate body any of which are equipped with a pump and drive the working fluid
Flowing, and the import and the one water cooling head unit of outlet.
Implement one, which includes one first top plate and one first bottom plate, which forms
Between first bottom plate and the first partition, which is formed between first top plate and the first partition.
Implement one, wriggling equipped with a first flow in first liquid chamber is formed in the side guiding of the first partition
The working fluid path, and first bottom plate is equipped with a fin in the first fluid chamber partition inflow region and the outflow
Region.
Implement one, is led equipped with the sinuous other side for being formed in the first partition of a second flow channel in the second liquid chamber
Draw the working fluid path.
Implement one, which includes one second top plate and one second bottom plate, which forms
Between second bottom plate and the second partition, the 4th liquid chamber is formed between second top plate and the second partition.
Implement one, wriggling equipped with a third flow channel in the third liquid chamber is formed in the side guiding of the second partition
The working fluid path.
Implement one, is led equipped with the sinuous other side for being formed in the second partition of one the 4th runner in the 4th liquid chamber
Draw the working fluid path.
Implement one, which includes a first through hole and one second through-hole and a third through-hole and one the 4th
Through-hole runs through first bottom plate, which is equipped with one first through hole and one second through hole corresponds to second through-hole respectively
And the third through-hole, and first communication member is connected to first liquid chamber through the first through hole, second communication member
Be connected to the second liquid chamber through second through-hole and first through hole, the third connecting element through the third through-hole and
Second through hole is connected to the second liquid chamber, and the 4th communication member is connected to first fluid chamber through the fourth hole
Room.
Implement one, which includes a fifth hole and one the 6th through-hole and one the 7th through-hole and one the 8th
Through-hole runs through second top plate, which is equipped with a third through hole and one the 4th through hole corresponds to the fifth hole respectively
And the 7th through-hole, and first communication member is connected to the third liquid chamber through the fifth hole and the third through hole,
Second communication member is connected to the 4th liquid chamber through the 6th through-hole, the third connecting element through the 7th through-hole and
4th through hole is connected to the third liquid chamber, and the 4th communication member is connected to the 4th fluid chamber through the 8th through-hole
Room.
Implement one, which is arranged at intervals on a top of the second appearance liquid plate body, and the first appearance liquid
One first radiating fin group is arranged in opposite second side for holding liquid plate body of plate body, and holds liquid in the first appearance liquid plate body and second
One second radiating fin group is equipped between plate body, which is arranged a third
Radiating fin group.
Implement one, this first and two shell and this first, second and third and four communication member be gold or silver or copper or iron or titanium
Or the alloy material of aluminium or stainless steel these metals is constituted.
Implement one, the first liquid chamber in the first appearance liquid plate body is with the second liquid chamber by the first partition area
It is divided into two disconnected separate chambers.
Implement one, the third liquid chamber in the second appearance liquid plate body is with the 4th liquid chamber by the second partition area
It is divided into two disconnected separate chambers.
Implement one, pump setting is in first liquid chamber or the second liquid chamber or the third liquid chamber or is somebody's turn to do
In 4th liquid chamber.
Implement one, pump setting is in an at least import or at least one outlet.
Implement one, the inflow region of first liquid chamber is equipped with one first liquid storage space, which is equipped with one
Second liquid storage space.
Implement one, which arranges unit and be equipped with a protection location.
Implement one, which arranges unit and connect an at least fan.
The utility model has the advantages that working fluid can be made, which to flow through a plurality of independent liquid chambers, forms samming effect
Fruit.
The purpose of following schema is that the utility model is enable to be more easily understood, and can encyclopaedize those figures in this article
Formula, and it is made to constitute some of specific embodiment.By specific embodiment herein and corresponding schema is referred to, with detailed
It is thin to explain specific embodiment of the utility model, and to illustrate the action principle of invention.
Description of the drawings
Fig. 1 is prior-art illustration;
Fig. 2A is the first perspective exploded view implemented that the utility model first holds liquid plate body;
Fig. 2 B are the first Three-dimensional combination diagrams implemented that the utility model first holds liquid plate body;
Fig. 2 C are the 2C-2C hatching line schematic cross-sectional views along Fig. 2 B that the utility model first holds liquid plate body;
Fig. 3 A are the second perspective exploded views implemented that the utility model first holds liquid plate body;
Fig. 3 B are the combination schematic cross-sectional views of Fig. 3 A;
Fig. 4 A are the perspective exploded views that the utility model first holds that the third of liquid plate body is implemented;
Fig. 4 B are the combination schematic cross-sectional views of Fig. 4 A;
Fig. 5 A are the 4th perspective exploded views implemented that the utility model first holds liquid plate body;
Fig. 5 B are the combination schematic cross-sectional views of Fig. 5 A;
Fig. 6 A are that the first implementation selection of the appearance liquid plate body of the utility model first is equipped with pump with first flow and second flow channel
Schematic diagram;
Fig. 6 B are the schematic diagrames at another visual angles Fig. 6 A;
Fig. 6 C are that the third of the appearance liquid plate body of the utility model first implements selection equipped with pump with first flow and second flow channel
And the schematic diagram of third flow channel;
Fig. 6 D are the schematic diagrames at another visual angles Fig. 6 C;
Fig. 7 A and Fig. 7 B are the stereo decomposing and combination diagram of the first appearance liquid plate body connection water cooling head unit;
Fig. 8 A are the perspective exploded view that the utility model water cooling arranges that unit the 5th is implemented;
Fig. 8 B are the Three-dimensional combination diagram that the utility model water cooling ranked fifth implementation;
Fig. 8 C are the 8C-8C hatching line schematic diagrames of Fig. 8 B;
Fig. 8 D are that the utility model water cooling arranges combination diagram of the implementation of unit the 5th equipped with fins group;
Fig. 8 E to Fig. 8 G are the various implementation schematic diagrames of runner on first partition and second partition;
Fig. 8 H and Fig. 8 I are the schematic diagrames of pump being arranged in entrance or outlet;
Fig. 8 J are the 5th the first appearance liquid plate body schematic diagram in top down perspective implemented;
Fig. 9 A- Fig. 9 D are that the water cooling of the utility model arranges stereo decomposing and combination signal that unit is connected to water cooling head unit
Figure.
Reference sign:Water cooling arranges unit 21;First holds liquid plate body 211;First top plate 2111;First bottom plate 2112;
Fin 21121;First liquid chamber 21131;Inflow region 21131a;Flow out region 21131b;Second liquid chamber 21132;
Outlet 2114;First flow 21151;Second flow channel 21152;First spacing board 2116;First through hole 21161;Second runs through
Hole 21162;First through hole 21171;Second through-hole 21172;Third through-hole 21173;Fourth hole 21174;Import 2118,
4112;First liquid storage space 2119a;Second liquid storage space 2119b;Second holds liquid plate body 212;Second top plate 2121;Second bottom
Plate 2122;Third liquid chamber 21231;4th liquid chamber 21232;Third flow channel 21251;4th runner 21252;Between second
Partition board 2126;Third through hole 21261;4th through hole 21262;Fifth hole 21271;6th through-hole 21272;7th through-hole
21273;8th through-hole 21274;Communication member group 27;First communication member 271;Second communication member 272;Third connecting element
273;4th communication member 274;Pump 28;First heat-dissipating space s1;Second heat-dissipating space s2;Third heat-dissipating space s3;First dissipates
Hot fins group 261;Second radiating fin group 262;Second radiating fin group 263;Water cooling head unit 30;First holds liquid plate body 411;
Space 4111 in first;Import 4112,4112a;Outlet 4113,4113a, 4113b;First top plate 412;First bottom plate 413;The
One spacing board 4114,4114a, 4114b;First communication member 41141,41141a, 41141b;Second communication member 41142;The
One liquid chamber 4115,4115a, 4115b;Second liquid chamber 4116,4116a, 4116b;First barrier fin 4117;First
Region 41151;Second area 41152;Second spacing board 4118,4118b;Third connecting element 41181;4th communication member
41182;Third liquid chamber 4119,4119b;Second barrier fin 421;Third region 41161;The fourth region 41162;First
Runner 44,44d;Second flow channel 45,45d;Third flow channel 46d;First radiating fin group 471;Second radiating fin group 472;It protects
Protect unit 48;First part 481;Second part 482;Water cooling head unit 49;Fan 50.
Specific implementation mode
The above-mentioned purpose and its structure of the utility model and characteristic functionally, by the preferred embodiment according to institute's accompanying drawings
It is explained.
It is the first perspective exploded view implemented that the utility model first holds liquid plate body to please refer to Fig. 2A;Fig. 2 B are these
Utility model first holds the first Three-dimensional combination diagram implemented of liquid plate body;Fig. 2 C are that the utility model first holds liquid plate body
Schematic cross-sectional view.Water cooling row's structure of the utility model includes water cooling row's unit 21, which arranges unit 21, including one first holds
There is liquid plate body 411 space 4111 in one first to be connected to an import 4112 and one outlet 4113, and a working fluid passes through the import
4112 flow into the space 4111 in first, and from the outlet 4113 outflow space 4111 in first, the space 4111 in first
This is separated as a plurality of independent liquid chambers in space 4111 in first at least one first spacer element.
As shown in Fig. 2A to Fig. 2 C, which includes one first top plate 412 and one first bottom plate 413, is somebody's turn to do
At least one first spacer element is located between first top plate 412 and one first bottom plate 413.At least one first spacer element packet
It includes one first spacing board 4114 and this is partitioned into the first liquid chamber 4115 and a second liquid chamber in space 4111 in first
4116, and the second liquid chamber 4116, above first liquid chamber 4115, first spacing board 4114 is in first liquid
Between fluid chamber 4115 and the second liquid chamber 4116.The periphery of first spacing board 4114 connect first top plate 412 or
Second bottom plate, 413 inside circumference, and 4114 system of the first spacing board is with first top plate 412 or 413 one of the first bottom plate
Molding is an other monomer connection.First liquid chamber 4115 has one first barrier fin 4117 by first fluid chamber
Room 4115 divides into a first area 41151 and is connected to the import 4112 and a second area 41152 connection outlet 4113.This
One barrier fin 4117 can be integrally formed with first spacing board 4114 then be protruded out towards first bottom plate 413 or this
One barrier fin 4117 can be integrally formed with first bottom plate 413 and then be protruded out towards first spacing board 4114.
It is, for example, logical that first spacing board 4114, which is equipped with one first communication member 41141 and one second communication member 41142,
First spacing board 4114 is run through in hole, which is connected to the first area of first liquid chamber 4115
41151 and the second liquid chamber 4116, which is connected to the second area of first liquid chamber 4115
41152 and the second liquid chamber 4116.
One working fluid such as pure water is the first area that first liquid chamber 4115 is flowed into from the import 4112
41151, the second liquid chamber 4116 is then flowed by first communication member 41141, then again from the second liquid chamber
Room 4116 flows into the second area 41152 of first liquid chamber 4115 by second communication member 41142, then goes out from this
4113 outflow of mouth the first appearance liquid plate body 411.
Especially to be illustrated, which holds liquid plate after first holds the extraneous heat absorption of liquid plate body 411, into first
In body 411, cooling working fluid is become by first top plate 412 and the heat dissipation of one first bottom plate 413 and flows out the first appearance liquid
Plate body 411.And it first can be spaced by this in the heat of the working fluid of the first area 41151 of the first liquid chamber 4115
Plate 4114 passes to 4116 working fluid of second liquid chamber, so that the first area of first liquid chamber 4115
41151 working fluid and the second liquid chamber 4116 form even temperature effect.The second area of first liquid chamber 4115
41152 working fluid can also form even temperature effect with the second liquid chamber 4116.
Implement please continue to refer to shown in Fig. 3 A and Fig. 3 B second, implements identical element with above-mentioned first with identical symbol
It indicates, and does not repeat again.It substitutes and implements one, the first liquid chamber 4115a above-mentioned is connected to import 4112a, this second
Liquid chamber 4116a is connected to outlet 4113a, and first spacing board 4114a is equipped with one first communication member 41141a connections should
First liquid chamber 4115a and second liquid chamber 4116a, first liquid chamber 4115a are not provided with as the aforementioned first
Obstruct fin.Such working fluid first is connected to after import 4112a enters first liquid chamber 4115a by this
Element 41141a flows into second liquid chamber 4116a, and then from the outlet, 4113a flows out second liquid chamber 4116a.
Implement please continue to refer to third shown in Fig. 4 A and Fig. 4 B, implements identical element with above-mentioned first with identical symbol
It number indicates, and does not repeat again.One substitute implement, it is above-mentioned first implement first in space 4111 the first spacer element more
It is arranged at intervals on the top of first spacing board 4114 including one second spacing board 4118, by first spacing board 4114 and is somebody's turn to do
This is partitioned into first liquid chamber 4115 and the second liquid chamber 4116 in space 4111 in first by the second spacing board 4118
And one third liquid chamber 4119 above the second liquid chamber 4116.Second spacing board 4118 is located at the second liquid chamber
Between room 4116 and the third liquid chamber 4119, to separate the second liquid chamber 4116 and the third liquid chamber 4119.
Wherein there is the second liquid chamber 4,116 one second barrier fin 421 to divide into the second liquid chamber 4116
One third region 41161 is above the first area 41151 and a fourth region 41162 is above the second area 41152, and
Second spacing board 4118 runs through equipped with a third connecting element 41181 and one the 4th communication member 41182 for example, through-hole should
Second spacing board 41181, the third connecting element 41181 are connected to the third region 41161 of the second liquid chamber 4116 and are somebody's turn to do
Third liquid chamber 4119, the 4th communication member 41182 are connected to the fourth region 41162 of the second liquid chamber 4116 and are somebody's turn to do
Third liquid chamber 4119.This second barrier fin 421 can with first spacing board 4114 be integrally formed then towards this second
Spacing board 4118 protrude out or the second barrier fin 421 can it is integrally formed with second spacing board 4118 then towards this
One spacing board 4114 protrudes out.Wherein first communication member 41141 and the third connecting element 41181 are non-concentric settings,
It is shifted to install shown in so-called non-coaxial heart setting such as Fig. 4 B, it will not after so that working fluid is passed through the first communication member 41141
Directly pass through third connecting element 41181.Second communication member 41142 is similarly non-same with the 4th communication member 41182
Axle center is arranged.
When the working fluid from the import 4112 flow into first liquid chamber 4115 behind the first area 41151,
The second liquid chamber 4116 is passed through by first communication member 41141 again, then passes through the third connecting element 41181 again
By the third liquid chamber 4119.It is flowed by the 4th communication member 41182 in the working fluid of the third liquid chamber 4119
Through the second liquid chamber 4116, then the second of first liquid chamber 4115 is flowed through by second communication member 41142
Region 41152, then from the outlet 4113 outflow the first appearance liquid plate body 411.
Implement please continue to refer to the shown in Fig. 5 A and Fig. 5 B the 4th, implements identical element with above-mentioned first with identical symbol
It number indicates, and does not repeat again.It substitutes and implements one, first spacer element in the space 4111 in first includes one first interval
The interior space 4111 is partitioned into one first liquid chamber 4115b and a second liquid chamber by plate 4114b and the second spacing board 4118b
A room 4116b and third liquid chamber 4119b.First spacing board 4114b be located at the first liquid chamber 4115b and this second
Between liquid chamber 4116b;Second spacing board 4118b is located at the second liquid chamber 4116b and the third liquid chamber
Between 4119b.First spacing board 4114b equipped with one first communication member 41141b be connected to the first liquid chamber 4115b and
Second liquid chamber 4116b;Second spacing board 4118b is connected to the second liquid chamber equipped with one second communication member 41181b
4116b and third liquid chamber 4119b.The first communication member 41141b is non-coaxial with second communication member 41181b
The heart shifts to install.First liquid chamber 4115b is connected to import 4112b, and third liquid chamber 4119b is connected to the outlet
4113b.Such working fluid passes through first communication member after import 4112b enters first liquid chamber 4115b
41141b flows into second liquid chamber 4116b, then flows into the third liquid chamber by second communication member 41181b
4119b, then flow out third liquid chamber 4119b from outlet 4113b.
Working fluid with heat sequentially flows through first and gradually dissipates to third liquid chamber 4115b, 4116b, 4119b
Heat, and the heat system of the working fluid in first liquid chamber 4115b flowings passes to second by the first spacing board 4114b
The working fluid of liquid chamber 4116b passes through second spacing board in the heat of the working fluid of second liquid chamber 4116a
4118b passes to the working fluid of third liquid chamber 4119b to form even temperature effect.
Shown in Fig. 6 A, Fig. 6 B, Fig. 6 C, Fig. 6 D, one pump setting this first hold liquid plate body in or this first
Hold outside liquid plate body, indicates that the pump is arranged in the drawings and drive the working fluid in any liquid chamber of the first appearance liquid plate body
Flowing.The pump 28 as shown in Fig. 6 A to Fig. 6 D is arranged in the first liquid chamber 4115, but can also be arranged in second liquid
In chamber 4116 or third liquid chamber 4119 or setting is at 4113 positions of the import 4112 or outlet.Furthermore such as Fig. 6 A and
Shown in Fig. 6 B, together with reference to figure 2A- Fig. 2 C, 4115 system of the first liquid chamber selection of first embodiment above-mentioned is equipped with one first
Runner 44 is formed in the side that the first spacing board 4114 corresponds to first liquid chamber 4115, the first flow 44 be distributed in this
One region 41151 and the second area 41152 guide working fluid flow path.4116 system of second liquid chamber selection is equipped with
One second flow channel 45 is formed in the side guiding working fluid stream that first spacing board 4114 corresponds to the second liquid chamber 4116
Dynamic path.Therefore, working fluid from import 4112 enter the first liquid chamber 4115 first area 41151 after along this first
Runner 44 flows in the path of first area 41151 towards the first communication member 41141, then passes through first communication member
41141 flow into second liquid chamber 4116.Subsequently into second liquid chamber 4116 working fluid along the second flow channel 45
Path towards 41142 direction of the second communication member flow, then pass through the second communication member 41142 flow into the first liquid chamber
4115 second area 41152.Subsequently into first liquid chamber 4115 second area 41152 working fluid along
One runner 44 flows in the path of second area 41152 towards 4113 direction of outlet, and flows out the first appearance liquid from outlet 4113
Plate body 411.And then by the first flow 44 and the second flow channel 45 extend the working fluid in the first liquid chamber 4115 and
The flowing time of the second liquid chamber 4116 increases the heat exchanger time of working fluid.
Furthermore as shown in Fig. 6 C and Fig. 6 D, referred to together shown in earlier figures 4A and Fig. 4 B, in first liquid chamber 4115
It is interior that the side that first spacing board 4114 corresponds to first liquid chamber 4115, second liquid are formed in equipped with first flow 44d
Fluid chamber 4116 is equipped with a second flow channel 45d and is formed in first spacing board 4114 corresponds to the second liquid chamber 4116 one
Side, the third liquid chamber 4119 are formed in second spacing board 4118 equipped with a third flow channel 46d and correspond to the third fluid chamber
The side of room 4119 so reaches the flow path such as above-mentioned guiding working fluid, extends the working fluid in each fluid chamber
The flowing time of room increases the effect of the heat exchanger time of working fluid.
Furthermore it please refers to shown in Fig. 7 A and Fig. 7 B, together with reference to shown in figure 2A to Fig. 2 C, this first holds the of liquid plate body 411
The outer surface and one first bottom plate, 413 outer surface of one top plate 412 be selectable be respectively arranged with one first radiating fin group 471 and
The help of one second radiating fin group 472 is radiated, and the first radiating fin group 471 and the second radiating fin group 472 respectively include
Plurality of radiating fins.One protection location 48 be, for example, a cover have first part 481 and a second part 482 be provide with this first
Hold liquid plate body 411 and first radiating fin 471 and second radiating fin 472, to protect this first hold liquid plate body 411 and
First radiating fin 471 and second radiating fin 472.50 system of an at least fan connects with the protection location 48, the fan
A 50 outlet air surface system corresponds to the first appearance liquid plate body 411 and the first radiating fin group 471 and the second radiating fin group
472, so that air flow direction the first appearance liquid plate body 411 and the first radiating fin group 471 and the second radiating fin group 472 are helped
Help heat dissipation.
The import 4112 and the outlet 4113 of the first appearance liquid plate body 411 are connected to a water cooling head unit 49, the water-cooling head list
After first 49 systems contact an at least heater element, and the working solution system in water cooling head unit 49 absorbs the heat of the heater element
It flows into first and holds liquid plate body 411.Then, the water-cooling head list is flowed back to by 411 working fluid after cooling of the first appearance liquid plate body
Member 49.
First appearance liquid plate body 411 above-mentioned can be gold or silver or copper or iron or titanium or aluminium or stainless steel or described these
The alloy material of metal is constituted.
Fig. 8 A are the perspective exploded view that the utility model water cooling arranges that unit the 5th is implemented;Fig. 8 B are the utility model water
The Three-dimensional combination diagram that cold row's unit the 5th is implemented;Fig. 8 C are the schematic cross-sectional view of Fig. 8 B;Fig. 8 D are the utility model water cooling
It arranges unit the 5th and implements the combination diagram equipped with fins group.As shown in Fig. 8 A and Fig. 8 B, the water cooling of the utility model arranges structure
It is separately positioned to have one first to hold liquid plate body 211 and one second appearance liquid plate body 212 including water cooling row's unit 21.First appearance
Liquid plate body 211 is located at 212 top of the second appearance liquid plate body.The one of the opposite second appearance liquid plate body 212 of the first appearance liquid plate body 211
The void spaces of side have one first heat-dissipating space s1, the sky between the first appearance liquid plate body 211 and the second appearance liquid plate body 212
Spacious position has one second heat-dissipating space s2, the spaciousness of the side of the opposite first appearance liquid plate body 211 of the second appearance liquid plate body 212
Position has a third heat-dissipating space s3.Implement in another replacement, as in fig. 8d, first heat-dissipating space s1 settings one first
One second fins group 262 is arranged in radiating fin group 261, second heat-dissipating space s2, and a third is arranged in third heat-dissipating space s3
Fins group 263.The first, second and third radiating fin group 261,262,263 is made of plurality of radiating fins respectively, with increase this
One holds the heat dissipation area improving heat radiation efficiency of liquid plate body 211 and the second appearance liquid plate body 212.
Again as shown in Fig. 8 A to Fig. 8 C, which includes one first top plate 2111 and one first bottom plate
2112 constitute first shell for holding liquid plate body 211, and one first liquid chamber 21131 and a second liquid chamber 21132 and
This first holds in the first of liquid plate body 211 in space the setting of one first partition 2116, and first top plate 2111 and this first
Between bottom plate 2112.First liquid chamber 21131 is partitioned into the second liquid chamber 21132 by first spacing board 2116
Two disconnected separate chambers, so make first liquid chamber 21131 be formed in first bottom plate 2112 and this first every
Between plate 2116, which is formed between first top plate 2111 and the first partition 2116.Furthermore
First bottom plate 2112 is located at equipped with a fin 21121 in first liquid chamber 21131, by first liquid chamber 21131
It is partitioned into the outflows of an inflow region 21131a and one region 21131b.There are two convex for side formation of the first appearance liquid plate body 211
The extension gone out forms the inflow region that an at least import 2118 and one outlet 2114 is respectively communicated with first liquid chamber 21131
21131a and outflow region 21131b.
Furthermore first first bottom plate 2112 for holding liquid plate body 211 is equipped with a first through hole 21171 and one second through-hole
21172 and one third through-hole 21173 and a fourth hole 21174 run through first bottom plate 2112, which is equipped with
One first through hole 21161 and one second through hole 21162 correspond to through the first partition 2116 and respectively second through-hole
21172 and the third through-hole 21173.
The second appearance liquid plate body 212 includes that one second top plate 2121 and one second bottom plate 2122 constitute the second appearance liquid plate body
212 shell, and a third liquid chamber 21231 and one the 4th liquid chamber 21232 and a second partition 2126 setting this
Two hold in the second of liquid plate body 212 in space, and between second top plate 2121 and second bottom plate 2122.The third liquid
Chamber 21231 is partitioned into two disconnected separate chambers with the 4th liquid chamber 21232 by the second partition 2126, in turn
The third liquid chamber 21231 is set to be formed between second bottom plate 2122 and the second partition 2126, the 4th liquid chamber
21232 are formed between second top plate 2121 and the second partition 2126.
Furthermore second second top plate 2121 for holding liquid plate body 212 is equipped with a fifth hole 21271 and one the 6th through-hole
21272 and one the 7th through-hole 21273 and one the 8th through-hole 21274 run through second top plate 2121, which is equipped with
One third through hole 21261 and one the 4th through hole 21262 correspond to the fifth hole 21271 and the 7th through-hole 21273 respectively.
One communication member group 27, which is, for example, tube body, has one first communication member 271 and one second communication member 272 and one
Third connecting element 273 and one the 4th communication member 274, and first communication member 271 is connected to first liquid chamber 21131
Inflow region 21131a and the third liquid chamber 21231, second communication member 272 be connected to the second liquid chamber
21132 and the 4th liquid chamber 21232, the third connecting element 273 be connected to the second liquid chamber 21132 and the third liquid
Fluid chamber 21231,274 pipe of the 4th communication member be connected to first liquid chamber 21131 outflow region 21131b and this
Four liquid chambers 21232.These liquid chamber systems circulate for a working fluid, these communication members then guide the working fluid stream
It is dynamic to pass through each liquid chamber.
Specifically, multiple as shown in Fig. 8 A and Fig. 8 C, the first through hole is run through in one end of first communication member 271
21171 are connected to the inflow region 21131a of first liquid chamber 21131, one end of second communication member 272 through this
Two through-holes 21172 and first through hole 21161 are connected to the second liquid chamber 21132, one end of the third connecting element 273
It is connected to the second liquid chamber 21132, the 4th communication member through the third through-hole 21173 and second through hole 21162
274 are connected to the outflow region 21131b of first liquid chamber 21131 through the fourth hole 21174.First communication member
271 other end is connected to the third liquid chamber 21231 through the fifth hole 21271 and the third through hole 21261, this
Two communication members 272 are connected to the 4th liquid chamber 21232 through the 6th through-hole 21272, which runs through
7th through-hole 21273 and the 4th through hole 21262 are connected to the third liquid chamber 21231, and the 4th communication member 274 is passed through
It wears the 8th through-hole 21274 and is connected to the 4th liquid chamber 21232.
The working fluid (such as arrow of Fig. 8 C) flows into the stream of first liquid chamber 21131 from an at least import 2118
Enter region 21131a and flow to third liquid chamber 21231 via first communication member 271, then in third liquid chamber
21231 working fluid flows into second liquid chamber 21132 via the third connecting element 273, then in second liquid chamber
21132 working fluid flows into the 4th liquid chamber 21232 via second communication member 272, then in the 4th liquid chamber
21232 working fluid flows into the outflow region 21131b of the first liquid chamber 21131 via the 4th communication member 274, then
Again first liquid chamber 21131 is flowed out from least one outlet 2114.
At least one 28 systems of pump are alternatively provided at the first liquid chamber 21131 or second liquid of the first appearance liquid plate body 211
In fluid chamber 21132.But not limited to this, which can also be alternatively provided at the third fluid chamber of the second appearance liquid plate body 212
In room 21231 or the 4th liquid chamber 21232.The pump 28 for example including an impeller and a drive motor (such as submerged motor or
Drip-proof motors) drive impeller rotation to be flowed in the indoor working fluid of these fluid chambers to drive.As shown in Figure 8 A, this implementation
System indicates that the pump 28 is arranged the outflow region 21131b in first liquid chamber 21131, and this first holds liquid plate body 211
First bottom plate 2112 corresponds to the pump 28 equipped with a groove, which does not extend through first bottom plate 2112, so that the pump 28 can be with
It is arranged in the groove.
Join Fig. 8 A and Fig. 8 C again, the side of first spacing board 2116 is equipped with a first flow 21151, the first flow
21151, which are located at the guiding working fluid path, 21151 system of first flow in first liquid chamber 21131, is distributed in the stream
Enter region 21131a and outflow region 21131b.The first flow 21151 can be integrally formed with first partition 2116 or be
A other monomer is incorporated on the side of the first partition 2116.The first flow 21151, which includes that plural spacing board is sinuous, to be formed.
But not limited to this, which can also be the sinuous guide groove of plural number.Working fluid is flowed from an at least import 2118
Enter the inflow region 21131a in first liquid chamber 21131, the guiding then along the first flow 21151 flows through
First communication member 271 arrives the third liquid chamber 21231.First fluid chamber is flowed into via the 4th communication member 274
The outflow region 21131b of room 21131, the guiding then along the first flow 21151 flow through at least one outlet 2114
Flow out first liquid chamber 21131.Extend the working fluid and the first appearance liquid plate body 211 by the first flow 21151
Heat exchanger time, therefore the heat of the working fluid institute band can adequately conduct to this and first hold liquid plate body 211 and radiate, and
Extend the heat exchanger time of first liquid chamber 21131 and the working fluid in the second liquid chamber 21132.
As illustrated by figure 8j, together with reference to figure 8A, since the outflow area in first liquid chamber 21131 is arranged in the pump 28
Domain 21131b, 21151 system of first flow for being distributed in outflow region 21131b coordinate the position of the pump 28 to form a water conservancy diversion
Structure, guiding is by the working fluid of 28 driving of pump.Furthermore being equipped with an at least liquid storage space in the first liquid chamber 21131 does not have
It is occupied by the first flow 21151, working fluid can be stored in the liquid storage space, be to indicate first fluid chamber in this implementation
The space that the inflow region 21131a of room 21131 is not occupied by the first flow 21151 is equipped with one first liquid storage space 2119a
(white space that symbol 2119a is guided in such as figure), the space that outflow region 21131b is not occupied by the first flow 21151
Equipped with one second liquid storage space 2119b (white space that symbol 2119a is guided in such as figure).
Continuous ginseng Fig. 8 E to Fig. 8 G are the various implementation schematic diagrames of runner on first partition 2116 and second partition 2126.Such as figure
It is shown, implement in some replacements, the other side of the first partition 2116 is further provided with a second flow channel 21152 (such as Fig. 8 G) and is located at this
In the second liquid chamber 21132 or side of the second partition 2126 equipped with a third flow channel 21251 (such as Fig. 8 F) be located at this
In the three liquid chambers 21231 or other side of the second partition 2126 is further provided with one the 4th runner 21252 (such as Fig. 8 E and Fig. 8 G)
In the 4th liquid chamber 21232.The second flow channel 21152 and the third flow channel 21251 and the 4th runner 21252 as
The first flow 21151 of front.And extend the working fluid in the second liquid chamber 21132 by the second flow channel 21152
The time of interior flowing, the third flow channel 21251 extend the time that the working fluid flows in the third liquid chamber 21231,
4th runner 21252 extends the time that the working fluid flows in the 4th liquid chamber 21232.Simultaneously with extension
The heat exchanger time and the third liquid of first liquid chamber 21131 and the working fluid in the second liquid chamber 21132
The heat exchanger time of chamber 21231 and the working fluid in the 4th liquid chamber 21232.
Multiple to implement as in fig. 8d in another replacement, the heat of working fluid institute band, which is conducted to first, holds liquid plate body 211
Then first top plate 2111 and first bottom plate 2112 are radiated by first fins group 261 and the second radiating fin group 262
And the third radiating fin group 263 heat dissipation.
Shown in continuous ginseng Fig. 8 H to Fig. 8 I, pump 28 above-mentioned can also be arranged at the import 2118 for holding liquid plate body 211 first
(such as Fig. 8 I) or setting are at outlet 2114 (such as Fig. 8 H), and the import 2118 or the outlet 2114 coordinate equipped with a flow-guiding structure
The pump 28 is to guide by the working fluid of 28 driving of pump.
The stereo decomposing and group of water cooling head unit are connected to please continue to refer to the shell group that Fig. 9 A to Fig. 9 B are the utility model
Close schematic diagram.As shown, together with reference to figure 8A to Fig. 8 C, aforementioned water cooling row 21 system of unit passes through the first appearance liquid plate body 211
The first liquid chamber 21131 an at least import 2118 and outlet 2114 connection one water cooling head units 30.The water cooling head unit
30 systems contact an at least heater element, and the working fluid flowed out from the outlet 2114 of the first appearance liquid plate body 211 flows into the water cooling
Head unit 30, the heat with the heater element generate heat exchange, are then out the water cooling head unit 30 and flow into the from the import 2118
One holds liquid plate body 211 radiates via water cooling row's unit 21.
In another implementation, such as Fig. 9 C and Fig. 9 D, heat conduction is caused first by the working fluid for being recycled to water cooling row's unit 21
Hold liquid plate body 211 and second hold liquid plate body 212 after, heat again via this first and second and three radiating fin group 261,262,263 dissipate
Heat.In addition, water cooling row's selection of unit 21, which is equipped with an a protection location 48 for example, the cover, has first part 481 and one second
Part 482 is provide with water cooling row's unit 21, to protect this first hold liquid plate body 211 and second hold liquid plate body 212 and this first,
Two and three radiating fin groups 261,262,263.50 system of at least fan selectivity is connected with the protection location 48, the fan 50
An outlet air surface system correspond to water cooling row's unit 21, to attract air-flow first to hold liquid plate body 211 to this and second hold liquid plate body 212
And this first and second and three radiating fin group 261,262,263 radiate.
In addition to be illustrated, above-mentioned first holds liquid plate body 211 or the second appearance liquid plate body 212 or the first communication member 271
Or second communication member 272 or third connecting element 273 or the 4th communication member 274 can be gold or silver or copper or iron or titanium or
The alloy material of aluminium or stainless steel or these metals is constituted.Wherein the metal strength height of titanium matter and light-weight spy
Property and heat transfer efficiency it is good, with effectively promote the effect of heat conduction efficiency and make overall weight mitigate effect.
By above implementation with the effect for reaching front projects and problem to be solved.
It is described above to be merely exemplary for the utility model, and not restrictive, those of ordinary skill in the art
Understand, in the case where not departing from spirit and scope defined by claim, can many modifications may be made, variation or it is equivalent, but
It falls within the scope of protection of the utility model.
Claims (19)
1. a kind of water cooling with built-in interlayer arranges structure, it is characterized in that comprising:
One water cooling arranges unit, including:
One first holds liquid plate body, and there is space one import of connection and an outlet, a working fluid in one first to pass through the inlet flow
Entering the space in first, and the space in first is flowed out from the outlet, this has at least one first spacer element in space in first,
This is divided into a plurality of independent liquid chambers in space region in first.
2. the water cooling with built-in interlayer arranges structure as described in claim 1, it is characterised in that:The first appearance liquid plate body is equipped with
One pump drives working fluid flowing, and the import and the one water cooling head unit of outlet.
3. the water cooling with built-in interlayer arranges structure as claimed in claim 2, it is characterised in that:This first appearance liquid plate body include
One first liquid chamber and the second liquid chamber above first liquid chamber, at least one first spacer element includes for this
One first spacing board is located between first liquid chamber and the second liquid chamber, with separate first liquid chamber and this
Two liquid chambers, and first liquid chamber is equipped with a first flow, which is equipped with a second flow channel.
4. the water cooling with built-in interlayer arranges structure as claimed in claim 3, it is characterised in that:First liquid chamber has
First liquid chamber is divided into that a first area is connected to the import and a second area is connected to this and goes out by one first barrier fin
Mouthful, and first spacing board be equipped with one first communication member and one second communication member, first communication member be connected to this first
The first area of liquid chamber and the second liquid chamber, second communication member are connected to the second area of first liquid chamber
And the second liquid chamber.
5. the water cooling with built-in interlayer arranges structure as claimed in claim 4, it is characterised in that:This first appearance liquid plate body include
The one third liquid chamber above the second liquid chamber, at least one first spacer element are located at including one second spacing board
Between the second liquid chamber and the third liquid chamber, to separate the second liquid chamber and the third liquid chamber, and should
First liquid chamber is equipped with a first flow, which is equipped with a second flow channel, which is equipped with one
Third flow channel.
6. the water cooling with built-in interlayer arranges structure as claimed in claim 5, it is characterised in that:The second liquid chamber has
One second barrier fin, divides into a third region above the first area by the second liquid chamber and a fourth region exists
Above the second area, and second spacing board is equipped with a third connecting element and one the 4th communication member, third connecting member
Part is connected to the third region of the second liquid chamber and the third liquid chamber, the 4th communication member are connected to the second liquid chamber
The fourth region of room and the third liquid chamber.
7. the water cooling with built-in interlayer arranges structure as claimed in claim 3, it is characterised in that:First liquid chamber is connected to
The import, the second liquid chamber outlet, and first spacing board is connected to first liquid equipped with one first communication member
Fluid chamber and the second liquid chamber.
8. the water cooling with built-in interlayer arranges structure as claimed in claim 3, it is characterised in that:This first appearance liquid plate body include
The one third liquid chamber above the second liquid chamber, at least one first spacer element are located at including one second spacing board
Between the second liquid chamber and the third liquid chamber, to separate the second liquid chamber and the third liquid chamber, and should
First liquid chamber is connected to the import, which is connected to the outlet.
9. the water cooling with built-in interlayer arranges structure as claimed in claim 8, it is characterised in that:First spacing board is equipped with one
First communication member is connected to first liquid chamber and the second liquid chamber, which is equipped with one second communication member
It is connected to the second liquid chamber and the third liquid chamber.
10. the water cooling with built-in interlayer as described in any one of claim 3 to 9 arranges structure, it is characterised in that:The pump position
In in a plurality of liquid chamber any of which liquid chambers or positioned at the import or the outlet.
11. the water cooling with built-in interlayer arranges structure as described in claim 1, it is characterised in that:The first appearance liquid plate body packet
One first top plate and one first bottom plate are included, at least one first spacer element is located between first top plate and first bottom plate for this.
12. the water cooling with built-in interlayer arranges structure as described in claim 1, it is characterised in that:Hold liquid plate including one second
There is body space in one second to be equipped at least one second spacer element, this is divided into a plurality of independent liquid in space region in second
Fluid chamber circulates for the working fluid, and this is connected to this by a communication member group and first holds the first of liquid plate body in space in second
Interior space.
13. the water cooling with built-in interlayer arranges structure as claimed in claim 12, it is characterised in that:The first appearance liquid plate body
Space is equipped with one first liquid chamber and a second liquid chamber and circulates for the working fluid in first, at least one first interval
Element have one first spacing board be arranged this first hold in the first of liquid plate body space region every first liquid chamber and this
Two liquid chambers, and first liquid chamber formed an inflow region and one outflow region, the inflow region connection at least one into
Mouthful, the outflow regional connectivity at least one outlet;
Space is equipped with a third liquid chamber and one the 4th liquid chamber in the second of the second appearance liquid plate body, the second interval member
There is one second spacing board to be arranged in the second of the second appearance liquid plate body in space and separate the third liquid chamber and be somebody's turn to do for part
4th liquid chamber;And
The communication member group has one first communication member, one second communication member, a third connecting element and one the 4th connection
Element, first communication member are connected to the inflow region and the third liquid chamber of first liquid chamber, second connected member
Part is connected to the second liquid chamber and the 4th liquid chamber, which is connected to the second liquid chamber and the third
Liquid chamber, the 4th communication member are connected to outflow region and the 4th liquid chamber of first liquid chamber.
14. the water cooling with built-in interlayer arranges structure as claimed in claim 13, it is characterised in that:This first hold liquid plate body and
The second appearance liquid plate body any of which is equipped with a pump to drive the working fluid to flow, and the import and one water cooling of outlet
Head unit.
15. the water cooling with built-in interlayer arranges structure as claimed in claim 13, it is characterised in that:The first appearance liquid plate body packet
One first top plate and one first bottom plate are included, which is formed between first bottom plate and the first partition, this
Two liquid chambers are formed between first top plate and the first partition, and are wriggled equipped with a first flow in first liquid chamber
Yan is formed in the side of the first partition, to guide the working fluid path, and first bottom plate be equipped with a fin this first
The fluid chamber partition inflow region and the outflow region, and wriggle and formed equipped with a second flow channel in the second liquid chamber
In the other side of the first partition, to guide the working fluid path.
16. the water cooling with built-in interlayer arranges structure as claimed in claim 15, it is characterised in that:The second appearance liquid plate body packet
One second top plate and one second bottom plate are included, which is formed between second bottom plate and the second partition, this
Four liquid chambers are formed between second top plate and the second partition, and are wriggled equipped with a third flow channel in the third liquid chamber
Yan is formed in the side of the second partition, and to guide the working fluid path, one the 4th runner is equipped in the 4th liquid chamber
It wriggles and is formed in the other side of the second partition, to guide the working fluid path.
17. the water cooling with built-in interlayer arranges structure as claimed in claim 16, it is characterised in that:The first appearance liquid plate body packet
Include a first through hole, one second through-hole, a third through-hole and the fourth hole through first bottom plate, first partition difference
Corresponding second through-hole and the third through-hole are equipped with one first through hole and one second through hole, and first communication member runs through
The first through hole and it is connected to first liquid chamber, second communication member is through second through-hole and first through hole and company
Lead to the second liquid chamber, the third connecting element is through the third through-hole and second through hole and is connected to the second liquid chamber
Room, the 4th communication member is through the fourth hole and is connected to first liquid chamber.
18. the water cooling with built-in interlayer arranges structure as claimed in claim 17, it is characterised in that:The second appearance liquid plate body packet
Include a fifth hole, one the 6th through-hole, one the 7th through-hole, one the 8th through-hole through second top plate, second partition difference
The corresponding fifth hole and the 7th through-hole are equipped with a third through hole and one the 4th through hole, and first communication member runs through
The fifth hole and the third through hole are simultaneously connected to the third liquid chamber, which runs through the 6th through-hole and company
Logical 4th liquid chamber, the third connecting element is through the 7th through-hole and the 4th through hole and is connected to the third fluid chamber
Room, the 4th communication member is through the 8th through-hole and is connected to the 4th liquid chamber.
19. the water cooling with built-in interlayer arranges structure as claimed in claim 14, it is characterised in that:The pump setting this first
In liquid chamber or the second liquid chamber or the third liquid chamber or the 4th liquid chamber or at least import or should
An at least exit.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721840517.7U CN207625995U (en) | 2017-12-25 | 2017-12-25 | Water cooling with built-in interlayer arranges structure |
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Application Number | Priority Date | Filing Date | Title |
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CN201721840517.7U CN207625995U (en) | 2017-12-25 | 2017-12-25 | Water cooling with built-in interlayer arranges structure |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108260328A (en) * | 2017-12-25 | 2018-07-06 | 奇鋐科技股份有限公司 | Water cooling row's structure with built-in interlayer |
CN111372404A (en) * | 2020-03-25 | 2020-07-03 | 深圳市商汤科技有限公司 | Waterproof ventilative module and waterproof ventilative equipment |
-
2017
- 2017-12-25 CN CN201721840517.7U patent/CN207625995U/en not_active Withdrawn - After Issue
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108260328A (en) * | 2017-12-25 | 2018-07-06 | 奇鋐科技股份有限公司 | Water cooling row's structure with built-in interlayer |
CN108260328B (en) * | 2017-12-25 | 2021-02-26 | 奇鋐科技股份有限公司 | Water cooling bar structure with built-in interlayer |
CN111372404A (en) * | 2020-03-25 | 2020-07-03 | 深圳市商汤科技有限公司 | Waterproof ventilative module and waterproof ventilative equipment |
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