CN206332960U - Water-cooled arranges unit and its water-cooled module - Google Patents
Water-cooled arranges unit and its water-cooled module Download PDFInfo
- Publication number
- CN206332960U CN206332960U CN201621046982.9U CN201621046982U CN206332960U CN 206332960 U CN206332960 U CN 206332960U CN 201621046982 U CN201621046982 U CN 201621046982U CN 206332960 U CN206332960 U CN 206332960U
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- Prior art keywords
- water
- hole
- transition zone
- grade
- cooled
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Abstract
A kind of water-cooled row's unit and its water-cooled module, comprising:One body;The body has a Part I and a Part II and a transition zone and is connected with each other, first and second part has a first flow group and a second flow channel group and an entrance and an outlet respectively, cooling fluid is filled with the body, the transition zone sets a pumping and constitutes the water-cooled module with it, guides the cooling fluid to be circulated through by the pumping and then reaches heat radiation efficiency and the space of reduction water-cooling head.
Description
【Technical field】
A kind of water-cooled row's unit and its water-cooled module, espespecially pumping and water-cooled are arranged combination by one kind and then increase cooling water is followed
Ring efficiency and water-cooled row's unit and its water-cooled module in reduction water-cooling head space.
【Background technology】
Existing electronic installation speed and efficiency make rapid progress, with efficiency lifting then its internal electronic element work when then
Can relative lifting temperature, general heat radiation module after radiator or temperature-uniforming plate or heat pipe combination to electronic component only for through carrying out
It is antipyretic, also have to pass through and set up radiator fan using to heat radiation module progress forced heat radiation, but because the heat radiation module is arranged at
It is only capable of that heat is taken away into electronic component and can not be expelled directly out inside the electronic installation as far as possible inside electronic installation, therefore also has dealer
Water-cooled module is antipyretic applied to being carried out in the electronic installation, and there is water-cooled module a water-cooling head and a water-cooled to arrange, and the water-cooled
There is cyclic water channel between head and water-cooled row and be attached between the two through body so as to carry out cooling fluid circulation, this is cold
There is head a heat exchange interface to be directly sticked with electronic component and by heat derives, thereafter again through inside the cold water tap
Cooling fluid heat is taken away into the heat exchange interface, the cooling fluid that will be finally adsorbed with heat is guided to being arranged at the electronics
Water-cooled outside device discharges into capable cooling, and the water-cooling head mainly passes through with water-cooled row's internal cooling fluid and is arranged at the water-cooling head
An interior pumping, or cooling fluid cooling is driven to cooling fluid through the external pumping of the outside independence directly set
Circulation, but when in the narrow electronic equipment in inner space, the entirety size of the water-cooling head, which need to be strict with, to be met narrow space and sets
Put, and because must be provided with the pumping in water-cooling head, therefore the solution heat problem for how solving narrow space is then primary target.
【Utility model content】
Therefore, it is the shortcoming of the above-mentioned known technology of solution, the main purpose of the utility model reduces water-cooling head there is provided one kind
Water-cooled row's unit in space.
The utility model a further object pumping and water-cooled are arranged there is provided one kind combine and then increase cooling water circulation efficiency with
And the water-cooled module in reduction water-cooling head space.
For up to above-mentioned purpose, the utility model provides a kind of water-cooled row unit, it is characterised in that include:One body, one
Pumping;
The body has a Part I and a Part II and a transition zone, and first and second part has one respectively
First flow group and a second flow channel group, the transition zone be located at first and second part between and with the first and second each runner group phase
Connect, the Part I be provided with an entrance, the Part II have one outlet, the transition zone have plural first hole and
One water-guiding hole and plural second hole, first hole connect the first flow group of the Part I, the grade in secondth area
Two holes connect the second flow channel group of the Part II, the water-guiding hole located at the transition zone bottom and through a foot passage with
First hole is connected, and cooling fluid is filled with the body.
The pumping is arranged in the transition zone of foregoing water-cooled row unit, and the pumping has plural flabellum, and the pumping
The cooling fluid in foregoing body is driven to be circulated in the body interior.
For up to above-mentioned purpose, the utility model provides a kind of water-cooled module, it is characterised in that include:A kind of water cooled mo(u)ld
Group, comprising:One water-cooled row unit, a pumping, a water-cooling head, one first body, one second body;
The water-cooled row unit has:One body have a Part I and a Part II and a transition zone, this first,
Two parts respectively have a first flow group and a second flow channel group, the transition zone be located at first and second part between and with
First and second each runner group is connected with each other, and the Part I is provided with an entrance, and the Part II has an outlet, the transition zone
With plural first hole and a water-guiding hole and plural second hole, first hole connects the first flow of the Part I
Group, the hole of grade second in secondth area connects the second flow channel group of the Part II, and the water-guiding hole is located at the transition zone bottom
Portion is simultaneously connected, and cooling fluid is filled with the body through a foot passage with first hole.
The pumping is arranged in the transition zone of foregoing water-cooled row unit, and the pumping has plural flabellum, and the pumping
The cooling fluid in foregoing body is driven to be circulated in the body interior.
The water-cooling head has a housing, and the housing has an at least water space capacity and a heat exchange interface and a water inlet
Mouth and a delivery port, the entery and delivery port connect the water space capacity, and the heat exchange interface side connects the water space capacity.
First body have a first end and one second end connect respectively the water-cooling head water inlet and the body it
Outlet.
Second body have one the 3rd end and one the 4th end connect respectively the cold water tap delivery port and the body it
Entrance.
Through the utility model water-cooled arrange unit and its water-cooled module can further reduce the water-cooling head height and then
Improvement known spatial is narrow can not to set the missing of water-cooling head, and by that can increase the cycle efficieny of cooling fluid and reduce element
String group and prevent the possibility of leak.
【Brief description of the drawings】
Fig. 1 is the stereogram for the first embodiment that the utility model water-cooled arranges unit;
Fig. 2 is the three-dimensional cutaway view for the first embodiment that the utility model water-cooled arranges unit;
Fig. 3 is the A-A sectional views for the first embodiment that the utility model water-cooled arranges unit;
Fig. 4 is another sectional view for the first embodiment that the utility model water-cooled arranges unit;
Fig. 5 is the assembled sectional view for the second embodiment that the utility model water-cooled arranges unit;
Fig. 6 is the three-dimensional combination figure of the first embodiment of the utility model water-cooled module;
Fig. 7 is the three-dimensional exploded view of the first embodiment of the utility model water-cooled module;
Fig. 8 is the assembled sectional view of the second embodiment of the utility model water-cooled module.
【Symbol description】
Water-cooled arranges the radiating fin 115 of unit 1
The hole 1132 of body 11 second
Part I 111 second holds pool 1132a
Entrance 111a water-guiding holes 1133
The foot passage 1134 of first flow group 1111
First transverse flow channels 1111a convex extension parts 1135
First longitudinal direction runner 1111b through holes 1136
First water space capacity 1111c water-cooled modules 2
The pumping 21 of Part II 112
Export 112a flabellums 211
The water-cooling head 22 of second flow channel group 1121
Second transverse flow channels 1121a housings 221
Second longitudinal direction runner 1121b water space capacities 222
Second water space capacity 1121c heat exchanges interface 223
The water inlet 224 of transition zone 113
The delivery port 225 of first hole 1131
First holds the first bodys of pool 1131a 23
The first end 231 of spacer portion 114
The radiator fan 3 of second end 232
The fan hub 31 of second body 24
The axle center 32 of 3rd end 241
4th end 242.
【Embodiment】
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.
Refer to Fig. 1,2,3, be the utility model water-cooled row unit first embodiment stereogram and A-A sectional views,
As illustrated, the utility model water-cooled arranges unit 1, comprising:One body 11, a pumping 21;
The body 11 has a Part I 111 and a Part II 112 and a transition zone 113, first and second part
111st, 112 have between a first flow group 1111 and a second flow channel group 1121, first and second part 111,112 respectively
Differentiation first and second part 111,112 is defined with a spacer portion 114, and by the spacer portion 114.
The first flow group 1111 has plural first transverse flow channels 1111a and plural first longitudinal direction runner 1111b, this etc.
First transverse flow channels 1111a with this etc. first longitudinal direction runner 1111b be connected with each other, first transverse flow channels of grade 1111a is divided into
The side of spacer portion 114, and this etc. the spaced arrangements of first longitudinal direction runner 1111b, and this etc. first longitudinal direction runner 1111b
Between have plurality of radiating fins 115.
The second flow channel group 1121 has plural second transverse flow channels 1121a and plural second longitudinal direction runner 1121b, this etc.
Second transverse flow channels 1121a with this etc. second longitudinal direction runner 1121b be connected with each other, second transverse flow channels of grade 1121a is divided into
The side of spacer portion 114, and this etc. the spaced arrangements of second longitudinal direction runner 1121b, and this etc. second longitudinal direction runner 1121b
Between have plurality of radiating fins 115.
The transition zone 113 be located at first and second part 111,112 between and with the institute of first and second part 111,112
First and second each runner group 1111,1121 of setting is connected with each other, the Part I 111 provided with an entrance 111a and with this first
Each runner group 1111 is connected, and the Part II 112 has an outlet 112a and is connected with the second flow channel group 1121.
The transition zone 113 has the plural water-guiding hole 1133 of first hole 1131 and one and plural second hole 1132, should
The first flow group 1111 of the Part I 111 is connected Deng the first hole 1131, second hole of grade 1132 connects this second
Points 112 second flow channel group 1121, the water-guiding hole 1133 located at the bottom of transition zone 113 and through a foot passage 1134 with
First hole 1131 is connected, and cooling fluid 116 is filled with the body 11, and the foot passage 1134 is located at the transition zone
The opposite side of 113 bottoms.
First hole of grade 1131 extends radially through the transition zone 113, makes the first transverse flow channels 1111a and the first longitudinal direction
Runner 1111b is connected with the foot passage 1134, second hole of grade 1132 extend radially through the transition zone 113 with respect to this second
The wall of part 112 makes the transition zone 113 be connected with the second flow channel group 1121,
Referring to Fig. 4, the second transverse flow channels 1121a of the second flow channel group 1121 and this etc. second longitudinal direction runner
The mutual junctions of 1121b have different aperture widths, positioned at the second longitudinal direction runner 1121b close to the transition zone 113 with this
The aperture width of two transverse flow channels 1121a junction is smaller, and sets the second longitudinal direction runner away from the transition zone 113
1121b and the aperture width of second transverse flow channels 1121a junction are larger, and its main purpose is through the control junction
Aperture width, thereby make the cooling fluid 116 to be evenly distributed and flow through each second longitudinal direction runner 1121b.
The transition zone 113 is arranged at the transition zone with more one first appearance pool 1131a and one second appearance pool 1132a
In 113 wall, described first holds pool 1131a is interconnected with the first flow group 1111 and first hole of grade 1131,
Described second holds pool 1132a is interconnected with the second flow channel group 1121 and second hole 1132, the hole of grade second
1132 are divided into inside and outside second appearance pool 1132a, (the i.e. close transition zone 113 is inner side close to this second to two side walls
Points 112 be outside), and be arranged at this and second hold that pool 1132a is inside and outside, two side walls the second holes 1132 have a difference in height
A, the second hole 1132 for being arranged at inner side is higher than the second hole 1132 for being arranged at outside, and described second holds pool
1132a, the effect with current stabilization or voltage stabilizing enables the cooling fluid 116 entered to be carried with current stabilization and the persistent loop of voltage stabilizing
Rise cycle efficieny.
The Part I 111 is connected with more one first water space capacity 1111c with the first flow group 1111, this second
112 are divided to be connected with more one second water space capacity 1121c with the second flow channel group 1121.
The pumping 21 is arranged in the transition zone 113 of foregoing water-cooled row unit 1, and the pumping 21 has plural flabellum
211, and the pumping 21 drives the cooling fluid 116 in foregoing body 11 to be circulated inside the body 11.
The pumping 21 can select existing any disclosed and corresponding can arrange the known pump that unit 11 is used with the water-cooled
Pu, which is not regarded it as, to be limited.
Referring to Fig. 5, the assembled sectional view of the second embodiment of unit is arranged for the utility model water-cooled, as illustrated, this
Embodiment is identical with aforementioned first embodiment part-structure therefore will not be described in great detail herein, only the present embodiment and aforementioned first embodiment
Difference be in being extended with a convex extension part 1135 around the water-guiding hole 1133, and convex extension part 1135 is tapered and internal tool
There is a through hole 1136, the through hole is connected with the water-guiding hole 1133.
Fig. 6,7 are referred to, are the three-dimensional combination figure and three-dimensional exploded view of the first embodiment of the utility model water-cooled module,
As illustrated, the utility model water-cooled module 2, comprising:One water-cooled row unit 1, a pumping 21, a water-cooling head 22, one first pipe
Body 23, one second body 24;
Water-cooled row's unit 1 is arranged as described in foregoing water-cooled row's unit first embodiment also referring to foregoing water-cooled
Unit first embodiment and Fig. 1,2, are then repeated no more at this.
The water-cooling head 22 has a housing 221, and the housing 221 has an at least water space capacity 222 and a heat exchange
The water inlet 224 of interface 223 and one and a delivery port 225, the entery and delivery port 224,225 connect the water space capacity 222, the heat
Interface 223 is exchanged located at the side of the housing 221 and the water space capacity 222 is connected.
First body 23 connects the water inlet of the water-cooling head 22 with a first end 231 and one second end 232 respectively
The 224 and outlet 112a of the body 11.
Second body 24 connects the delivery port of the cold water tap 22 with one the 3rd end 241 and one the 4th end 242 respectively
The 225 and entrance 111a of the body 11.
The main transition zone 113 for arranging unit 1 in the water-cooled of the present embodiment sets the pumping 21 and passes through first and second body
23rd, 24 connect the cold water tap 22 and then constitute the water-cooled module 2, and a water cooled circulating solution is provided by the water-cooled module 2
Heat, the utility model is that the utility model cancels pumping 21 in known water-cooling head 22 with the discrepancy of known technology maximum,
Therefore the overall volume size of water-cooling head 22 can be reduced, when the antipyretic electronic equipment internal of the need of narrow space also can easily be set,
And be cancelled and be arranged at the pumping 21 of the inside of water-cooling head 22 and be changed to be arranged at and arrange unit as the water-cooled of cooling cooling fluid 116
In 1, can be also directed through in addition to the overall volume that can reduce the water-cooling head 22 pumping 21 directly drive the water-cooled row unit 1 in it
The efficiency of the increase cooling cooling fluid 116 of cooling fluid 116.
The water-cooling head 22 of the present embodiment makes mainly as being directly sticked with thermal source (not shown) as absorption conduction heat
With in addition, arranging unit 1 as the water-cooled of cooling cooling fluid 116, it connects through first and second body 23,24 with the water-cooling head 22
Connect, the inside of the water-cooling head 22 has a water space capacity 222, the side of heat exchange interface 223 is to should water space capacity 222, cooling stream
Body 116 is circulated in the water space capacity 222, and can take away the heat that the heat exchange interface 223 is adsorbed, and the utility model is main
The structure setting that it is water-cooled row's unit 1 that feature, which is, first and second part is distinguished through by spacer portion 114 by the body 11
111st, 112, therefore one can be formed and enter aqua region (Part I 111) and an outlet area (Part II 112), and transition zone 113
It is that the transition zone 113 is set the characteristics of transition zone 113 then to drive the cooling fluid 116 to circulate position main
Have plural first hole 1131 and plural second hole 1132, second hole of grade 1132 be arranged at the transition zone 113 with this
Two hold on the side wall between the 1132a of pool, and the water-guiding hole 1133 is located at the bottom of transition zone 113 and passes through a foot passage
1134 connect with first hole 1131, when the entrance 111a that cooling fluid 116 arranges unit 1 by the water-cooled enters the first flow
Group 1111 when, via the grade the first transverse flow channels 1111a of the first flow group 1111 and this etc. first longitudinal direction runner 1111b to
The transition zone 113 flows, and enters through first hole of grade 1131a in the foot passage 1134 of the bottom of transition zone 113, then
Entered by the water-guiding hole 1133 for being arranged at the bottom of transition zone 113 in the transition zone 113, then transmission is arranged at the transition zone 113
In pumping 21 the grade blade 211 guiding cooling fluid 116 this is left by second hole of the grade 1132a of the transition zone 113
Transition zone 113 simultaneously enters second appearance pool 1132a, then by the second hole 1132 of the second appearance pool 1132a outside side walls
Into the second flow channel group 1121, and through the grade the second transverse flow channels 1121a and the grade second of the second flow channel group 1121
Longitudinal runner 1121b flows to the outlet 112a for being arranged at the Part II 112 and leaves water-cooled row's unit 1, and cools down stream
Body 116 through first body 23 connect the cold water tap 22 water inlet 224 enter the water-cooling head 22, then at the cold water tap 22 it
Cooling is circulated in water space capacity 222 and water outlet after the heat that heat exchange interface 223 is adsorbed by the cold water tap 22 is taken away
Mouthfuls 225 leave the water space capacity 222 of the cold water tap 22, the cold water tap 22 through delivery port 225 connect second body 24 again by
The entrance 111a for the body 11 that second body 24 arranges unit 1 with the water-cooled is connected, and the cooling fluid 116 is entered by entrance 111a again
Enter water-cooled row's unit 1, weight and be again passed through water-cooled row's 1 pair of unit cooling fluid 116 and cool down.
The utility model mainly reduces the overall volume of the cold water tap 22 and cancels the pumping 21 for being arranged at its inside, and will
Pumping 21 is combined with to cooling fluid 116 cool down water-cooled row's unit 1 of circulation, uses to meet being intended to set part insufficient space
Problem, and still can maintain cooling circulate.
The utility model water-cooled row's unit 1 side can be correspondingly arranged 3 pairs of water-cooled row's units 1 of a radiator fan and force
Radiating, so can more increase the cooling effectiveness of the cooling fluid 116 in water-cooled row's unit 1, and because the water-cooled arranges the of unit 1
First, two each runner group 1111,1121, spreads in whole water-cooled row unit 1, and as 3 pairs of water-cooled row's units 1 of radiator fan are entered
Capable forced heat radiation, then can cool down the water-cooled row's body 11 of unit 1 for being adsorbed with heat rapidly and directly cool down the cooling fluid
116, the cooling fluid 116 after being cooled down so as to be recycled into progress cooling circulation in the water-cooling head 22 again.
Referring to Fig. 8, the assembled sectional view of the second embodiment for the utility model water-cooled module, as illustrated, this reality
Apply example identical with aforementioned first embodiment part-structure therefore will not be described in great detail herein, only the present embodiment and aforementioned first embodiment it
Difference is in the pumping 21 in the water-cooled row unit 1 has a flabellum body 211, and the radiator fan 3 has a fan hub
31, and the flabellum body 211 of the pumping 21 linked with the fan hub 31 of the radiator fan 3 by an axle center 32, and when radiating
Fan 3 rotate when simultaneously the flabellum 211 of the pumping 21 can be driven to operate, can further up to energy-conservation purpose.
Claims (8)
1. a kind of water-cooled arranges unit, it is characterised in that include:
One body, with a Part I and a Part II and a transition zone, first and second part is first-class with one respectively
Road group and a second flow channel group, the transition zone are located between first and second part and mutually interconnected with first and second each runner group
Connect, the Part I is provided with an entrance, the Part II has an outlet, and the transition zone has plural first hole and one led
Water hole and plural second hole, the hole of grade first connect the first flow group of the Part I, and the hole of grade second connection should
The second flow channel group of Part II, the water-guiding hole with first hole connects located at the transition zone bottom and through a foot passage
It is logical, and cooling fluid is filled with the body;In one pumping, the transition zone for being arranged at foregoing water-cooled row unit, the pumping tool
There is plural flabellum, and the pumping drives the cooling fluid in foregoing body to be circulated in the body interior.
2. water-cooled according to claim 1 arranges unit, it is characterised in that with more a spacer portion, the spacer portion is defined
First and second part is distinguished, the first flow group has plural first transverse flow channels and plural first longitudinal direction runner, the grade first
Transverse flow channels are mounted on the spacer portion side, the transverse flow channels of grade first with this etc. first longitudinal direction runner be connected, the bottom lead to
Road is located at the opposite side of the transition zone bottom, the hole of grade first extend radially through the transition zone make first transverse flow channels and this
One longitudinal runner is connected with the foot passage, and the second flow channel group has plural second transverse flow channels and plural second longitudinal direction stream
Road, the transverse flow channels of grade second are connected located at the spacer portion side and with the hole of grade second, and the transverse flow channels of grade second are with being somebody's turn to do
Etc. the connection of second longitudinal direction runner, the wall that the hole of grade second extends radially through the transition zone makes the transition zone and the second flow channel group
Be connected, the spaced arrangement of the first longitudinal direction such as this runner, and this etc. there is between first longitudinal direction runner plurality of radiating fins,
The spaced arrangement of the second longitudinal direction such as this runner, and this etc. there is between second longitudinal direction runner plurality of radiating fins.
3. water-cooled according to claim 1 arranges unit, it is characterised in that the transition zone with more one first hold pool and
One second appearance pool is arranged in the wall of the transition zone, and described first holds pool and the first flow group and the hole of grade first
It is interconnected, described second holds pool is interconnected with the hole of grade second and the second flow channel group and second hole.
4. water-cooled according to claim 1 arranges unit, it is characterised in that it is empty that the Part I holds water with more one first
Between be connected with the first flow group, the Part II is connected with more one second water space capacity with the second flow channel group.
5. a kind of water-cooled module, it is characterised in that include:
One water-cooled arranges unit, comprising:
One body, with a Part I and a Part II and a transition zone, first and second part is first-class with one respectively
Road group and a second flow channel group, the transition zone are located between first and second part and mutually interconnected with first and second each runner group
Connect, the Part I is provided with an entrance, the Part II has an outlet, and the transition zone has plural first hole and one led
Water hole and plural second hole, first hole connect the first flow group of the Part I, the hole of grade second connect this
The second flow channel group of two parts, the water-guiding hole with first hole connects located at the transition zone bottom and through a foot passage
It is logical, and cooling fluid is filled with the body;In one pumping, the transition zone for being arranged at foregoing water-cooled row unit, the pumping tool
There is plural flabellum, and the pumping drives the cooling fluid in foregoing body to be circulated in the body interior;
One water-cooling head, with a housing, the housing has an at least water space capacity and a heat exchange interface and a water inlet and one
Delivery port, the entery and delivery port connects the water space capacity, and the heat exchange interface is located at the side of the housing and connects the Rong Shuikong
Between;
One first body, the outlet of the water inlet and the body of the water-cooling head is connected with a first end and one second end respectively;
One second body, the delivery port of the water-cooling head and the entrance of the body are connected with one the 3rd end and one the 4th end respectively.
6. water-cooled module according to claim 5, it is characterised in that with more a spacer portion, the spacer portion bounded area
Divide first and second part, the first flow group has plural first transverse flow channels and plural first longitudinal direction runner, and the grade first is horizontal
To each runner group be located at the spacer portion side, the transverse flow channels of grade first with this etc. first longitudinal direction runner be connected, the foot passage
Opposite side located at the transition zone bottom, the hole of grade first extend radially through the transition zone make first transverse flow channels and this first
Longitudinal runner is connected with the foot passage, and the second flow channel group has plural second transverse flow channels and plural second longitudinal direction stream
Road, the transverse flow channels of grade second are mounted on the spacer portion side and are connected with the hole of grade second, the transverse flow channels of grade second with
The second longitudinal direction such as this runner is connected, and the wall that the hole of grade second extends radially through the transition zone makes the transition zone and the second flow channel
Group is connected, the spaced arrangement of the first longitudinal direction such as this runner, and this etc. there is between first longitudinal direction runner plural heat radiating fin
Piece, the spaced arrangement of the second longitudinal direction such as this runner, and this etc. there is between second longitudinal direction runner plurality of radiating fins.
7. water-cooled module according to claim 5, it is characterised in that the transition zone holds pool and one with more one first
Second appearance pool is arranged in the wall of the transition zone, and described first holds pool and the first flow group and grade the first hole phase
Intercommunicated, described second holds pool is interconnected with the second flow channel group and second hole.
8. water-cooled module according to claim 5, it is characterised in that the Part I has more one first water space capacity
It is connected with the first flow group, the Part II is connected with more one second water space capacity with the second flow channel group.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621046982.9U CN206332960U (en) | 2016-09-11 | 2016-09-11 | Water-cooled arranges unit and its water-cooled module |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621046982.9U CN206332960U (en) | 2016-09-11 | 2016-09-11 | Water-cooled arranges unit and its water-cooled module |
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Publication Number | Publication Date |
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CN206332960U true CN206332960U (en) | 2017-07-14 |
Family
ID=59286633
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201621046982.9U Withdrawn - After Issue CN206332960U (en) | 2016-09-11 | 2016-09-11 | Water-cooled arranges unit and its water-cooled module |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106455420A (en) * | 2016-09-11 | 2017-02-22 | 奇鋐科技股份有限公司 | Water-cooling discharging unit and water-cooling module thereof |
CN107333445A (en) * | 2017-07-25 | 2017-11-07 | 奇鋐科技股份有限公司 | The heat exchange structure of water cooling plant |
CN111194155A (en) * | 2019-12-18 | 2020-05-22 | 深圳市迅凌科技有限公司 | Water cooling head, water cooling radiator and electronic equipment |
-
2016
- 2016-09-11 CN CN201621046982.9U patent/CN206332960U/en not_active Withdrawn - After Issue
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106455420A (en) * | 2016-09-11 | 2017-02-22 | 奇鋐科技股份有限公司 | Water-cooling discharging unit and water-cooling module thereof |
CN106455420B (en) * | 2016-09-11 | 2018-10-12 | 奇鋐科技股份有限公司 | Water cooling arranges unit and its water-cooled module |
CN107333445A (en) * | 2017-07-25 | 2017-11-07 | 奇鋐科技股份有限公司 | The heat exchange structure of water cooling plant |
CN111194155A (en) * | 2019-12-18 | 2020-05-22 | 深圳市迅凌科技有限公司 | Water cooling head, water cooling radiator and electronic equipment |
CN111194155B (en) * | 2019-12-18 | 2021-10-12 | 深圳市迅凌科技有限公司 | Water cooling head, water cooling radiator and electronic equipment |
US11197391B2 (en) | 2019-12-18 | 2021-12-07 | Shenzhen Xunling Technology Co., Ltd. | Water cooling head, water cooling radiator and electronic equipment |
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