CN206340636U - A kind of multiple flow passages liquid cooling plate for electrokinetic cell - Google Patents
A kind of multiple flow passages liquid cooling plate for electrokinetic cell Download PDFInfo
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- CN206340636U CN206340636U CN201621230156.XU CN201621230156U CN206340636U CN 206340636 U CN206340636 U CN 206340636U CN 201621230156 U CN201621230156 U CN 201621230156U CN 206340636 U CN206340636 U CN 206340636U
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- influent stream
- base plate
- coolant
- stream portion
- shunting
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/10—Energy storage using batteries
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- Heat-Exchange Devices With Radiators And Conduit Assemblies (AREA)
Abstract
The utility model discloses a kind of multiple flow passages liquid cooling plate for electrokinetic cell, it includes:Base plate, panel, inlet and liquid outlet, the base plate include:Base plate body, and each runner group;The each runner group includes:The either side of the end face left and right sides on the upside of the base plate body is arranged at, the influent stream portion of each runner group is entered for coolant;And the opposite side of the end face left and right sides on the upside of the base plate body is arranged at, go out stream portion for the coolant outflow each runner group;The influent stream portion and go out stream portion and be all provided with least two runners.Multiple flow passages liquid cooling plate provided by the utility model for electrokinetic cell, so that the electrokinetic cell for being provided with the multiple flow passages liquid cooling plate for being used for electrokinetic cell can be by being arranged at influent stream portion and going out multiple runners in stream portion, quickly with base plate and cover plate progress heat exchange and with the coolant of constant flow, heat is taken away, to realize the fast cooling to electrokinetic cell.
Description
Technical field
The utility model is related to a kind of liquid cooling plate, more particularly to a kind of multiple flow passages liquid cooling plate for electrokinetic cell.
Background technology
New-energy automobile is that a particularly important automobile is ground in the society that current energy resource consumption is huge, resource is nervous
Originating party is to and nowadays electrocar is exactly walked in the foremost developmental achievement of new-energy automobile.
Currently, new-energy automobile power battery liquid cooling apparatus is that horizontal cooling structure, i.e. battery module or battery core are laterally arranged
Cloth is set in electrokinetic cell casing or cradle bottom surface between electrokinetic cell casing bottom surface or electrokinetic cell casing bottom surface and module
Connected by pipeline and realize the cooling device being arranged in series, to meet the radiating requirements of the laterally battery module of arrangement or battery core.
Because cooling device is by being arranged in series, the refrigerant of pipeline can produce heat in pipe conveying procedure and tire out
Product, causes radiating efficiency low.
Therefore, prior art has yet to be improved and developed.
Utility model content
In view of above-mentioned the deficiencies in the prior art, the purpose of this utility model is to provide a kind of multithread for electrokinetic cell
Road liquid cooling plate, this be used for electrokinetic cell multiple flow passages liquid cooling plate can by be arranged at influent stream portion and go out stream portion multiple runners,
Quickly heat exchange is carried out with base plate and cover plate and with the coolant of constant flow, heat is taken away, to realize to electrokinetic cell
Fast cooling.
The technical solution of the utility model is as follows:
A kind of multiple flow passages liquid cooling plate for electrokinetic cell, including the panel that base plate and the base plate are covered, and through institute
State and connect after panel with the base plate, for providing coolant to the base plate inlet, and after the panel with institute
State base plate connect, for by the base plate circulation after coolant derived from liquid outlet, wherein, the base plate includes:Base plate
Body,
And it is arranged at end face on the upside of the base plate body, for water conservancy diversion coolant to be cooled to base plate and cover plate
Each runner group;
The each runner group includes:
The either side of the end face left and right sides on the upside of the base plate body is arranged at, enters each runner group for coolant
Influent stream portion;
And the opposite side of the end face left and right sides on the upside of the base plate body is arranged at, flow out the runner for coolant
That organizes goes out stream portion;
The influent stream portion and go out the runner that stream portion is all provided with least two cocurrent UNICOMs.
Preferably, the described multiple flow passages liquid cooling plate for electrokinetic cell, wherein, the influent stream portion is provided with least three
Runner:
Three runners are followed successively by the first influent stream shunting, the second influent stream shunting by the base plate body side to center
And the 3rd influent stream shunting;
Cocurrent UNICOM is distinguished in the feed liquor in the first influent stream shunting, the second influent stream shunting and the 3rd influent stream shunting two ends
Mouthful and go out stream portion.
Preferably, the described multiple flow passages liquid cooling plate for electrokinetic cell, wherein, it is described go out stream portion be provided with least three
Runner:
Three runners are followed successively by by the base plate body side to center first to be gone out flow point road, second goes out flow point road
And the 3rd go out flow point road;
Described first go out flow point road, second go out flow point road and the 3rd go out flow point road two ends respectively cocurrent UNICOM in it is described go out liquid
Mouth and influent stream portion.
Preferably, the described multiple flow passages liquid cooling plate for electrokinetic cell, wherein, each runner group be provided with it is described enter
Liquid mouthful is adapted and is connected with the influent stream portion, and the coolant of the inlet is come from for receiving and is transported to
The lead channel in the influent stream portion.
Preferably, the described multiple flow passages liquid cooling plate for electrokinetic cell, wherein, each runner group be provided with it is described go out
Liquid mouth be adapted and with it is described go out stream portion be connected, for receive come from it is described go out stream portion coolant and be transported to
The liquid outlet groove of the liquid outlet.
Preferably, the described multiple flow passages liquid cooling plate for electrokinetic cell, wherein, the influent stream portion also includes:
One end and the lead channel UNICOM, the other end and the first influent stream shunting, the second influent stream shunting and the 3rd influent stream
Shunting front end UNICOM, the first influent stream shunting, the second influent stream shunting are dispersed to for the lead channel to be received into coolant
And the 3rd influent stream shunting the first cocurrent inlet channel;
And one end and the first influent stream shunting, the second influent stream shunting and the 3rd influent stream shunting rear end UNICOM, the other end
With the Chu Liubu UNICOMs, the cold of the first influent stream shunting, the second influent stream shunting and the 3rd influent stream shunting is flowed through for collecting
But liquid and be transported to it is described go out stream portion the second cocurrent inlet channel.
Preferably, the described multiple flow passages liquid cooling plate for electrokinetic cell, wherein, it is described go out stream portion also include:
One end goes out flow point road with described first, second goes out flow point road and the 3rd go out flow point road rear end UNICOM, the other end and institute
UNICOM of influent stream portion is stated, for described first going out flow point road, second going out scattered be delivered to of coolant for coming from the influent stream portion
Flow point road and the 3rd the first cocurrent outlet slot for going out flow point road;
One end goes out flow point road with described first, second goes out flow point road and the 3rd go out flow point road front end UNICOM, the other end and institute
Liquid outlet is stated, described first goes out flow point road for collecting to flow through, second go out flow point road and the 3rd go out flow point road and be transported to
Second cocurrent outlet slot of the liquid outlet.
Preferably, the described multiple flow passages liquid cooling plate for electrokinetic cell, wherein, the base plate also includes:
It is arranged at the influent stream portion and goes out between stream portion, for prevents the coolant positioned at the influent stream portion described with being located at
Go out the shunt bar of the coolant mixed flow in stream portion.
Preferably, the described multiple flow passages liquid cooling plate for electrokinetic cell, it is characterised in that the material of the panel and base plate
Expect the metal alloy for high-termal conductivity.
The processing method that a kind of multiple flow passages liquid cooling plate by described in as above any one for electrokinetic cell is realized, it is special
Levy and be, the processing method includes:
Step A:The panel and base plate use punch forming or hot-forming;
Step B:The inlet and liquid outlet are welded in the panel;
Step C:The panel and base plate method for brazing are connected, shaping rivet is carried, the product wheel arm of angle uses padlock
Welded after tight.
Multiple flow passages liquid cooling plate provided by the utility model for electrokinetic cell, as a result of base plate body, and
It is arranged at end face on the upside of the base plate body, each runner group for water conservancy diversion coolant to be cooled to base plate and cover plate;Set
The either side of the end face left and right sides on the upside of the base plate body, the influent stream portion of each runner group is entered for coolant;And
The opposite side of the end face left and right sides on the upside of the base plate body is arranged at, stream portion is gone out for the coolant outflow each runner group;
And the influent stream portion and go out the runner that stream portion is all provided with least two cocurrent UNICOMs;So that being provided with this is used for electrokinetic cell
Multiple flow passages liquid cooling plate electrokinetic cell can by be arranged at influent stream portion and go out stream portion multiple runners, quickly with base plate and lid
Plate carries out heat exchange and with the coolant of constant flow, heat is taken away, to realize the fast cooling to electrokinetic cell.
Brief description of the drawings
Fig. 1 is the explosive view for the multiple flow passages liquid cooling plate preferred embodiment for being used for electrokinetic cell in the utility model.
Fig. 2 is the structural representation for the multiple flow passages liquid cooling plate preferred embodiment for being used for electrokinetic cell in the utility model.
Fig. 3 is the top view for the multiple flow passages liquid cooling plate preferred embodiment for being used for electrokinetic cell in the utility model.
Fig. 4 is the top view for the multiple flow passages liquid cooling plate preferred embodiment for being used for electrokinetic cell in the utility model.
Fig. 5 is the top view for the multiple flow passages liquid cooling plate preferred embodiment for being used for electrokinetic cell in the utility model.
Embodiment
The utility model provides a kind of multiple flow passages liquid cooling plate for electrokinetic cell, to make the purpose of this utility model, skill
Art scheme and effect are clearer, clear and definite, referring to the drawings and give an actual example to the utility model be further described.Should
Understand, specific embodiment described herein only to explain the utility model, is not used to limit the utility model.
As shown in Figures 1 and 2, the utility model discloses a kind of multiple flow passages liquid cooling plate for electrokinetic cell, it includes:
Base plate, the panel 200 covered with the base plate, and connect with the base plate after the panel 200, for providing coolant
To the base plate inlet 310, and connect with the base plate after the panel 200, for that will be circulated in the base plate
Liquid outlet 320 derived from coolant afterwards;
Wherein, the base plate includes:Base plate body 110, and the upside end face of base plate body 110 is arranged at, it is used for
Each runner group 120 of the water conservancy diversion coolant to be cooled to base plate and cover plate;
The each runner group includes:The either side of the upside end face left and right sides of base plate body 110 is arranged at, for cooling down
Liquid enters the influent stream portion of each runner group 120;And it is arranged at the another of the upside end face left and right sides of base plate body 110
Side, stream portion is gone out for the coolant outflow each runner group 120;The influent stream portion and go out stream portion and be all provided with least two cocurrents
The runner of UNICOM.
As shown in figure 3, in the utility model preferred embodiment, rivet is passed through between the base plate and panel 200.Institute
To state be provided with support protrusion 140, the support protrusion between runner and be provided with some first rivet holes(Because being provided with riveting
Nail, does not illustrate rivet hole separately, and rivet hole is corresponded with rivet), the panel 200 is corresponding with the support protrusion
Position is provided with some second rivet holes, and first rivet hole is corresponded with second rivet hole.
The base plate is aluminium alloy plate with cover plate preferred fabrication material.
Multiple flow passages liquid cooling plate provided by the utility model for electrokinetic cell, as a result of base plate body 110, with
And it is arranged at the upside end face of base plate body 110, each runner group for water conservancy diversion coolant to be cooled to base plate and cover plate
120;The either side of the upside end face left and right sides of base plate body 110 is arranged at, enters each runner group 120 for coolant
Influent stream portion;And the opposite side of the upside end face left and right sides of base plate body 110 is arranged at, it is described for coolant outflow
Each runner group 120 goes out stream portion;And the influent stream portion and go out the runner that stream portion is all provided with least two cocurrent UNICOMs;So that setting
The electrokinetic cell for being equipped with the multiple flow passages liquid cooling plate for being used for electrokinetic cell can be by being arranged at influent stream portion and going out multiple points of stream portion
Runner, quickly carry out with base plate and cover plate heat exchange and with the coolant of constant flow, heat is taken away, to realize to power
The fast cooling of battery.
Further, the influent stream portion is provided with least three runners:Three runners are by the base plate body
110 sides to center is followed successively by the first influent stream shunting 151, the second influent stream shunting 152 and the 3rd influent stream shunting 153;Described first
Influent stream shunting 151, the second influent stream shunting 152 and the two ends of the 3rd influent stream shunting 153 difference cocurrent UNICOM in the inlet 310 and
Go out stream portion.
As shown in figure 3, in the utility model preferred embodiment, the influent stream portion is provided with four runners, distinguishes successively
For the first influent stream shunting 151, the second influent stream shunting 152, the 3rd influent stream shunting 153 and the 4th influent stream shunting 154;Described four points
Three support protrusions are provided between runner, i.e., three support protrusions will be divided into four shuntings in the middle part of the influent stream portion
Road, the two ends of four runners are cocurrents, and this setup is to allow the base plate to have support protrusion support to ensure it
On the basis of body intensity, it is capable of the service life of Homogeneouslly-radiating, raising base plate or even electrokinetic cell.
As shown in figure 4, three support protrusions by base plate side to center direction be followed successively by the first support protrusion 141,
Second support protrusion 142 and the 3rd support protrusion 143, the upper end of the second support protrusion 142 are provided with the second brace rod 160.
Second brace rod 160 is loaded for bearing the institute of panel 200, improves the compression strength of panel 200;Its
Formed as one by punching press with the base plate body 110.
As shown in figure 4, further, each runner group 120 be provided be adapted with the inlet 310 and with it is described
Influent stream portion is connected, for receiving the feed liquor for coming from the coolant of the inlet 310 and being transported to the influent stream portion
Groove 155.
The vertical UNICOM in the side of lead channel 155 is in the first influent stream shunting 151, and it can make coolant quickly through institute
State the first influent stream shunting 151 quickly to circulate in each runner group 120, carry out heat exchange, to carry out fast cooling;And opposite side is in circle
Camber, is connected with the second influent stream shunting 152, the 3rd influent stream shunting 153 and the 4th influent stream shunting 154 respectively, and setting should
Side is circular arc type, it is ensured that coolant smoothly flows into the second influent stream shunting 152, the 3rd influent stream shunting 153 and the 4th and entered
Flow point road 154, and it is overall be positioned in it is perpendicular and the preferential coolant that provides is to first with the first influent stream shunting 151
It is because this setting can ensure coolant in the first influent stream shunting 151 in the 4th influent stream shunting 154 in influent stream shunting 151
Flow path it is identical, improve the heat dissipation uniformity of base plate and cover plate.
As shown in figure 5, further, the influent stream portion also includes:One end and the lead channel UNICOM, the other end with it is described
First influent stream shunting 151, the second influent stream shunting 152 and the front end UNICOM of the 3rd influent stream shunting 153, for the lead channel to be connect
Receive the first cocurrent that coolant is dispersed to the first influent stream shunting 151, the second influent stream shunting 152 and the 3rd influent stream shunting 153
Inlet channel 156;
And one end joins with the first influent stream shunting 151, the second influent stream shunting 152 and the rear end of the 3rd influent stream shunting 153
The logical, other end and the Chu Liubu UNICOMs, the first influent stream shunting 151, the second influent stream shunting 152 and the are flowed through for collecting
The coolant in three influent stream shuntings 153 and be transported to it is described go out stream portion the second cocurrent inlet channel 157.
Further, the base plate also includes:
It is arranged at the influent stream portion and goes out between stream portion, for prevents the coolant positioned at the influent stream portion described with being located at
Go out the shunt bar 170 of the coolant mixed flow in stream portion.
The upper surface of shunt bar 170 is provided with the 3rd brace rod 180, and the rear and front end of base plate body 110 is also distinguished
It is provided with one the 4th brace rod 190.
The each runner group 120 also includes:
Two ends respectively with the influent stream portion and go out stream portion be connected and positioned at the shunt bar 170 away from the lead channel
Between one end and the base plate body 110, for by coolant by the influent stream portion be guided to it is described go out stream portion communication groove
800;
The shunt bar 170 is seamlessly connected close to described lead channel one end with the base plate body 110, prevents coolant
Circulated without each runner group 120, with base plate and cover plate heat exchange and flow directly out each runner group 120.
The facilities of above-mentioned each part for influent stream portion, go out stream portion and are symmetrical arranged with it, each part effect, setting
Principle is identical, will not be repeated here.
Further, it is described go out stream portion be provided with least three runners:
Three runners are followed successively by by the side of base plate body 110 to center first to be gone out flow point road, second goes out stream
Shunting and the 3rd go out flow point road;
Further, described first goes out flow point road, second goes out flow point road and the 3rd go out flow point road two ends difference cocurrent UNICOM
In the liquid outlet 320 and influent stream portion.
Further, each runner group 120 be provided be adapted with the liquid outlet 320 and with it is described go out stream portion be connected
It is logical, for receive come from it is described go out stream portion coolant and be transported to the liquid outlet groove of the liquid outlet 320.
Further, it is described go out stream portion also include:One end goes out flow point road with described first, second goes out flow point road and the 3rd go out
Flow point road rear end UNICOM, the other end and UNICOM of the influent stream portion, for the scattered conveying of coolant by the influent stream portion is come from
Go out flow point road to described first, second go out flow point road and the 3rd go out the first cocurrent outlet slot in flow point road;
One end goes out flow point road with described first, second goes out flow point road and the 3rd go out flow point road front end UNICOM, the other end and institute
Liquid outlet 320 is stated, described first goes out flow point road for collecting to flow through, second go out flow point road and the 3rd go out flow point road and its is defeated
Deliver to the second cocurrent outlet slot of the liquid outlet 320.
Further, the material of the panel and base plate be high-termal conductivity metal alloy, such as aluminium alloy, almag,
Copper and copper alloy etc..
The utility model additionally provides a kind of by being used for the multiple flow passages liquid cooling plate of electrokinetic cell described in as above any one
The cooling treatment method of realization, it includes:
Step A:Coolant enters each runner group 120 by the inlet 310 communicated with runner;
Step B:Coolant flows in the runner of each cocurrent UNICOM of each runner group 120, while entering with base plate and cover plate
Row heat exchange, the heat for taking away base plate and cover plate;
Step C:Coolant passes through the outflow each runner group 120 of liquid outlet 320 communicated with runner.
The cooling treatment method realized with the multiple flow passages liquid cooling plate for electrokinetic cell, therefore described is used for power electric
The technical characteristic of the multiple flow passages liquid cooling plate in pond is equally applicable to the cooling treatment method.
The processing method that a kind of multiple flow passages liquid cooling plate by described in as above any one for electrokinetic cell is realized, it is special
Levy and be, the processing method includes:
Step A:The panel and base plate use punch forming or hot-forming;
Step B:The inlet and liquid outlet are welded in the panel;
Step C:The panel and base plate method for brazing are connected, shaping rivet is carried, the product wheel arm of angle uses padlock
Welded after tight.
It should be appreciated that application of the present utility model is not limited to above-mentioned citing, those of ordinary skill in the art are come
Say, can according to the above description be improved or converted, all these modifications and variations should all belong to the appended power of the utility model
The protection domain that profit is required.
Claims (9)
1. a kind of multiple flow passages liquid cooling plate for electrokinetic cell, including the panel that base plate and the base plate are covered, and through described
Connect after panel with the base plate, for providing coolant to the base plate inlet, and after the panel with it is described
Base plate connects, for by liquid outlet derived from the coolant after base plate circulation, it is characterised in that the base plate includes:
Base plate body,
And it is arranged at end face on the upside of the base plate body, the runner for water conservancy diversion coolant to be cooled to base plate and cover plate
Group;
The each runner group includes:
The either side of the end face left and right sides on the upside of the base plate body is arranged at, the influent stream of each runner group is entered for coolant
Portion;
And the opposite side of the end face left and right sides on the upside of the base plate body is arranged at, flow out each runner group for coolant
Go out stream portion;
The influent stream portion and go out the runner that stream portion is all provided with least two cocurrent UNICOMs.
2. the multiple flow passages liquid cooling plate according to claim 1 for electrokinetic cell, it is characterised in that the influent stream portion is set
There are at least three runners:
Three runners are followed successively by the first influent stream shunting, the second influent stream shunting and by the base plate body side to center
Three influent stream shuntings;
The first influent stream shunting, the second influent stream shunting and the 3rd influent stream shunting two ends difference cocurrent UNICOM in the inlet and
Go out stream portion.
3. the multiple flow passages liquid cooling plate according to claim 1 for electrokinetic cell, it is characterised in that it is described go out stream portion set
There are at least three runners:
Three runners are followed successively by by the base plate body side to center first to be gone out flow point road, second goes out flow point road and
Three go out flow point road;
Described first go out flow point road, second go out flow point road and the 3rd go out flow point road two ends difference cocurrent UNICOM in the liquid outlet and
Influent stream portion.
4. the multiple flow passages liquid cooling plate according to claim 2 for electrokinetic cell, it is characterised in that each runner group is set
Having be adapted with the inlet and be connected with the influent stream portion, and the coolant, simultaneously of the inlet is come from for receiving
It is transported to the lead channel in the influent stream portion.
5. the multiple flow passages liquid cooling plate according to claim 3 for electrokinetic cell, it is characterised in that each runner group is set
Have be adapted with the liquid outlet and with it is described go out stream portion be connected, for receive come from it is described go out stream portion coolant, simultaneously
It is transported to the liquid outlet groove of the liquid outlet.
6. the multiple flow passages liquid cooling plate according to claim 4 for electrokinetic cell, it is characterised in that the influent stream portion is also wrapped
Include:
One end and the lead channel UNICOM, the other end and the first influent stream shunting, the second influent stream shunting and the 3rd influent stream shunting
Front end UNICOM, the first influent stream shunting, the second influent stream shunting and are dispersed to for the lead channel to be received into coolant
The first cocurrent inlet channel in three influent stream shuntings;
And one end and the first influent stream shunting, the second influent stream shunting and the 3rd influent stream shunting rear end UNICOM, the other end and institute
Shu Chuliubu UNICOMs, for collect flow through the first influent stream shunting, the coolant in the second influent stream shunting and the 3rd influent stream shunting,
And go out the second cocurrent inlet channel in stream portion described in being transported to.
7. the multiple flow passages liquid cooling plate according to claim 5 for electrokinetic cell, it is characterised in that it is described go out stream portion also wrap
Include:
One end with described first go out flow point road, second go out flow point road and the 3rd go out flow point road rear end UNICOM, the other end with it is described enter
Liu Bu UNICOMs, for described first going out flow point road, second going out flow point scattered be delivered to of coolant for coming from the influent stream portion
Road and the 3rd the first cocurrent outlet slot for going out flow point road;
One end with described first go out flow point road, second go out flow point road and the 3rd go out flow point road front end UNICOM, the other end with it is described go out
Liquid mouthful, described first goes out flow point road, second goes out flow point road and the 3rd go out flow point road and be transported to described for collecting to flow through
Second cocurrent outlet slot of liquid outlet.
8. the multiple flow passages liquid cooling plate according to claim 4 for electrokinetic cell, it is characterised in that the base plate is also wrapped
Include:
It is arranged at the influent stream portion and goes out between stream portion, for prevents the coolant positioned at the influent stream portion with going out to flow positioned at described
The shunt bar of the coolant mixed flow in portion.
9. the multiple flow passages liquid cooling plate for electrokinetic cell according to claim 1 to 8 any one, it is characterised in that institute
State metal alloy of the material of panel and base plate for high-termal conductivity.
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CN201621230156.XU CN206340636U (en) | 2016-11-16 | 2016-11-16 | A kind of multiple flow passages liquid cooling plate for electrokinetic cell |
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CN201621230156.XU CN206340636U (en) | 2016-11-16 | 2016-11-16 | A kind of multiple flow passages liquid cooling plate for electrokinetic cell |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106384857A (en) * | 2016-11-16 | 2017-02-08 | 东莞市文轩五金制品有限公司 | Multi-flow-channel liquid cooling plate applied to power battery and processing method thereof |
CN110718723A (en) * | 2018-07-13 | 2020-01-21 | 株式会社高山 | Heat exchanger for batteries and fuel cell stacks |
CN111211262A (en) * | 2018-11-21 | 2020-05-29 | 郑州深澜动力科技有限公司 | Battery box and box body thereof |
CN111769221A (en) * | 2020-06-02 | 2020-10-13 | 北京新能源汽车股份有限公司蓝谷动力系统分公司 | Battery module for vehicle and vehicle |
CN111883875A (en) * | 2020-07-13 | 2020-11-03 | 珠海格力电器股份有限公司 | Heat exchange plate with flow guide fins and battery PACK box |
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2016
- 2016-11-16 CN CN201621230156.XU patent/CN206340636U/en active Active
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106384857A (en) * | 2016-11-16 | 2017-02-08 | 东莞市文轩五金制品有限公司 | Multi-flow-channel liquid cooling plate applied to power battery and processing method thereof |
CN110718723A (en) * | 2018-07-13 | 2020-01-21 | 株式会社高山 | Heat exchanger for batteries and fuel cell stacks |
CN111211262A (en) * | 2018-11-21 | 2020-05-29 | 郑州深澜动力科技有限公司 | Battery box and box body thereof |
CN111769221A (en) * | 2020-06-02 | 2020-10-13 | 北京新能源汽车股份有限公司蓝谷动力系统分公司 | Battery module for vehicle and vehicle |
CN111883875A (en) * | 2020-07-13 | 2020-11-03 | 珠海格力电器股份有限公司 | Heat exchange plate with flow guide fins and battery PACK box |
CN111883875B (en) * | 2020-07-13 | 2021-09-21 | 珠海格力电器股份有限公司 | Heat exchange plate with flow guide fins and battery PACK box |
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