CN206451789U - A kind of novel battery temperature control device - Google Patents
A kind of novel battery temperature control device Download PDFInfo
- Publication number
- CN206451789U CN206451789U CN201621482438.9U CN201621482438U CN206451789U CN 206451789 U CN206451789 U CN 206451789U CN 201621482438 U CN201621482438 U CN 201621482438U CN 206451789 U CN206451789 U CN 206451789U
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- cell
- plate group
- temperature
- heating arrangements
- cell panel
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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
Abstract
The utility model provides a kind of novel battery temperature control device, is related to a kind of battery.Temperature control device includes:Cell plate group, for providing electric energy, it has multiple cell panels being vertically arranged, and parallel superposition is set multiple cell panels successively in the horizontal direction;Heating arrangements group, can be the heating of each cell panel, it has multiple heating arrangements, by installing a heating arrangements between the adjacent cell panel of any two, multiple heating arrangements is alternateed successively with multiple cell panels and be superimposed setting, heating arrangements are mutually set parallel with cell panel;And cooling body, cell plate group can be made to cool.Heating arrangements are fully heated to each cell panel, so as to be effectively ensured in temperature very low winter, cell plate group can fully provide electric energy.
Description
Technical field
The utility model is related to a kind of battery, more particularly to a kind of novel battery temperature control device.
Background technology
For electric drive motor vehicle driven by mixed power or electro-motive vehicle, it needs battery to be carried out as power source and engine
Combination drive or independent driving.Therefore the behaviour in service of battery directly determines its driving effect for above-mentioned vehicle.Especially
It is battery heating in use and cooling.
Because the electric energy in above-mentioned battery when temperature is low can not fully discharge so that the electricity of above-mentioned vehicle is relative in the winter time
Situation about normally being used in it is substantially not enough, although prior art is mounted with heating arrangements to battery, is due to that it installs cloth
Put mode unreasonable so that battery fully can not be heated under low-temperature condition so that battery still can not fill in the winter time
Its electricity is waved in distribution.
In addition, being made more than the heat radiation cooling device of above-mentioned battery using split type so that its mould structure manufactured is complicated,
And existing heat radiation cooling device is the coolant radiating mode of closing, and split-type structural is needed to multiple Split type structures
Progress is sufficiently sealed at interconnection, and to ensure that coolant therein is sufficiently sealed and prevent leakage, this allows for cooling
The manufacture assembly cost of device remains high, and causes the production cost of battery too high.
Utility model content
A purpose of the present utility model is to provide for a kind of battery temperature control that can be fully heated to above-mentioned battery
Device.
The utility model one ensureing heat radiation cooling device to above-mentioned battery further objective is that can will fill
On the premise of dividing cooling, its manufacture and assembly cost are reduced.
The utility model another further objective is that to simplify the assembling process of above-mentioned heat radiation cooling device.
Especially, the utility model provides a kind of novel battery temperature control device, including:
Cell plate group, for providing electric energy, it has multiple cell panels being vertically arranged, and multiple cell panels are along level
Superposition is set parallel successively in direction;
Heating arrangements group, can be each cell panel heating, it has multiple heating arrangements, passes through any two phase
One heating arrangements is installed between adjacent cell panel, makes multiple heating arrangements and multiple cell panels mutual successively
Alternately superposition is set, and the heating arrangements are mutually set parallel with the cell panel;And
Cooling body, can make the cell plate group cool, it has
The integrally formed pedestal of the cell plate group bottom is installed on, the base interior has cavity, by described
Cavity fills the coolant for cooling down the cell plate group, the cooling body is cooled the cell plate group;And
There are the multiple connectors for being used for connecting the pedestal and the cell panel, each connection at the top of the pedestal
Part is connected with the bottom of a cell panel, and multiple pedestals are flexibly connected with the connector.
Further, the battery temperature control device also includes multiple temperature-uniforming plate groups, makes described add by the temperature-uniforming plate group
Heat that heat engine structure is sent is full and uniform to be diffused at the cell panel, each temperature-uniforming plate group and the heating arrangements
It is correspondingly arranged, each temperature-uniforming plate group is installed between the adjacent cell panel of any two, each temperature-uniforming plate group has
The quantity of temperature-uniforming plate is consistent with the quantity of the radiating surface of the heating arrangements, the side of each temperature-uniforming plate of the temperature-uniforming plate group
Plate face and a radiating surface of the heating arrangements fit, another lateral plates of each temperature-uniforming plate of the temperature-uniforming plate group and institute
Cell panel is stated to fit.
Further, the heating arrangements are the laminated structure being vertically arranged, and it is set parallel with the cell panel;
The temperature-uniforming plate group has two temperature-uniforming plates, two temperature-uniforming plates of the temperature-uniforming plate group respectively with the heating arrangements
Two plate faces fit.
Further, the pedestal is horizontally disposed cuboid plate-like portion, width of the cell panel along the pedestal
Spend direction to set, the area of its plate face is more than the area of the cell plate group bottom.
Further, the cavity is the cavity of insertion, and the cavity is multiple and successively along the width of the pedestal
Direction is mutually set parallel, and length direction of each cavity along the pedestal is set, and the cross sectional shape of the cavity is
Horizontally disposed rectangle.
Further, the connector is concave shape structure on the width of the pedestal, and the cell panel is fixed
In in the concave regions of the concave shape structure of the connector;
The top surface of the pedestal has a plurality of dovetail groove opened up parallel along its length, and the bottom of the connector is consolidated
Surely there are the multiple contiguous blocks being engaged with a plurality of dovetail groove, matched by a plurality of dovetail groove with multiple contiguous blocks
Close so that the connector is connected with the base runner.
Further, the battery temperature control device also has two blocks of side plates, is fixed by two blocks of side plates and protects institute
Cell plate group is stated, two blocks of side plates are respectively arranged at the two ends of the cell plate group, the two ends of the cell plate group are institute
State two ends of the cell plate group along the base length direction, two blocks of side plates are installed on the top of the pedestal, and with institute
The outer wall for stating the cell panel at the two ends of cell plate group fits.
Further, described battery temperature control device also includes
Multiple temperature sensors, the temperature for detecting each cell panel, each temperature sensor with it is described
The heating mechanism controller signal connection of temperature control device, each temperature sensor is installed at a cell panel;With
And
Heating mechanism controller, can drive multiple heating arrangements at least any one to the corresponding battery
Plate is heated, and it is connected with each heating arrangements control, when at least temperature of any one in multiple cell panels
When degree is less than design temperature, connected by the heating mechanism controller signal of the corresponding temperature sensor and the temperature control device
Connect, the heating mechanism controller is driven the heating arrangements corresponding with the cell panel less than design temperature
Heated.
By installing a heating arrangements between the adjacent cell panel of any two, make multiple heating arrangements and multiple batteries
Plate alternates superposition and set successively, and heating arrangements are mutually set parallel with cell panel.Heating arrangements allow to each electricity
Pond plate is fully heated, and so as to be effectively ensured in temperature very low winter, cell plate group can fully provide electric energy.Greatly
The big utilization rate for improving electric energy.
Because pedestal is formed in one, on the premise of ensureing that abundant cooling can be carried out to cell plate group, relatively
In prior art, it is on the one hand less it is substantial amounts of be tightly connected portion, so as to shorten assembling Sealing period, improve production effect
Rate.On the other hand, the mould of less manufacture, and the manufacturing cost of mould is high, so as to greatly reduce manufacturing cost.Therefore
The pedestal being formed in one greatly reduces the overall manufacturing cost of corresponding battery from manufacture and in terms of sealing assembling two.
According to the accompanying drawings to the detailed description of the utility model specific embodiment, those skilled in the art will be more
Plus understand of the present utility model above-mentioned and other purposes, advantages and features.
Brief description of the drawings
It is described in detail by way of example, and not by way of limitation with reference to the accompanying drawings hereinafter more of the present utility model specific real
Apply example.Identical reference denotes same or similar part or part in accompanying drawing.It should be appreciated by those skilled in the art that
What these accompanying drawings were not necessarily drawn to scale.In accompanying drawing:
Fig. 1 is had an X-rayed according to the schematic assembling of the novel battery temperature control device of the utility model one embodiment
Figure;
Fig. 2 is that schematic perspective of the novel battery temperature control device in the case of without cell plate group shown in Fig. 1 is quick-fried
Fried figure;
Fig. 3 is the perspective schematic view of the cooling body;
Fig. 4 is the heating arrangements, temperature-uniforming plate and cell panel mutual alignment for representing the novel battery temperature control device
Schematic elevational view.
Embodiment
Illustrated with reference to Fig. 1 to Fig. 4, the novel battery temperature control device can include:Cell plate group, heating arrangements group
And cooling body.
Cell plate group is used to provide electric energy, and it has multiple cell panels 1 being vertically arranged.Multiple cell panels 1 are along level side
Set to parallel superposition successively.Heating arrangements group can heat for each cell panel 1, and it has multiple heating arrangements 2.By appointing
A heating arrangements 2 are installed between two adjacent cell panels 1 of meaning, make multiple heating arrangements 2 and multiple cell panels 1 mutual successively
Alternately superposition setting, heating arrangements 2 and cell panel 1 are mutually parallel to be set.Cooling body can make cell plate group cool, and it has
It is installed on the integrally formed pedestal 3 of cell plate group bottom.The inside of pedestal 3 has cavity 31.Filled by cavity 31 for cold
But the coolant of cell plate group, makes cooling body cool cell plate group.The top of pedestal 3, which has, to be used to connect pedestal 3 and battery
Multiple connectors 4 of plate 1.Each connector 4 is connected with the bottom of a cell panel 1.Multiple pedestals 3 connect with the activity of connector 4
Connect.
By between the adjacent cell panel 1 of any two install a heating arrangements 2, make multiple heating arrangements 2 with it is multiple
Cell panel 1 alternates superposition and set successively, and heating arrangements 2 are mutually set parallel with cell panel 1.So that heating arrangements 2 can be with
Each cell panel 1 is fully heated, so as to be effectively ensured in temperature very low winter, cell plate group can be carried fully
Power supply energy.Substantially increase the utilization rate of electric energy.
Because pedestal 3 is formed in one, on the premise of ensureing that abundant cooling can be carried out to cell plate group, relatively
In prior art, it is on the one hand less it is substantial amounts of be tightly connected portion, so as to shorten assembling Sealing period, improve production effect
Rate.On the other hand, the mould of less manufacture, and the manufacturing cost of mould is high, so as to greatly reduce manufacturing cost.Therefore
The pedestal 3 being formed in one greatly reduces the overall manufacturing cost of corresponding battery from manufacture and in terms of sealing assembling two.
Illustrated with reference to Fig. 1 to Fig. 4, further, battery temperature control device also includes multiple temperature-uniforming plate groups, passes through samming
Heat that plate group sends heating arrangements 2 is full and uniform to be diffused at cell panel 1, each temperature-uniforming plate group and a heating arrangements 2
It is correspondingly arranged, each temperature-uniforming plate group is installed between the adjacent cell panel 1 of any two, and each temperature-uniforming plate group has temperature-uniforming plate 5
Quantity it is consistent with the quantity of the radiating surface of heating arrangements 2, the face of side plate 5 of each temperature-uniforming plate 5 of temperature-uniforming plate group and heating
One radiating surface of mechanism 2 fits, and the face of another side plate 5 and the cell panel 1 of each temperature-uniforming plate 5 of temperature-uniforming plate group fit.
Each temperature-uniforming plate group has the quantity of temperature-uniforming plate 5 consistent with the quantity of the radiating surface of heating arrangements 2.Temperature-uniforming plate group
A radiating surface of each temperature-uniforming plate 5 and heating arrangements 2 fit.Allow the heat that heating arrangements group discharges fully to electricity
Pond plate 1 is heated, so as to greatly reduce the energy loss of heating arrangements 2, and effectively prevents heating arrangements 2 to battery
Plate 1 causes hot-spot or supercooling, causes the appearance for heating problem of non-uniform.
Illustrated with reference to Fig. 1 to Fig. 4, further, heating arrangements 2 are the laminated structure that is vertically arranged, itself and battery
Plate 1 is set parallel;
Temperature-uniforming plate group has two temperature-uniforming plates 5, two plates of two temperature-uniforming plates 5 of temperature-uniforming plate group respectively with heating arrangements 2
Face fits.
Laminated structure has radiating uniform, easy to manufacture, and space-saving huge advantage.
There are temperature-uniforming plate group two temperature-uniforming plates 5, which can reach, both reduces cost, can carry out abundant heat to heating arrangements 2 again
Measure the effect of transmission.
Illustrated with reference to Fig. 1 to Fig. 4, further, pedestal 3 is horizontally disposed integrally formed cuboid tabular
Portion, width of the cell panel 1 along pedestal 3 is set, and the area of its plate face is more than the area of cell plate group bottom.
Plate-like portion is easy to processing, and monoblock type only increases sealing device in the connectivity part at its two ends,
The area of its plate face is more than the area of cell plate group bottom, thus increasing heat radiation effect.
Illustrated with reference to Fig. 1 to Fig. 4, further, cavity 31 is the cavity of insertion, and cavity 31 is multiple and edge successively
The width for pedestal 3 is mutually set parallel, and length direction of each cavity 31 along pedestal 3 is set, the section of cavity 31
It is shaped as horizontally disposed rectangle.
Illustrated with reference to Fig. 1 to Fig. 4, further, connector 4 is concave shape structure on the width of pedestal 3,
Cell panel 1 is fixed in the concave regions of concave shape structure of connector 4;
The top surface of pedestal 3 has a plurality of dovetail groove that opens up parallel along its length, the bottom of connector 4 be fixed with
Multiple contiguous blocks that a plurality of dovetail groove is engaged, are engaged by a plurality of dovetail groove with multiple contiguous blocks so that connector 4 and base
Seat 3 is flexibly connected.
Being arranged such can ensure that the fixation to cell panel 1 is more firm.
Illustrated with reference to Fig. 1 to Fig. 4, further, battery temperature control device also has two blocks of side plates 5, passes through two pieces of sides
Plate 5 is fixed and protects cell plate group, and two blocks of side plates 5 are respectively arranged at the two ends of cell plate group, and the two ends of cell plate group are electricity
Two ends of the pond plate group along the length direction of pedestal 3, two blocks of side plates 5 are installed on the top of pedestal 3, and with the two ends of cell plate group
The outer wall of cell panel 1 fits.
Illustrated with reference to Fig. 1 to Fig. 4, further, the battery temperature control device also include multiple temperature sensors with
And heating mechanism controller.
Multiple temperature sensors are used for the temperature for detecting each cell panel 1.Each temperature sensor and temperature control device plus
Heat engine structure controller signals are connected, and each temperature sensor is installed at a cell panel 1.Heating mechanism controller can drive
Multiple heating arrangements 2 at least any one corresponding cell panel 1 is heated, control is connected with each heating arrangements 2 for it.
When at least temperature of any one in multiple cell panels 1 is less than design temperature, pass through corresponding temperature sensor and temperature control
The heating mechanism controller signal connection of device, makes heating mechanism controller driving relative with the cell panel 1 less than design temperature
The heating arrangements 2 answered are heated.
So far, although those skilled in the art will appreciate that herein it is detailed have shown and described it is of the present utility model many
Individual exemplary embodiment, still, still can be public according to the utility model in the case where not departing from the utility model spirit and scope
The content opened directly determines or derived many other variations or modifications for meeting the utility model principle.Therefore, this practicality is new
The scope of type is understood that and regarded as to cover other all these variations or modifications.
Claims (8)
1. a kind of novel battery temperature control device, it is characterised in that including:
Cell plate group, for providing electric energy, it has multiple cell panels being vertically arranged, and multiple cell panels are in the horizontal direction
Parallel superposition is set successively;
Heating arrangements group, can be each cell panel heating, it has multiple heating arrangements, adjacent by any two
One heating arrangements is installed between cell panel, multiple heating arrangements is alternateed successively with multiple cell panels
Superposition is set, and the heating arrangements are mutually set parallel with the cell panel;And
Cooling body, can make the cell plate group cool, it has
The integrally formed pedestal of the cell plate group bottom is installed on, the base interior has cavity, passes through the cavity
The coolant for cooling down the cell plate group is filled, the cooling body is cooled the cell plate group;And
There are the multiple connectors for being used for connecting the pedestal and the cell panel at the top of the pedestal, each connector with
The bottom connection of one cell panel, multiple pedestals are flexibly connected with the connector.
2. battery temperature control device according to claim 1, it is characterised in that the battery temperature control device also includes multiple equal
Warm plate group, the heat that sends the heating arrangements by the temperature-uniforming plate group is full and uniform to be diffused at the cell panel, often
The individual temperature-uniforming plate group is correspondingly arranged with the heating arrangements, and it is adjacent that each temperature-uniforming plate group is installed on any two
Between cell panel, each temperature-uniforming plate group has the quantity of temperature-uniforming plate and the quantity phase one of the radiating surface of the heating arrangements
Cause, the side plate face of each temperature-uniforming plate of the temperature-uniforming plate group fits with a radiating surface of the heating arrangements, it is described equal
Another lateral plates of each temperature-uniforming plate of warm plate group fit with the cell panel.
3. battery temperature control device according to claim 2, it is characterised in that
The heating arrangements are the laminated structure being vertically arranged, and it is set parallel with the cell panel;
The temperature-uniforming plate group has two temperature-uniforming plates, two temperature-uniforming plates of the temperature-uniforming plate group respectively with the heating arrangements two
Individual plate face fits.
4. battery temperature control device according to claim 3, it is characterised in that the pedestal is horizontally disposed cuboid plate
Shape portion, width of the cell panel along the pedestal is set, and the area of its plate face is more than the cell plate group bottom
Area.
5. battery temperature control device according to claim 4, it is characterised in that the cavity is the cavity of insertion, the chamber
Body is multiple and mutually set parallel along the width of the pedestal successively, each length of the cavity along the pedestal
Spend direction to set, the cross sectional shape of the cavity is horizontally disposed rectangle.
6. battery temperature control device according to claim 5, it is characterised in that the connector is in the width side of the pedestal
It is concave shape structure upwards, the cell panel is fixed in the concave regions of concave shape structure of the connector;
The top surface of the pedestal has a plurality of dovetail groove opened up parallel along its length, and the bottom of the connector is fixed with
The multiple contiguous blocks being engaged with a plurality of dovetail groove, are engaged by a plurality of dovetail groove with multiple contiguous blocks,
So that the connector is connected with the base runner.
7. battery temperature control device according to claim 6, it is characterised in that the battery temperature control device also has two pieces of sides
Plate, is fixed by two blocks of side plates and protects the cell plate group, two blocks of side plates are respectively arranged at the cell plate group
Two ends at, the two ends of the cell plate group are two ends of the cell plate group along the base length direction, described in two pieces
Side plate is installed on the top of the pedestal, and is fitted with the outer wall of the cell panel at the two ends of the cell plate group.
8. the battery temperature control device according to any one of claim 1-7, it is characterised in that described battery temperature control device
Also include
Multiple temperature sensors, the temperature for detecting each cell panel, each temperature sensor and the temperature control
The heating mechanism controller signal connection of device, each temperature sensor is installed at a cell panel;And
Heating mechanism controller, can drive multiple heating arrangements at least any one the corresponding cell panel is entered
Row heating, it is connected with each heating arrangements control, when in multiple cell panels at least any one temperature it is low
When design temperature, it is connected by the corresponding temperature sensor with the heating mechanism controller signal of the temperature control device,
The heating mechanism controller is set to drive the heating arrangements corresponding with the cell panel less than design temperature to enter
Row heating.
Priority Applications (1)
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CN201621482438.9U CN206451789U (en) | 2016-12-30 | 2016-12-30 | A kind of novel battery temperature control device |
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CN201621482438.9U CN206451789U (en) | 2016-12-30 | 2016-12-30 | A kind of novel battery temperature control device |
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CN206451789U true CN206451789U (en) | 2017-08-29 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109374257A (en) * | 2018-11-16 | 2019-02-22 | 苏州伊欧陆系统集成有限公司 | A kind of edge-emitting laser test high/low temperature and constant temperature use chucking appliance system |
-
2016
- 2016-12-30 CN CN201621482438.9U patent/CN206451789U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109374257A (en) * | 2018-11-16 | 2019-02-22 | 苏州伊欧陆系统集成有限公司 | A kind of edge-emitting laser test high/low temperature and constant temperature use chucking appliance system |
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Legal Events
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CP03 | "change of name, title or address" | ||
CP03 | "change of name, title or address" |
Address after: Room 403, 4th floor, Yuanhe building, 959 Jiayuan Road, Yuanhe street, Xiangcheng District, Suzhou City, Jiangsu Province Patentee after: Suzhou Kenmei Yonsen Light and Heat Management Technology Co.,Ltd. Address before: 215000 Jiangsu city of Suzhou province Xiangcheng District Town Road No. 5266 yellow too Patentee before: SUZHOU KENMEIXUAN INDUSTRIAL Co.,Ltd. |