DEVICE FOR CONTROLLING THE TEMPERATURE OF A BATTERY USING A DIELECTRIC FLUID AND BATTERY PACK COMPRI

专利摘要:
Device for regulating the temperature of a battery comprising at least one energy storage cell, said device comprising a circuit of dielectric fluid, said circuit comprising means for watering the surface of said cell using said dielectric fluid.
公开号:FR3075471A1
申请号:FR1762159
申请日:2017-12-14
公开日:2019-06-21
发明作者:Amrid Mammeri；Kamel Azzouz
申请人:Valeo Systemes Thermiques SAS；
IPC主号:

专利说明:

Device for regulating the temperature of a battery using a dielectric fluid and battery pack comprising such a device
The invention relates to a device for regulating the temperature of battery cells using a dielectric fluid. The invention also relates to a battery pack comprising said device as well as a plurality of battery cells. It is in particular intended to equip motor vehicles, in particular motor vehicles with electric or hybrid motorization.
With the market share of electric vehicles growing, the problems of cooling / heating the battery packs that equip them are becoming strategic challenges. The objective is to design the most efficient, effective and economical thermal management system for batteries.
Often to meet the cooling / heating need for electric batteries, "heat exchangers" are used, consisting of a cold plate with circulation of a coolant, the plates being in contact with the cells to be cooled. This kind of technique leads to uneven cooling of the batteries and thus limits their lifespan and performance. These devices also have a high thermal resistance due to the thicknesses of material present between the coolant and the cells.
One solution proposed to respond to this problem consists of immersing the electric batteries in a dielectric heat transfer fluid. This immersion can be carried out with fluid circulation or in static condition with phase change.
These two techniques are efficient from a thermal point of view, in particular because of the direct contact established between the liquid and the cells, but have the disadvantage of using a large quantity of dielectric liquid, which increases the cost and the weight of the pack. drums.
The invention aims to solve these technical problems by proposing a device for regulating the temperature of a battery comprising at least one energy storage cell, said device comprising a circuit of dielectric fluid, said circuit comprising means for watering the surface. of said cell using said dielectric fluid.
By means of watering is meant any type of means making it possible to bring the dielectric fluid into contact with the surface or surfaces of the battery cells other than by immersing said cells in said dielectric fluid.
This is in particular a means of spraying, a means of projection or any other means capable of producing a circulation of said fluid so as to bring the dielectric fluid into contact with the surface of the cells, in the form of a film of fluid, jets, droplets of a mist or the like.
This device not only makes it possible to recover a large amount of heat and to ensure homogeneous cooling by direct contact of the dielectric fluid and of the cells to be cooled, but also makes it possible to limit the amount of dielectric fluid and therefore the weight of the device by eliminating the bath. of dielectric liquid known in the previous devices.
The invention may also include any of the following characteristics, taken individually or in any technically possible combination:
the means for watering comprise nozzles for spraying the dielectric fluid, in particular in the liquid phase,
- the spray nozzles are configured to be placed between each battery cell so as to project the dielectric fluid onto the side faces of the cells,
- the spray nozzles are configured to be placed above each battery cell so as to spray the dielectric fluid on the upper faces of the cells,
- the spray nozzles are configured so as to produce a jet of dielectric fluid,
the fluid is intended to vaporize at least in part on the surface of the cells,
- the spray nozzles are configured so as to spray the dielectric fluid in the form of fine drops, intended to flow onto the surface of the cells,
the device comprises a reservoir configured to be placed under the cells and capable of recovering, in the liquid phase, the dielectric fluid sent to the surface of the battery cells,
the device comprises a pump configured to suck said dielectric fluid into the reservoir and put it under pressure in said dielectric fluid circuit,
the device comprises at least one means for cooling the dielectric fluid,
the means for cooling the dielectric fluid comprises a heat exchanger situated in the dielectric fluid circuit,
the means for cooling the dielectric fluid comprises a heat exchanger situated in the tank,
- the cooling means comprises a condenser configured so as to condense the dielectric fluid to pass from vapor phase to liquid phase and to cause said fluid to flow to the reservoir,
- the condenser is configured for the circulation of a cooling fluid intended to exchange heat with the dielectric fluid,
the cooling means comprises a heat exchanger allowing heat to be exchanged between a cooling fluid and a cooling fluid,
- the condenser is configured for the circulation of said cooling fluid in order to exchange heat with the dielectric fluid,
the device comprises a means for heating said dielectric liquid,
- the heating means is located in the tank.
The invention also relates to a battery pack comprising the device described above as well as a plurality of battery cells.
The invention will be better understood and other details, characteristics and advantages of the invention will appear on reading the following description given by way of non-limiting example and with reference to the appended drawings in which:
FIG. 1 schematically illustrates in section view a first embodiment of a device according to the invention,
FIG. 2 schematically illustrates in section view a second embodiment of a device according to the invention,
FIG. 3 schematically illustrates in section view a third embodiment of a device according to the invention,
FIG. 4 schematically illustrates in section view a fourth embodiment of a device according to the invention,
FIG. 5 schematically illustrates in section view a fifth embodiment of a device according to the invention,
- Figure 6 is a partially cutaway perspective view of a battery pack according to the invention.
As illustrated in FIG. 1, the invention relates to a device 1 for regulating the temperature of a battery. Said battery comprises at least one energy storage cell 100. These include an electric vehicle battery. The battery here comprises four cells 100 but this is only a schematic example and the battery may include a much larger number of cells.
For their proper functioning, it is desired that the temperature of the batteries is maintained within a restricted value range, in particular between 20 and 40 ° C. The device according to the invention precisely has the function of carrying out such temperature regulation.
Said device 1 comprises a circuit 10 of dielectric fluid as well as means 12 for watering the surface of the cell 100 using said dielectric fluid 3. The circuit 10 of dielectric fluid can be formed by a plurality of channels or ramps supply 11 of dielectric fluid 3 supplying the means 12 for watering.
Said circuit 10 is a closed circuit in which the dielectric fluid is caused to change phase, or not, this according to the various embodiments developed below.
The means 12 make it possible to effectively regulate the temperature of the battery cells 100 by watering them while limiting the amount of dielectric fluid 3 used. Indeed, the device 1 according to the invention requires a much smaller amount of fluid 3 than in a device in which the cells are immersed in a dielectric fluid.
Advantageously, the means 12 for watering comprise spray nozzles 14 for the dielectric fluid, in the liquid phase. Said spray nozzles 14 make it possible to spray fluid 3 in the direction of any of the surfaces of the battery cell or cells 100. The spraying of the fluid 3 by the nozzles 14 can be monodirectional or poly directional.
According to an embodiment represented in FIG. 1, the spray nozzles 14 are configured to be placed between each cell 100 of the battery so as to project the dielectric fluid 3 onto the lateral faces of the cells 100. This arrangement of the nozzles sprinkling 14 makes it possible to cover a maximum surface of cells 100 and thus to optimize the temperature regulation.
According to another embodiment shown in FIG. 2, the spray nozzles 14 are configured to be placed above each battery cell 100 so as to project the dielectric fluid 3 onto the upper faces of the cells 100. It has It has been observed by the Applicant that the areas of the cells 100 undergoing the greatest temperature increases during the use of the battery are the upper areas, at the level of the electrical connections. This arrangement of the spray nozzles 14 thus makes it possible to target more precisely the zones of high temperatures and therefore to optimize the temperature regulation.
According to one embodiment, said spray nozzles 14 are configured so as to produce a jet 5 of dielectric fluid 3, in the liquid phase.
The jet 5 of dielectric fluid 3 can be of variable power. Said fluid 3 can thus strike the surface of the cell 100. Said fluid 3 can alternately come to run along the surface of said cell 100 without impact. The jet 5 can be monodirectional or poly directional.
According to another embodiment, the spray nozzles 14 are configured so as to spray the dielectric liquid 3 in the form of fine drops 7. The size of the drops 7 can be variable. The spray nozzles can in particular be configured so as to make a misting of the fluid 3. The spraying of the fluid 3 can be monodirectional or poly directional.
The jet 5 and the drops 7 of dielectric fluid are not shown in the figures.
During use of the battery, the cells 100 have a temperature higher than the temperature of the fluid 3. Said fluid 3 can thus be intended to vaporize at least in part on the surface of the cells 100 (FIGS. 4 and 5 in particular ).
The device 1 can also include a reservoir 16 completing the circuit 10 and configured to be placed under the cells 100. Said reservoir 16 is capable of recovering the dielectric liquid 3 sent to the surface of the battery cells 100.
The device 1 can also include a pump 18 configured to suck said dielectric fluid 3 into the reservoir 16 and put it under pressure in said circuit 10 of dielectric fluid.
Once the fluid 3 has been sprayed on the surface of the cells 100, said fluid flows to the reservoir 16. The fluid 3 thus recovered by the reservoir 16 is then sucked up by a pump 18 and then pressurized downstream in the circuit 10.
Thus, the dielectric fluid 3 is successively under pressure then at the pressure of a housing 202 accommodating the cells 100 along the circuit 10. Here, it is at the pressure of the housing 202 in contact with the cells 100 then in the reservoir 18 before being pressurized again under the action of the pump 18 in the ramp (s) 11 and the spray nozzles 14. The dielectric fluid 3 is then constantly reused. It is thus possible to use a small amount of dielectric fluid 3, in particular compared to the devices in which the cells are immersed in the dielectric liquid.
Advantageously, the device 1 comprises at least one means 20 for cooling the dielectric fluid 3. When the fluid 3 comes into contact with a cell 100, said fluid recovers the heat dissipated by the battery cell. The fluid 3 is then cooled by said cooling means 20 before being again brought into contact with the surface of the cells 100. The fluid 3 thus undergoes a cycle of change of state and / or rise and fall in temperature .
According to an embodiment shown in Figure 1, the cooling means 20 comprises a heat exchanger 22 located in the circuit 10 of dielectric fluid here downstream of the pump 18. Thus, after seeing undergoes a rise in temperature following contact with a cell 100 the fluid 3 is recovered by the reservoir 16, sucked in by the pump 18 then it undergoes a drop in temperature under the action of the heat exchanger 22. The fluid 3 is then transported in the circuit to spray nozzles, again comes into contact with the cells 100 and again undergoes a temperature rise.
According to an embodiment shown in FIG. 3, the means 20 for cooling the dielectric fluid 3 comprises a heat exchanger 22 located in the tank. The cooling of the dielectric fluid 3 is here carried out upstream of the pump 18. It is then sucked in by the pump 18. This arrangement makes it possible to use a heat exchanger 22 in the form of a plate which may have a surface of heat exchange of larger dimensions than in the case of a heat exchanger located downstream of the pump 18. Thus, the temperature exchange between the dielectric fluid 3 and the heat exchanger 22 is improved.
According to an embodiment represented in FIG. 4, the dielectric fluid 3 undergoes a phase change and vaporizes, at least partially, when it comes into contact with the cell surfaces 100. The cooling means 20 according to this embodiment embodiment comprises a condenser 26 configured so as to condense the dielectric fluid 3 to pass from vapor phase to liquid phase and to cause said fluid 3 to flow to the reservoir 16 in particular by virtue of an inclined plane. The fluid 3 in the liquid phase in the reservoir 16 is then sucked up by the pump 18. The condenser 26 makes it possible to condense the dielectric fluid 3 by virtue of a temperature difference between the condenser and the dielectric fluid in the vapor phase.
Advantageously, the condenser 26 is configured for the circulation of a refrigerant fluid intended to exchange heat with the dielectric fluid 3. The refrigerant comes from a pressure reducer and circulates in the condenser 26 so as to lower the temperature of the condenser. The condenser 26 then makes it possible to condense the gaseous dielectric fluid 3.
According to an embodiment shown in Figure 5, the cooling means 20 further comprises a heat exchanger 24 allowing a heat exchange between a refrigerant and a cooling fluid. The condenser 26 according to this embodiment is configured for the circulation of the cooling fluid in order to exchange heat with the dielectric fluid 3 in the vapor phase.
When the cells have too low a temperature it may be advantageous to increase their temperature. When using a battery under low temperature conditions, for example below 0 ° C, it is advantageous to be able to increase the temperature of the battery cells 100 in order to obtain optimum performance more quickly.
Thus, the device 1 according to the present invention may comprise a means 28 for heating the dielectric fluid 3. The heating means 28 then makes it possible to heat the fluid 3 which will in turn heat the cells 100 to an optimal temperature of use. Said heating means 28 can in particular be a resistance.
As illustrated in FIGS. 1 to 5, the heating means 28 for the dielectric fluid 3 is here located in the circuit 10, advantageously located in the reservoir 16.
The present invention also relates to a battery pack 200 comprising a device 1 described above as well as a plurality of battery cells 100.
In FIG. 6, the plurality of cells 100 and the plurality of ramps 11 for supplying the pack can be better seen. The ramps are here located in parallel.

权利要求:
Claims (15)
[1" id="c-fr-0001]
1. Device (1) for regulating the temperature of a battery comprising at least one energy storage cell (100), said device (1) comprising a circuit (10) of dielectric fluid, said circuit (10) comprising means (12) for watering the surface of said cell (100) using said dielectric fluid (3).
[2" id="c-fr-0002]
2. Device (1) according to claim 1, characterized in that the means (12) for watering comprise spray nozzles (14) of the dielectric fluid (3) in the liquid phase.
[3" id="c-fr-0003]
3. Device (1) according to claim 2, characterized in that the spray nozzles (14) are configured to be placed between each cell (100) of the battery so as to project the dielectric fluid (3) on side faces cells (100).
[4" id="c-fr-0004]
4. Device (1) according to claim 2, characterized in that the spray nozzles (14) are configured to be placed above each battery cell (100) so as to project the dielectric fluid (3) onto upper faces of the cells (100).
[5" id="c-fr-0005]
5. Device (1) according to one of claims 2 to 4, characterized in that the spray nozzles (14) are configured so as to produce a jet (5) of dielectric fluid (3), said fluid (3 ) being intended to vaporize at least in part on the surface of the cells (100).
[6" id="c-fr-0006]
6. Device (1) according to one of claims 2 to 4, characterized in that the spray nozzles (14) are configured so as to spray the dielectric fluid (3) in the form of fine drops (7), intended to flow to the surface of the cells (100).
[7" id="c-fr-0007]
7. Device (1) according to one of the preceding claims, characterized in that it comprises a reservoir (16) configured to be placed under the cells (100) and capable of recovering, in the liquid phase, the dielectric fluid (3 ) sent to the surface of the battery cells (100) as well as a pump (18) configured to draw said dielectric fluid (3) into the reservoir (16) and put it under pressure in said dielectric fluid circuit (10).
[8" id="c-fr-0008]
8. Device (1) according to claim 7, characterized in that it comprises at least one means of cooling (20) of the dielectric fluid (3).
[9" id="c-fr-0009]
9. Device (1) according to claim 8, characterized in that the cooling means (20) of the dielectric fluid (3) comprises a heat exchanger (22) located in the circuit (10) of dielectric fluid.
[10" id="c-fr-0010]
10. Device (1) according to claim 8, characterized in that the cooling means (20) of the dielectric fluid (3) comprises a heat exchanger (22) located in the tank (16).
[11" id="c-fr-0011]
11. Device (1) according to claim 8, characterized in that the cooling means (20) comprises a condenser (26) configured so as to condense the dielectric fluid (3) to pass from vapor phase to liquid phase and to do run off said fluid (3) to the reservoir (16).
[12" id="c-fr-0012]
12. Device (1) according to claim 11, characterized in that the condenser (26) is configured for the circulation of a refrigerant fluid intended for exchanging heat with the dielectric fluid (3).
[13" id="c-fr-0013]
13. Device (1) according to claim 11, characterized in that the cooling means (20) further comprises a heat exchanger (24) allowing a heat exchange between a coolant and a coolant, said condenser ( 26) being configured for the circulation of said cooling fluid in order to exchange heat with the dielectric fluid (3).
[14" id="c-fr-0014]
14. Device (1) according to one of the preceding claims, characterized in that it comprises a heating means (28) of said dielectric fluid (3).
[15" id="c-fr-0015]
15. Battery pack (200) comprising the device (1) according to one of the preceding claims as well as a plurality of cells (100) of batteries.

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FR3100660A1|2019-09-10|2021-03-12|Valeo Systemes Thermiques|Device for regulating the temperature of an electrical element using a dielectric fluid|

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法律状态:
2018-12-31| PLFP| Fee payment|Year of fee payment: 2 |

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2019-06-21| PLSC| Publication of the preliminary search report|Effective date: 20190621 |

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2019-12-31| PLFP| Fee payment|Year of fee payment: 3 |

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2020-12-31| PLFP| Fee payment|Year of fee payment: 4 |

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2021-12-31| PLFP| Fee payment|Year of fee payment: 5 |

优先权:

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申请号 | 申请日 | 专利标题

---

FR1762159A|FR3075471B1|2017-12-14|2017-12-14|DEVICE FOR CONTROLLING THE TEMPERATURE OF A BATTERY USING A DIELECTRIC FLUID AND BATTERY PACK COMPRISING SUCH A DEVICE|

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FR1762159|2017-12-14|FR1762159A| FR3075471B1|2017-12-14|2017-12-14|DEVICE FOR CONTROLLING THE TEMPERATURE OF A BATTERY USING A DIELECTRIC FLUID AND BATTERY PACK COMPRISING SUCH A DEVICE|

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US16/769,884| US20210184295A1|2017-12-14|2018-12-14|Device for regulating the temperature of a battery using a dielectric fluid, and battery pack comprising such a device|

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EP18842532.6A| EP3724587A1|2017-12-14|2018-12-14|Device for regulating the temperature of a battery using a dielectric fluid, and battery pack comprising such a device|

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CN201880079757.0A| CN111602022A|2017-12-14|2018-12-14|Device for regulating the temperature of a battery using a dielectric fluid and battery comprising such a device|

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PCT/FR2018/053294| WO2019115972A1|2017-12-14|2018-12-14|Device for regulating the temperature of a battery using a dielectric fluid, and battery pack comprising such a device|