FR3140478A1 - Cooling device for battery module - Google Patents

Abstract

The invention relates to a structure (2) for manufacturing a cooling device (1) for a battery module. According to the invention, the structure (2) comprises a first panel (20) comprising a first cooling circuit (200), a second panel (22) and a third panel (24) comprising a second cooling circuit (240), the first panel (20) being connected to the second panel (22) by a first folding zone (21), the second panel (22) being connected to the third panel (24) by a second folding zone (23). Figure for abstract: figure 1

Description

Cooling device for battery module

The invention relates to the field of battery module cooling devices, more particularly the invention relates to a structure for the manufacture of such battery module cooling devices.

We already know in the state of the art, in particular according to document CN107359292, a cooling device for a battery module. However, such a device comprising two cooling panels each provided with a battery module cooling circuit requires for its construction a large number of attached parts and a multiplicity of steps during the manufacture of the latter.

The invention aims in particular to propose a structure allowing easy and simplified production of battery module cooling devices.

To this end, the subject of the invention is a structure for the manufacture of a cooling device for a battery module, said structure comprising a first panel comprising a first cooling circuit, a second panel and a third panel comprising a second circuit cooling, the first panel being connected to the second panel by a first folding zone, the second panel being connected to the third panel by a second folding zone.

Advantageously, the structure according to the invention makes it possible to reduce the number of attached parts necessary for the manufacture of a cooling device for a battery module. Indeed, the structure according to the invention makes it possible to have in a single piece a first cooling panel provided with a first cooling circuit, a third cooling panel provided with a second cooling circuit, the first panel and the third panel being joined via a second panel. The structure has a first folding zone located between the first cooling panel and the second panel as well as a second folding zone located between the second panel and the third panel provided with a second cooling circuit. The presence of these folding zones makes it possible to reduce the number of additional parts necessary for fixing the first, second and third panels together. The structure is therefore in the form of a flat sheet provided with folding zones allowing the formation of an envelope, preferably a housing configured to receive a battery module comprising several battery cells, such as for example cells in pocket form.

According to a preferred embodiment, the structure for manufacturing a cooling device for a battery module is such that the first cooling circuit and the second cooling circuit are provided with a common fluid inlet and/or with a common fluid output. Preferably, the first cooling circuit and the second cooling circuit are provided with a common fluid inlet and a common fluid outlet. Such an arrangement makes it possible to reduce the number of fluid connections necessary and thus reduce the risk of leaks. Advantageously, the structure for manufacturing a cooling device for a battery module is such that the first cooling circuit and the second cooling circuit are provided with a common fluid inlet and a common fluid outlet. Thus, such an arrangement makes it possible to obtain parallel circuits comprising flows of heat transfer fluid in opposition with regard to their direction of flow, independently of the position of the common fluid inlet and the common fluid outlet. The heat transfer fluid circulating in the different cooling circuits is preferably an aqueous solution, said aqueous solution possibly comprising an organic compound miscible in water, said organic compound making it possible to reduce the freezing temperature of the aqueous solution. Such an organic compound is for example ethylene glycol.

According to a preferred embodiment, the structure for manufacturing a cooling device for a battery module is such that it comprises a fourth panel connected to the third panel provided with a second cooling circuit by a third folding zone. A structure having a fourth panel connected to the third panel by a third folding zone allows the easy production of a cooling device for a battery module. The presence of the folding zones makes it possible to obtain a receptacle for the battery module following folding operations. Alternatively, the structure for manufacturing a cooling device for a battery module is such that the fourth panel is connected to the first panel by a fourth folding zone. Such structures allow the production of a housing configured to receive a battery module comprising several battery cells, for example cells in the form of a pocket. Said boxes therefore have at least one side opening allowing the insertion of a battery module comprising several battery cells, such as for example pocket-shaped cells.

According to a preferred embodiment, the structure for manufacturing a cooling device for a battery module is such that the second panel comprises a third cooling circuit. A third cooling circuit at the second panel provides improved cooling of the battery module.

According to a preferred embodiment, the structure for manufacturing a cooling device for a battery module is such that the first cooling circuit and the second cooling circuit are connected to each other by the third cooling circuit. cooling. Such an arrangement of the cooling circuits allows a reduction in the number of connections and therefore reduces the risk of leaks.

According to a preferred embodiment, the structure for manufacturing a cooling device for a battery module is such that the common fluid inlet and the common fluid outlet of the first cooling circuit and the second cooling circuit are located in the third cooling circuit. Such an arrangement allows easier supply of the different cooling circuits.

According to a preferred embodiment, the structure for manufacturing a cooling device for a battery module is such that the first cooling circuit is symmetrical to the second cooling circuit by a central symmetry whose center is located in the second sign. A structure having symmetry between the first cooling circuit and the second cooling circuit makes it possible to have two cooling circuits whose inlet and outlet heat transfer fluid flows are placed in opposition when said circuits comprise a common fluid inlet and a common fluid output. Such an arrangement of the first cooling circuit and the second cooling circuit makes it possible to obtain an optimum temperature gradient within a battery module using such a cooling device.

According to a preferred embodiment, the structure for manufacturing a cooling device for a battery module is such that the first cooling circuit is located within the first cooling panel and/or the second cooling circuit is/are located(s) within the third panel and/or the third cooling circuit is/are located(s) within the second panel. A cooling circuit inserted within a panel can for example mean that the cooling circuit is made up of a pipe located between two plates or that the panel is made up of two contiguous plates, one of the plates or both plates comprising a groove constituting the cooling circuit, said groove being dug in the plate or plates.

According to a preferred embodiment, the structure for manufacturing a cooling device for a battery module is such that the common fluid inlet and/or the common fluid outlet of the first cooling circuit and the second cooling circuit is/ are made up of a pipette or a tip.

According to a preferred embodiment, the structure for manufacturing a cooling device for a battery module is such that it is based on a metallic material, preferably based on aluminum.

According to a preferred embodiment, the structure for manufacturing a cooling device for a battery module is such that the fourth panel comprises an area configured to be welded to the first panel or the third panel. Preferably, the area configured to be welded to the first panel or the third panel is constituted by a flap of the fourth panel.

According to other optional characteristics of the structure for the manufacture of a cooling device for a battery module taken alone or in combination:

- the structure for a cooling device for a battery module is such that the first panel and the third panel have similar dimensions. Advantageously, a first panel and a third panel having similar dimensions allow better thermal regulation of the battery module.

- the structure for the manufacture of a cooling device for a battery module is such that the second panel and the fourth panel have similar dimensions. A second panel and a fourth panel having similar dimensions make it possible to obtain a cooling device for a battery module having a constant width, the second panel and the fourth panel forming the side walls of the structure constituting the cooling device.

- the structure for the manufacture of a cooling device for a battery module is such that the first panel and the third panel have a larger dimension than the second and the fourth panel, this makes it possible to obtain a good cooling capacity of the cooling device.

- the structure for the manufacture of a cooling device for a battery module is such that the first cooling circuit and the second cooling circuit include meanders and/or obstacles to the flow of the heat transfer fluid. The presence of these meanders and/or obstacles makes it possible to improve the cooling capacity of the cooling device.

• Fourniture d’une structure pour la fabrication d’un dispositif de refroidissement pour module de batterie telle que décrite précédemment,
• Pliage le long de la première zone de pliage de manière à former un angle d’approximativement 90° entre le premier panneau comprenant un premier circuit de refroidissement et le deuxième panneau,
• Pliage le long de la deuxième zone de pliage de manière à former un angle d’approximativement 90° entre le troisième panneau comprenant un deuxième circuit de refroidissement et le deuxième panneau,
• Obtention d’un dispositif de refroidissement pour module de batterie en forme de U.

Par le terme « pliage », on entend désigner le fait que la structure est soumise à une contrainte de manière à orienter les plans respectifs de deux panneaux jointifs l’un à l’autre le long d’une zone de pliage selon un angle de l’ordre de 90°, la zone de pliage engendrant alors préférentiellement une zone de courbure.
The invention also relates to a method of manufacturing a cooling device for a battery module. The method according to the invention comprises the following steps:

• Supply of a structure for the manufacture of a cooling device for a battery module as described previously,
• Folding along the first folding zone so as to form an angle of approximately 90° between the first panel comprising a first cooling circuit and the second panel,
• Folding along the second folding zone so as to form an angle of approximately 90° between the third panel comprising a second cooling circuit and the second panel,
• Obtaining a U-shaped battery module cooler.

By the term "folding", we mean the fact that the structure is subjected to a constraint so as to orient the respective planes of two panels joined to each other along a folding zone at an angle of of the order of 90°, the folding zone then preferentially generating a curvature zone.

The invention also relates to a cooling device for a battery module obtained by implementing the aforementioned method of manufacturing a cooling device for a battery module.

According to a preferred implementation, the method of manufacturing a cooling device for a battery module is such that it comprises a folding step along the third folding zone so as to form an angle of approximately 90° between the third panel comprising a second cooling circuit and the fourth panel. This step leads to obtaining a cooling device in the form of a box having open lateral sides allowing the insertion of the cells constituting the battery module.

According to a preferred implementation, the method of manufacturing a cooling device for a battery module is such that it comprises a step of securing the edge of the first panel located opposite the first folding zone with the edge of the third panel located opposite the second folding zone. This joining step can be carried out using a system of threaded rod and bolts for example. An alternative may consist of welding a flap of the fourth panel to the first panel of the structure or of welding a flap of the first panel to the fourth panel.

Finally, the invention also relates to a cooling device for a battery module obtained from the structure according to the invention.

Brief description of the figures

The invention will be better understood on reading the description which follows, given solely by way of example and made with reference to the appended drawings in which:

is an elevation view of a cooling device manufactured from a structure according to the invention.

is an elevation view seen opposite the of a cooling device manufactured from a structure according to the invention.

is a side view of a cooling device manufactured from a structure according to the invention.

is an exploded view of two opposite panels comprising cooling circuits of the structure according to the invention.

detailed description

Figures 1 to 4 show a cooling device 1 obtained from a structure 2 according to the invention. In these Figures 1 to 4, similar elements are designated by identical references.

There illustrates a cooling device 1 obtained from a structure 2 according to the invention. The structure 2 comprises a first panel 20 comprising a first cooling circuit 200, a second panel 22 and a third panel 24 comprising a second cooling circuit (not shown), the first panel 20 being connected to the second panel 22 by a first zone folding zone 21, the second panel 22 being connected to the third panel 24 by a second folding zone 23. The folding zones being folded so as to orient two adjacent panels at 90° from each other. The first cooling circuit 200 and the second cooling circuit (not shown) are provided with a common fluid inlet 27 and a common fluid outlet 28, the common fluid inlet 27 and the common fluid outlet 28 are located in a third fluidic circuit (not shown) located at the level of the second panel 22. It is observed that the first fluidic circuit 200 includes obstacles or meanders 2000 allowing better thermal regularization, their presence increasing the contact time between the heat transfer fluid which circulates there and the panel to cool. The device also comprises a fourth panel 26, said fourth panel 26 being connected to the third panel 24 by a third folding zone 25. The fourth panel 26 is welded to the first panel 20, at the level of a flap of the first panel 20.

There presents a different view of the cooling device 1 manufactured from a structure 2 presented in . This figure shows in the foreground the second panel 22 comprising a third cooling circuit 220. It can be seen that the third cooling circuit 220 comprises the common fluid inlet 27 and the common fluid outlet 28 of the first cooling circuit 200 and the second circuit cooling (not shown). The first panel 20, the second panel 22, the third panel 24 and the fourth panel 26 are joined to each other by respectively the first folding zone 21, the second folding zone 23 and the third folding zone 25.

There presents a side view of the cooling device 1 manufactured from a structure 2. It is observed that the second panel 22 is joined to the two panels adjacent to it via the folding zones 21 and 23. Said second panel comprises a third circuit cooling circuit 220 comprising the common fluid inlet 27 and the common fluid outlet 28 of the first cooling circuit 200 and the second cooling circuit.

There presents a top and exploded view of the first panel 20 and the third panel 24. It is observed that the first cooling circuit 200 is the symmetrical of the second cooling circuit 240 by a central symmetry whose center is located in the second panel (not represented). The first cooling circuit 200 and the second cooling circuit 240 comprising obstacles or meanders 2000, 2400.

Reference list

1: Cooling device for battery module
2: Structure for manufacturing a cooling device 1 for battery module

20: first panel

21: first folding zone

22: second panel

23: second folding zone

24: third panel

25: third folding zone

26: fourth panel

27: common fluid input

28: common fluid output

200: first cooling circuit

220: third cooling circuit

240: second cooling circuit

2000: obstacle or meander on the first cooling circuit

2400: obstacle or meander on the second cooling circuit

Claims (10)

Structure (2) for the manufacture of a cooling device (1) for a battery module, said structure (2) comprising a first panel (20) comprising a first cooling circuit (200), a second panel (22) and a third panel (24) comprising a second cooling circuit (240), the first panel (20) being connected to the second panel (22) by a first folding zone (21), the second panel (22) being connected to the third panel (24) by a second folding zone (23). Structure (2) for manufacturing a cooling device (1) for a battery module according to the preceding claim, such that the first cooling circuit (200) and the second cooling circuit (240) are provided with an inlet common fluidic (27) and/or a common fluidic outlet (28). Structure (2) for the manufacture of a cooling device (1) for a battery module according to any one of the preceding claims, such that it comprises a fourth panel (26) connected to the third panel (24) by a third zone of folding (25). Structure (2) for the manufacture of a cooling device (1) for a battery module according to any one of claims 1 to 2, such that the fourth panel (26) is connected to the first panel (20) by a fourth zone of folding. Structure (2) for the manufacture of a cooling device (1) for a battery module according to any one of the preceding claims, such that the second panel (22) comprises a third cooling circuit (220). Structure (2) for the manufacture of a cooling device (1) for a battery module according to the preceding claim, such that the first cooling circuit (200) and the second cooling circuit (240) are connected to each other. the other by the third cooling circuit (220). Structure (2) for the manufacture of a cooling device (1) for a battery module according to the preceding claim in combination with claim 2, such as the common fluid inlet (27) and the common fluid outlet (28) of the first cooling circuit (200) and the second cooling circuit (240) are located in the third cooling circuit (220). Structure (2) for the manufacture of a cooling device (1) for a battery module according to any one of the preceding claims, such that the first cooling circuit (200) is symmetrical to the second cooling circuit (240) by a central symmetry whose center is located in the second panel (22). Method of manufacturing a cooling device (1) for a battery module comprising the following steps:

• Supply of a structure (2) for the manufacture of a cooling device (1) for a battery module according to any one of claims 1 to 8,
• Folding along the first folding zone (21) so as to form an angle of approximately 90° between the first panel (20) comprising a first cooling circuit (200) and the second panel (22),
• Folding along the second folding zone (23) so as to form an angle of approximately 90° between the third panel (24) comprising a second cooling circuit (240) and the second panel (23),
• Obtaining a cooling device (1) for U-shaped battery module.

Cooling device (1) for a battery module obtained by implementing a method according to claim 9.