FR3139671A1 - Accumulator battery module housing, module equipped with such a housing and associated motor vehicle - Google Patents

Abstract

The invention relates to a storage battery module housing (21) comprising: - a rear part (22) provided with a bottom wall (22A) bordered by a side wall (23) interrupted at the corners, the side wall comprising a first part (23B) and a second part (23D) facing each other, at least one of the first part and the second part being connected to the bottom wall by a portion (26) having a plurality of folds, said rear part being formed in one piece, and - a front part (28) comprising a front wall (28A) provided with fixing portions (28B, 28C) intended to cooperate with the first part and the second part of the side wall of the rear part so as to delimit, with the rear part, a housing (25) for a plurality of accumulator cells (40). The invention also relates to a storage battery module and an associated motor vehicle. Figure for abstract: Fig. 3

Description

Accumulator battery module housing, module equipped with such a housing and associated motor vehicle Technical field of the invention

The present invention generally relates to the field of accumulator batteries.

The invention relates more particularly to a storage battery module housing.

It also relates to a storage battery module equipped with such a housing.

The invention finally relates to an associated motor vehicle.

State of the art

Motor vehicles with electric propulsion, including vehicles with hybrid thermal and electric propulsion, are generally equipped with an electric motor supplied with current by a plurality of accumulator battery modules.

Conventionally, each accumulator battery module is formed of a housing which houses a plurality of accumulator cells.

Such a storage battery module is for example known from document EP3637495.

In this document, the case has a rear part topped by a cover so as to define a housing for the accumulator cells. The rear part has a U-shaped part, made in one piece, with a bottom wall and two side walls. Two side cover plates make it possible to complete the side walls of the rear part so as to obtain a closed structure.

The cover cooperates with the rear part by snapping. The entire housing (with the cover) then forms a rigid structure to accommodate the battery cells.

A thermally conductive layer is placed at the bottom wall of the rear part (typically the base of the U of the U-shaped part) so as to allow the cooling of the accumulator cells.

However, this configuration, with a U-shaped rear part leading to a rigid structure for housing the accumulator cells, does not make it possible to optimally manage the expansion of the cells resulting from the thermal forces generated by the cells themselves. during their charging and discharging.

Presentation of the invention

In order to remedy the aforementioned drawbacks, the present invention proposes to improve the structure of the accumulator battery module.

More particularly, according to the invention we propose a storage battery module housing comprising:
- a rear part provided with a bottom wall bordered by a side wall interrupted at the corners, the side wall comprising a first part and a second part facing each other, at least one of the first part and the second part being connected to the bottom wall by a portion having a plurality of folds, said rear part being formed in one piece, and
- a front part comprising a front wall provided with fixing portions intended to cooperate with the first part and the second part of the side wall of the rear part so as to delimit, with the rear part, a housing for receiving a plurality of accumulator cells.

Thus, according to the present invention, the presence in the rear part of the housing of the portions presenting the folds makes it possible to give the housing a flexible character. This then makes it possible to contain the deformation of the cells and limit the effects of expansion of the walls of the case while guaranteeing rigidity of the accumulator battery module.

In addition, this bellows structure facilitates the assembly of the accumulator cells in the housing of the accumulator battery module since the panels presenting the portions with folds can be moved aside during assembly.

Other advantageous and non-limiting characteristics of the accumulator battery module housing according to the invention, taken individually or in all technically possible combinations, are as follows:
- the first part and the second part of the side wall are each connected to the bottom wall by said portion having a plurality of folds;
- the part connected to the bottom wall by said portion among the first part and the second part has a height lower than the height of the other parts of the side wall of the rear part;
- the fixing portions of the front part are fixed by welding to the side wall of the rear part; And
- the fixing portion is in the form of a tab projecting from the front wall of the front part and folded towards the side wall of the rear part.

The invention also relates to a storage battery module comprising:
- a storage battery module box as introduced previously, and
- a plurality of accumulator cells positioned in the reception housing,
said reception housing receiving, at the level of the part connected to the bottom wall by said portion among the first part and the second part of the side wall of the rear part, a side closing plate positioned between the plurality of cells d accumulators and said part connected to the bottom wall by said portion among the first part and the second part of the side wall of the rear part.

Other advantageous and non-limiting characteristics of the accumulator battery module according to the invention, taken individually or in all technically possible combinations, are as follows:
- there is provided, at each of the first part and the second part of the side wall of the rear part, a side closing plate positioned between the plurality of accumulator cells and each of the first part and the second part of the side wall of the rear part;
- the side closing plate comprises an insulating part and a fixing part to a receiving support of a motor vehicle;
- the insulating part is formed by overmolding a polymer onto the fixing part;
- the fixing part is formed from a metallic material;
- the fixing part comprises two metal columns, each metal column being intended to be inserted in an open corner of the side wall of the rear part; And
- the plurality of accumulator cells is fixed to the bottom wall of the rear part by gluing.

The invention also relates to a motor vehicle comprising:
- a support for receiving a storage battery module, said reception support being provided with a cooling circuit, and
- an accumulator battery module as introduced previously, the bottom wall of the rear part of said accumulator battery module being positioned in contact with said cooling circuit.

A thermal paste is provided between the cooling circuit and the bottom wall of the rear part of the storage battery module.

The receiving support comprises means for fixing said accumulator battery module, said fixing means being intended to cooperate with the fixing part of each side closing plate of said accumulator battery module.

Of course, the different characteristics, variants and embodiments of the invention can be associated with each other in various combinations as long as they are not incompatible or exclusive of each other.

Detailed description of the invention

The description which follows with reference to the appended drawings, given as non-limiting examples, will make it clear what the invention consists of and how it can be carried out.

On the attached drawings:

represents a schematic view of a motor vehicle equipped with a storage battery module according to the invention;

represents a schematic perspective view of the accumulator battery module of the ;

is an exploded perspective view of a storage battery module housing included in the storage battery module of the ; And

is a schematic view of a side closing plate included in the accumulator battery module of the .

In this description, the terms “interior” and “exterior” will be used with reference to the housing itself, to designate respectively the side of an element facing the center of the housing and the side of an element facing the outside of this case.

On the , there is shown a motor vehicle 1 equipped with a storage battery module 20 according to the invention.

This motor vehicle 1 is a motor vehicle with electric or hybrid propulsion equipped with an electric motor. At least one storage battery module 20 (also called “module 20” in the following) is designed to supply electric current to the electric motor of the motor vehicle 1.

This accumulator battery module 20 is for example attached to a receiving support 10 present in the motor vehicle 1. This receiving support 10 is for example integral with the chassis of the motor vehicle 1.

There represents a schematic perspective view of the accumulator battery module 20. This module 20 comprises an accumulator battery module housing 21 (also called “housing 21” in the following), a plurality of accumulator cells 40 and at least one side closing plate 30.

As shown in Figures 2 and 3, the housing 21 generally has a parallelepiped shape. It comprises a rear part 22 and a front part 28.

In this description, the terms “front” and “rear” are used in relation to the positioning of the element on the receiving support (on which the element concerned is attached). The rear of this element designates the side facing the receiving support on which the element is attached while the front designates the side facing away from this receiving support.

As shown on the , the rear part 22 comprises a rectangular bottom wall 22A bordered by a side wall 23 interrupted at the corners. The side wall 23 is here formed of four opposite parts in pairs, namely two panels 23A, 23C facing each other and two panels 23B, 23D facing each other. The panels 23A, 23B, 23C, 23D rise forward from the bottom wall 22A.

Here, the panels 23A, 23C of the side wall 23 form the two long sides of the side wall 23. They form straight portions of this side wall 23, and have a uniform and predetermined height H1.

Advantageously according to the invention, at least one of the panels 23B, 23D of the side wall 23 is connected to the bottom wall 22A by a portion 26 having a plurality of folds.

More particularly here, as shown in , the panels 23B, 23D of the side wall 23 are each connected to the bottom wall 22A by the portion 26 having a plurality of folds.

In this description, the term “fold” means a part folded back on itself either neatly to form an edge line, or by forming an undulation with a reduced radius of curvature (less than a centimeter). Such a fold thus forms a double thickness.

Here, the portion 26 is formed at the base of each of the panels 23B, 23D of the side wall 23. The portion 26 has a plurality of successive folds arranged along fold lines parallel to each other. Furthermore, these fold lines are for example parallel to the free end of the panel 23B, 23D concerned.

By way of illustration, each portion 26 here has the shape of a bellows extending between the bottom wall 22A and the panel 23B, 23D concerned.

Advantageously according to the invention, the presence of these portions presenting the folds makes it possible to introduce a certain flexibility, in particular in the event of expansion of the cells 40, in the rear part 22 of the housing 21. This flexibility allows in particular the two panels 23B, 23D to move away from each other during rapid charging of the accumulator cells 40.

As shown on the , at least one of the panels 23B, 23D has a height lower than the panels 23A, 23C forming the long sides of the side wall 23.

More particularly here, the panel 23B has a uniform and predetermined height H2, less than the height H1 of the panels 23A, 23C. The panel 23D has a uniform and predetermined height H3, less than the height H2 of the opposite panel 23B.

As will be described below, these differences in height of the panels 23B, 23D are particularly advantageous for the positioning of the side closing plates 30.

Advantageously, the rear part 22 is made in one piece. This makes it possible in particular to obtain a rear part of the case that is rigid but flexible in places and does not present any points of fragility, for example resulting from the assembly of several elements. In addition, this makes it easier to manufacture.

The rear part 22 is for example formed of an alloy comprising aluminum (preferably more than 50% by mass). Alternatively, it can be formed solely from aluminum.

As shown in Figures 2 and 3, the front part 28 is intended to close, at the front, the rear part 22. This front part 28 comprises a front wall 28A provided with fixing portions 28B, 28C. The fixing portions 28B, 28C of the front part 28 extend towards the side wall 23. In other words, the fixing portions 28B, 28C extend, from the front wall 28A, towards the rear of the housing 21.

The fixing portions 28B, 28C are intended to cooperate with the panels 23B, 23C of the side wall 23 of the rear part 22 so as to delimit a housing 25 for the plurality of accumulator cells 40. The fixing portions 28B, 28C allow the housing to be closed (so as to maintain the cells 40 in the receiving housing 25 delimited by the front part 28 and the rear part 22).

Here, the fixing portions 28B, 28C are fixed by welding to the side wall 23 of the rear part 22. More particularly, weld beads are used, on the one hand, between the fixing portions 28C and the panel 23D, and, on the other hand, between the fixing portion 28B and the panel 23B. Welding beads are also used between the panels 23A, 23C and the edges of the front part 28 not having fixing portions 28B, 28C in order to reinforce the fixing of the front part 28 and the rear part 22. Alternatively , the fixing portions can be fixed to the side wall of the rear part by any other mechanical fixing means.

In practice, each fixing portion 28B, 28C is in the form of a tongue projecting from the front wall 28. More particularly, each tongue has a folded shape towards the side wall 23 of the rear part 22. in other words, each fixing portion 28B, 28C is in the form of a tab folded towards the rear of the housing 21.

As shown in the , facing the panel 23D of the side wall 23 of the rear part 22, two separate fixing portions 28C are provided. Each of these fixing portions 28C comprises a base part 29A and a folded part 29B so as to form the tongue of the fixing portion 28C described above.

The base part 29A extends from the front wall 28A, in the extension thereof. The folded part 29B extends, from the base part 29A, substantially orthogonal to the base part 29A. The folded part 29B therefore extends towards the rear of the housing 21. The folded part 29B is intended to be fixed on the panel 23D of the side wall 23 of the rear part 22.

In contrast, as shown in , a single fixing portion 28B is provided. This fixing portion 28B also comprises a base part 29C and a folded part 29D, so as to form the tongue of the fixing portion 28B described previously.

The base part 29C extends from the front wall 28A, in the extension thereof. The folded part 29D extends, from the base part 29C, substantially orthogonal to the base part 29C. The folded part 29D therefore extends towards the rear of the housing 21. The folded part 29D is intended to be fixed on the panel 23B of the side wall 23 of the rear part 22.

Here, the fixing portion 28B has a length of the order of the length of the panel 23B. Alternatively, the length of the fixing portion is less than that of the associated panel.

The front part 28 is for example formed in one piece, made of aluminum or aluminum alloy.

The plurality of accumulator cells 40 is positioned in the receiving housing 25 formed by the assembly of the rear part 22 and the front part 28. The accumulator cells 40 are for example positioned next to each other , between panels 23A, 23C. For example, there are sixteen of them here.

In practice, each storage battery cell 40 is, for example, fixed by gluing to the bottom wall 22A of the rear part 22 of the housing 21.

The cells 40 are here cells with a flexible envelope, that is to say cells 40 whose envelopes can be deformed during their insertion into the receiving housing 25 formed by the front part 28 and the rear part 22 and during their charging and discharging. Advantageously, the rear part 22 of the accumulator battery module housing 21 makes it possible to contain the deformation of the cells thanks to the portions 26 presenting the folds. Indeed, the portions 26 make it possible to introduce a flexibility characteristic for the housing 21 of the module 20 while guaranteeing the overall rigidity of the housing 21.

More particularly, the cells 40 with a flexible envelope comprise a flexible outer envelope which contains inside an electrolyte of organic solution or of a solution based on carbonate and lithium salts.

This is for example a Lithium-ion type electrolyte, wrapped in an envelope consisting of a plastic film surrounded by a laminated aluminum film. The plastic film is intended to isolate the electrolyte contained in cell 35 from the aluminum film.

These cells 40 with a flexible envelope, well known to those skilled in the art, will not be described here in more detail.

In order to allow the module 20 to be closed (i.e. by obstructing the space available between the plurality of accumulator cells 40 and the panels 23B, 23D of the rear part 22 of the housing 21), the accumulator battery module 20 comprises at least one side closing plate 30. In the case where a single panel 23B, 23D is provided connected to the bottom wall 22A of the rear part 22 by the portion 26, a single side closing plate 30 is also provided in module 20.

In practice here, a side closing plate 30 is positioned at each of the panels 23B, 23D (as each of the two panels 23B, 23D is connected to the bottom wall 22A of the rear part 22 via the portion 26). In other words (but not visible in the figures), the accumulator battery module 20 therefore comprises two side closing plates 30 (one at the level of each of the panels 23B, 23D).

An example of a side closing plate 30 is shown on the .

As can be seen in this figure, each side closing plate 30 comprises an insulating part 32 and a fixing part 35 to the receiving support 10 of the motor vehicle 1.

The fixing part 35 is here formed in a metallic material. For example, it is made of aluminum.

More particularly, two separate fixing parts 35 are provided. They are presented here in the form of metal columns pierced with a longitudinal conduit and designed to cooperate with complementary fixing means present on the receiving support 10.

So that these fixing parts 35 can cooperate with the fixing means of the receiving support 10, the fixing parts 35 are positioned facing the open corners of the side wall 23 of the rear part 22. In this way, when the module 20 is attached to the receiving support 10, the cooperation between the fixing parts 35 of each side closing plate 30 attached to the rear part 22 of the module 20 and the corresponding fixing means of the receiving support 10 is not hindered by the bottom wall 22A of the rear part 22 of the module 20.

In order to allow the fixing of the module 20 on the receiving support 10, the bottom of the receiving support 10 comprises fixing means (not shown). These fixing means are designed to cooperate with the fixing parts 35 of each side closing plate 30 of the module 20. In other words, the fixing means of the receiving support 10 are here designed to cooperate with the longitudinal openings formed in the metal columns of the side closing plates 30.

These means for fixing the receiving support 10 are for example lugs projecting from the bottom of the receiving support 10 and each cooperating with the corresponding longitudinal opening of a metal column 35 formed at the corners of each side plate of closure 30.

The insulating part 32 is here formed by overmolding a polymer on the fixing part 35. In other words, the insulating part 32 is formed by overmolding a plastic material on the fixing part 35. In practice, each metal column has a plurality of attachment points to which the polymer used to form the insulating part 32 attaches during overmolding. This material used for the insulating part ensures electrical insulation of the elements of the storage battery module housing 21.

As can be seen on the , the insulating part 32 comprises, on its front face 30A, mounting portions 37 allowing the mounting of the side closing plate 30 in the housing 21. These mounting portions 37 are for example here lugs 37 projecting from the face front of the side closing plate 30 and intended to abut against the panel 23B, 23D concerned (that is to say the panel 23B, 23D against which the side closing plate 30 is mounted).

Alternatively, the front face of the side closing plate may be devoid of these mounting portions. As a further variation, only one of the side closing plates can be provided with these mounting portions.

These mounting portions 37 are also shaped to allow the integration of connection plates (not shown) to which tabs (anode or cathode) of the accumulator cells 40 are connected (for example by welding). These connection plates are then for example screwed at the level of the mounting portions 37.

In order to guarantee rigidity of the accumulator battery module 20, each side closing plate 30 is fixed inside the rear part 22 of the module 20. More particularly, each side closing plate 30 is positioned resting on the bottom wall 22A of the rear part 22, at the level of the portions 26 presenting the folds. Here, each side closure plate 30 is for example fixed by welding to the panels 23A, 23B, 23C, 23D.

Each side closing plate 30 is for example fixed by welding to the rear part 22 of the housing 21 of the accumulator battery module 20.

At least one of the side closing plates 30 is provided with a connection element (not shown) connected to electrical connection terminals of the accumulator cells 40. This connection element then allows the exchange of electrical signal between the interior of the accumulator battery module 20 and the exterior of this module 20.

The height H3 of the panel 23D, lower than the heights of the other panels 23A, 23B, 23C of the side wall 23 of the rear part 22 of the housing 21, is particularly advantageous for the positioning of this connection element (and the exchange of the signal electrical with the exterior of the module 20). Indeed, the space available between the free end of the panel 23D of the side wall 23 of the rear part 22, the free end of the front wall 28A of the front part 28 and the free ends of the fixing portions 28C allows to accommodate this connection element and also to access this connection element from outside the accumulator battery module 20.

The structure of the side closing plate 30 is particularly advantageous. Indeed, thanks to its bi-material nature, it combines a part having an electrical insulation function and a more rigid part allowing the fixing of the accumulator battery module on the receiving support present in the motor vehicle. It thus makes it possible to close the module 20 while allowing its attachment to the receiving support 10.

Finally, once all the elements are assembled, the rear part 22 of the housing 21 also forms the rear part of the accumulator battery module 20 and the front part 28 of the housing 21 also forms the front part of the module 20.

In order to enable the supply of electric current to the electric motor of the motor vehicle 1, the accumulator battery module 20 is positioned in the receiving support 10.

The receiving support 10 comprises, at its bottom, a cooling circuit (not shown in the figures). The cooling effect is, for example, obtained from the circulation of water in the cooling circuit.

The cooling circuit is designed to cool, by conduction, the accumulator cells 40. For this, the bottom wall 22A of the rear part 22 of the housing 21 of the accumulator battery module 20 is positioned in contact with the bottom of the receiving support 10.

In order to improve the conduction phenomenon (and therefore cooling), a thermal paste (not shown) is positioned between the bottom of the receiving support 10 and the bottom wall 22A of the rear part 22 of the housing 21 of the module 20 of accumulator battery. In other words, this thermal paste is positioned between the cooling circuit and the bottom wall 22A of the rear part 22 of the housing 21 of the accumulator battery module 20 so as to improve the efficiency of thermal conduction between the cooling circuit and the cells 40 (fixed on the bottom wall 22A of the rear part 22 of the housing 21 of the accumulator battery module 20).

This thermal paste makes it possible to avoid the formation of an air gap between the cooling circuit and the cells 40, which makes it possible to improve the conduction phenomenon and therefore the cooling.

The receiving support 10 is for example formed here so as to be impervious to drops of water or dust which could enter the accumulator battery module. Waterproofing is here evaluated according to the IP67 standard according to the EN60529 standard.

According to a variant embodiment, the folded tabs forming the fixing portions of the front part on the panels of the side wall of the rear part can be different in number and shape as long as their cooperation with the panels of the side wall of the rear part is possible to close the case (therefore the accumulator battery module) and maintain the accumulator cells in the delimited reception housing.

In general, it should be noted that the dimensions of the front and rear parts of the accumulator battery module housing, as well as those of the receiving support, are adapted according to the number of accumulator cells housed in the module. In the example described previously, the dimensions are adjusted so that the storage battery module contains 16 cells.

The embodiment described above only concerns a reception support associated with a storage battery module.

The present invention obviously applies in the case where a plurality of accumulator battery modules are included in the motor vehicle. In such a case, a plurality of accumulator battery modules can be considered juxtaposed next to each other in the motor vehicle, each module of the plurality being attached to a corresponding receiving support. It can also be considered a single receiving support accommodating a plurality of accumulator battery modules (the accumulator battery modules being positioned for example next to each other on the bottom of the single receiving support).

Finally, thanks to the presence of bellows in the rear part of the accumulator battery module housing, it is possible to have a certain flexibility of the walls of the housing making it possible to contain the deformations of the cells and to limit the effects of expansion of the walls of the case while guaranteeing rigidity of the accumulator battery module.

In addition, this bellows structure facilitates the assembly of the accumulator cells in the housing of the accumulator battery module since the panels presenting the portions with folds can be moved aside during assembly.

Finally, the production of the side closing plates in two materials makes it possible to combine, on a single part, an electrical insulation function and a reinforcing function making it possible to consolidate the rigidity of the accumulator battery module and to fix it on the reception support present in the motor vehicle.

In addition, the use of side closing plates makes it possible to control, and in particular to fill, the space available between the accumulator cells and the walls of the module housing. This makes it possible in particular to optimize the dimensions (in particular the length) of the cells included in the housing of the accumulator battery module.

Claims (10)

Storage battery module housing (21) comprising:
- a rear part (22) provided with a bottom wall (22A) bordered by a side wall (23) interrupted at the corners, the side wall (23) comprising a first part (23B) and a second part (23D ) facing each other, at least one of the first part (23B) and the second part (23D) being connected to the bottom wall (22A) by a portion (26) having a plurality of folds, said rear part (22) being formed in one piece, and
- a front part (28) comprising a front wall (28A) provided with fixing portions (28B, 28C) intended to cooperate with the first part (23B) and the second part (23D) of the side wall (23) of the rear part (22) so as to delimit, with the rear part (22), a housing (25) for a plurality of accumulator cells (40). Storage battery module housing (21) according to claim 1, wherein the part (23B, 23D) connected to the bottom wall (22A) by said portion (26) has a height less than the height of the other parts (23A, 23C) of the side wall (23) of the rear part (22). Storage battery module housing (21) according to claim 1 or 2, wherein the fixing portions (28B, 28C) of the front part are fixed by welding to the side wall (23) of the rear part (22 ). Accumulator battery module housing (21) according to any one of claims 1 to 3, in which each fixing portion (28B, 28C) is in the form of a tab projecting from the front wall (28A). ) of the front part (28) and folded towards the side wall (23) of the rear part (22). Accumulator battery module (20) comprising:
- a storage battery module housing (21) according to any one of claims 1 to 4, and
- a plurality of accumulator cells (40) positioned in the reception housing (25),
said reception housing (25) receiving, at the part (23B, 23D) connected to the bottom wall (22A) by said portion (26), a side closing plate (30) positioned between the plurality of cells (40) of accumulators and said part (23B, 23D) connected to the bottom wall (22A) by said portion (26) among the first part (23B) and the second part (23D) of the side wall (23) of the rear part (22). Accumulator battery module (20) according to claim 5, in which the side closing plate (30) comprises an insulating part (32) and a fixing part (35) to a receiving support (10) of a motor vehicle (10). Accumulator battery module (20) according to claim 6, in which the insulating part (32) is formed by overmolding a polymer on the fixing part (35). Storage battery module (20) according to claim 6 or 7, wherein the fixing part (35) is formed of a metallic material. A storage battery module (20) according to any one of claims 6 to 8, wherein the fixing portion (35) comprises two metal columns, each metal column being intended to be inserted into an open corner of the side wall (23) of the rear part (22). Motor vehicle (1) comprising:
- a receiving support (10) for a storage battery module (20), said receiving support (10) being provided with a cooling circuit, and
- a storage battery module (20) according to any one of claims 5 to 9, the bottom wall (22A) of the rear part (22) of said storage battery module (20) being positioned in contact of said cooling circuit.