FR3095379A1 - BATTERY WITH INTEGRATED CONTROL UNIT IN A STRUCTURING BEAM - Google Patents

Abstract

The invention relates mainly to a battery (10) comprising: - a plurality of electrical energy storage modules (11), - at least one control unit (12) capable of transmitting information relating to an operating state of at least one electrical energy storage module (11), and - at least one structuring beam (15), - the control unit (12) being arranged inside a housing (16) arranged in the structuring beam (15). Figure 2

Description

BATTERY WITH CONTROL UNIT INTEGRATED IN A STRUCTURAL BEAM

The present invention relates to a battery with a control unit integrated into a structuring beam.

In a manner known per se, a battery is intended to be placed outside the passenger compartment of a motor vehicle. The battery is generally arranged under a floor of the motor vehicle.

As can be seen in Figure 1, the battery 1 comprises a plurality of electrical energy storage modules 2 making it possible to supply electrical energy to an electric motor of the vehicle which may be of the electric type or of the hybrid type, it that is to say a vehicle comprising a heat engine in addition to the electric motor.

Control units 3 called "CMC" for "Cell Monitoring Control" in English are capable of transmitting information (temperature, charge level, etc.) relating to an operating state of one or more storage modules 2 of electric energy. This information is intended to be sent to a general control unit 4 of battery 1 via a main electrical harness.

These control units 3 can be integrated into modules 2 or externalized with respect to modules 2 for economic reasons.

In the case where they are exteriorized, these control units 3 waste useful space for the installation of the storage modules 2 of electrical energy in a longitudinal direction and/or a transverse direction and/or a height of the vehicle. . In addition, when the control units 3 are arranged on the sides of the motor vehicle as is the case in the configuration shown, they are in a risk zone in the event of a side impact, called "post impact" in the context of the vehicle certifications.

There is therefore a need to be able to place the control units in an area of the motor vehicle limiting the loss of space and guaranteeing their protection against shocks.

The invention aims to effectively meet this need by proposing a battery comprising:
- a plurality of electrical energy storage modules,
- at least one control unit capable of transmitting information relating to an operating state of at least one electrical energy storage module, and
- at least one structuring beam,
- the control unit being arranged inside a housing provided in the structuring beam.

The invention thus makes it possible to limit the size of the control unit in order to improve the volume efficiency of the battery. In addition, walls of the structuring beam make it possible to protect the control unit from external shocks. The invention also makes it possible to facilitate the assembly of control units which are easily accessible for their connection to an electrical harness of the motor vehicle.

According to one embodiment, the structuring beam comprises a multi-chamber hollow body.

According to one embodiment, the housing of the control unit comprises at least one chamber of the hollow body of the structuring beam, the chamber comprising an opening arranged so as to allow insertion of the control unit inside said chamber , as well as its withdrawal.

According to one embodiment, two closed-volume chambers are arranged on either side of the control unit.

According to one embodiment, at least one connector of the control unit intended to be connected to an electrical harness is arranged opposite the opening.

According to one embodiment, the control unit is held inside the housing by means of a fixing device.

According to one embodiment, the fixing device is a snap-fastening device.

According to one embodiment, the structuring beam comprises a through fixing spacer for the passage of a fixing member allowing the structuring beam to be fixed to a structural element of the motor vehicle.

The invention also relates to a motor vehicle characterized in that it comprises a battery as previously defined.

According to one embodiment, the structuring beam is fixed to a crosspiece for fixing seats of the motor vehicle.

The invention will be better understood on reading the following description and on examining the accompanying figures. These figures are given only by way of illustration but in no way limit the invention.

Figure 1, already described, is a perspective view of a battery according to the state of the art;

Figure 2 is a perspective view of a battery according to the present invention;

FIG. 3 is a top view showing the housing intended to receive a control unit of one or more electrical energy storage modules;

Figure 4a is a cross-sectional view of a structural beam in an unmachined area;

Figure 4b is a cross-sectional view of a structuring beam in a machined area for the integration of a control unit;

FIG. 5 is a view in longitudinal section of a structuring beam illustrating the maintenance of a control unit in its housing by means of a snap-fastening device.

In FIGS. 2 and following, identical, similar or analogous elements retain the same reference from one figure to another.

In the following description, a longitudinal direction is a direction going from the rear to the front of the vehicle and corresponding to a direction of longitudinal elongation of the vehicle. A transverse direction, parallel to a train of the motor vehicle, is a direction perpendicular to the longitudinal direction and is located in a horizontal plane.

Figure 2 shows a battery 10 intended to be placed outside the passenger compartment of a motor vehicle. The battery 10 may be arranged in particular under a floor of the motor vehicle. The battery 10 can be fixed on side members or stretchers of the body of the motor vehicle.

The battery 10 comprises a plurality of electrical energy storage modules 11, for example of the lithium-ion type.

Control units 12 are able to transmit information (temperature, charge level, etc.) relating to an operating state of one or more storage modules 11. This information is intended to be sent to a general control unit of the battery 10 (cf. element referenced 4 in FIG. 1) via a main electrical harness. To this end, each control unit 12 is connected on the one hand to a storage module 11 via a first connector 14.1 and on the other hand to the general control unit via a second connector 14.2 connected to an electrical harness from the main beam.

The storage modules 11 are also connected to a power bus in order to be able to circulate electric power from the energy storage modules 11 to an electric traction machine and vice versa from the electric machine to the storage modules 11 when the machine electric works in a generator mode.

In order to stiffen the assembly, structural beams 15 have a length extending in the transverse direction of the vehicle. A beam 15 is arranged between adjacent storage modules 11. As a variant, in the case where the orientation of the storage modules 11 is modified, the structuring beams 15 may have a length extending in the longitudinal direction of the vehicle. The structuring beams 15 are preferably made of extruded aluminum in order to limit the weight of the assembly. As a variant, the structuring beams 15 could be made of another metallic material or of a composite material. The structuring beams 15 may belong to a battery box.

As can be seen in Figures 2 and 3, a control unit 12 is arranged inside a housing 16 formed in a structuring beam 15.

More specifically, a structuring beam 15 comprises a multi-chamber hollow body 17, as shown in FIGS. 4a and 4b. The housing 16 of the control unit 12 consists of at least one chamber 19 of the hollow body 17. The chamber 19 includes an opening arranged so as to allow the insertion of the control unit 12 inside said chamber 19, as well as the removal of the control unit 12 for maintenance in particular.

In the example shown in Figures 4a and 4b, the hollow body 17 has seven chambers 19. Alternatively, the hollow body 17 may of course have a different number of chambers 19. The hollow body 17 has four horizontal walls 21.1, 21.2 , 21.3, 21.4. The two upper walls 21.1 and 21.2 are machined locally, so that the control unit 12 is arranged inside a housing 16 consisting of two chambers 19 of the structuring beam 15, as can be seen in the figures 4b and 5. The openings of the two walls 21.1, 21.2 are made in vertical coincidence, that is to say that the edges of the opening made in the wall 21.1 coincide with the edges of the opening made in the wall 21.2 . The number of chambers 19 necessary for the reception of the control unit 12 can of course be adapted according to the size of the control unit 12 and the size of the chambers 19.

Preferably, two closed-volume chambers 19 are arranged on either side of the control unit 12. The chambers 19 arranged on either side of the control unit 12 each have, in cross-sectional view, their four corners so that the structuring beam 15 retains sufficient rigidity enabling it to withstand the shock and torsion forces required in the event of an accident.

As illustrated by Figure 5, a control unit 12 is held inside the housing 16 by means of a fixing device 22 which advantageously takes the form of a snap device. To this end, the latching device 22 comprises elastically deformable fins 24 each provided with a portion intended to bear against an edge of a horizontal wall of the structuring beam 15 when the control unit 12 is disposed at inside its housing 16.

As can be seen in Figures 4b and 5, the connectors 14.1, 14.2 of the control unit 12 each intended to be connected to an electrical harness 26 are arranged opposite the opening.

Advantageously, a structuring beam 15 comprises at least one through fixing spacer 25 for the passage of a fixing member, such as a screw, making it possible to fix the structuring beam 15 to a structural element of the motor vehicle. The structuring beam 15 is advantageously fixed to a crosspiece for fixing the seats of the motor vehicle. Such a configuration makes it possible to stiffen the cross member for fixing the seats.

The invention thus makes it possible to limit the size of the control unit 12 in order to improve the volume efficiency of the battery. In addition, the walls of the structuring beam 15 make it possible to protect the control unit 12 from external shocks. The invention also makes it possible to facilitate the assembly of the control units 12 which are easily accessible for their connection to an electrical harness of the motor vehicle.

The invention also relates to a motor vehicle comprising a battery 10 as previously defined.

Claims (10)

Battery (10) comprising:
- a plurality of electrical energy storage modules (11),
- at least one control unit (12) capable of transmitting information relating to an operating state of at least one electrical energy storage module (11), and
- at least one structuring beam (15),
characterized in that the control unit (12) is arranged inside a housing (16) provided in the structuring beam (15). Battery according to Claim 1, characterized in that the structuring beam (15) comprises a multi-chambered hollow body (17). Battery according to Claim 2, characterized in that the housing (16) of the control unit (12) comprises at least one chamber (19) of the hollow body (17) of the structuring beam (15), the chamber (19 ) comprising an opening arranged so as to allow insertion of the control unit (12) inside said chamber, as well as its removal. Battery according to Claim 2 or 3, characterized in that two closed-volume chambers (19) are arranged on either side of the control unit (12). Battery according to Claim 3, characterized in that at least one connector (14.1, 14.2) of the control unit (12) intended to be connected to an electrical harness is arranged opposite the opening. Battery according to any one of Claims 1 to 5, characterized in that the control unit (12) is held inside the housing (16) by means of a fixing device (22). Battery according to Claim 6, characterized in that the fixing device (22) is a snap-on fixing device. Battery according to any one of Claims 1 to 7, characterized in that the structuring beam (15) comprises a through fixing spacer (25) for the passage of a fixing member enabling the structuring beam (15) to be fixed to a structural element of a motor vehicle. Motor vehicle characterized in that it comprises a battery (10) as defined according to any one of the preceding claims. Motor vehicle according to Claim 9, characterized in that the structuring beam (15) is fixed to a cross member for fixing the seats of the motor vehicle.