DE102019211907A1 - Battery module with a plurality of battery cells and use of such a battery module - Google Patents

Abstract

The invention relates to a battery module with a plurality of battery cells (2), in particular lithium-ion battery cells (20), which are accommodated in an interior (3) of a housing (4) of the battery module (1) made of plastic (5), wherein the interior (3) is designed to be fluid-tightly sealed against the surroundings (6) of the battery module (1), the battery module (1) furthermore having a plurality of fiber composite elements (7) comprising fibers (8, 9), which create mechanical bracing the plurality of battery cells (2) or the housing (4) is formed.

Description

State of the art

The invention is based on a battery module with a plurality of battery cells according to the preamble of the independent claim. The present invention also relates to the use of such a battery module.

It is known from the prior art that battery modules can consist of a plurality of individual battery cells, which can be connected to one another in series and / or parallel in an electrically conductive manner, so that the individual battery cells are interconnected to form the battery module.

Furthermore, such battery modules are interconnected to form batteries or battery systems.

It is also known that battery modules comprise a housing made of plastic. Such a plastic changes its mechanical properties due to changes in ambient conditions such as temperature or humidity. In particular, the strength is reduced and the creep behavior as a change in length under constant mechanical load is accelerated.

Battery cells usually deform mechanically during their lifetime, so that this deformation exerts a mechanical load on the housing of the battery module. Of course, such housings can also be made of aluminum or steel or similar materials.

Disclosure of the invention

A battery module with a plurality of battery cells with the features of the independent claim offers the advantage that a deformation of a housing of the battery module can be reliably counteracted. In particular, the functions of mechanical load absorption and sealing of the housing can be functionally separated.

For this purpose, a battery module with a plurality of battery cells is made available. The battery cells are preferably designed as lithium-ion battery cells.

The plurality of battery cells is accommodated in an interior of a housing of the battery module. The housing of the battery module is made of plastic. Furthermore, the interior is designed to be fluid-tight against the surroundings of the battery module.

The battery module furthermore has at least one fiber composite element which comprises a plurality of fibers. The fiber composite element is designed to mechanically brace the plurality of battery cells or the housing.

The measures listed in the dependent claims make advantageous developments and improvements of the device specified in the independent claim possible.

The majority of fibers can be selected from carbon fibers, glass fibers, aramid fibers, basalt fibers and / or natural fibers. The majority of fibers are preferably selected from carbon fibers and / or glass fibers.

At this point it should be noted that the fiber composite element takes on the function of mechanical load absorption, so that the mechanical properties of the housing of the battery module made of plastic are not influenced by the ambient conditions. It is thus possible to continue to use a comparably inexpensive plastic housing.

Furthermore, it should be noted at this point that circumferential should also be understood to mean that circumferential also partially encompasses circumferential. In particular, the fiber composite element can, for example, also be arranged circumferentially only on the longitudinal sides or only on the front sides of the battery module.

It is advantageous if the at least one fiber composite element is arranged outside the housing of the battery module. Furthermore, the fiber composite element is arranged around the housing of the battery module. Because of this, the housing of the battery module is mechanically tensioned. Such a design offers the advantage of a comparatively simple arrangement and a reliable mechanical connection.

Furthermore, it is also advantageous if the at least one fiber composite element is arranged within the housing of the battery module. Furthermore, the fiber composite element is arranged around the plurality of battery cells of the battery module. Because of this, the majority of battery cells of the battery module are mechanically braced. Such a design offers the advantage that the plurality of battery cells can be mechanically clamped together to form a unit before they are arranged within the housing.

At this point it should be noted that the majority of battery cells are particularly prismatic are formed or that the respective housing of the plurality of battery cells are formed prismatic. Furthermore, the battery cells are arranged in a longitudinal direction of the battery module with their respective largest side surfaces adjacent to one another.

The battery module advantageously also has end plates, between which the plurality of battery cells is arranged directly. The at least one fiber composite element is also arranged around the end plates. This offers the advantage that reliable mechanical bracing can be established and the bracing force can be evenly distributed by means of the end plates.

In addition, it is advantageous if the end plates each have a receptacle in which the at least one fiber composite element is received. For example, an end plate can have a deformation. In other words, this means that the receptacle is designed as a deformation of the end plate. This offers the advantage that simple assembly and reliable attachment of the fiber composite element to the respective end plate is possible.

According to a preferred aspect of the invention, the battery module has a plurality of fiber composite elements which are arranged at a distance from one another in a height direction of the battery module. The height direction is arranged, for example, perpendicular to the already mentioned longitudinal direction. By means of such a design, the bracing force can be evenly distributed.

The at least one fiber composite element is preferably arranged in a wound manner. In particular, the at least one fiber composite element is arranged wound around the housing of the battery module. This offers the advantage of simple manufacture.

According to a preferred aspect of the invention, the at least one fiber composite element is designed in such a way that the plurality of fibers is arranged unidirectionally. In other words, this means that the majority of fibers, for example the glass fibers and / or carbon fibers, run essentially parallel to one another. As a result, the mechanical load can be absorbed even more reliably.

It is advantageous if the fiber composite element is cured by exposure to UV radiation or district heating. This can further increase the stability. In particular, the fiber composite element can be pushed over the plurality of battery cells during assembly.

The present invention also relates to the use of a battery module according to the invention just described. The fiber composite element counteracts a mechanical deformation of the plurality of battery cells or of the housing of the battery module due to a change in volume of the plurality of battery cells.

Figure list

Exemplary embodiments of the invention are shown in the drawings and explained in more detail in the description below.

• 1 eine erste Ausführungsform eines erfindungsgemäßen Batteriemoduls,
• 2 eine zweite Ausführungsform eines erfindungsgemäßen Batteriemoduls und
• 3 eine dritte Ausführungsform eines erfindungsgemäßen Batteriemoduls.

It shows:

• 1 a first embodiment of a battery module according to the invention,
• 2 a second embodiment of a battery module according to the invention and
• 3 a third embodiment of a battery module according to the invention.

The ones in the 1 to 3 Embodiments shown in each case of battery modules according to the invention 1 should first be described together.

The battery module 1 indicates a plurality in the 1 not to be recognized and in the 2 and 3 positionally indicated battery cells 2 on, which in particular as lithium-ion battery cells 20th are trained. The battery cells 2 are in one in the 1 neither and in the 2 and 3 to be recognized interior 3 a housing 4th of the battery module 1 recorded. The case 4th of the battery module 1 is each made of a plastic 5 educated.

The interior 3 is in relation to an environment 6th of the battery module 1 formed fluid-tight sealed.

The battery module also includes 1 a fiber composite element 7th , which, for example, carbon fibers 8th and / or glass fibers 9 includes. The fiber composite element 7th is a mechanical bracing of the plurality of battery cells 2 of the housing 4th educated.

According to the 1 The embodiment shown is the fiber composite element 7th outside the case 4th of the battery module 1 arranged and continue the housing 4th of the battery module 1 arranged circumferentially so that the housing 4th of the battery module 1 is mechanically tensioned.

According to the 2 The embodiment shown is the fiber composite element 7th inside the case 4th of the battery module 1 arranged and further the plurality of battery cells 2 arranged circumferentially, so that the plurality of battery cells 2 is mechanically tensioned. At this point it should be noted that the housing 4th of the battery module 1 is only partially shown, so that the fiber composite element 7th is recognizable.

According to the 3 The embodiment shown is the fiber composite element 7th also inside the housing 4th of the battery module 1 arranged and further the plurality of battery cells 2 arranged circumferentially, so that the plurality of battery cells 2 is mechanically tensioned. At this point it should be noted that the housing 4th of the battery module 1 is only partially shown, so that the fiber composite element 7th is recognizable.

In the embodiments according to 2 and 3 assigns the battery module 1 continue to end plates 10 on, between which the plurality of battery cells 2 is arranged directly, and which the at least one fiber composite element 7th circulates. Furthermore, the end plates 10 one recording each 11 have in which the fiber composite element 7th is recorded.

The second and third embodiment of the battery module 1 according to the 2 or. 3 differ in that the battery module 1 according to 2 a single, comparably broader fiber composite element 7th and that the battery module 1 according to 3 two in one height direction 12 of the battery module 1 spaced apart fiber composite elements 7th having.

The embodiments according to 1 to 3 is common that the fiber composite element 7th can be arranged wound and / or that the plurality of fibers, for example the carbon fibers 8th and / or glass fibers 9 are arranged unidirectionally. Furthermore, the fiber composite element 7th cured by exposure to UV radiation or heat.

Claims (10)

Battery module with a plurality of battery cells (2), in particular lithium-ion battery cells (20), which are accommodated in an interior (3) of a housing (4) made of plastic (5) of the battery module (1), the interior ( 3) is designed to be fluid-tight with respect to the surroundings (6) of the battery module (1), characterized in that the battery module (1) furthermore has a plurality of fiber composite element (7) comprising fibers (8, 9), which is used to mechanically brace the A plurality of battery cells (2) or the housing (4) is formed. Battery module after the previous one Claim 1 , characterized in that the at least one fiber composite element (7) outside the housing (4) of the battery module (1) and the housing (4) of the battery module (1) is arranged circumferentially, so that the housing (4) of the battery module (1 ) is mechanically tensioned. Battery module after the previous one Claim 1 , characterized in that the at least one fiber composite element (7) within the housing (4) of the battery module (1) and the plurality of battery cells (2) are arranged circumferentially so that the plurality of battery cells (2) is mechanically braced. Battery module after the previous one Claim 3 , characterized in that the battery module (1) furthermore has end plates (10), between which the plurality of battery cells (2) is arranged directly and the at least one fiber composite element (7) furthermore the end plates (10) are arranged circumferentially. Battery module after the previous one Claim 4 , characterized in that the end plates (10) each have a receptacle (11) in which the at least one fiber composite element (7) is received. Battery module after a previous one Claims 1 to 5 , characterized in that the battery module (1) has a plurality of fiber composite elements (7) arranged at a distance from one another in a height direction (12) of the battery module (1). Battery module after one of the previous ones Claims 1 to 6th , characterized in that the at least one fiber composite element (7) is arranged wound. Battery module after a previous one Claims 1 to 6th , characterized in that the at least one fiber composite element (7) is designed in such a way that the plurality of fibers (8, 9) are arranged unidirectionally. Battery module after one of the previous ones Claims 1 to 8th , characterized in that the at least one fiber composite element (7) is cured by the action of UV radiation or heat. Use of a battery module according to one of the preceding claims, characterized in that the at least one fiber composite element (7) is subject to mechanical deformation of the plurality of battery cells (2) or of the housing (4) of the battery module (1) due to a change in volume of the plurality of battery cells (2) ) counteracts.

Images